document_type,publication_name,date_this_report,accession_number,usage_count_(since,usage_count_(last,authors,publication_type,language,document_title,year_published,research_areas,volume,international_standard_serial,issue,publication_date,beginning_page,ending_page,author_keywords,author_address,abstract,publisher,cited_reference_count,publisher_address,publisher_city,page_count,document_delivery_number,author_full_name,total_times_cited,web_of_science,web_of_science,29-character_source_abbreviation,iso_source_abbreviation,digital_object_identifier,reprint_address,keywords_plus,e-mail_address,orcid_identifier,researcherid_number,pubmed_id,electronic_international_standard,funding_agency_and,funding_text,open_access_indicator,conference_title,article_number,conference_date,conference_location,part_number,supplement,conference_sponsors,international_standard_book,book_authors,editors,special_issue,book_series_title,early_access_date,conference_host,meeting_abstract,group_authors,book_digital_object,book_group_authors,book_authors_full,esi_highly_cited,cited_references,book_series_subtitle,esi_hot_paper.
Article,Fauna Norvegica,2021-04-13,BIOSIS:PREV202100290067,0,0,"Kemp, Joanna L. (joanna.kemp@niva.no) ; Ballot, Andreas; Nilssen, Jens Petter; Spikkeland, Ingvar; Eriksen, Tor Erik",J,English,"Distribution, identification and range expansion of the common Asellidae in Northern Europe, featuring the first record of Proasellus meridianus in the Nordic countries",2020.0,Life Sciences & Biomedicine - Other Topics,40,1502-4873,,,93,108,,"Kemp, Joanna L.; NIVA, Gaustadaalleen 21, NO-0349 Oslo, Norway","Two out of the three common Asellidae species in Northern Europe are increasing their ranges, aided by human activities. Here we report the discovery of Proasellus coxalis (Dollfuss 1892) in new areas in Norway and the discovery of Proasellus meridianus (Racovitza 1919) for the first time in the Nordic countries, verified with DNA barcoding. A new, detailed photo-identification guide to Asellus aquaticus Linnaeus 1758, P. coxalis and P. meridianus is presented. In addition to head pattern, attention is drawn to the female pleopods as an easy way to differentiate between the two genera. Then detailed examination of male pleopods 1 and 2 can differentiate between P. coxalis and P. meridianus. The origins, competitive relationships and potential dispersal mechanisms of the two introduced species and the native A. aquaticus are explored. By examining the shipping activity at the small, freshwater port where P. meridianus was found, we highlight the great connectivity between many European brackish and freshwater ports and possible pathways for species transfer. The risk of trans- oceanic freshwater to freshwater (not just brackish and saltwater) species transfer through ballast water needs to be better communicated. Proasellus coxalis may have been introduced to the river system of Lake Stokkalandsvatnet together with fish transported in microaquaria used as live bait for fishing.",,,,,,,,,,,,,10.5324/fn.v40i0.3353,,,,,,,1891-5396,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Doklady Biological Sciences,2021-04-13,BIOSIS:PREV202000249756,4,0,"Verbitsky, V. B. (verb@ibiw.yaroslavl.ru) ; Kurbatova, S. A.; Berezina, N. A.; Korneva, L. G.; Meteleva, N. Yu.; Makarova, O. S.; Sharov, A. N.; Ershov, I. Yu.; Malysheva, O. A.; Russkikh, Ya. V.; Chernova, E. N.; Borisovskaya, E. V.",J,English,Responses of Aquatic Organisms to Cyanobacteria and Elodea in Microcosms,2019.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,488,0012-4966,1,SEP 2019,136,140,,"Verbitsky, V. B.; Russian Acad Sci, Papanin Inst Biol Inland Waters, Borok, Russia","The aim of the present study is investigation of the impact of mass development of cyanobacteria and Elodea on population characteristics (abundance, biomass, fecundity) and ""health"" parameters (the state of embryos, heart rate, and thermal resistance) of aquatic invertebrates in experiments with controlled conditions. In July-August 2018, in four variants of microcosms, the conditions were modeled characteristic of the coastal zone of the Rybinsk Reservoir in the period of mass development of cyanobacteria. Mass species were placed in microcosms of planktonic (with domination (80%) Daphnia longispina) and bottom animals (Unio pictorum, Gmelinoides fasciatus, Asellus aquaticus), as well as Elodea canadensis. In the variants with cyanobacteria, the toxic microcystins LR were revealed (24-53% of the sum of toxins, or from 6.6-66.5 mu g/L). The presence of cyanobacteria (Aphanizomenon flos-aquae, Microcystis aeruginosa, and Gloeoitrichia spp.) influenced structural parameters of plankton: the quantity to green algae decreased, small-sized crustaceans increased. Influence of cyanobacteria caused reliable changes in parameters of aquatic animal from those of the control: thermal resitance of mollusks and amphipods decreased, time of restoration of heart rate after loads (salinity test) in mollusks increased; in amphipods, individual fecundity decreased, frequency of abnormalities and of mortality of embryos increased. The presence of Elodea intensified these effects. Thus, mass development of cyanobacteria and Elodea influences ecological-physiological parameters of aquatic animals, decreasing their adaptivity to natural stresses and deteriorating the quality of the progeny.",,,,,,,,,,,,,10.1134/S0012496619050028,,,,"Makarova, Olga/0000-0003-2831-1495; Sharov, Andrey/0000-0001-7581-2538; Meteleva, Nina/0000-0001-8926-3808; Korneva, Ludmila/0000-0002-7317-0460; Berezina, Nadezhda/0000-0003-3057-5596","Makarova, Olga/O-9704-2015; Sharov, Andrey/K-4222-2013; Meteleva, Nina/O-9724-2015",31732898.0,1608-3105,,,,,,,,,,,,,,,,,,,,,,,,,,
Book Chapter,"Biology of Caves and Other Subterranean Habitats, 2nd Edition",2021-04-13,BIOSIS:PREV201900875528,2,0,"Culver, David C.; Pipan, Tanja",B,English,Biotic Interactions and Community Structure,2019.0,Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation; Environmental Sciences & Ecology,,,,,98,118,,,,"OXFORD UNIV PRESS, 198 MADISON AVENUE, NEW YORK, NY 10016 USA",,"198 MADISON AVENUE, NEW YORK, NY 10016 USA",,,,,,,,,,,,,,,,,,,,,,,,,,,,978-0-19-882076-5(H); 978-0-19-255276-1(P); 978-0-19-882077-2(S),"Culver, DC; Pipan, T",,,Biology of Habitats,,,,,,,,,,,
Book Chapter,"Biology of Caves and Other Subterranean Habitats, 2nd Edition",2021-04-13,BIOSIS:PREV201900875529,2,0,"Culver, David C.; Pipan, Tanja",B,English,Adaptations to Subterranean Life,2019.0,Genetics & Heredity; Evolutionary Biology; Environmental Sciences & Ecology,,,,,119,146,,,,"OXFORD UNIV PRESS, 198 MADISON AVENUE, NEW YORK, NY 10016 USA",,"198 MADISON AVENUE, NEW YORK, NY 10016 USA",,,,,,,,,,,,,,,,,,,,,,,,,,,,978-0-19-882076-5(H); 978-0-19-255276-1(P); 978-0-19-882077-2(S),"Culver, DC; Pipan, T",,,Biology of Habitats,,,,,,,,,,,
Book Chapter,"Biology of Caves and Other Subterranean Habitats, 2nd Edition",2021-04-13,BIOSIS:PREV201900875530,0,0,"Culver, David C.; Pipan, Tanja",B,English,Colonization and Speciation in Subterranean Environments,2019.0,Life Sciences & Biomedicine - Other Topics; Genetics & Heredity; Evolutionary Biology; Environmental Sciences & Ecology,,,,,147,178,,,,"OXFORD UNIV PRESS, 198 MADISON AVENUE, NEW YORK, NY 10016 USA",,"198 MADISON AVENUE, NEW YORK, NY 10016 USA",,,,,,,,,,,,,,,,,,,,,,,,,,,,978-0-19-882076-5(H); 978-0-19-255276-1(P); 978-0-19-882077-2(S),"Culver, DC; Pipan, T",,,Biology of Habitats,,,,,,,,,,,
Book Chapter,Handbook of Research on the Adverse Effects of Pesticide Pollution in Aquatic Ecosystems,2021-04-13,BIOSIS:PREV201900664986,2,0,"Siddiqui, Samreen",S,English,"Pesticide Sources, Their Fate, and Different Ways to Impact Aquatic Organisms",2019.0,Chemistry,,2326-9162(print),,,20,40,,"Siddiqui, Samreen; Texas A and M Univ, USDA NIFA Funded Project, Corpus Christi, TX 78412 USA","Since the industrial revolution, several new chemicals were discovered and introduced in society, and soon after the green revolution, pesticides were also introduced to strengthen food security. However, limited education on their application, handling, and usage resulted in them making their way into the aquatic ecosystem. This chapter defines the different sources of pesticides, based on their point of origin and the way it transports pesticides to the aquatic systems. After this, the pesticide interaction in an aquatic environment with various organic and inorganic substances is described. Each interaction is supported with the recent researches and examples. Following pesticides sources and interactions, its fate in the aquatic system has been defined through various physical and chemical processes. Ultimately, its impact on aquatic organisms is discussed. This chapter is concluded with recommended management practices and future research directions. Some terms are also defined at the end of this chapter.","IGI GLOBAL, 701 E CHOCOLATE AVE, STE 200, HERSEY, PA 17033-1240 USA",,"701 E CHOCOLATE AVE, STE 200, HERSEY, PA 17033-1240 USA",,,,,,,,,,10.4018/978-1-5225-6111-8.ch002,,,,"Siddiqui, Samreen/0000-0001-8238-384X","Siddiqui, Samreen/N-3180-2018",,,,,,,,,,,,,978-1-5225-6111-8(H); 978-1-5225-6112-5(P),"Wani, KA; Mamta",,,Advances in Environmental Engineering and Green Technologies,,,,,,,,,,,
Article,Hydrobiological Journal,2021-04-13,BIOSIS:PREV201900551264,0,0,"Silayeva, A. A.; Men'shova, T., I",J,English,First Record of the Ponto-Caspian Species Jaera sarsi (Isopoda) in the Cooling Pond of the Chernobyl NPS,2019.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Life Sciences & Biomedicine - Other Topics,55,0018-8166,2,,106,109,,"Silayeva, A. A.; Natl Acad Sci Ukraine, Inst Hydrobiol, Kiev, Ukraine","Data on the first record of the Ponto-Caspian species Jaera sarsi Valkanov, 1936 (lsopoda) in the cooling pond of the Chernobyl NPS are given in the paper. The peculiarities of its distribution and quantitative indices in some water bodies of the Dnieper River basin are discussed.",,,,,,,,,,,,,10.1615/HydrobJ.v55.i2.90,,,,,,,1943-5991,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Biologica Slovenica,2021-04-13,BIOSIS:PREV201700201319,0,0,"Bogataj, Urban; Drobne, Damjana; Jemec, Anita (anita.jemec@bf.uni-lj.si) ; Kostanjsek, Rok; Mrak, Polona; Novak, Sara; Prevorcnik, Simona; Sket, Boris; Trontelj, Peter; Znidaric, Magda Tusek; Vittori, Milos; Zidar, Primoz; Znidarsic, Nada; Strus, Jasna",J,English,Four decades of multidisciplinary studies on isopods: a tribute to Pavel Licar,2016.0,Environmental Sciences & Ecology; Dermatology; Gastroenterology & Hepatology; Biodiversity & Conservation,59,1408-3671,2,,5,25,,"Jemec, Anita; Univ Ljubljana, Biotech Fac, Dept Biol, Vecna Pot 111, Ljubljana 1000, Slovenia","In this paper we review the research on aquatic and terrestrial isopods during the last four decades at the Chair of Zoology, Deportment of Biology, Biotechnical Faculty, University of Ljubljana. Isopods have attracted substantial attention from our research team in the following areas: functional morphology and developmental biology, host-microbiota specific interactions, ecotoxicology, and systematics and evolution. We present the rationale for using two isopod species as our central model organisms: the waterlouse (Asellus aquaticus) and the woodlouse (Porcellio scaber). We summarize the most important and interesting findings about the structure and function of the integument and digestive systems of several amphibious and terrestrial woodlice species during molting and developmental stages, the importance of P. scaber as a model organism in the study of arthropod-microbe interactions, and its central role as a test model in terrestrial ecotoxicity studies. We highlight the role that A. aquaticus has played in studying the evolution of subterranean biodiversity and in the evolution of troglomorphies. In addition to the retrospective view on our research with isopods we also present the scope of our future research, and the importance for zoology (biology). We wish to dedicate this work to our late co-worker, Prof. Dr. Pavel Liear, who devoted much of his research into studying the digestive system of freshwater asellids (Isopoda: Asellota).",,,,,,,,,,,,,,,,,"Jemec Kokalj, Anita/0000-0003-3143-4461","Jemec Kokalj, Anita/F-9206-2019",,1408-3671,,,,,,,,,,,,,,,,,,,,,,,,,,
Book Chapter,Platinum Metals in the Environment,2021-04-13,BIOSIS:PREV201600080765,6,1,"Ruchter, Nadine (Nadine.ruchter@uni-due.de) ; Zimmermann, Sonja; Sures, Bernd",S,English,Field Studies on PGE in Aquatic Ecosystems,2015.0,Toxicology; Marine & Freshwater Biology,,1863-5520(print),,,351,360,,"Ruchter, Nadine; Univ Duisburg Essen, Aquat Ecol, Univ Str 2, D-45141 Essen, Germany","Aquatic ecosystems can be considered as an important sink of platinum group elements. Different sources, like road runoff or industrial effluents are directly discharged into aquatic ecosystems. This article summarizes the recent knowledge on PGE (mainly Pt, Pd, and Rh) in aquatic ecosystems. It analyzes different routes into freshwater and saltwater systems, and summarizes the concentrations in the relevant matrices like water, sediments and biota. Results of our literature analysis show, that PGE can be detected in all matrices analyzed originating from all aquatic ecosystems investigated. Several studies further indicate that concentrations are still rising. It is further evident, that there is still a lack of data concerning the bioavailability of all PGE for aquatic plants and animals and that there is still a need of well performed and documented field studies.","SPRINGER, 233 SPRING STREET, NEW YORK, NY 10013, UNITED STATES",,"233 SPRING STREET, NEW YORK, NY 10013, UNITED STATES",,,,,,,,,,10.1007/978-3-662-44559-4_22,,,,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013",,,,,,,,,,,,,978-3-662-44558-7(H); 978-3-662-44559-4(P),,"Zereini, F; Wiseman, CLS",,Environmental Science and Engineering:Environmental Engineering,,,,,,,,,,,
Article,Polish Journal of Entomology,2021-04-13,BIOSIS:PREV201400516789,2,0,"Frelik, Anna (aniaf2634@gmail.com)",J,English,"Food of adult diving beetles Colymbetes fuscus (LINNAEUS, 1758) and C-striatus (LINNAEUS, 1758) (Coleoptera: Dytiscidae) in the Zehlau Peatbog and in oxbow lakes and fens (the Biebrza Marshes)",2014.0,Marine & Freshwater Biology; Environmental Sciences & Ecology,83,0032-3780,2,JUN 2014,171,180,,"Frelik, Anna; Univ Warmia and Mazury, Fac Biol and Biotechnol, Dept Ecol and Environm Protect, Pl Lodzki 3, PL-10727 Olsztyn, Poland","The study involved the analysis of the foregut content of 120 adult specimens of Colymbetes fuscus and C. striatus collected in aquatic habitats in the Biebrza Marshes (Poland) and the Zehlau Peatbog (Russia). The gut content comprised animals (including eggs of aquatic invertebrates), plants and detritus. Larvae of Ephemeroptera were common in beetles from the Biebrza Marshes. The gut content also included Dytiscidae, Cladocera, Chironomidae and other Diptera, Copepoda, other insects, other Coleoptera aquatica, Heteroptera, Acari, Ostracoda, Culicidae and Asellus aquaticus. In the Zehlau Peatbog, both of the beetle species fed predominantly on the larval stages of Chironomidae (Diptera). The gut content also included adult terrestrial insects and spiders.",,,,,,,,,,,,,10.2478/pjen-2014-0012,,,,,,,0032-3780,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Book Chapter,"Shallow Subterranean Habitats: Ecology, Evolution, and Conservation",2021-04-13,BIOSIS:PREV201500447248,3,1,"Culver, David C.; Pipan, Tanja",B,English,Seepage springs and the hypotelminorheic habitat,2014.0,Marine & Freshwater Biology; Water Resources; Environmental Sciences & Ecology,,,,,22,39,,"Culver, David C.; Amer Univ, Dept Environm Sci, Washington, DC 20016 USA",,"OXFORD UNIV PRESS, 198 MADISON AVENUE, NEW YORK, NY 10016 USA",,"198 MADISON AVENUE, NEW YORK, NY 10016 USA",,,,,,,,,,,,,,,,,,,,,,,,,,,,978-0-19-964617-3(H); 978-0-19-178023-3(P),"Culver, DC; Pipan, T",,,,,,,,,,,,,,
Article,Fauna (Oslo),2021-04-13,BIOSIS:PREV201500321132,2,0,"Kjaerstad, Gaute (gaute.kjarstad@ntnu.no) ; Dolmen, Dag (dag.dolmen@vm.ntnu.no) ; Saether, Bjorn (bjorn.saether@dknvs.no)",J,Norwegian,The pearls and biological hotspots of the cultural landscape,2014.0,Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation,67,0014-8881,1,,2,18,,"Kjaerstad, Gaute; NTNU Vitenskapsmuseet, Seksjon Nat Hist, NO-7491 Trondheim, Norway","Ponds of the cultural landscape can be characterized as aesthetical pearls and biological hotspots. They have often high species richness and provide habitats for many rare species. The loss of these biological important landscape elements has been significant during the latest decades. To meet this negative trend, the creation of new ponds has been carried out in many areas.In this paper we present data on the colonization of water plants, macroinvertebrates and amphibians in a new-dug pond (1995) in Melhus municipality in Sor-Trondelag, Norway. Sampling of macroinvertebrates and amphibians took place in 1995-2004 and 2011, while the water vegetation was recorded in 2003 and 2013.During the study, 18 species of water plants were recorded. The change in species composition was relatively high. In 2003, the water plant community was dominated by floating pondweed Potamogeton natans and fragile stonewort Chara globularis. In 2013, fragile stonewort had disappeared, probably outcompeted by the more aggressive water horsetail Equisetum fluviatile, which now dominates the flora together with floating pondweed.Several invertebrate groups rapidly colonized the pond, e.g. six species of water boatmen Corixidae and nine species of water beetles Coleoptera recorded during the first year (1995), including juveniles. Additionally, larvae of mayflies Ephemeroptera, stoneflies Plecoptera, meniscus midges Dixidae, non-biting midges Chironomidae, crane flies Tipulidae and hairy-eyed crane flies Pediciidae, as well as water louse Asellus aquaticus were present in the pond during its first year. The second year larvae of caddies flies Trichoptera, biting midges Culicidae, phantom midges Chaoboridae and the snails Gyraulus acronicus and Radix balthica were recorded. Dragonfly larvae of Coenagrion hastulatum, Aeshna grandis and A. juncea, the leech Helobdella stagnalis, aquatic worms Oligochaeta, ostracods Ostracoda and the snail Galba truncatula were present during the third year. Taxa recorded only the last year (2011) of the study, i.e. after 16 years, included the caddis flies Holocentropus picicornis and Oligotricha striata, the water beetles Haliplus fulvus, Hyphydrus ovatus, Rhantus notaticollis, Anacaena lutescens and Hydrobius fuscipes, biting midges Ceratopogonidae and the snail Gyraulus crista.Among amphibians, eggs, juveniles or adults of the common frog Rana temporaia were recorded most years, while the smooth newt Lissotriton vulgaris (larvae) were recorded in 2011 only.A considerably shift in species composition was observed over the years, and the occurrence of many species was correlated to the development of the water vegetation. The study has shown that the creation of new ponds can provide habitat for a high number of species, as well as for threatened and rare ones (two of the species were nationally red listed). In order to maintain high species richness in an area, it is recommended to create a network of ponds of different succession stages.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book Chapter,Ecological Speciation,2021-04-13,BIOSIS:PREV201500481506,1,0,"Nosil, Patrik",S,English,Predictions and tests of ecological speciation,2012.0,Genetics & Heredity; Marine & Freshwater Biology; Environmental Sciences & Ecology; Evolutionary Biology,,1746-3130(print),,,22,51,,"Nosil, Patrik; Univ Colorado, Dept Ecol and Evolutionary Biol, Boulder, CO 80309 USA",,"OXFORD UNIV PRESS, 198 MADISON AVENUE, NEW YORK, NY 10016 USA",,"198 MADISON AVENUE, NEW YORK, NY 10016 USA",,,,,,,,,,,,,,,,,,,,,,,,,,,,978-0-19-958711-7(H); 978-0-19-958710-0(P),"Nosil, P",,,Oxford Series in Ecology and Evolution,,,,,,,,,,,
Article,Vestnik Moskovskogo Universiteta Seriya 16 Biologiya,2021-04-13,BIOSIS:PREV201200271683,1,0,"Ivanovsky, A. A. (al_ivanovsky@mail.ru)",J,Russian,MACROZOOBENTHOS ASSEMBLAGES IN SPRINGS OF PENZA REGION,2011.0,Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation,,0137-0952,4,OCT-DEC 2011,26,30,,"Ivanovsky, A. A.; Moscow MV Lomonosov State Univ, Fac Biol, Moscow, Russia","The classification of spring macrozoobenthos assemblages is carried out on original data. The five types of assemblages is revealed: Potamophylax nigricornis - Baetis rhodani - Cnetha spp. - Nemouridae; Rhyacophila fasciata; Stenophylax lateralis - Euglesidae - Ptychoptera spp.; Asellus aquaticus; Apatania auricula. The differentiation factors of these assemblages are water flow, water velocity which are independent conditions and substrate type. Comparison with other classification modes is done.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Asian Journal of Ecotoxicology,2021-04-13,BIOSIS:PREV201200179268,0,0,Zhong Wenjue (wenjue07@126.com) ; Chang Chun; Zeng Yi; Zhu Lingyan (zhuly@nankai.edu.cn),J,Chinese,Development of Freshwater Sediment Quality Criteria for Nonionic Organics-Using Lindan as an Example,2011.0,"Public, Environmental & Occupational Health; Environmental Sciences & Ecology",6,1673-5897,5,OCT 2011,476,484,,"Zhu Lingyan; Nankai Univ, Key Lab Pollut Proc and Environm Criteria, Tianjin Key Lab Remediat and Pollut Control Urban E, Minist Educ,Coll Environm Sci and Engn, Tianjin 300071, Peoples R China","Sediment quality criteria (SQC) are the supplement of current water quality criteria and are very important in water quality management. Among many approaches for deriving SQC in the world, equilibrium partitioning (EqP) is a rational approach to derive SQC for nonionic organics when the toxicity data in sediment are lacking. For EqP method, solid-liquid equilibrium distribution coefficient (K-p) and final chronic value (FCV) of nonionic organics are used to derive SQC. This method is applicable for nonionic organics with logK(ow) >= 3 and f(oc) >0.2%, in which K-ow is octanol/water partition coefficient and f(oc) is the fraction of organic carbon in sediment. In this paper, lindan was used as an example to demonstrate the procedure to derive SQC by EqP approach. The SQC for lindan derived by EqP approach is 0.019 mu g.g(-1) (calculated on dry weight basis) and the organic carbon normalized SQC is 1.65 mu g.g(-1). It is higher than the SQC for lindan in North America. Species difference is one of the main reasons for the difference among SQC for the same chemical in different regions.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book Chapter,Linking Aquatic Exposure and Effects: Risk Assessment of Pesticides,2021-04-13,BIOSIS:PREV201600377824,0,0,"Brock, Theo C. M.; Alix, Anne; Brown, Colin D.; Capri, Ettore; Gottesburen, Bernhard F. F.; Heimbach, Fred; Lythgo, Chris M.; Schulz, Ralf; Streloke, Martin",B,English,Ecological Field Data in the Risk Assessment of Plant Protection Products,2010.0,Toxicology,,,,,133,143,,"Brock, Theo C. M.; Alterra, Groningen, Netherlands",,"CRC PRESS-TAYLOR & FRANCIS GROUP, 6000 BROKEN SOUND PARKWAY NW, STE 300, BOCA RATON, FL 33487-2742 USA",,"6000 BROKEN SOUND PARKWAY NW, STE 300, BOCA RATON, FL 33487-2742 USA",,,,,,,,,,,,,,"Schulz, Ralf/0000-0002-6348-6971","Schulz, Ralf/ABI-4526-2020",,,,,,,,,,,,,978-1-4398-1347-8(H); 978-1-4398-1349-2(P),,"Brock, TCM; Alix, A; Brown, CD; Capri, E; Gottesburen, BFF; Heimbach, F; Lythgo, CM; Schulz, R; Streloke, M",,,,,,,,,,,,,
Book Chapter,Linking Aquatic Exposure and Effects: Risk Assessment of Pesticides,2021-04-13,BIOSIS:PREV201600377828,1,0,"Brock, Theo C. M.; Alix, Anne; Brown, Colin D.; Capri, Ettore; Gottesburen, Bernhard F. F.; Heimbach, Fred; Lythgo, Chris M.; Schulz, Ralf; Streloke, Martin",B,English,Extrapolation Methods in Aquatic Effect Assessment of Time-Variable Exposures to Pesticides,2010.0,Toxicology; Mathematical & Computational Biology; Chemistry,,,,,211,242,,"Brock, Theo C. M.; Alterra, Groningen, Netherlands",,"CRC PRESS-TAYLOR & FRANCIS GROUP, 6000 BROKEN SOUND PARKWAY NW, STE 300, BOCA RATON, FL 33487-2742 USA",,"6000 BROKEN SOUND PARKWAY NW, STE 300, BOCA RATON, FL 33487-2742 USA",,,,,,,,,,,,,,,,,,,,,,,,,,,,978-1-4398-1347-8(H); 978-1-4398-1349-2(P),,"Brock, TCM; Alix, A; Brown, CD; Capri, E; Gottesburen, BFF; Heimbach, F; Lythgo, CM; Schulz, R; Streloke, M",,,,,,,,,,,,,
Article,Palaeodiversity,2021-04-13,BIOSIS:PREV201100102105,2,0,"Vick, Philipp; Blum, Martin (martin.blum@uni-hohenheim.de)",J,English,The isopod Asellus aquaticus: A novel arthropod model organism to study evolution of segment identity and patterning,2010.0,Genetics & Heredity; Evolutionary Biology,,1867-6294,"3, Suppl. S",,89,97,,"Blum, Martin; Univ Hohenheim, Inst Zool, Garbenstr 30, D-70593 Stuttgart, Germany","Hox genes have been recognized as widely conserved metazoan genes relevant for patterning of embryonic axes. In insects, Hox genes display more or less strict tagmata-related expression patterns. For example, activity of abdominal-A (abd-A) correlates with the legless abdomen. In crustaceans, in contrast, expression domains are more divers. In the branchiopod Artemia franciscana, expression domains of posterior Hox genes display overlapping patterns. In the more modern malacostracan isopod Porcellio scaber however, abd-A is restricted to the developing pleon. Here we present the partial cloning and expression patterns of the Hox genes abd-A and Antennapedia from the freshwater crustacean Asellus aquaticus. In contrast to Porcellio this isopod shows a slightly different regulation of posterior segment patterning. The obtained abd-A signal points to a conserved early role in the pleon as well as to an anteriorly extended function in the pereon and pleon in later stages. In addition, we detected an as yet unknown endodermal expression domain of abd-A in the epithelium of the early developing digestive gland, which indicates a diverse role of this gene. The waterlouse Asellus aquaticus thus may provide a relevant and novel crustacean model organism for the study of evolutionary changes of segment identity and patterning.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ecological Questions,2021-04-13,BIOSIS:PREV200900354380,0,0,"Obolewski, Krystian (k_obolewski@op.pl) ; Strzelczak, Agnieszka",J,English,"An attempt at modelling the periphyton dynamics with artificial neural networks exemplified by the oxbow lake reopening study (The Slupia River, Northern Poland)",2008.0,Mathematical & Computational Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology,10,1644-7298,,,31,40,,"Obolewski, Krystian; Univ Warmia and Mazury Olsztyn, Dept Land Reclamat and Environm Menagement, Pl Lodzki 2, PL-10756 Olsztyn, Poland","An experiment was performed in the Osokowy Staw oxbow lake (the Slupia River, northern Poland). The old riverbed was reconnected with the riverine system and periphyton communities on nylon artificial substrate were surveyed before and after engineering works. Then, ANN (Artificial Neural Network) architectures were designed and trained in order to create models of interactions between 18 macrozooperiphyton, microzooperiphyton and phytoperiphyton taxa in the changing ecosystem. Calculations were performed using StatSoft Software Statistica 6.1 with the implemented neural network module.Neural network models allowed a quantitative insight into periphyton dynamics and indicated trophic relationships, both predatory-prey and competitive. Thus, we see ANN as a good technique for modelling multidimensional, nonlinear relations between epiphytic organisms and as a promising method for creating overall models.",,,,,,,,,,,,,10.2478/v10090-009-0004-1,,,,"Obolewski, Krystian/0000-0003-1308-4015; Strzelczak, Agnieszka/0000-0002-3024-2225","; Strzelczak, Agnieszka/B-5671-2011",,,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,Proceedings of the Estonian Academy of Sciences Biology Ecology,2021-04-13,BIOSIS:PREV200800067645,0,0,"Timm, Tarmo (tarmo.timm@emu.ee) ; Kumari, Margit; Kubar, Kaidi; Sohar, Kadri; Traunspurger, Walter",J,English,Meiobenthos of some Estonian coastal lakes,2007.0,Life Sciences & Biomedicine - Other Topics; Marine & Freshwater Biology; Environmental Sciences & Ecology,56,1406-0914,3,SEP 2007,179,195,,"Timm, Tarmo; Estonia Univ Life Sci, Inst Agr and Environm Sci, Ctr Limnol, EE-61117 Rannu, Tartumaa, Estonia","Corer samples of zoobenthos were collected in 20 coastal water bodies of western Estonia including 2 inner parts of bays of the Baltic Sea, 5 lagoons weakly connected with the sea, and 13 freshwater lakes in August 2004. Reigi laht, an open bay, was the only site where brackish water taxa dominated; in the same bay, eumeiobenthic small Nematoda were very abundant. At all other sites, the bulk of meiobenthos was formed of small, pseudomeiobenthic individuals of Chironomidae and Oligochaeta, while eumeiobenthos, consisting here mainly of Nematoda and Ostracoda, was outnumbered by the former. The near-bottom planktic Cladocera and Copepoda were also common. Freshwater taxa dominated in all lagoons and lakes, with scarce brackish-water species accompanying them in the lagoons as well as in some lakes. The abundance and biomass of pseudo and eumeiobenthos, as well as of planktic crustaceans, were higher in the lagoons than in the freshwater takes.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Zoologica Lituanica,2021-04-13,BIOSIS:PREV200700486433,0,0,"Pankova, Elizaveta S.; Berezina, Nadezhda A. (nber@zin.ru)",J,English,Predation rate and size selectivity of the invasive amphipod Gmelinoides fasciatus preying upon the native isopod Asellus aquaticus,2007.0,Behavioral Sciences; Marine & Freshwater Biology; Environmental Sciences & Ecology,17,1392-1657,2,,144,150,,"Pankova, Elizaveta S.; Russian Acad Sci, Inst Zool, St Petersburg 199034, Russia","Experimental studies were carried out on the predation pressure of the invasive Baikalian amphipod Ginelinoides.fasciatus on the native isopod Asellus aquaticus to explain the decrease in the density of this native after a successful establishment of G. fasciatus in many aquatic systems of eastern Europe. Experimental results confirmed that adult mates of G. fasciatus preyed upon A. aquaticus. Predation rates of G. Psciatus varied from 0.28 to 1.07 ind. day(-1), depending on prey density, with a maximum rate at a prey density of 30-40 ind. dm(-2). Although amphipods showed the absence of selectivity to prey size (-0.5 < 1 < +0.5), the positive selectivity index (1 = +0.37) of G.fasciatus feeding obtained for small-sized isopods (3.8 mm) indicates the preference for juveniles over larger adult isopods (7.2 and 9.5 mm). Our experiments conclude that the amphipod G. fiasciatus may have a strong impact on the density of A. aquaticus in natural habitats, because the potential maximum losses of A. aquaticus from the predation of the invader exceed the production of prey.",,,,,,,,,,,,,,,,,"Berezina, Nadezhda/0000-0002-0919-4601; Berezina, Nadezhda/0000-0003-3057-5596",,,1648-6919,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Turkish Journal of Zoology,2021-04-13,BIOSIS:PREV200700036402,2,0,"Kirkim, Fevzi (fevzi.kirkim@ege.edu.tr) ; Kocatas, Ahmet; Katagan, Tuncer; Sezgin, Murat",J,English,Contribution to the knowledge of the free-living isopods of the Aegean Sea coast of Turkey,2006.0,Life Sciences & Biomedicine - Other Topics,30,1300-0179,4,,361,372,,"Kirkim, Fevzi; Ege Univ, Fac Fisheries, Dept Hydrobiol, TR-35000 Izmir, Turkey","This research was carried out along the Turkish Aegean Sea coast (from Saros Bay in the north to Turunc-Marmaris in the south) in order to determine the lsopod fauna. A total of 163 samplings were conducted at 23 stations and 17 different biotopes, from which 3209 specimens were collected belonging to 18 families, 29 genera and 50 species.Among the species determined, 18 are new records for the Turkish fauna (Anthura gracilis, Apanthura corsica, Asellus aquaticus, Janiropsis breviremis, Uromunna petiti, Cirolana cranchii, Eurydice affinis, E. inermis, E. pulchra, Cymodoce hanseni, Dynamene bifida, Ischyromene lacazei, Lekanesphaera monodi, Sphaeroma pulchellum, Emetha audouinii, Rocinela dumerilii, Astacilla longicornis, and Halophiloscia couchi), and 20 are new for the Turkish Aegean Sea coast (by the addition of I. metallica and S. walkeri to the above list).",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Tearmann,2021-04-13,BIOSIS:PREV200700095925,13,0,"Baars, Jan-Robert (janRobert.Baars@ucd.ie) ; Kelly-Quinn, Mary",J,English,Monitoring freshwater invertebrate diversity in streams draining catchments under intensive agricultural activities in Ireland,2005.0,"Public, Environmental & Occupational Health; Environmental Sciences & Ecology; Marine & Freshwater Biology",4,1649-1009,,,91,102,,"Baars, Jan-Robert; Univ Coll Dublin, Sch Biol and Environm Sci, Limnol Unit, Belfield, Dublin 4, Ireland","The adverse effects on the freshwater fauna and flora attributed to intensive agricultural activities is receiving much deserved attention, particularly as we need to comply with new environmental directives. Although there has been an increase in moderate pollution of rivers in Ireland little is known about the extent of the degradation and its effect on the invertebrate biodiversity. The benthic invertebrate diversity was assessed in six lowland agricultural streams draining catchments with intensive agricultural land-use as part of a monitoring programme.The taxonomic compositions of the benthic invertebrate assemblages in monitored sites were compared to reference clean-water streams representing biological integrity with similar physical attributes. The biotic indices (Q-value and EPT) applied indicate that invertebrate assemblages in the streams draining agricultural areas were variably impacted, and that the water quality had been reduced. Species richness was relatively low, and the invertebrate assemblages were dominated by tolerant taxa. Reference sites were dominated by EPT taxa and the invertebrate assemblage was relatively stable between years. Several taxa with headwater or near-source habitat affinities were recorded in reference clean-water sites but some were absent from streams in agricultural areas. The implications of these notable changes in the benthic invertebrate assemblage structure are discussed in relation to maintaining aquatic biodiversity and ecosystem health.",,,,,,,,,,,,,,,,,"Baars, Jan-Robert/0000-0002-3222-811X",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Zoologica Bulgarica,2021-04-13,BIOSIS:PREV200400338734,1,0,"Camur-Elipek, Belgin (belgincamur@yahoo.com) ; Kirgiz, Timur",J,English,A preliminary study on the intersexes of Asellus aquaticus (Isopoda: Crustacea),2004.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Anatomy & Morphology; Life Sciences & Biomedicine - Other Topics,56,0324-0770,1,April 2004,105,108,,"Camur-Elipek, Belgin; Fac Arts and SciDept Biol, Trakya Univ, TR-22030, Edirne, Turkey","In this paper we present the preliminary results of investigation performed on the intersexuality of specimens of Asellus aquaticus (L.) Rac., 1919 (Isopoda, Crustacea) collected from the Thrace Region in Turkey. Although 93 localities were visited and 3008 specimens were analysed, only three localities had intersex forms. Thus, the proportion of the intersex forms was low. Moreover, this study revealed that these intersexual forms were new records for the Turkish Crustacean fauna. Above all, some morphological peculiarities in these isopods are discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,London Naturalist,2021-04-13,BIOSIS:PREV200510015628,0,0,"Edmonds-Brown, Veronica; Copp, Gordon H.; Majecki, Janusz",J,English,Diel patterns of drift by macroinvertebrates in the River Lee (Hertfordshire) during low discharge,2004.0,Behavioral Sciences; Biodiversity & Conservation; Marine & Freshwater Biology; Environmental Sciences & Ecology,,0076-0579,83,,145,157,,"Edmonds-Brown, Veronica; Univ Hertfordshire, Div Environm Sci, Coll lane, Hatfield AL10 9AB, Herts, UK","The present study aimed to determine the periodicity of invertebrate drift and its relation to environmental factors. Macroinvertebrate drift samples from Woolmer's Park on the River Lee were collected every three hours over twenty-four-hour periods, once a week between 10 May and 13 July 1995 inclusive. Samples were collected every three hours along with measurements of water velocity, luminosity and water temperature. The most abundant taxa recorded in the drift samples were the Ephemeroptera, Caenis robusta, Baetis rhodani, Ephemerella ignita, Asellus aquaticus and Chironomidae. C. robusta and B. rhodani exhibited night-time maxima, E. ignita and Chironomidae had diel patterns of drift during daylight hours. Chironomid drift was significantly, positively correlated with discharge, whereas E. ignita was inversely correlated with discharge. A. aquaticus peaks in drifting densities occurred at 12.00 and 03.00 hours indicating that for this species, light was not a factor. No correlation between numbers of A. aquaticus drifting and discharge and water temperature were found. Note is made of the fact that correlations between drift densities, which are often reported in ecological studies, are spurious in that the drift densities are derived from water velocity measurements at the net's entrance.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Turkish Journal of Zoology,2021-04-13,BIOSIS:PREV200400439300,0,0,"Ustaoglu, M. Rusen; Balik, Suleyman; Ozbek, Murat",J,Turkish,Contributions to the knowledge of Malacostraca (Crustacea) fauna of the Taurus mountains district (Southern Anatolia),2004.0,Life Sciences & Biomedicine - Other Topics; Marine & Freshwater Biology; Environmental Sciences & Ecology,28,1300-0179,1,,91,94,,"Ustaoglu, M. Rusen; Fac FisheriesHydrobiol Sect, Ege Univ, TR-35100, Izmir, Turkey","In order to determine the Malacostraca fauna of water bodies in the Taurus Mountains, southern Anatolia, 2 field studies were conducted in 1996 and 1997. As a result, Asellus aquaticus (L. 1758), Gammarus balcanicus Schaferna 1922, Gammarus longipedis G.S. Karaman & Pinkster 1987 and Stygobromus ambulans (F. Muller 1846) were determined from the investigated area. All the determined taxa are recorded for the first time from these localities.",,,,,,,,,,,,,,,,,"OZBEK, Murat/0000-0003-4607-3507",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Beaufortia,2021-04-13,BIOSIS:PREV200400090771,0,0,"Henry, Jean-Paul; Magniez, Guy",J,French,"Stygobitic Isopoda Aselloidea from Spain, III - The genus Proasellus: B - Anophtalmous species.",2003.0,Life Sciences & Biomedicine - Other Topics,53,0067-4745,6,"November 25, 2003",129,157,,"Henry, Jean-Paul; Magniez, Guy; Biologie Animale et Generale, Universite de Bourgogne, 6, Bd. Gabriel, 21000, Dijon, France","Study of anophthalmus and unpigmented Proasellus samples, collected in subterranean waters of Spain, mainly by J. Notenboom & I. Meijers (1983, 1984, 1985, 1986), N. Gourbault, E Lescher-Moutoue & R. Rouch (1976, 1977, 1978) and P. van den Hurk & R. Leys (1985). Description of new species of the 'beticus-meridianus' group: P. malagensis n. sp. (Malaga), P. granadensis n. sp. (Granada), P. meijersae n. sp. (Albacete), P. soriensis (Soria), P. oviedensis (Oviedo), and of the 'ortizi' group: P. grafi (Santander), P. stocki (Santander), P. alavensis (Alava), P. navarrensis (Navarra), P. vizcayensis (Vizcaya), and P. guipuzcoensis (Guipuzcoa). The first group is mainly present in the Sierra Nevada environment and the Betic region (where remains of its stygophilic root P. beticus still exist), the second in the Vasco-Cantabrian region (where remain some relict populations of its root forms: P. ortizi, P. aragonensis, and P. ebrensis). Iberian species are generally endemic, either from the alluvial aquifer of a river (generally small or minute species), or from the aquifer of a karstic system (generally large epibenthic species). In contrast to all other taxa, P. lescherae is widely scattered in phreatic aquifers of the Ebro basin and adjacent rivers and typical of this large hydrographic system. All species, especially those of the 'ortizi' group, are strongly related to those of North Africa and the Aquitanian Basin. These countries together constitute a single biogeographic area. The Iberian Aselloidea fauna is the most interesting and diversified of the Ancient World. It includes a rich background of Stenasellidae species (ancient autochthonous thalassoid stocks, characteristic of the Meseta and Catalonia plates), then occurred the settlement by Atlantic' Asellidae lineages (Synasellus, Bragasellus), then the settlement by old surface Proasellus species (of Mediterranean origin), that gave birth to bushes of stygobitic taxa and finally the settlement of the recent perimediterranean Proasellus coxalis. But this fauna is still waiting for the settlement by the recent eastern invader Asellus aquaticus, which is currently invading the French Aquitanian Basin.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zbornik Slovenskeho Narodneho Muzea Prirodne Vedy,2021-04-13,BIOSIS:PREV200400411264,0,0,"Brtek, Jan",J,Czech,"Contribution to a knowledge of the aquatic Isopods (Isopoda, Asellota) in Slovakia.",2003.0,Life Sciences & Biomedicine - Other Topics,49,0374-1168,,,68,94,,"Brtek, Jan; Hornonitrianske muzeum, Nova ulica 4, 971 01, Prievidza, Slovakia","A survey of Isopoda - Asellota in Slovakia is given. Seven species are known in Slovakia till now: five species of them belong to the family Asellidae (one species to the genus Asellus, four species to the genus Proasellus); two species belong to the family Janiridae (to the genus Jaera). The occurence of the eight species, Proasellus coxalis ssp. septentrionalis, videspread up the Moravian-Slovak border, is very probable. Following data are shown for individual taxons: synonyms (used in papers containing data on Slovak localities, or in the original description - only); some characteristic features; the geographic distribution and environment. Distribution of each species in Slovakia is mapped using the data-bank of fauna of Slovakia grid system.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Journal of Aquatic Ecosystem Stress and Recovery,2021-04-13,BIOSIS:PREV200300104012,3,0,"Peeters, E. T. H. M. (edwin.peeters@aqec.wkao.wau.nl) ; Camu, J. M.; Beijer, J. A. J.; Scheffer, M.; Gardeniers, J. J. P.",J,English,Response of the waterlouse Asellus aquaticus to multiple stressors: Effects of current velocity and mineral substratum.,2002.0,Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology,9,1386-1980,3,November 2002,193,203,,"Peeters, E. T. H. M.; Camu, J. M.; Beijer, J. A. J.; Scheffer, M.; Gardeniers, J. J. P.; Aquatic Ecology and Water Quality Management Group, Department of Environmental Sciences, Wageningen University, 6700 DD, P.O. Box 8080, Wageningen, Netherlands","Experiments were performed to study the individual and combined effects of current velocity and substratum composition on the waterlouse Asellus aquaticus (L.). Both factors affected growth, mortality, behavior, and food consumption of A. aquaticus. Short-term effects of increasing current velocity depended on the type of substratum. Critical current velocity for detachment was almost the same on sand as on a polished surface whereas on gravel A. aquaticus could withstand higher current velocities by hiding in interstitial spaces. Long-term experiments with different combinations of current velocity and substratum composition showed that current velocity had a greater effect than substratum on survival and growth. Substratum, however, had a greater influence on the distribution of individuals in the experimental units. Since growth was reduced at high current velocity and no changes in levels of food intake were observed it is concluded that a substantial amount of energy is required for withstanding current at higher flow rates. Furthermore, mortality showed a strong inverse correlation to growth. The interaction of effects of natural habitat factors may be better understood using an experimental and modeling approach focusing on energy budgets.",,,,,,,,,,,,,10.1023/A:1021218721123,,,edwin.peeters@aqec.wkao.wau.nl,"Peeters, Edwin T.H.M./0000-0003-2541-1829",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Toxicology Letters (Shannon),2021-04-13,BIOSIS:PREV200300020487,0,0,"Hubalek, Tomas",J,English,Mercury in water ecosystem: A study case in the Czech Republic.,2002.0,"Marine & Freshwater Biology; Environmental Sciences & Ecology; Public, Environmental & Occupational Health; Toxicology",135,0378-4274,Suppl. 1,"September 15th, 2002",S92,S93,,"Hubalek, Tomas; Laboratory of Experimental Mycology, Institute of Microbiology, Academy of Sciences of the Czech Republic, Prague, Czech Republic",,,,,,,,,,,,,,,,,,,,,,,,,Abstracts of EUROTOX 2002,,"September 15-18, 2002","Budapest, Hungary",,,,,,,,,,,,,,,,,,,
Article,Atti del Museo Civico di Storia Naturale di Trieste,2021-04-13,BIOSIS:PREV200300001601,0,0,"Racca, Laura; Bressi, Nicola; Dolce, Sergio; Giacoma, Cristina",J,Italian,Feeding behaviour of Proteus anguinus anguinus in captivity.,2002.0,Behavioral Sciences,49,0365-1576,,,157,167,,"Racca, Laura; Durrell Institute of Conservation and Ecology, Department of Anthropology, University of Kent, Canterbury, Kent, CT2 7NS, UK","The study of the feeding behaviour of Proteus anguinus anguinus in captivity showed that animals kept together in the same aquaria with no manipulation are less selective and more efficient in prey capture than animals alone after moving them into a new environment. Proteus anguinus showed a clear preference for preys common in their natural environment such as Niphargus spinulifemur, Echinogammarus stammeri and Asellus aquaticus, but they are also likely to prey upon Eisenia foetida and Ambystoma tigrinum larvae, two species easy to breed in captivity.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Opuscula Zoologica (Budapest),2021-04-13,BIOSIS:PREV201300649062,1,0,"Kontschan, J.; Gere, G.",J,English,Production biological examination of some aquatic Peracarida species (Crustacea: Malacostraca),2002.0,Nutrition & Dietetics; Gastroenterology & Hepatology; Environmental Sciences & Ecology; Marine & Freshwater Biology,34,0237-5419,,,55,58,,"Kontschan, J.; Hungarian Acad Sci, Hungarian Natl Hist Museum, Zootaxon Res Grp, Baross U 13, H-1088 Budapest, Hungary","We observed the nutrient consumption of four crustacean species: Gammarus roeseli Gervais, 1838, Synurella ambulans Miller, 1846, Niphargus valachicus Dobreanu & Manolache, 1933 (Amphipoda) and Asellus aquaticus (Linnaeus, 1758) (Isopoda) in vitro. We can conclude from the results, that the examined species can be arranged into two groups according to their nutritional habits. G. roeseli and A. aquaticus shred decaying materials, while S. ambulans and N. valachicus probably consume floating grains of nutrient. G. roeseli prefers litter of softer construction to the oak leaves which are harder and have higher tannin content. The microbiological decay in the water impoverishes the utilisable nutrients of the litter, therefore the examined Amphipoda prefer leaves which have been soaking in the water only for a few weeks. Nevertheless, we suppose that the degree of digestion is influenced by the time spent in the alimentary canal.",,,,,,,,,,,,,,,,,,,,2063-1588,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Aquatic Ecology,2021-04-13,BIOSIS:PREV200100398269,24,0,"Arakelova, Katherine S.",J,English,The evaluation of individual production and scope for growth in aquatic sow bugs (Asellus aquaticus),2001.0,Developmental Biology,35,1386-2588,1,"March, 2001",31,42,,"Arakelova, Katherine S.; Laboratory of Freshwater and Experimental Hydrobiology, Zoological Institute of Russian Academy of Sciences, 1, Universitetskaya emb., Saint Petersburg, 199034, Russia","The possibility to assess the instantaneous production of benthic invertebrates in the field avoiding direct measurements of somatic and generative growth is discussed. The scope for growth (SfG) (assimilation minus respiration) and instantaneous individual production (mass increment during growth) for Asellus aquaticus were determined and compared. Results of this study have confirmed the assumption that the difference between SfG and individual production of isopods P is approximately equal to reproductive investment. In juveniles and males these differences should be compensated, in large degree, for the exuviae. As confirmed by the closely identified values of P after summing it with eggs production, excess of SfG in comparison with P may be attributed to the part of energy which is allocated to generative products. So, the predicted coincidence of SfG with P coupled with egg production allows to expect that SfG may be implicated in evaluation of instantaneous population production. To verify this assumption, the data on population production of A. aquaticus previously reported in the literature were drawn. The results have shown a close conformity of compared data, and led to the conclusion that this method should be of more general use, and not limited to the populations exposed to stress, as it is currently treated.",,,,,,,,,,,,,10.1023/A:1011446224456,,,gambar@EA3784.spb.edu,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Ecological Society of America Annual Meeting Abstracts,2021-04-13,BIOSIS:PREV200200252806,0,0,"Hargeby, Anders; Johansson, Jonas",J,English,Altered color morph frequency in a lake littoral population of Asellus aquaticus L. (Isopoda),2001.0,Anatomy & Morphology; Genetics & Heredity,86,,,,288,,,"Hargeby, Anders; Johansson, Jonas; Lund University, Lund, Sweden",,,,,,,,,,,,,,,,,,,,,,,,,86th Annual Meeting of the Ecological Society of America,,"August 05-10, 2001","Madison, Wisconsin, USA",,,Ecological Society of America,,,,,,,,,,,,,,,,
Article,Aquatic Ecology,2021-04-13,BIOSIS:PREV200100323681,16,0,"Abjornsson, Kajsa; Dahl, Jonas; Nystrom, Per; Bronmark, Christer",J,English,Influence of predator and dietary chemical cues on the behaviour and shredding efficiency of Gammarus pulex,2000.0,Behavioral Sciences; Marine & Freshwater Biology; Environmental Sciences & Ecology,34,1386-2588,4,"December, 2000",379,387,,"Abjornsson, Kajsa; Dahl, Jonas; Nystrom, Per; Bronmark, Christer; Limnology, Department of Ecology, Lund University, Lund, Sweden","In two laboratory experiments, we examined short- and long-term responses of the detritivorous amphipod Gammarus pulex to chemical cues from potential predators fed various diets. In the first experiment we studied the short-term effect on G. pulex (locomotory activity) when exposed to chemical cues from three co-existing predators; sculpin (Cottus gobio), trout (Salmo trutta), and signal crayfish (Pacifastacus leniusculus). Chemicals from sculpins and trout induced a short-term decrease in locomotory activity in G. pulex, whereas crayfish did not. There was no difference in activity between G. pulex exposed to water scented by trout or sculpin, and these responses were independent of predator diet (G. pulex, Asellus aquaticus and starved). In the second experiment we examined whether longer-term exposure (4 week) to chemical cues from sculpins affects rates of leaf processing by G. pulex. During the first week, G. pulex consumed significantly more leaves in the control (i.e., no fish cue) than in the fish cue treatment. After 4 weeks, however, there was no difference in total leaf processing rate between treatments indicating an adaptation to the cue.",,,,,,,,,,,,,10.1023/A:1011442331229,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Hydrobiologie,2021-04-13,BIOSIS:PREV200000383378,2,0,"Moesslacher, F.",J,English,Sensitivity of groundwater and surface water crustaceans to chemical pollutants and hypoxia: Implications for pollution management,2000.0,"Environmental Sciences & Ecology; Public, Environmental & Occupational Health; Toxicology",149,0003-9136,1,"August, 2000",51,66,,"Moesslacher, F.; Schrammstr. 2, 85055, Ingolstadt, Germany","In order to test the hypothesis that groundwater organisms are more sensitive to stressors than surface water organisms, this study compares the responses of surface and groundwater isopods, cyclopoid copepods and ostracods to inorganic chemicals (potassium chloride and potassium nitrate) and low oxygen concentration (10% oxygen saturation, hypoxia) in laboratory experiments. Isopods displayed the highest sensitivity to the chemicals (LC50 values for KCl: Proasellus slavus vindobonensis = 285 mg/l, and Asellus aquaticus = 355 mg/l), ostracods turned out to be most tolerant (LC50 values for KCl: Fabaeformiscandona wegelini = 1932 mg/l, and Pseudocandona sp. = 2018 mg/l). Comparing the response of species within one taxonomic group (isopods, copepods, and ostracods), the exclusive groundwater species (stygobites) were more sensitive to the chemicals than closely related surface water species (see above). The stygobite species displayed no differences between the metabolism measured under normoxic and hypoxic conditions. A copepod, Acanthocyclops vernalis, collected in a hypoxic groundwater habitat, showed small metabolic differences (i.e., the metabolic rate measured in hypoxia amounted to 61.8 +- 5.5% of the metabolism in normoxia), compared to a copepod, Diacylops bicuspidatus, collected in a normoxic groundwater habitat (27.3 +- 6.9%). Due to the low difference between the metabolic rates, the stygobite organisms and A. vernalis were best adapted to low oxygen concentrations among the tested species. The hypothesis was supported by this study. The high sensitivity of the groundwater crustaceans to the chemical stressors suggests that existing groundwater quality criteria are insufficient to protect the groundwater biota and ecosystem, and further ecotoxicological studies with groundwater organisms are required.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Turkish Journal of Zoology,2021-04-13,BIOSIS:PREV200000212648,0,0,"Camur, Belgin; Kirgiz, Timur",J,English,Freshwater Isopod species (Crustacea) of Turkish Thrace and their distribution,2000.0,Life Sciences & Biomedicine - Other Topics,24,1300-0179,1,,17,22,,"Camur, Belgin; Kirgiz, Timur; Faculty of Arts and Sciences, Department of Biology, Trakya University, 22030, Edirne, Turkey","This study was undertaken to determine the freshwater Isopod fauna of Turkish Thrace. Samples were collected during the years 1985-1987, 1989-1992 and 1994-1997. According to the results, Asellus (Asellus) aquaticus (L.) Racovitza, Asellus (Asellus) hilgendorfi Bovallius, Asellus (Proasellus) infirmus Birstein belonging to the genus Asellus of the Asellidae family and Jaera (Jaera) sarsi Valkanov belonging to the genus Jaera of the Janiridae family were determined. Of the species, Asellus (Asellus) hilgendorfi Bovallius, Asellus (Proasellus) infirmus Birstein and Jaera (Jaera) sarsi Valkanov are new records for Turkey. The worldwide distributions of these species are included.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Journal of Fish Biology,2021-04-13,BIOSIS:PREV200000138885,0,0,"Nash, K.; Hendry, K.",J,English,The effect of water quality on coarse fish productivity,1999.0,Marine & Freshwater Biology; Environmental Sciences & Ecology,55,0022-1112,Suppl. A,"Dec., 1999",246,,,"Nash, K.; APEM Ltd, Lloyd Street North, Enterprise House, Manchester Science Park, Manchester, M15 6SE, UK",,,,,,,,,,,,,,,,,,,,,,,,,"Annual Symposium of the Fisheries Society of the British Isles, Meeting on Environment, Development and Growth of Fishes.",,"July 05-08, 1999","St. Andrews, Scotland, UK",,,Fisheries Society of the British Isles,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,BIOSIS:PREV200000127366,0,0,"Savage, Anne; Hogarth, Peter J.",J,English,An analysis of temperature-induced Fluctuating Asymmetry in Asellus aquaticus (Linn.),1999.0,Developmental Biology; Physiology,,0018-8158,411,"Sept. 15, 1999",139,143,,"Hogarth, Peter J.; Department of Biology, University of York, York, YO10 5YW, UK","This study examines Fluctuating Asymmetry (FA) in the isopod Crustacean Asellus aquaticus (Linn.). FA occurs in bilaterally symmetrical traits not closely related to survival or fecundity and is the presence of small random deviations from perfect symmetry caused by environmental or genetic stress. These stresses perturb the developmental programme of the organism involved, resulting in asymmetry. FA was induced in the laboratory with temperature stress. Increasing levels of FA were found with increasing environmental temperature, but alteration between extremes of temperature was not found to be as stressful as simple increases in temperature. Extreme temperatures are, therefore, inferred to be an environmental stress for A. aquaticus.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,BIOSIS:PREV200000115097,0,0,"Wolfram-Wais, Anita; Wolfram, Georg; Auer, Brigitte; Mikschi, Ernst; Hain, Arno",J,English,"Feeding habits of two introduced fish species (Lepomis gibbosus, Pseudorasbora parva) in Neusiedler See (Austria), with special reference to chironomid larvae (Diptera: Chironomidae)",1999.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,,0018-8158,408-409,"Aug. 1, 1999",123,129,,"Wolfram-Wais, Anita; Wolfram, Georg; Donabaum and Wolfram OEG, Zentagasse 47/3, A-1050, Wien, Austria","In Neusiedler See, a turbid shallow lake, Lepomis gibbosus (L.) and Pseudorasbora parva (Temminck and Schlegel) occur in large numbers within the reed belt. In April, June/July, August and September 1995, fishes were collected for gut analyses. The diet of both species consisted mainly of chironomid larvae. 0+ L. gibbosus whose total length exceeded 26 mm and 0+ P. parva larger than 32 mm preyed on chironomids almost exclusively. The food of >0+ L. gibbosus, in addition to chironomids, was made up of other aquatic insects (e.g. Zygoptera nymphs, Corixidae and Trichoptera larvae), gastropods and Asellus aquaticus L. The diet of >0+ L. gibbosus showed distinct seasonal variations. Detailed analyses of the chironomid larvae in the stomachs of the two fish species provided valuable information on their feeding grounds. Whereas L. gibbosus preyed mainly on sediment-dwelling chironomids, P. parva preferred epiphytic species. Diet overlaps between L. gibbosus and P. parva and other abundant fish species in the reed belt (Anguilla anguilla (L.), Blicca bjoerkna (L.), Gymnocephalus cernuus (L.)) are discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gortania Atti del Museo Friulano di Storia Naturale,2021-04-13,BIOSIS:PREV200100137097,0,0,"Stoch, F.",J,Italian,"[The freshwater macroinvertebrates of Friuli-Venezia Giulia (Northeastern Italy): Isopods (Crustacea, Isopoda)]",1999.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Life Sciences & Biomedicine - Other Topics,21,0391-5859,,,161,176,,"Stoch, F.; Viale XXV Aprile 24, I-34015, Muggia, TS, Italy","The results of a faunistic survey on epigean freshwaters of Friuli-Venezia Giulia are reported; 13.803 specimens from 398 sampling stations were examined, and 5 species were identified. The literature citations, distribution, and short descriptions of geographical ranges and ecology of the species are given. A checklist of all isopod species known for Friuli-Venezia Giulia is given; 17 species and subspecies, of which 11 stygobionts, are listed. The ecology and biogeography of the isopods from epigean freshwaters of Friuli-Venezia Giulia region are briefly discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Memoires de Biospeologie,2021-04-13,BIOSIS:PREV199900363554,2,0,"Hervant, Frederic; Mathieu, Jacques; Barre, Herve; Simon, Kevin",J,English,"Long-term starvation and re-feeding in hypogean and epigean crustaceans: Survival, locomotory and respiratory adaptations",1998.0,Nutrition & Dietetics,25,0184-0266,0,"Dec., 1998",15,23,,"Hervant, Frederic; Mathieu, Jacques; Hydrobiologie et Ecologie Souterraines (ESA CNRS 5023), Universite Claude Bernard-Lyon I, F-69622, Villeurbanne Cedex, France","Survival, oxygen consumption, locomotory activity and ventilatory activity were recorded during a 180 day starvation period and a subsequent 15 day feeding phase in 3 hypogean crustaceans, Niphargus rhenorhodanensis, Niphargus virei, and Stenasellus virei. For comparison, these parameters were also recorded during a 28 day starvation period and a subsequent 7 day feeding phase in two morphologically close epigean crustaceans, Gammarus fossarum and Asellus aquaticus. Hypogean crustaceans were better adapted to lack of food than epigean ones and all crustaceans previously studied, with survival times largely longer than 200 days. During long-term starvation, the locomotory, ventilatory and respiratory rates were drastically lowered in subterranean species, whereas surface species showed lower decreases in these rates and responded by a marked and transitory hyperactivity. The higher reduction in metabolic rate by hypogean species would ensure their survival during prolonged periods of food deprivation. We propose an energy strategy for food-limited hypogean crustaceans involving the ability i) to withstand long-term starvation, and ii) to use the consumed food very efficiently. Resistance to starvation would probably involve a state of temporary torpor during which the subterranean crustaceans subsist on a high energy reserve, such as lipid stores.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Izvestiya Akademii Nauk Seriya Biologicheskaya (Moscow),2021-04-13,BIOSIS:PREV199900319879,0,0,"Pashkova, I. M.; Korotneva, N. V.",J,Russian,Population analysis of changes in heat resistance of hog slaters (Asellus aquaticus L.) during reproduction,1998.0,Genetics & Heredity; Reproductive Biology,0,1026-3470,6,"Nov.-Dec., 1998",745,750,,"Pashkova, I. M.; Korotneva, N. V.; Institute of Cytology, Russian Academy of Sciences, Tikhoretskii prosp. 4, Saint Petersburg, 191064, Russia","The effect of artificial thermal selection on the progeny of individual parental pairs of hog slaters (Asellus aquaticus L.) before and during reproduction was studied separately on males and females. Heat resistance in sibses was determined at 31degreeC in January-February and in April-May. Both males and females responded to the damaging temperature in inverse proportion to the initial level of heat resistance during the period of wintering: the heat resistance decreased when the initial level was high and increased, when it was low. This relationship was markedly more pronounced in males than in females. As a result, the directed thermal selection is substituted for nonselective elimination during reproduction, thus contributing to preservation of the population genetic structure at the previous level.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,BIOSIS:PREV199800476544,1,0,"Nolting, Eckhard; Rustige, Karl Heinz",J,English,Investigations on ciliate settlement in the Rivers Werra and Weser,1998.0,Marine & Freshwater Biology; Environmental Sciences & Ecology,28,0075-9511,3,"Aug., 1998",255,262,,"Univ. Bielefeld, Fak. Biol., Arbeitsgruppe Prof. Dr. R. Mannesmann, Postfach 100131, D-33501 Bielefeld, Germany","The distribution of sessile ciliates in the Rivers Werra and Weser was investigated on exposed slides, and on Asellus aquaticus and Gammarus tigrinus. Due to differing tolerances to salt, the colonisers of the exposed slides can be categorized into three halobic groups: group 1 (< 500 mg C1-/l) with e.g. Epistylis henscheii; group 2 (< 2000 mg Cl-/l) with e.g. Vorticella campanula; group 3 (> 2000 mg Cl-/l) with e.g. the Zoothamnium procerius complex. With a decrease in salt pollution, the shares of group 1 and 2 increase in the Weser river system, whereas the inventory of species in the highly salt-polluted Werra mainly consists of species containing few euryhalines (e.g. Zoothamnium procerius complex). When investigating the epizoic fauna of Asellus aquaticus in the Weser, no influence of salt could be found, apart from that upon Lagenophrys aselli. On the other hand, various salt-gradients clearly effected the epizoic fauna of Gammarus tigrinus. Freshwater species like Dendrocometes paradoxus and Spirochona gemmipara have been recorded on G. tigrinus in aquatic systems unpolluted by salt, but not in the Werra and the Weser. The pleopod coloniser Heliochona scheutenii, which is confined to brackish water, could only be found in the Werra.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Turkish Journal of Zoology,2021-04-13,BIOSIS:PREV199900083593,0,0,"Erkan, B. Melike",J,English,Ultrastructural study on the ovarian wall and the oviduct of the Asellus aquaticus (Crustacea: Isopoda),1998.0,Reproductive Biology,22,1300-0179,4,,351,362,,"Erkan, B. Melike; Dep. Biol., Fac. Sci., Istanbul Univ., Istanbul, Turkey","In this study the ovarium, ovarian wall and oviduct of Asellus aquaticus (A. aquaticus) (Crustacea: Isopoda) were investigated by stereomicroscopy, phase contrast microscopy and light microscopy. Long, tube-shaped, separate ovaries of A. aquaticus are located dorsolateral to the gut The germinal zone is confined to the ventral region of the ovary as a thin band. The ovarian wall is composed of a few fibrous layers. The oviduct is located in the anterior one-third of the ovary, not in the central part. The sheath of the oviduct was found to possess some muscle cells, a feature first noted in this study. They appear to be different from the striated muscles of vertebrates, and are characterized by abundant cytoplasm, typical striated muscle bands and the absence of sarcoplasmic reticulum owing to their presence in a confined region of the oviduct sheath. It is suggested that the muscle cells act as a sphincter and provide elasticity which prevents tearing of the oviduct during discharge of eggs from the ovarium.",,,,,,,,,,,,,,,,,"Erkan, Melike/0000-0002-6906-4753",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,BIOSIS:PREV199800045438,0,0,"Orendt, Claus; Reinhart, Udo",J,English,"The distribution of Gammarus pulex (L.), Asellus aquaticus L. and Pisidium sp. in an acidified forest brook and some tributary springs indicating problems in assessing the local state of acidity at a small scale level",1997.0,"Environmental Sciences & Ecology; Marine & Freshwater Biology; Public, Environmental & Occupational Health",27,0075-9511,3-4,"Nov., 1997",271,280,,"Orendt, Claus; Technical Univ. Brandenburg/Cottbus, Chair Water Protection, Res. Stn. Bad Saarow, Seestr. 45, D-15525 Bad Saarow, Germany","In this study the distribution of the acid-sensitive Gammarus pulex, Asellus aquaticus and Pisidium sp. in an acidified forest brook and its catchment area in Saxonia-Anhalt (Germany) was investigated. These organisms still build considerable populations in the circumneutral spring brooks which tribute to this brook. From there they apparently regularly immigrate into the main brook, where they can hardly survive because of the high acidity level. The populations of single tributaries are therefore isolated. Should the pH-level of the main brook be increased, e.g. by liming, a recolonization by these acid sensitive species could be expected from these refuges. This supports the important role of the non-acidified spring regions in forest ecosystems as regeneration potential of areas struck with such environmental impact.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Braunschweiger Naturkundliche Schriften,2021-04-13,BIOSIS:PREV199800045365,1,0,"Schridde, Karina; Kentner, Elke; Liess, Mathias; Schulz, Ralf",J,German,Macroinvertebrates of the river Fuhse in southeast Lower Saxony (Germany): Integrated assessment of a stream in a rural area,1997.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,5,0174-3384,2,"Oct., 1997",317,333,,"Schridde, Karina; Liess, Mathias; Schulz, Ralf; Zool. Inst., Technischen Univ., Fasanenstr. 3, D-38092 Braunschweig, Germany","The macroinvertebrate community of the river Fuhse, southeastern Lower Saxony, Germany and its main tributaries was investigated in April, June and October 1996. A total of 81 species out of 14 orders were found. The fauna was dominated by euryoecious species: Erpobdella octoculata, Asellus aquaticus and Chironomidae sp. Species susceptible to environmental disturbance were rarely found in the lower part of the river Fuhse. The main source of the high nutrient loading is the sewage plant in Salzgitter-Lebenstedt. Agriculturally derived insecticide and sediment input influence the community in the upper part and in some tributaries. Mortality of experimentally exposed Gammarus pulex increases significantly due to insecticide input. In the middle region of the river Fuhse channelization and bank stabilization become important. In addition mechanical cleaning for weed control serves as a stressor for the aquatic fauna. Based on this combination of effecting variables the map of water quality of the Fuhse and its tributaries was extended to a map of the integrated ecological quality.",,,,,,,,,,,,,,,,,"Liess, Matthias/0000-0002-3321-8909","Liess, Matthias/A-8582-2009",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,BIOSIS:PREV199799656318,1,0,"Rustige, K. H.; Friedrich, C.; Kuelzer, H. A.",J,English,Distribution patterns of sessile ciliates in salt-polluted running water systems,1997.0,"Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Public, Environmental & Occupational Health",27,0075-9511,1,,85,90,,"Univ. Bielefeld, Fak. Biol., Arbeitsgruppe Prof. Dr. R. Mannesmann, Postfach 100131, D-33501 Bielefeld, Germany","Investigations were carried out to analyse the distribution patterns of sessile ciliates on Gammarus pulex, Asellus aquaticus and exposed slides from running water systems with different degrees of salt pollution and pollution by organic substances. Of all epizoic ciliates on the gills and pereiopods of G. pulex, Epistylis kolbi and Pseudocarchesium steini proved to be particularly tolerant to salt, whereas Dendrocometes paradoxus and Spirochona gemmipara can be classified as salt-evading. Of all epizoic ciliates on A. aquaticus, Lagenophrys aselli reacted particularly sensitively to salt, whereas e.g. Pseudocarchesium aselli and P. asellicola can withstand larger quantities of salt. Of all sessile ciliates on the slides, Heliophyra minima and H. rotunda did not occur with higher concentrations of salt, and the amount in per cent of Carchesium polypimun and Vorticella companula decreased significantly. Platycola decumbens, Pyxicola operculigera and the Zoothamnium procerius complex showed significant tolerance to salt.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin Zoologisch Museum Universiteit van Amsterdam,2021-04-13,BIOSIS:PREV199799291410,0,0,"Henry, Jean-Paul; Magniez, Guy",J,French,"Asellus (Asellus) monticola in Iran (Crustacea, Isopoda, Asellota, Asellidae)",1996.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Anatomy & Morphology; Physiology,15,0165-9464,7,,49,52,,"Univ. Bourgogne, Dep. Biologie Animale, 6 Bd. Gabriel, F-21000 Dijon, France","Asellus (Asellus) monticola monticola Birstein, 1932 has been found in a spring in the extreme NW of Iran. Amplifications of the original description of this valid species, which is clearly distinct from A. aquaticus, are given. Contrary to A. aquaticus, A. monticola appears to be strongly endemic and stenotopic; its settlement may have taken place prior to the expansion of A. aquaticus across Europe. Some reflections on the taxonomy and biogeography of the Asellidae of the Transcaucasian region are included.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Memoires de Biospeologie,2021-04-13,BIOSIS:PREV199799612150,0,0,"Magniez, Guy J.",J,French,Asellus aquaticus and its relatives: A foreigner among European stygobiont fauna,1996.0,Life Sciences & Biomedicine - Other Topics; Physiology; Environmental Sciences & Ecology,23,0184-0266,0,,181,187,,"Univ. Bourgogne, Dep. Biol. Anim., 6 Bd. Gabriel, 21000 Dijon, France","Some recent studies on epigean and hypogean asellids of the Far East point out more and more the existence of an homogeneous phyletic group among the family Asellidae, including all the species strongly related to Asellus (Asellus) aquaticus (L, 1758), sensu RACOVITZA, 1919. All the genera belonging to this group show a common architecture of the male 2nd pleopods, with several homologous structures: presence of a tergal lobe in the distal article of the exopodite, presence of an internal basal spur (processus calcariformis), of a labial spur (processus cylindriformis), of a capitulum, of a cannula,... in the endopodite. This group, characterised by its ""Asellus pattern"" copulatory appendages, includes the genera Asellus (subgen. Asellus and Arctasellus), Mesoasellus, Nipponasellus, Phreatoasellus, Sibirasellus and Uenasellus, for the Eastern Hemisphere, and Calasellus for Western North America. The stygobiontic species of these gm= have spread out the continental area surrounding the North Pacific and Japan Sea, pointing out the fact that this region should be the ancestral centre of dispersion of the group. Asellus aquaticus is the only species that migrated West towards Europe; its presence in Western, Northern Europe and in some islands is obviously extremely recent. In the Balkan and Asia Minor, the settlement seems to have been somewhat older, as it appears that numerous populations have already colonised different ground water biotopes, after the epigean ones. It's likely that we are now observing the overlapping of our autochthonous asellid fauna (Proasellus and other perimediterranean genera), by an expansive invader. Is it too soon to think that asellid stygofauna biodiversity is endangered in Europe?",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Memoires de Biospeologie,2021-04-13,BIOSIS:PREV199799376663,0,0,"Hervant, Frederic; Freminet, Alain; Mathieu, Jacques",J,English,Ventilatory activity and locomotory behavior in anoxia and subsequent recovery of epigean and hypogean crustaceans: Preliminary results,1995.0,Environmental Sciences & Ecology; Respiratory System,22,0184-0266,0,,51,56,,"Hervant, Frederic; Serv. Physiol. Metabolisme Intermed. Energetique, URA CNRS 1972, Univ. Claude Bernard-Lyon I, F-69622 Villeurbanne Cedex, France","Locomotory and ventilatory responses to severe hypoxia and subsequent recovery were investigated in three amphipod crustaceans: two hypogean species (one interstitial species Niphargus rhenorhodanensis and one karstic species N. virei) and one epigean species (Gammarus fossarum), and in a epigean population of one isopod crustacean (Asellus aquaticus). These species displayed respectively 46.7 h, 52.1 h, 6.3 h and 19.7 h lethal times for 50% of the population (LT-50) values for anoxic survival. The aim of this study was to determine why the hypogean species displayed a survival time during severe hypoxia longer than that of Gammarus, Asellus and most other epigean crustaceans, and to better understand the ecological problems concerning Niphargus survival and perennation modalities in subterranean habitats which very often present hypoxic conditions during a hydrological cycle. The high resistance to severe hypoxia of hypogean animals partly results from an adaptation to the limitation of energetic expenditure linked to locomotion and ventilation in anaerobiosis, and from a decrease of general metabolism in severe hypoxia.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Miscellanea Zoologica Hungarica,2021-04-13,BIOSIS:PREV199698649859,5,0,"Nesemann, H.; Pockl, M.; Wittmann, K. J.",J,English,"Distribution of epigean malacostraca in the middle and upper Danube (Hungary, Austria, Germany)",1995.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,10,0230-9017,0,,49,68,,"Nesemann, H.; Abteilung Hydrobiologie, Fischereiwirtschaft Aquakultur, Univ. Bodenkultur Wien, Max-Emanuelstr. 17, A-1180 Wien, Austria","The Danube between Harta (rkm 1549) and Kehlheim (rkm 2410) was sampled qualitatively in 1985-1995 at all seasons. Eighteen epigean species of Malacostraca (Janiridae, Asellidae, Gammaridae, Talitridae, Corophiidae, Mysidae, Astacidae, Cambaridae) were recorded. The malacostracan fauna shows a distinct longitudinal zonation in the River Danube. At least nine species are of Ponto-Caspian origin. The actual distribution patterns were analyzed with respect to former studies. At least six species were strongly expansive during the last few decades. Navigation appears to be among the crucial factors for this dispersion.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Revue des Sciences de l'Eau,2021-04-13,BIOSIS:PREV199698741974,0,0,"Le Bras, S.",J,French,"Adenosine energy charge (AEC) for Asellus aquaticus L. (Crustacea, Isopoda) after lindane contamination during a period of 48 h",1995.0,Biochemistry & Molecular Biology; Entomology; Pathology; Environmental Sciences & Ecology; Physiology; Toxicology,8,0992-7158,4,,493,503,,"CNRS-URA 1492, Lab. d'ecol. et de zool., batiment 442, Univ. de Paris-Sud, 91405 Orsay Cedex, France","The objective of this study was to evaluate the applicability of adenosine energy charge (AEC) as an indicator of sublethal pollutant contamination for an aquatic invertebrate Asellus aquaticus L (Crustacea, Isopoda). This study was carried out under laboratory conditions. Asellus collected in natural ponds were acclimated in the laboratory during a minimum period of 15 days. Individuals between 3 and 7 mg in weight were selected and kept at 15 degree C for 24 hours before contamination with lindane. Contamination was performed in glass containers in 250 ml of water, and 1 ml of lindane acetone solution. Concentrations of 2, 4, 8 and 10 mu-g/l were tested. The experimental period was 48 hours. After cold-induced anesthesia, Asellus individuals were rapidly dried and then dipped into liquid nitrogen and ground to a powder at -80 degree C. Extraction of adenylates was performed with buffered dimethyl sulfoxide (DMSO). ADP and AMP were converted to ATP with pyruvate kinase and phospho-enol-pyruvate for ADP; pyruvate kinase, myokinase and phospho-enol-pyruvate for AMP. The concentrations of ATP, ADP and AMP were measured using a bioluminescence technique with a luminometer (LKB Wallac 1250). AEC, defined as the ratio between (ATP + 1/2 ADP) and (ATP + ADP + AMP) concentration, was then calculated. AEC values were 0.77, 0.79, 0.69, 0.65 and 0.72 respectively for control animals and for Asellus specimens exposed to 2, 4, 8 and 10 mu-g/l lindane. According to IANOVICI (1979), AEC values for Asellus contaminated with 4, 8 or 10 mu-g/l of lindane were representative of the perturbation of environmental conditions. Nevertheless, these values show that recovery is possible if environmental conditions return to normal. However statistically significant differences (ANOVA, p = 0.05) were noted only between control and 4 or 8 mu-g/l lindane contaminated Asellus. ATP concentrations were 0.1451, 0.1876, 0.1821, 0.2325 and 0.1570 mu-mol/mg respectively for control, 2, 4, 8 and 10 mu-g/l of lindane. No significant difference was noted between control and contamination, except for 8 mu-g/l of lindane (p = 0.01 ). ADP concentrations were 0.0698, 0.0253, 0.1200, 0.2121 and 0.0679 mu-mol/mg respectively for control, 2, 4, 8 and 10 mu-g/l of lindane. Only the ADP concentration for 8 mu-g/l of lindane was significant of ADP accumulation (ANOVA, p = 0.05). AMP concentrations were 0.0193, 0.0272, 0.0470, 0.1182 and 0.0416 mu-mol/mg respectively for control, 2, 4, 8 and 10 mu-g/l of lindane. The increase of AMP concentration for 8 mu-g/l of lindane was significant (risk 0.05). Variations of the adenylate pool (ATP + ADP + AMP) were 0.2342, 0.2401, 0.3491, 0.5628 and 0.2665 mu-mol/mg respectively for control, 2, 4, 8 and 10 mu-g/l of lindane. The increase of the adenylate pool concentration for 4 and 8 mu-g/l of lindane was significant (p = 0.05). It appeared that the decrease of AEC at lindane concentrations of 4 and 8 mu-g/l was indicative of the increase of the energetic cost and the metabolism, resulting from the hyperexcitability characteristically induced by this category of contaminant At 10 mu-g/l of lindane, the AEC value was approximately equal to that of the control exposure. It appeared correlated to the decrease in metabolic activity and accompanying reduction energy expenditure in response to the paralytic phase of intoxication. Finally under laboratory conditions AEC values appeared to be indicative of sublethal contamination, for this species and this toxicant. However for acute exposures it does not appear that AEC is a very good indicator.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Irish Naturalists' Journal,2021-04-13,BIOSIS:PREV199598090025,1,0,"Lynch, Jane M.",J,English,"Two new lotic locations for Crangonyx pseudogracilis Bousfield, 1958 (Crustacea: Amphipoda)",1994.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Reproductive Biology,24,0021-1311,11,,462,463,,"Limnol. Unit, Dep. Zool., Univ. Coll. Dublin, Belfield, Dublin 4, Ireland",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,BIOSIS:PREV199497542936,0,0,"Rustige, K. H.; Mannesmann, R.",J,German,Distribution and indicator function of epizoic ciliates (Protozoa: Ciliophora) on Asellus aquaticus (L.),1994.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Life Sciences & Biomedicine - Other Topics,24,0075-9511,3,,231,237,,"Universitaet Bielefeld, Fakultaet fuer Biologie, Postfach 100131, D-33512 Bielefeld, Germany","Investigations were carried out to analyse the distribution patterns and indicator value of epizoic ciliates (Protozoa: Ciliophora) on Asellus aquaticus. For that purpose, characteristic sections at a small brook in Eastwestphalia (Jolle near Bielefeld) were chosen. Physico-chemical parameters, bacterial load and makrozoobenthic organisms were analysed. These data were compared with the presence, abundance and frequency of the epizoic ciliates. 29 different species could be identified. Of these, 16 species were present in varying amounts throughout the year. A lot of these ciliates occur in all brook sections. These species are eurypotent. Carchesium incerta, Usconophrys aperta and Zoothamnium aselli seem to be more sensitive to water conditions than their host. They could be used as suitable species to indicate saprobic degrees of lotic water systems.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Memoires de Biospeologie,2021-04-13,BIOSIS:PREV199598424575,0,0,"Henry, Jean-Paul; Magniez, Guy; Stock, Jan H.; Vermeulen, Jan",J,French,"Asellidae (Crustacea, Isopoda, Aselloidea) from Madeira and their biogeographical value",1994.0,Life Sciences & Biomedicine - Other Topics; Marine & Freshwater Biology; Environmental Sciences & Ecology; Dermatology; Physiology,21,0184-0266,0,,75,79,,"Univ. de Bourgogne, Biol. Animale Generale, 6 Bd Gabriel, 21000 Dijon, France","All present Asellidae are typically freshwater organisms. When some populations of any species are found in insular biotopes, the natural or artificial nature of their occurrence must be sought. In the Island of Madeira, the first pigmented and osculated Asellids known were captured in the gardens of the Seminary of Funchal. A-priori, Schodduyn (1926) considered them to be the eurasiatic species Asellus aquaticus auct (at that time, any epigean Asellid was always considered to be an A. aquaticus and any hypogean one an A. cavaticus !). In 1936, Remy studied new samples from the same locality and pointed out that all the specimens belonged to a new subspecies of the peri-Mediterranean Proasellus coxalis (Dollfus, 1892): P. c. perarmatus (Remy, 1936). This determination was biogeographically more acceptable. During recent prospections (Spring 1992), J. H. Stock and J. Vermeulen discovered two new localities harbouring some populations of pigmented and osculated Asellids. These samples are entirely composed of specimens of the genuine species Asellus (Asellus) aquaticus (L., 1758), as redefined by Racovitza (1919) and ulterior authors. It appears that the two genera Asellus Geoffroy, 1762 and Proasellus Dudich, 1925 are present in Madeira. This presence of two surface species cannot be considered to be ancient. In fact, the area of A. aquaticus including Middle and Northern Europe reaches the British Isles. Neither the Iberic Peninsula, nor North Africa are concerned. We must consider that the species was introduced in the Archipelago by Man after he settled there at the beginning of the XVth century. The case of P. c. perarmatus is probably similar, although the origin of that species could be either Iberian or peri-Mediterranean. Though epigean, the two species are well-known for their ability to give rapidly stygophilic populations in which more or less depigmented and microphthalmic specimens appear. The existence of ancient florae and faunae in Madeira, such as Oniscoids or terrestrial Isopods is well known. Among them, VANDEL (1960) recognized a stock of endemic autochthonous species, and a number of continental ones imported from continental Europe with human activities. In order to demonstrate the existence of ancient settlements of freshwater Asellids in Madeira, apart from ubiquitous epigean forms, stygobiontic species belonging to old Iberic genera (as Bragasellus, Synasellus), to endemic genera presently unknown, or eventually to Stenasellidae must be found, given that probability of accidental introduction of such species by Man is negligible.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,NINA Forskningsrapport,2021-04-13,BIOSIS:PREV199598075881,0,0,"Halvorsen, Gunnar; Sloreid, Svein-Erik; Sporsheim, Paul; Walseng, Bjorn",J,Norwegian,"Biol. studies in 25 kettle lakes in the Gardermoen area, South-eastern Norway",1994.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology,0,0802-3093,57,,1,42,,"NINA, Boks 1037 Blindern, N-0315 Olso, Norway","Water quality, zooplankton (Crustacea), littoral crustaceans and bottom fauna were studied in 25 kettle lakes near the Gardermoen Airport, in order to asses the present conditions in the lakes and for future evaluation of potential impacts by the forthcoming construction of a large new airport in a highly valuable natural area. Water quality and bottom fauna were also studied at 6 stations in the groundwaterfed rivulets Songna and Vikka, and also in the main river, Leira. Most of the stations were sampled twice, in June/July and September 1993. The pH of the kettle lakes varied between 4.38 (Stormosan) and 7.97 (Transjoen). The specific conductivity varied between 0.73 mS m-1 in Fugletjernet and 36.8 mS m-1 in Mjontjern. Altogether 62 species of crustaceans were found, among them 43 species of cladocerans and 19 species of copepods. Of these Oxyurella tenuicaudis, Ceriodaphnia megops, C. reticulata, Camptocercus lilljeborgii and Ectocyclops phaleratus are rare in Norway. The number of species per locality varied between 10 and 36, with a mean of 23,4. Altogether 20 planktonic species were found, with a mean number of species per locality of 7.6, i.e. 4.8 species of cladocerans and 2.8 species of copepods. The population density of the plankton varied between 10 000 and 700 000 ind.m-3, while the density in the littoral zone variated between 2 000 and more than 1 mill. ind.m-3. There were no correlation between population density of these crustaceans, and pH, specific conductivity, trophic status or occurrence of fish, but the occurrence of individual species were correlated with trophic status and fish. 22 different taxa of bottom animals occurred in these kettle lakes, varying between 8 and 15 per locality. Oligochaetes and chironomides were dominating. The occurrence of some of the groups and species were correlated with water quality, and f.ex. Anodonta piscinalis, snails, Gammarus lacustris, and Asellus aquaticus were found only in localities with the highest pH and Ca-content. The population density of benthos varied between 5 000 og 55 000 ind.m-2. The oligochaetes were represented by 31 taxa, including 19 species. Lakes Hersjoen and Dagsjoen had the highest diversity, with 13 oligochaet taxa. Some of the species are rare, and Aulodrilus pigueti are new to Norway. There are no correlation between the oligochaets and type of lake. Biologically there are great similarities between lakes of hydrological types 3 (groundwaterfed lakes without surface outlet) and 4 (groundwaterfed lakes with surface outlet), differing largely from lakes of type 1 (seapage lakes), Localities of type 2 (seapage lakes with surface inlet) seems to be of an intermediat position. In Songna, Vikka and Leira 10 different taxa were observed, with oligochaets and chironomids as the dominating groups. The main river Leira had the highest density with 47 000 ind.m-2, mainly chironomids. Ten taxa of oligochaets were found here including 6 species.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vestnik Zoologii,2021-04-13,BIOSIS:PREV199598449051,0,0,"Kaufman, B. Z.",J,Russian,"Halo- and pH-preference behaviour of water louse, Asellus aquaticus, and certain aspects of the species evolution",1994.0,Behavioral Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Evolutionary Biology; Physiology,0,0084-5604,4-5,,76,80,,"Inst. Biol., Karel. Res. Cent., Russ. Acad. Sci., 185000 Petrozavodsk, Russia","It is established under laboratory experiments that optimal for Asellus aquaticus is general salinity lt 0,5 permill . The species bears exact euryhalinity characters. Within pH-gradient the animals concentrate in pH=6,0-6,2 zone under absent illumination, and pH=9,0-9,2 under continuous illumination. Causes and evolutionary meaning of these responses are discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,BIOSIS:PREV199396049691,1,0,"Schmidt, R.",J,English,Environmental changes in two Adriatic coastal lakes in the time interval 7500-5000 BP (Atlantic) with special reference to the diatom succession of Cyclotella,1993.0,Plant Sciences; Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Agriculture,23,0075-9511,1,,47,58,,"Inst. Limnology, Austrian Academy Sciences, A-5310 Mondsee, Austria","Valve morphology and stratigraphic distribution of taxa from complexes of C. ocellata, C. kuetzingiana, C. cretica/cyclopuncta and C. hakanssoniae in holocene (Atlantic) sediment cores of two adriatic coastal lakes (Malo and Veliko Jezero, Mljet, Dalmatia) were studied by SEM and LM. Auxospore formation, intraspecific deviation and shifts in the abundance of closely related taxa were due to changes in salinity. The causes are assumed to be the holocene rise in the Adriatic Sea level and changes in the balance between pulses of freshwater incursions and evaporation. Palaeohydrology of Adriatic karstic lakes seems to be a suitable instrument for the reconstruction of climatic changes in the Mediterranean.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Aquaculture and Fisheries Management,2021-04-13,BIOSIS:PREV199293109992,0,0,BARAK N A-E; MASON C F,J,English,POPULATION DENSITY GROWTH AND DIET OF EELS ANGUILLA-ANGUILLA L. IN TWO RIVERS IN EASTERN ENGLAND,1992.0,Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Nutrition & Dietetics; Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation,23,0266-996X,1,,59,70,,"BARAK N A-E; DEP BIOL, UNIV ESSEX, WIVENHOE PARK, COLCHESTER, ESSEX CO4 3SQ, ENGL, UK","The population density, growth and diets of eels, Anguilla anguilla L., from four sites on two rivers in eastern England [UK] were studied over 2 years. Eel population density varied greatly between sites and seasons, few eels being caught during the winter. Mean population densities ranged from 50 to 518 eels/ha and mean biomass from 35 to 210 kg/ha. Older eels were more numerous at upstream sites. Growth rates in the two rivers were generally similar, but eels 9-13 years old at upstream sites were significantly larger in terms of length and weight than their downstream counterparts. Of 868 eels examined, only 425 stomachs contained food, the percentage of empty stomachs being negatively correlated with temperature. Asellus aquaticus was the predominant food item at all sites in all seasons and in the three size classes of eels studied. Megaloptera and Trichoptera were also important. Fish, largely bottom-dwelling species, were found mainly in the largest size-class of eels and in the winter, when few large eels were feeding. Niche breadth expands with increasing size of eel.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ciencia Biologica Ecology and Systematics,2021-04-13,BIOSIS:PREV199598357220,2,0,"Graca, M. A. S.",J,English,Starvation and food selection by stream detritivores,1992.0,Behavioral Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology,12,0870-1695,1-2,,27,35,,"Cent. Sist. Ecol., INIC, Dep. Zool., Univ. Coimbra, 3049 Coimbra Codex, Portugal","The ability of Gammarus pulex (L.) and Asellus aquaticus (L.) to locate patches with preferred food was investigated under field and laboratory conditions. Both species preferred conditioned to unconditioned leaves and were able to locate patches of the preferred food in an heterogeneous environment. However, after a period of starvation, A. aquaticus became less selective, but consumption rates did not change. This might indicate that this species is already maximizing feeding rates and efficiencies and no further increases in food consumption are possible. G. pulex, on the other hand, increased its consumption rates after starvation, suggesting that this species is not normally maximizing its energy intake exhibiting, on the contrary, a conservative design.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Revue des Sciences de l'Eau,2021-04-13,BIOSIS:PREV199395022545,0,0,"Le Bras, S.; Caquet, T.; Thybaud, E.; Jonot, O.",J,French,"Ponderal growth of Asellus aquaticus L. under laboratory conditions and in experimental mesocosms, consequences of lindane contamination",1992.0,"Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Public, Environmental & Occupational Health; Toxicology",5,0992-7158,3,,431,443,,"Lab. d'Ecologie Zoologie, Batiment 442, Univ. Paris-Sud, 91405 Orsay Cedex, France","We estimated the ponderal growth (instantaneous growth rate) of a fresh-water invertebrate Asellus aquaticus L. (Crustacea, Isopoda), bred under laboratory conditions and in experimental mesocosms. Contamination by the insecticide lindane (Pepro 99% purity) was studied. The mesocosms were naturally colonized by phytoplankton and insects. Ranunculus aquatilis, Typha angustifolia, Scirpus palustris and Ceratophyllum submersum and invertebrates (Asellus, Planaria and Leech) were introduced. One mesocosm was contaminated by surface spraying with lindane acetonic solution. Growth rate was higher in the mesocosm than in laboratory. In laboratory conditions lindane contamination induce a variation of instantaneous growth rate. An significant increase of 2.6 was observed between contaminated and control for Asellus of weight class 7 to 11.99 mg. In the contaminated mesocosm, a correlation is noted between instantaneous growth rate and weight. Under laboratory conditions lindane induced an increase of instantaneous growth rate. In the mesocosm it was not possible to confirm that lindane was responsible for the increase of instantaneous growth rate.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Rivista di Idrobiologia,2021-04-13,BIOSIS:PREV199497493829,0,0,"Di Giovanni, M. V.; Goretti, E.; Tamanti, V.; Le Donne, R.; Motti, A.",J,Italian,Limnological study of a spring biotope: The L'aiso Lake,1992.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology,31,0048-8399,1-3,1992 (1994),33,49,,"Di Giovanni, M. V.; Goretti, E.; Tamanti, V.; Le Donne, R.; Ist. Zool., Univ., Via Elce Sotto, 06123 Perugia, Italy","This small and almost round limnocrenic biotope is located in the Umbrian region (Central Italy), in a plain between Bevagna and Cannara (Foligno, Perugia), at an altitude of 194 m a.s.l. The lake is fed in the North by 2 underwater springs which are like 2 hydraulic channels. The lake also has its emissary in the northern part, called La Forma, which runs toward., the Topino River. The catch basin is practically absent. The mean annual temperature of the water is 13.96 degree C at the bottom and 14.35 degree C at the surface. The high values of hydrogen sulfide, the low quantity of dissolved oxygen at the surface and at the bottom, together with low values of organic substance, are due to the particular reducing conditions of the ground waters. This situation is the result of the lithologic and stratigraphic conditions (clay-peat) of the area. The pH values are around 7. Seasonal samplings were taken in 1991-1992. The bottom has a thick algal cluster (Chara), Cianoficee and Cloroficee, as well as some rare hydrophytes (some species of Potamogeton). The transparent waters of this small lake allow a rich vegetation cover of the bottom. Some plankton populations present are: Rotifera, Cladocera, Ostracoda, Copepoda and, near the shores, Protozoa and Nematoda. The benthic organisms are mainly Chironomidae, Lumbriculidae, Erpobdellidae and Crustacea among which Asellus aquaticus shows the highest percentage (78. 2%) of the total macrobenthos. In the past the presence of a strange chub (Leuciscus cephalus) with monolateral exophthalmia was cited. In this study, only one specimen of this species was caught and it was completely normal.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Abhandlungen Naturwissenschaftlichen Verein zu Bremen,2021-04-13,BIOSIS:PREV199294121289,1,0,HAESLOOP U; SCHEFFEL H-J,J,German,DISTRIBUTION OF AQUATIC MALACOSTRACA IN FRESHWATERS AT BREMEN NORTHERN GERMANY,1991.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,41,0340-3718,3,,467,477,,"HAESLOOP U; TARMSTEDTER STR 32, D-2800 BREMEN 1, GERMANY","The distribution of the aquatic Malacostraca species at Bremen (Northern Germany) is reviewed. There are 17 species of aquatic Malacostraca [Neomysis integer, Asellus aquaticus, Proasellus coxalis, Orchestia cavimana, Gammarus pulex, Gammarus fossarum, Gammarus tigrinus, Gammarus zaddachi, Gammarus duebeni, Niphargus cf. aquilex, Corophium lacustre, Atyaephyra desmaresti, Palaemon longirostris, Crangon crangon, Orconectes limosus, Pacifastacus leniusculus, and Eriocheir sinensis]. The majority of species occur in the salt-polluted river Weser, its tributaries and the system of marsh ditches. The streams and small waters with groundwater connection are inhabited by crustacean species with restricted distribution. Some gravel pits have been stocked with crayfishes. Malacostraca from other regions of the world colonized the Bremen area or have been introduced. They have become an important part of the aquatic fauna. The history, development and situation of the species is described and discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Canadian Technical Report of Fisheries and Aquatic Sciences,2021-04-13,BIOSIS:PREV199141106192,0,0,LITHNER G; BORG H; HOLM K,J,English,BIOAVAILABILITY OF METALS VERSUS ABIOTIC AND BIOTIC FACTORS IN HUMIC LAKES SURROUNDING THE RONNSKAR SMELTERS NORTHERN SWEDEN,1991.0,"Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Physiology; Public, Environmental & Occupational Health; Agriculture; Toxicology",1774,0706-6457,1-2,,1181,1186,,"LITHNER G; TRACE METAL LAB, SWED ENVIRON PROT AGENCY, S-171 85 SOLNA, SWED, SWEDEN",,,,,,,,,,,,,,,,,,,,,,,,,"SEVENTEENTH ANNUAL AQUATIC TOXICITY WORKSHOP, VANCOUVER, BRITISH COLUMBIA, CANADA, NOVEMBER 5-7, 1990. CAN TECH REP FISH AQUAT SCI.",,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV199192062573,4,0,ZHEMAEVA N P,J,Russian,PRODUCTION OF ASELLUS-AQUATICUS L. CULTIVATED IN PONDS,1991.0,Biodiversity & Conservation; Developmental Biology; Environmental Sciences & Ecology; Endocrinology & Metabolism; Physiology,27,0375-8990,1,,53,56,,"ZHEMAEVA N P; ALL-UNION SCI-PROD ASSOC FISH, RYBNOE, USSR","Results from determination of somatic, generative production of aquatic sow bugs are presented. P/B-coefficient and specific production of aquatic sow bugs are determined. Their specific production for three summer months equaled 0.76, during the vegetation period - 0.51, for a year - 0.2.cntdot.day-1.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV199192125194,3,0,MLADENOVA A G,J,Russian,TEMPERATURE DEPENDENCE OF ASELLUS-AQUATICUS L. GROWTH,1991.0,Physiology; Developmental Biology; Environmental Sciences & Ecology; Endocrinology & Metabolism,27,0375-8990,2,,100,105,,"MLADENOVA A G; ZOOL INST, ACAD SCI USSR, LENINGRAD, USSR","The growth of Asellus aquaticus (L.) isopods at temperatures of 1.degree. C, 4.degree. C, 10.degree. C, 15.degree. C, 20.degree. C, 25.degree. C and 30.degree. C has been studied under laboratory conditions. The obtained experimental data have permitted calculating the equations of the specific growth rate dependence on the average body mass and the parameters of the S-shaped mass growth equation. At all the temperatures the specific growth rate decreased with an increase of the average body mass. Within the thermotolerant range the temperature had the greatest effect on the growth of isopod fries. With an increase of A. aquaticus body mass the thermotolerant range was observed to become narrower. The parameters of the S-shaped growth equation reveal a regular relation to the temperature.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Cell Biology International Reports,2021-04-13,BIOSIS:PREV199140004138,0,0,PELLICCIA F; DI CASTRO M; LANZA V; VOLPI E V; ROCCI A,J,English,ON THE PRESENCE AND DISTRIBUTION OF GATA REPEATS IN THE ASELLUS-AQUATICUS CRUSTACEA. ISOPODA GENOME,1990.0,Biochemistry & Molecular Biology; Cell Biology; Genetics & Heredity; Physiology,14,0309-1651,ABSTR. SUPPL,,81,,,"PELLICCIA F; DEP GENET MOL BIOL, UNIV ROME ""LA SAPIENZA"", 00185 ROME, ITALY",,,,,,,,,,,,,,10.1016/0309-1651(90)90425-X,,,,,,,,,,,"THIRD EUROPEAN CONGRESS ON CELL BIOLOGY, FIRENZE, ITALY, SEPTEMBER 2-7, 1990. CELL BIOL INT REP.",,,,,,,,,,,,,,,,,,,,,,
Article,Revue des Sciences de l'Eau,2021-04-13,BIOSIS:PREV199090081661,0,0,LE BRAS S,J,French,SENSITIVITY OF ASELLUS-AQUATICUS L. CRUSTACEA ISOPODA TO LINDANE IN RELATION TO BIOTIC SIZE AND METABOLISM AND ABIOTIC FACTORS CONCENTRATION OF INSECTICIDE AND TEMPERATURE,1990.0,Developmental Biology; Entomology; Endocrinology & Metabolism; Environmental Sciences & Ecology; Physiology; Toxicology,3,0992-7158,2,,183,194,,"LE BRAS S; CNRS URA 20, LAB DE ZOOL ET D'ECOL, BAT 442, UNIV DE PARIS SUD, 91405 ORSAY CEDEX, FRANCE","The sensitivity of Asellus aquaticus L. (Crustacea, Isoposa) to the insecticide lindane was studied in relation to its developmental stage (size) and metabolism. After tests of acute toxicity (48 h) with 1, 2, 4, or 8 mg .cntdot. L-1 of lindane, the percentage or mortality increased with the concentration. In further tests using sublethal concentrations, 1 or 2 mg .cntdot. L-1, the sensitivity increased with the weight of the organisms. A linear regression of mortality (probit of %) of Asellus was correlated with the mean concentration (M) of lindane and the weight (W) of Asellus for these two concentrations. It is possible to relate the percentage of mortality to the metabolic rate observed at the beginning of the experiment. The larger Asellua and/or those with a higher metabolic rate were the most sensitive. An increase in temperature which modified the metabolism, increased the sensitivity of this invertebrate. The percentage of mortality were respectively 1.35 and 26.64 at 10 and 20.degree.C. The interest of these results lies in the evaluation of the risks of pollution. In this type of study, it is very important to consider the biotic factors (size, metabolism) because the concentration of insecticide is generally close to a sublethal concentrations. Indeed biotic factors that modify the sensitivity are the main elements responsible for the intensity of the harm caused. The abiotic factor (temperature) that changes the physiology of invertebrate is also a significant factor.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Revue des Sciences de l'Eau,2021-04-13,BIOSIS:PREV199090081662,0,0,THYBAUD E,J,French,ECOTOXICOLOGY OF LINDANE AND DELTAMETHRIN IN AQUATIC ENVIRONMENTS,1990.0,"Marine & Freshwater Biology; Endocrinology & Metabolism; Environmental Sciences & Ecology; Physiology; Public, Environmental & Occupational Health; Agriculture; Toxicology",3,0992-7158,2,,195,210,,"THYBAUD E; LAB DE ZOOL ET D'ECOL URA 20 DU CNRS, UNIV PARIS SUD-BATIMENT 442, 91 405 ORSAY CEDEX, FRANCE","The persistence in water (in the presence or in the absence of sediment), the acute toxicity and the bioconcentration capacities of lindane and of deltamethrin were studied under laboratory conditions. There is a significant decrease in the persistence in water of both insecticides, when there is sediment in water. Nevertheless, deltamethrin is much less persistent in water than lindane, both in the presence and in the absence of sediment. Studies of acute toxicity showed that the toxicity of deltamethrin is about 100 to 1,000 times greater than that of lindane. The five species studied were similarily sensitive to the two insecticides. Two methods of contamination were used in the bioconcentration studies (spot and flow through system contamination). Under both conditions and for all the species tested, the concentration factor of lindane was always greater than that of deltamethrin. Its relatively significant persistence in water, its desorption from sediment, its low acute toxicity and high bioconcentration capacities indicate that the ecotoxicological risk of lindane is mainly due to its chronic toxicity and bioaccumulation through trophic food chains. On the contrary, the rapid disappearance of deltamethrin from water, its high adsorption on sediment and its low bioconcentration capacities indicates that this molecule will not accumulate through trophic chains. Nevertheless, its extreme toxicity and rapidity of action may cause significant harm to limnic ecosystems after direct treatment.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Embryologiae et Morphologiae Experimentalis New Series,2021-04-13,BIOSIS:PREV199140120957,0,0,MARCHETTI E; COLANGELO M A; VITAGLIANO G,J,English,PRE-MATING AND POST-MATING REPRODUCTIVE ISOLATION RI IN CROSSES BETWEEN GEOGRAPHICAL POPULATIONS OF ASELLUS-AQUATICUS L,1989.0,Developmental Biology; Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity; Physiology; Reproductive Biology; Life Sciences & Biomedicine - Other Topics,10,0391-9706,2,,151,154,,"MARCHETTI E; DIPARTIMENTO GENETICA BIOLOGIA MOLECOLARE, UNIVERSITA ""LA SAPIENZA"", PLE A MORO 5, 00185 ROMA, ITALY",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ekologia polska,2021-04-13,BIOSIS:PREV199191128307,0,0,DUSOGE K,J,English,DISTRIBUTION AND STRUCTURE OF BENTHOS IN THE LOWLAND ZEGRZYNSKI RESERVOIR POLAND,1989.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism,37,0420-9036,3-4,,281,298,,"DUSOGE K; DEP HYDROBIOL, INST ECOL, POLISH ACADEMY SCI, DZIEKANOW LESNY NEAR WARSAW, 05-092 LOMIANNKI, POLAND","A marked spatial diversity of benthos fauna was observed. Benthos biomass was generally very high, especially in the broad part of the reservoir, where it amounted to several hundred g .cntdot. m-2 of fresh mass (Mollusca excluded). The main components were Oligochaeta, Chironomidae larvae (Diptera) and Mollusca; only in shore habitats Hirudinea and Asellus aquaticus (Isopoda) occurred abundantly.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Environmental Pollution,2021-04-13,BIOSIS:PREV199089077950,0,0,VAN HATTUM B; DE VOOGT P; VAN DEN BOSCH L; VAN STRAALEN N M; JOOSSE E N G,J,English,BIOACCUMULATION OF CADMIUM BY THE FRESHWATER ISOPOD ASELLUS-AQUATICUS L. FROM AQUEOUS AND DIETARY SOURCES,1989.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Endocrinology & Metabolism; Nutrition & Dietetics; Physiology; Toxicology,62,0269-7491,2-3,,129,152,,"VAN HATTUM B; INST ENVIRON STUDIES, FREE UNIV, PO BOX 7161, 1007 MC AMSTERDAM, NETHERLANDS","Experiments were conducted to determine the kinetics and relative importance of aqueous and dietary uptake of cadmium by the freshwater isopod Asellus aquaticus (L.). Test animals were exposed during 30 days to aqueous Cd in a continuous flow system (exposure levels: 0.2-10 .mu.g litre-1) and kept on a diet of previously contaminated Elodea sp.(range of Cd concentrations: 2-350 .mu.g g-1, dry weight). Preceding semi-static experiments on dosage-control of the dietary factor revealed a rapid uptake of Cd by Elodea, with relatively high concentration factors (CF), which ranged from 4.8 to 5.5 (dry weight log (CF) after 16 days). For Asellus uptake from water appeared to be the predominant route. Highly significant bioconcentration of cadmium from water was observed in the animals, even at exposure levels below 1.0 .mu.g litre-1. In the various treatments, direct uptake from water accounted for 50-98% of the body burdens after 30 days exposure. The experimental results were described with a first order one-compartment bioaccumulation model. Model parameter estimates (mean .+-. standard error) were obtained for rate constant of uptake (560 .+-. 110 day-1), rate constant of elimination (0.032 .+-. 0.017 day-1) and assimilation efficiency of Cd uptake from food (1.1 .+-. 0.7%). The (dry weight) bioconcentration factor (BCF) and bioaccumulation factor (BAF) for extrapolated steady state conditions were estimated at 18,000 (BCF) and 0.08 (BAF). Experiments conducted at two different pH levels (5.9 versus 7.6) revealed no significant effects of pH on the uptake of aqueous Cd by the isopods. The results are discussed in relation to their potential significance to the field situation.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Miscellanea Zoologica Hungarica,2021-04-13,BIOSIS:PREV199090029173,0,0,STOCH F,J,English,CRITICAL REMARKS ON THE SOUTHERN ITALIAN ASELLIDS DESCRIBED BY E. DUDICH 1925 WITH REDESCRIPTIONS OF SOME TAXA CRUSTACEA ISOPODA ASELLOTA,1989.0,Life Sciences & Biomedicine - Other Topics; Anatomy & Morphology; Physiology,5,0230-9017,,,61,70,,"STOCH F; DEP BIOL, SECT HYDROBIOL, UNIV TRIESTE, V A VALERIO 32, I-34127 TRIESTE, ITALY","A small collection of asellids studied by DUDICH (Budapest) in 1925 and deposited in the Hungarian Natural History Museum has been re-examined; four taxa have been determined: Proasellus banyulensis italicus comb. n., Proasellus banyulensis polychaetus comb. n., Proasellus wolfi comb. n. and Asellus aquaticus (L.) sensu Racovitza, 1919 (both nominal form and ssp. arthrobranchialis). The material of P. b. italicus and P. b. polychaetus has been redescribed; a critical survey of all the epigean taxa already described from Italy is also given.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archives of Environmental Contamination and Toxicology,2021-04-13,BIOSIS:PREV198886097848,2,0,VAN DER OOST R; HEIDA H; OPPERHUIZEN A,J,English,POLYCHLORINATED BIPHENYL CONGENERS IN SEDIMENTS PLANKTON MOLLUSCS CRUSTACEANS AND EEL IN A FRESHWATER LAKE IMPLICATIONS OF USING REFERENCE CHEMICALS AND INDICATOR ORGANISMS IN BIOACCUMULATION STUDIES,1988.0,"Environmental Sciences & Ecology; Endocrinology & Metabolism; Public, Environmental & Occupational Health; Toxicology",17,0090-4341,6,,721,730,,"VAN DER OOST R; ENVIRONMENTAL RES LAB, CITY AMSTERDAM, AMSTELVEENSEWEG 88-90, 1075 XJ AMSTERDAM, NETHERLANDS","The concentrations of six polychlorobiphenyl (PCB) congeners in sediment and four classes of biotic species of the aquatic food chain were investigated in a freshwater lake near Amsterdam. Despite the low concentrations of the contaminants in the sediment, significant amounts of PCBs were found in plankton, macro-invertebrates and fish. The composition of the PCB mixtures found in the various organisms cannot be explained in terms of simple partitioning of the PCB congeners between sediment, water, and organisms. In addition to bioconcentration, it is likely that biomagnification via consumption of contaminated food also contributed significantly to the total PCB concentrations. This is most pronounced for the higher trophic food-chain organisms. Studying bioaccumulation processes by monitoring just one type of organism is probably not very suitable, due to the pronounced differences in accumulation patterns demonstrated for the different organisms. In addition, significant differences were found in the accumulation of the six PCBs in the various biotic samples. This indicates that the fate of mixtures of PCBs is determined by the fate of the individual congeners and therefore cannot be monitored in terms of total PCBs concentrations.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Genetica (Dordrecht),2021-04-13,BIOSIS:PREV198988095707,0,0,ROCCHI A; LANZA V; DI CASTRO M,J,English,SURFACE SPREADING OF SYNAPTONEMAL COMPLEXES IN THREE ISOPOD CRUSTACEAN SPECIES,1988.0,Biochemistry & Molecular Biology; Cell Biology; Genetics & Heredity; Anatomy & Morphology; Physiology; Life Sciences & Biomedicine - Other Topics,78,0016-6707,2,1988-1989,125,132,,"ROCCHI A; DIP GENET BIOL MOL, UNIV 'LA SAPIENZA', 00185 ROMA, ITALY","The technique of whole mount spreading is used to investigate the SC of three species of Asellidae (isopod crustaceans), Asellus aquaticus, Proasellus coxalis and Proasellus meridianus, which display considerable differences in genomic DNA content. The three species, originally considered to belong to the same genus Asellus, were subsequently assigned to two separate genera: Asellus and Proasellus. The SCs of the three species differ in morphological details related to the shape of the centromere region, the attachments to the nuclear envelope, the width of the central region and the presence of twists of the lateral elements. Furthermore, they display some differences in the degree of compaction of genomic DNA in the mitotic chromosomes. The greatest differences are found between A. aquaticus and P. coxalis, while P. meridianus has several features in common with either species.",,,,,,,,,,,,,10.1007/BF00058844,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV198835108982,0,0,ZHEMAEVA N P,J,Russian,THE DIET OF ASELLUS-AQUATICUS L. CRUSTACEA ISOPODA IN CONNECTION WITH ITS INTRODUCTION IN BREEDING PONDS,1988.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology; Reproductive Biology; Biodiversity & Conservation,24,0375-8990,1,,34,35,,"ZHEMAEVA N P; ALL-UNION SCI-PROD ASSOC FISH, RYBNOE, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,BIOSIS:PREV198885106559,0,0,DE NICOLA GIUDICI M; MIGLIORE L; GAMBARDELLA C; MAROTTA A,J,English,EFFECT OF CHRONIC EXPOSURE TO CADMIUM AND COPPER ON ASELLUS-AQUATICUS L. CRUSTACEA ISOPODA,1988.0,"Developmental Biology; Environmental Sciences & Ecology; Physiology; Public, Environmental & Occupational Health; Reproductive Biology; Toxicology",157,0018-8158,3,,265,270,,"DE NICOLA GIUDICI M; DIP GENET, BIOL GEN MOL, VIA MEZZOCANNONE, 8-80134 NAPOLI, ITALY",The effects of chronic exposure to 5 .mu.g .cntdot. 1-1 cadmium or copper on the crustacean Isopod Asellus aquaticus (L.) were studied by analyzing survival and body growth in the first stages of the life-cycle and by determining fecundity and survival of embryo-bearing females. Juveniles survival is differently affected by the two metals in that embryonic development is more sensitive to cadmium while juvenile development is more sensitive to copper. Juvenile body growth is stimulated by cadmium and depressed by copper. Embryo-bearing female survival and fecundity are significantly reduced by cadmium but are not affected by copper. The consequence of environmental contamination by a sublethal cadmium or copper concentration is discussed.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Rivista di Idrobiologia,2021-04-13,BIOSIS:PREV199191071139,0,0,DI GIOVANNI M V; GORETTI E,J,Italian,NOTES TO THE KNOWLEDGE OF LAKE PIEDILUCO ITALY THE BENTHOS,1988.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,27,0048-8399,2-3,,697,714,,"DI GIOVANNI M V; ISTITUTO DI ZOOLOGIA, UNIVERSITA DI PERUGIA","In 1979-80 lake bottom samples were taken at 15 stations in Lake Piediluco at monthly intervals using a compressed air sampler in order to analyze the macrobenthos. The animals found were of the followign classes: Gastropoda, Lamellibranchiata, Oligochaeta, Hirudinea, Crustacea, Arachnida and Insecta. The percentage density ratio between the different groups showed: the greatest presence of Annelida-Oligochaeta (52%) mostly Tubifex but also Pristina and Stylaria; a consistent Mollusca popualtion (Bivalvia 21.4%, Sphaerium and Pisidium and Gastropda 7.1%, Planorbis, ancylus, Valvata and Bithynia); a notable Crustacea population (10.1% mostly Asellus aquaticus and Echinogammarus tibaldii) and Insecta (8.8% mostly Diptera Chironomus gr. plumosus, Endochirononomus albipennis, Procladius sp., Tanypus kraatzi, with infrequent findings of Chaoborus sp., Sialis and Sisyra). The annual macrobenthic distribution, at Stations 1, 2, 3 and 5, where the most groups were found, shows the influence of the current created by the convergence of the waters from the Nera River to Lake Piediluco and River Velino. The currents carry a greater oxygen supply to the bottom and re-circulate the nutrients. The appearance of Tubifex, Asellus, Sphaerim and Chironomus gr. plumosus indicates that Lake Piediluco has a mesotrophic status which is confirmed by the fact that the oxygen level never goes below 50%.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Biological Reviews of the Cambridge Philosophical Society,2021-04-13,BIOSIS:PREV198733098547,0,0,LEGRAND J J; LEGRAND-HAMELIN E; JUCHAULT P,J,English,SEX DETERMINATION IN CRUSTACEA,1987.0,Evolutionary Biology; Genetics & Heredity; Physiology; Reproductive Biology; Life Sciences & Biomedicine - Other Topics,63,0006-3231,3,,439,470,,"LEGRAND J J; LAB BIOL ANIM, UNIV POITIERS PHYSIOL GENET CRUSTACES, UA CNRS NO 673, 40 AVE DU RECTEUR PINEAU, 86022 POITIERS CEDEX, FR, FRANCE",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino Societa Italiana Biologia Sperimentale,2021-04-13,BIOSIS:PREV198784106662,7,0,MIGLIORE L; CELI R L,J,English,ANALYSIS OF THE DIVERSIFICATION OF THE REPRODUCTIVE STRATEGY IN ASELLUS-AQUATICUS L. AND PROASELLUS-COXALIS DOLLF CRUSTACEA ISOPODA IN A NATURAL ENVIRONMENT,1987.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Reproductive Biology,63,0037-8771,1,,45,52,,"MIGLIORE L; DIPT GENETICA, BIOLOGIA GENERALE MOLECOLARE, UNIV NAPOLI, ITALY","A.a. and P.c. are two closely related species of detritivorous freshwater Isopods, both showing high sensitivity to interspecific competition. These species can be found sympatrically in the Sarno river. It has been demonstrated that the two populations became able to persist by leveling off at different densities and by displacing in different times reproductive activity; sex-ratio is also involved, in the differentiation of reproductive strategy. The adaptive value is discussed.",,,,,,,,,,,,,,,,,"Migliore, Luciana/0000-0003-3554-3841",,3620167.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bromatologia i Chemia Toksykologiczna,2021-04-13,BIOSIS:PREV198733079766,0,0,CZARNOWSKI W,J,Polish,AN ATTEMPT OF USE OF DIM ASELLUS-AQUATICUS AS TEST SUBJECTS TO THE QUALIFICATION OF CONTAMINATION OF WATER WITH SELECTED SUBSTANCES,1987.0,"Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Physiology; Public, Environmental & Occupational Health; Toxicology",20,0365-9445,1,,86,87,,"CZARNOWSKI W; 80-416 GDANSK, UL KAROLA MARKSA 107",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Entomologische Arbeiten aus dem Museum G. Frey Tutzing bei Muenchen,2021-04-13,BIOSIS:PREV198886092684,0,0,KOEGEL F,J,German,ON THE BIOLOGY AND ECOLOGY OF RHANTUS-CONSPUTUS STRM. COLEOPTERA DYTISCIDAE,1987.0,Behavioral Sciences; Life Sciences & Biomedicine - Other Topics; Physiology; Developmental Biology; Environmental Sciences & Ecology; Nutrition & Dietetics; Reproductive Biology,35-36,0013-8819,,,5,20,,"KOEGEL F; ST-MARTIN-STR 21, D-8000 MUENCHEN 90, WEST GERMANY","Rhantus consputus is a central and eastern European species. Though the Upper Rhine Valley [West Germany] is the most western point of distribution, there are big populations of R. consputus in certain habitats of this region. These are expecially astatic ponds near the river, which are flooded at high water-level and dry up completely during a great part of the year. For R. consputus it is posssible to develop in these habitats because of a very short embryonal and larval period. This means that in July/August there are only 16 days from the flooding of a pool until the larvae are ready to pupate. This includes the time for Rhantus imagines to find the pools and to lay eggs. Imagines as well as larvae prefer the larvae of Aedes vexans as food. Alternatively to Aedes the Rhantus larvae preyed only few Cladocera; Ostracoda or Asellus aquaticus were not eaten, if there were enough mosquito larvae to be found. Observations in nature have brought the same results. This means that R. consputus is adapted to the life cycle of Aedes vexans. It is able to develop at the same places in the same short time than the mosquito and to feed nearly exclusively on the larvae of Aedes vexans.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Fauna (Oslo),2021-04-13,BIOSIS:PREV198784109118,0,0,OKLAND J; OKLAND K A,J,Norwegian,THE CRUSTACEAN ASELLUS-AQUATICUS L. REPORTED FROM STAVANGER SOUTHWESTERN NORWAY,1987.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Physiology,40,0014-8881,2,,40,41,,"OKLAND J; DEP BIOL, DIV LIMNOL, UNIV OSLO, PO BOX 1027, BLINDERN, N-0315 OSLO 3, NORWAY","In April 1986 Asellus aquaticus was found in the lake Store Stokkavatn, Stavanger in Rogaland (EIS square No. 7). This lake and 19 other freshwater sites in the Stavanger area was investigated in 1961, when no specimens of A. aquaticus were found. This and other evidence suggest that A. aquaticus is slowly expanding its distribution in Norway by immigrating into new habitats and areas. Fig. 2A shows the present distribution, Fig. 2B areas investigated.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV198834013344,0,0,ZHEMAEVA N P,J,Russian,THE STRUCTURE OF ASELLUS-AQUATICUS L. POPULATION CULTIVATED IN PONDS,1987.0,Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Physiology; Reproductive Biology,23,0375-8990,1,,95,99,,"ZHEMAEVA N P; ALL-UNION SCI-PROD ASSOC FISH MANAGE, MINIST FISH MANAGE USSR, RYBNOE, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,BIOSIS:PREV198784062056,0,0,LE BRAS S,J,French,INFLUENCE OF LINDANE ON THE RESPIRATORY METABOLISM OF ASELLUS-AQUATICUS L. CONCENTRATION-DISTURBANCE RELATIONSHIP,1987.0,"Entomology; Endocrinology & Metabolism; Environmental Sciences & Ecology; Physiology; Public, Environmental & Occupational Health; Respiratory System; Toxicology",148,0018-8158,2,,115,122,,"LE BRAS S; CNRS-UA 040 690 LAB ZOOLOGIE D'ECOLOGIE, BATIMENT 442, UNIV PARIS-SUD, 91405 ORSAY CEDEX, FR, FRANCE","The respiratory metabolism of Asellus aquaticus L. was investigated after short-term exposure to lindane poisoning at 15.degree.C. After 48 h, oxygen consumption was individually recorded with a polarographic method using a Clark electrode and a Copenhagen radiometer. The average oxygen consumption by poisoned individuals is higher than controls at concentrations lower than 8 .mu.g .cntdot. 1-1 but decreases to become lower than controls at higher dosages. If the metabolism of individuals is expressed as a function of weight, we find no significant correlation between weight and metabolism of poisoned Asellus, as opposed to controls. This result can be explained by the fact that poisoning intensity decreases with body weight at a given insecticide concentration, whereas metabolism increased as a function of weight. As a consequence there is apparently a lack of correlation between weight and metabolism amongst poisoned Asellus at dosages higher than 2 .mu.g .cntdot. l-1. However, if metabolism is expressed as a metabolic ratio, a good correlation is observed between metabolism and weight of poisoned Asellus, the metabolic perturbation being significant at 4 .mu.g .cntdot. 1-1 and higher concentrations. These results prompt us to conclude that, during the initial step of intoxication, an increase of the oxygen consumption occurs under weak poisoning conditions, while higher concentrations of insecticide give rise to a decrease in metabolism.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,BIOSIS:PREV198784030753,0,0,DE NICOLA GIUDICI M; MIGLIORE L; GUARINO S M,J,English,SENSITIVITY OF ASELLUS-AQUATICUS L. AND PROASELLUS-COXALIS DOLLF. CRUSTACEA ISOPODA TO COPPER,1987.0,"Developmental Biology; Environmental Sciences & Ecology; Endocrinology & Metabolism; Physiology; Public, Environmental & Occupational Health; Toxicology",146,0018-8158,1,,63,70,,"DE NICOLA GIUDICI M; DIPT GENET, BIOL GENERALE, MOLECOLARE, VIA MEZZOCANNONE 8, 80134 NAPOLI, ITALY","The effects of Copper on the life-cycle of two crustacean isopods, Asellus aquaticus (L.) and Proasellus coxalis Dollf., are studied. ST50 indicates that females and males are differently sensitive in comparison with juveniles. The two species do not show differences in sensitivity in the range of 0.01-15 mg .cntdot. l-1 between adults and juveniles. The effect of 0.005 mg .cntdot. l-1 Copper sulphate was strongest on embryonic and larval stages.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,BIOSIS:PREV198885091265,0,0,SCHOEDEL H,J,German,SESSILE CILIATES PERITRICHIA CHONOTRICHIDA SUCTORIA ON ASELLUS-AQUATICUS AND GAMMARIDS,1987.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Anatomy & Morphology; Physiology; Respiratory System,18,0075-9511,1,,83,166,,"SCHOEDEL H; MAXIMILIANSTR 73, D-8580 BAYREUTH, WEST GERMANY","The protozoan epifauna settling on the amphipods Gammarus pulex, G. fossarum and G. roeselii and the isopod Asellus aquaticus occurring in different localities in Northern Bavaria [West Germany] is investigated. On the gammarids could be found 25 species of the order Peritricha, three suctor species and one species of the order Chonotricha. 15 of these species are specific epibionts of the genus Gammarus, only two species seem to be specific hosts of Gammarus roeselii. On single specimen of G. roeselii could be found more than 7000 symphoriont individuals. On Asellus aquaticus 25 species of peritrichs and three suctorians are shown. Ten of these species are specific epibionts of Asellus aquaticus. The author describes a new sessile species: Pseudocarchesium branchialis, living on the gills of Asellus.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,BIOSIS:PREV198886002637,0,0,FLOESSNER D,J,German,POPULATION DYNAMICS AND PRODUCTION OF ASELLUS-AQUATICUS L. AND PROASELLUS-COXALIS DOLLTUS IN THE MIDDLE SAALE RIVER EAST GERMANY,1987.0,Behavioral Sciences; Environmental Sciences & Ecology; Endocrinology & Metabolism; Physiology; Reproductive Biology,18,0075-9511,2,,279,296,,"FLOESSNER D; AKAD DER WISSENSHCAFTEN DER DDR, ZENTRALINST FUER MIKROBIOL UND EXPERIMENTALLE THERAPIE JENA, BEUTENBERGSTR 11, JENA DDR-6900, GERMANY","The population ecology of Asellus aquaticus and Proasellus coxalis was studied at two stations in the River Saale over a period of 34 months (March 1982 to December 1984). The mean population density of P. coxalis at station Kahla was 2730 to 8930 ind. .cntdot. m2, at station Camburg-Stoben 88 to 480 ind. .cntdot. m-2. A. aquaticus has mean population densities at station Camburg-Stoben of 130 to 1065 ind. .cntdot. m-2. Annual population production (P) of P. coxalis at station Kahla was 4.14 to 9.29 g dry wt .cntdot. m-2 from a mean biomass (B) of 0.96 to 2.03 g dry wt .cntdot. m-2, at station Camburg-Stoben 0.14 to 0.56 g dry wt .cntdot. m-2 from a mean biomass of 0.03 to 0.14 g dry wt .cntdot. m-2. P of A. aquaticus at station Camburg-Stoben was 0.42 to 0.87 dry wt .cntdot. m-2 from a mean biomass of 0.09 to 0.18 g dry wt .cntdot. m-2. The P/B ratios of P. coxalis were 3.7-4.7, those of A. aquaticus 4.7 to 5.5. Both species are bivoltine with main periods of reproduction in spring and autumn. Despite the similarities of the life cycles there exist minor differences in the pattern of reproduction. A. quaticus has a seasonally strongly determined reproductive period from March to October. P. coxalis, on the other hand, has a seasonally weakly determined reproductive period, with regular breeding towards mid of November and reproduction of strongly reduced dimensions even in winter. The species begins to breed at smaller sizes than A. aquaticus and is also more fecund for overlapping size classes. But this advantage is compensated by breeding of Asellus at higher size classes with high fecundity. The pattern of life history of the two species may be considered as adaptation strategy due to different geographical origin of the species.sbd.Asellus from Siberia, Proasellus from the Mediterranean region. In the River Saale exists no obvious competitive advantage of one species against the other. In years with higher water temperatures higher proportiones of breeding females of P. coxalis were found in autumn. With respect to possible thermal loading of the river Saale the differences in the reproductive pattern of the two Asellid species require further attention.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,"Travaux du Museum d'Histoire Naturelle ""Grigore Antipa""",2021-04-13,BIOSIS:PREV198987083189,0,0,NEGOESCU I,J,French,THE PRESENCE OF THE SPECIES PROASELLUS-PRIBENICENSIS NEW-RECORD FLASAROVA 1977 CRUSTACEA ISOPODA ASELLIDAE REPORTED FOR THE FIRST TIME FOR ROMANIA,1987.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Anatomy & Morphology; Physiology,29,0068-3078,,,43,54,,"NEGOESCU I; MUZEUL DE ISTORIE NATURALA GRIGORE ANTIPA, SOS KISELEFF 1, 71243 BUCURESTI, ROMANIA","The occurrence of species Proasellus pribenicensis Flasarova, 1977 is mentioned for the first time in Romania. The species was found in the North-western plain, in a draining ditch, on the right bank of Tur River, cohabiting with Asellus aquaticus (Linnaeus, 1758). The former description of species P. pribenicensis is completed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Biologicheskie Nauki (Moscow),2021-04-13,BIOSIS:PREV198783004311,0,0,SUKHODOL'SKAYA A N; DOLMATOV I YU,J,Russian,LIMB REGENERATION IN ASELLUS-AQUATICUS AFTER AUTOTOMY,1986.0,Cell Biology; Developmental Biology; Environmental Sciences & Ecology; Anatomy & Morphology; Physiology,,0470-4606,4,,34,42,,"SUKHODOL'SKAYA A N; DIV EMBRYOL, AA ZHDANOV LENINGR STATE UNIV, LENINGRAD, USSR",The seventh thoracic limb regeneration in Asellus aquaticus after induced autotomy has been studied. The whole process of regeneration lasting 8-10 days has been divided conditionally into 8 stages characterized by the presence of certain cell types in regeneration region and by their role in restoration process. Ultrastructural characteristics of different cell types taking part in regeneration are given. The epithelium of future limb develops from the regenerated epithelium and new muscles derive from myoblasts of unknown origin.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vestnik,2021-04-13,BIOSIS:PREV198783012136,0,0,KEREKES F,J,Czech,THE INFLUENCE OF METALS ON ZOOBENTHIC FAUNA,1986.0,"Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Public, Environmental & Occupational Health; Toxicology",34,0520-1969,1,,15,20,,"KEREKES F; REP KOMITE VARSTVO OKOL UREJANJE PROSTORA YU-61000 LJUBLJANA, ZUPANCIEVA 6",In our research the sensitivity of the crustaceans Gammarus fossarum (Amphipoda) and Asellus aquaticus (Isopoda) to copper and cadmium was tested. After a three week test we found out that Gammarus fassarum is more sensitive and therefore more appropriate for testing than Asellus aquaticus.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino del Museo Civico di Storia Naturale di Verona,2021-04-13,BIOSIS:PREV198885045792,0,0,GIANELLI L; OSELLA G,J,Italian,VERONESE FAUNA XIII. THE MACROBENTHIC FAUNA OF THE FIBBIO RIVER VERONESE REGION ITALY,1986.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,13,0392-0062,,,493,528,,"GIANELLI L; MUSEO CIVICO STORIA NATURALE, LUNGADIGE PORTA VITTORIA 9, 37129 VERONA, ITALY","The results of research on the macrobenthic fauna of the Fibbio River (Montorio, Verona) are described. Twelve sites - from the source of the river mouth - were studied and every one seasonally sampled for one year (1978). Twelve zoological groups were analysed: Mollusca (16 species), Oligochaeta (16 species), Hirudinea (6 species), Hydracarina (7 species), Crustacea Isopodia (I species), Crustacea Amphipoda (5 species), Ephemeroptera (II species), Odonata (8 species). Hemiptera Heteroptera (10 species), Coleoptera (22 species), Trichoptera (15 species), Diptera (3 species). These biochoenothical results allow us to divide the river into four ecological and faunistic parts or zones: -Ist zone. The swiftly running waters are clear, with little or no pollution, well oxygenated with colder temperature (90-13%) and with a lot of crenobian and reophilous species (Sadleriana fluminensis, Brychius glabratus, Odontocerum albicorne, Ecdyonurus helveticus. Ecdyonurus venosus, Gammarus fossarum, Glossosoma conformis, Silo pallipes, Silo nigricornis, Potamophylax cingulatus, etc.) (sites SI, S2, S3, F1, F2, F3, F4, F5); -2nd zone. The warmer (II0-170) and muddy waters run slowly, are poorly oxygenated and are inhabited virtually only by Isopoda and Amphipoda (Echinogammarus ruffoi, Asellus aquaticus). This is the terminal part of the river (sites F7, F8); - 3rd zone. Physically, chemically and biologically intermediate between the 1st and 2nd zones, this part is also in the central extent of the river (site F6); - 4th zone. Only one site (S4) in the terminal part of the Fibbio near a tributary channel. This spring water is clear and oxygenated but slowly running. The macrobenthos is similar to that living in the 2nd zone, but some crenobian and reophilous species are likewise present (Ecdyonurus helveticus, Silo sp., Odontocerum albicorne). Chorological and ecological considerations of some important species and a comparison with the same fauna living in the Sile River (Treviso) end this paper.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino Societa Italiana Biologia Sperimentale,2021-04-13,BIOSIS:PREV198682088112,0,0,DE NICOLA GIUDICI M; MIGLIORE L; GAMBARDELLA C,J,English,TOXICITY OF MERCURY ON DIFFERENT STAGES OF THE BIOLOGICAL CYCLE OF ASELLUS-AQUATICUS AND PROASELLUS-COXALIS CRUSTACEA ISOPODA,1986.0,"Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Public, Environmental & Occupational Health; Toxicology",62,0037-8771,3,,321,328,,"DE NICOLA GIUDICI M; DIPARTIMENTO DI GENETICA, BIOLOGIA GENERALE E MOLECOLARE, FACOLTA DI SCIENZE FISICHE, MATEMATICHE E NATURALI, UNIVERSITA DI NAPOLI, ITALY","The species Asellus aquaticus (L.) and Proasellus coxalis Dollf., two freshwater Crustacean Isopods, have been tested for their sensitivity to mercury contamination at different stages of the biological cycle. The effect of Hg on the two populations survival rate has been studied by static toxicity tests, performed separately on males, females and juveniles, in the concentration range 0.01-15 mg/l HgCl2. Hg is very toxic to both species. It can be pointed out that in both species males and females are significantly less sensitive than juveniles. Males seem to be less sensitive than female sbut they do not statistically differ. The comparison between the two species evidentiated statistically significant intraspecific differences for both adults and juveniles at low concentrations (0.01-0.1 mg/l), being P. coxalis more resistant that A. aquaticus. The differences in the response of the two species to other heavy meals contamination and the useful utilization of both species as ecological indicators are discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Environmental Technology Letters,2021-04-13,BIOSIS:PREV198681107188,0,0,DE NICOLA GIUDICI M; MIGLIORE L; GUARINO S M,J,English,EFFECTS OF CADMIUM ON THE LIFE CYCLE OF ASELLUS-AQUATICUS AND PROASELLUS-COXALIS CRUSTACEA ISOPODA,1986.0,"Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Physiology; Public, Environmental & Occupational Health; Toxicology",7,0143-2060,1,,45,54,,"DE NICOLA GIUDICI M; DIPT GENET, BIOL GEN MOL, UNIV NAPOLI, VIA MEZZOCANNONE 8, 80134 NAPOLI, ITALY","A study of the effects of Cd+2 has been carried out on two crustacean isopod species (A. aquaticus L. and P. coxalis Dollf.). ST50 comparisons indicated sensitivity differences in the two species and respectively among females, males and juveniles. Juveniles, born from parents bred in sublethal Cd+2 concentrations, had greater sensitivity than their parents. Water hardness was ineffective on Cd+2 tolerance. The importance of determining the toxicity of a pollutant on different stages of the life cycle and on subsequent generations in evaluating the poisoning effects on an ecosystem is discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Tiscia (Szeged),2021-04-13,BIOSIS:PREV198682061767,0,0,LANTOS G,J,English,DATA TO THE AMPHIPODA AND ISOPODA FAUNA OF TOSERDO AND ITS ENVIRONS IN THE TISZA VALLEY HUNGARY I. AMPHIPODA ASELLOTA CRUSTACEA PERACARIDA,1986.0,Life Sciences & Biomedicine - Other Topics; Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology; Physiology; Biodiversity & Conservation,21,0563-587X,,,81,87,,"LANTOS G; TISZA-RESEARCH COMMITTEE, SZEGED, HUNGARY","The studied areas are located in the district of Lakitelek, Tiszaalpar and Bokros. 2 Amphipoda and 1 Asellota species were found at the study areas of five biocenoses in the Summer aspect of 1983 and 1984: Synurella ambulans FR. MULLER, Niphargus mediodanubialis DUDICH; Asellus aquaticus (L.) RACOV. All three species occur together and rather frequently in Hungary. The N. mediodanubialis is somewhat rarer than the other two. In differing ratio according to species, polyphagy is characteristic of all three species. At the same time, they are also significant as the aliment of organisms of higher order.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Voprosy Ikhtiologii,2021-04-13,BIOSIS:PREV198783106021,0,0,PAVLOVSKII S A; STERLIGOVA O P,J,Russian,THE ROLE OF THE RUFFE GYMNOCEPHALUS-CERNUUS AND BOTTOM INVERTEBRATES AS CONSUMERS OF THE EGGS OF THE WHITEFISH COREGONUS-LAVARETUS-PALLASI IN LAKE SYAM-OZERO RUSSIAN SFSR USSR,1986.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology; Reproductive Biology,26,0042-8752,5,,765,770,,"PAVLOVSKII S A; INST BIOL, KAREL BRANCH, ACAD SCI USSR, PETROZAVODSK, USSR","Experimental data were presented on the consumption of whitefish eggs by the ruffe and the following invertebrates: Coenagrion venale, Leptophlebia vespertina, Heptagenia sulfurea, Sialis sp., Phryganea striata, Endochironomus tendens, Procladius sp., and Asellus aquaticus. A direct correlation was found between the amount of consumed eggs and the individual weight of the invertebrates. Selectivity was revealed in the feeding of the fish and caddis flies.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Memorie Classe di Scienze Fisiche Matematiche e Naturali Sezione IIIA,2021-04-13,BIOSIS:PREV198885045774,0,0,TADINI G V; MIGLIORE L,J,English,REGULATION OF THE NUMERICAL DENSITY IN GEOGRAPHICAL POPULATIONS OF ASELLUS-AQUATICUS L,1985.0,Physiology; Meteorology & Atmospheric Sciences; Developmental Biology; Environmental Sciences & Ecology; Genetics & Heredity; Nutrition & Dietetics; Reproductive Biology,18,0365-0251,1,,5,26,,"TADINI G V; DIPT GENETICA, BIOLOGIA MOLECOLARE, UNIV LA SAPIENZA, PIAZZALE A MORO, 5, 00185 ROMA, ITALY","The regulation of numerical density was studied in 2 A. aquaticus populations, one from the Sarno river (southern Italy), and the other from a canal near Utrecht (Netherlands). The direct influence of environmental factors on the birth rate and mortality was studied in both populations in the laboratory and in nature. In addition, the effect of environmental factors on reproductive diapause, rate of development, distribution of energy, and competition was deterined, factors which modified seasonal and annual birth rates and mortality in the 2 populations. In the 2 populations, numerical growth is the result of environmental factors, the varying influence of the same factors according to population density, and the presence of a genetic mechanism which programs the input of new individuals into the population. In both geographical populations, the limitation and increase of numerical growth to permit a perfect superposition of the biological cycle of each population on its appropriate environmental cycle.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Caryologia,2021-04-13,BIOSIS:PREV198682024611,0,0,DI CASTRO M; LANZA V; FRANCONI R; ROCCHI A,J,English,OBSERVATIONS ON THE KARYOTYPE OF PROASELLUS-COXALIS,1985.0,Cell Biology; Genetics & Heredity; Life Sciences & Biomedicine - Other Topics,38,0008-7114,3-4,,303,308,,"DI CASTRO M; CENT GENET EVOL, CNR, UNIV LA SAPIENZA, 00185 ROMA, ITALY","The constitutive heterochromatin of Proasellus coxalis (2n = 12) fluoresces brightly when stained with chromomycin A3. It is located in a telomeric position on several chromosomes and displays considerable interindividual polymorphism both with regard to the number of sites (1-4) and their size. Silver-staining reveals that there are at least four chromosome pairs bearing nucleolus organizers and these are present at all the stages of mitosis and meiosis. The karyotypes of Proasellus coxalis and Asellus Aquaticue, two species once considered congeneric, are compared.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ekologiya (Moscow),2021-04-13,BIOSIS:PREV198630081772,0,0,ZHEMAEVA N P,J,Russian,GROWTH AND SURVIVAL OF ASELLUS-AQUATICUS AT DIFFERENT TEMPERATURES,1985.0,Developmental Biology; Physiology,,0367-0597,5,,89,91,,"ZHEMAEVA N P; ALL-UNION RES INST POND FISH, RYBNOE, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Fragmenta Entomologica,2021-04-13,BIOSIS:PREV198682083606,0,0,STOCH F,J,Italian,THE FRESHWATER EPIGEOUS ASELLIDS OF VENEZIA GIULIA NORTHEASTERN ITALY,1985.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Anatomy & Morphology; Physiology,18,0429-288X,1,,19,32,,"STOCH F; DIP BIOL, SEZ IDROBIOL, UNIV DI TRIESTE, VIA A VALERIO, 32-34127 TRIESTE, ITALY","The Asellids collected in epigeous freshwater environments of Venezia Giulia (Northeastern Italy) are: Asellus (Asellus) aquaticus aquaticus L.) sensu Racovitza, 1919, living in running waters with moderate or strong current; Proasellus coxalis tergestinus n.ssp., living in reservoirs with rain water; Proasellus istrianus (Stammer, 1932), living in some sources on arenaceous flysch. Proasellus coxalis tergestinus n.ssp., is described; it is the first discovery of Proasellus coxalis (Dollfus) in northeastern Italy; its phylogenetic and zoogeographic role is discussed. The description of Proasellus istrianus (Stammer) is made, based on a lot of specimens, and the taxonomic role of this species is discussed. The species seems to be present in Italy only in the Province of Trieste.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV198529086101,3,0,ZHEMAEVA N P,J,Russian,RELATIONSHIP BETWEEN BODY LENGTH AND WEIGHT OF WATER SOWBUG,1985.0,Mathematical & Computational Biology; Physiology,21,0375-8990,1,,84,86,,"ZHEMAEVA N P; ALL-UNION SCI-PROD ASSOC FISH, MINIST FISH USSR, RYBNOE, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mitteilungen der Schweizerischen Entomologischen Gesellschaft,2021-04-13,BIOSIS:PREV198682054551,0,0,DETHIER M; HENRY J-P,J,French,THE AQUATIC FAUNA OF THE GENEVA REGION SWITZERLAND I. EPIGEOUS ASELLIDS CRUSTACEA ISOPODA,1985.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology,58,0036-7575,3-4,,471,476,,"DETHIER M; INST HYGIENE 1, HYDROBIOLOGIE, CH-1211 GENEVE 4, SWITZERLAND",The presence of Proasellus coxalis (Dollfus) is established in the canton of Geneva (Switzerland). Distribution and biology of P. coxalis and Asellus aquaticus (L.) are discussed in detail.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologica Poloniae,2021-04-13,BIOSIS:PREV198681063175,0,0,CZECZUGA B,J,English,OCCURRENCE OF CAROTENOIDS IN SPECIMENS OF ASELLUS-AQUATICUS FROM THE RIVER NAREW POLAND IN A YEAR CYCLE,1985.0,Physiology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Nutrition & Dietetics,32,0044-510X,1-2,,73,82,,"CZECZUGA B; DEP GENERAL BIOLOGY, MED ACADEMY KILINSKIEGO 1, 15-230 BIALYSTOK, POLAND","By means of columnar and thin-layer chromatography, the following carotenoids were found: .alpha.-carotene, .beta.-carotene, .gamma.-carotene, .epsilon.-carotene, .alpha.-cryptoxanthin, .beta.-cryptoxanthin, .beta.-carotene epoxide, .beta.-cryptoxanthin epoxide, canthaxanthin surochrome, auroxanthin, mutatachrome, mutatoxanthin and cryptoflavin. The total carotenoid content varied from 0.876 (May) to 8.970 .mu.g/g fresh weight (November).",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologische Jahrbuecher Abteilung fuer Systematik Oekologie und Geographie der Tiere,2021-04-13,BIOSIS:PREV198681082750,0,0,KUTSCHERA U,J,German,DESCRIPTION OF A NEW LEECH SPECIES HELOBDELLA-STRIATA NEW-SPECIES HIRUDINEA GLOSSIPHONIIDAE,1985.0,Environmental Sciences & Ecology; Anatomy & Morphology; Parasitology; Physiology; Reproductive Biology; Life Sciences & Biomedicine - Other Topics,112,0044-5193,4,,469,476,,"KUTSCHERA U; BIOLOGISCHES INSTITUT II DER UNIVERSITAET, SCHAENZLESTRASSE 1, D-7800 FREIBURG IBR, WEST GERMANY","Helobdella striata nov. sp. is a small flat leech, which was found in a fast running warm stream containing many aquatic plants nearby Freiburg i. Br. [Switzerland]. The species shows the following characteristics: length 15-18 mm, width 4-6 mm, fully extended up to 22 mm long and 2 mm wide; it has a single pair of eyes on Segment II or I/II; the anterior sucker is triangular with the mouth pore at the frontence; no scute present; segments 3-annulated, dorsally on 3, annulus per segment 5 black, conical papillae and 0 to 5 white spots; 5 paired and numerous unpaired longitudinal stripes on the dorsal side of the body; the gonopores on segment XI are separated by 1 annulus; 5 gastric caeca pairs and 4 paired testes present. Helobdella striata nov. sp. produces in nature numerous cocoons between May and September, which are attached to the ventral side of the leech. Larvae and young are carried by the parent. The hosts are oligochaeta, aquatic snails and Asellus aquaticus.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Parasitologica Polonica,2021-04-13,BIOSIS:PREV198579096109,0,0,PILECKA-RAPACZ M,J,English,CYSTACANTHS OF POLYMORPHUS-CONTORTUS ACANTHOCEPHALA POLYMORPHIDAE IN ASELLUS-AQUATICUS,1984.0,Developmental Biology; Environmental Sciences & Ecology; Parasitology; Physiology; Life Sciences & Biomedicine - Other Topics,29,0065-1478,9-19,,107,110,,"PILECKA-RAPACZ M; INSTITUTE OF PARASITOLOGY, POLISH ACADEMY OF SCIENCES, UL L PASTEURA 3, SP 153, 00-973 WARSZAWA, POLAND","In summer 1979, cystacanths of P. contortus (Bremser) were recorded in A. aquaticus L. collected from the Forest of Kampinos, near Warszawa [Poland] Species determination was based on morphology, especially on the armature of the proboscis. The development of this species was not previously known. A. aquaticus is, for the 1st time reported as an intermediate host of an acanthocephalan of th egenus Polymorphus.",,,,,,,,,,,,,,,,,"Pilecka-Rapacz, Malgorzata/0000-0002-0822-280X","Pilecka-Rapacz, Malgorzata/K-8138-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Annales de la Societe Royale Zoologique de Belgique,2021-04-13,BIOSIS:PREV198528050713,0,0,THOME J-P; MARCELLE C; D'EECKHOUTTE P I,J,French,CONTAMINATION OF FRESHWATER CRUSTACEANS BY AN ORGANOCHLORINE INSECTICIDE LINDANE,1984.0,"Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Public, Environmental & Occupational Health; Toxicology",114,0049-1136,SUPPL. 1,,161,,,"THOME J-P; LAB MORPHOL SYSTEMATIQUE ECOL ANIMALES, INST ED VAN BENEDEN 22, B-4020 LIEGE, BELGIQUE, BELGIUM",,,,,,,,,,,,,,,,,,,,,,,,,"8TH MEETING OF THE FRENCH-SPEAKING CARCINOLOGISTS, LIEGE, BELGIUM, AUG. 29 - SEPT. 2, 1983. ANN SOC R ZOOL BELG.",,,,,,,,,,,,,,,,,,,,,,
Meeting,Bollettino di Zoologia,2021-04-13,BIOSIS:PREV198529004984,0,0,DI GIOVANNI M V; SORCETTI C C,J,Italian,ACANTHOCEPHALA IN CRUSTACEA OF THE LAKE OF PIEDILUCO ITALY,1984.0,Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Parasitology; Physiology; Life Sciences & Biomedicine - Other Topics,51,0373-4137,SUPPL,,40,,,"DI GIOVANNI M V; IST ZOOL, UNIV PERUGIA, 06100 PERUGIA, ITALY",,,,,,,,,,,,,,,,,,,,,,,,,"50TH CONVENTION OF THE UNIONE ZOOLOGICA ITALIANA (ITALIAN ZOOLOGICAL UNION) INCLUDING THE ZOOLOGICAL MEETINGS OF THE SOCIETE ZOOLOGIQUE DE FRANCE (ZOOLOGICAL SOCIETY OF FRANCE), PADUA, ITALY, JUNE 26-30, 1984. BOLL ZOOL.",,,,,,,,,,,,,,,,,,,,,,
Meeting,Bollettino di Zoologia,2021-04-13,BIOSIS:PREV198529004994,0,0,FANO E A,J,English,FOOD QUALITY AND REPRODUCTION IN A SCOTTISH POPULATION OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1984.0,Behavioral Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology; Reproductive Biology,51,0373-4137,SUPPL,,45,,,"FANO E A; DIP GENETICA BIOL MOL, LAB ECOL, UNIV SAPIENZA, 00185 ROMA, ITALY",,,,,,,,,,,,,,,,,,,,,,,,,"50TH CONVENTION OF THE UNIONE ZOOLOGICA ITALIANA (ITALIAN ZOOLOGICAL UNION) INCLUDING THE ZOOLOGICAL MEETINGS OF THE SOCIETE ZOOLOGIQUE DE FRANCE (ZOOLOGICAL SOCIETY OF FRANCE), PADUA, ITALY, JUNE 26-30, 1984. BOLL ZOOL.",,,,,,,,,,,,,,,,,,,,,,
Meeting,Bollettino di Zoologia,2021-04-13,BIOSIS:PREV198529005133,0,0,TADINI G V; FANO E A; MARCHETTI E,J,English,DIET PHOTOPERIOD AND REPRODUCTIVE DIAPAUSE IN ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1984.0,Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology; Reproductive Biology,51,0373-4137,SUPPL,,114,,,"TADINI G V; DIPT GENET BIOL MOL, UNIV ""LA SAPIENZA"" P LE MORO, 5-00185 ROMA, ITALY",,,,,,,,,,,,,,,,,,,,,,,,,"50TH CONVENTION OF THE UNIONE ZOOLOGICA ITALIANA (ITALIAN ZOOLOGICAL UNION) INCLUDING THE ZOOLOGICAL MEETINGS OF THE SOCIETE ZOOLOGIQUE DE FRANCE (ZOOLOGICAL SOCIETY OF FRANCE), PADUA, ITALY, JUNE 26-30, 1984. BOLL ZOOL.",,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV198580036383,0,0,ERBEN R,J,Russian,ACCUMULATION OF PHENOL IN ASELLUS-AQUATICUS,1984.0,Endocrinology & Metabolism; Physiology; Toxicology,20,0375-8990,5,,42,45,,"ERBEN R; ZAGREB UNIV, ZAGREB, YUGOSL, YUGOSLAVIA",Hog slaters (A. aquaticus L.) actively accumulate phenol. Threshold concentrations of accumulated phenol which cause death (20 .mu.g/g of wet mass) are determined.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Institute of Freshwater Research Drottningholm Report,2021-04-13,BIOSIS:PREV198580109588,1,0,HASSELROT B; ANDESSON B I; HULTBERG H,J,English,ECOSYSTEM SHIFTS AND REINTRODUCTION OF ARCTIC CHAR SALVELINUS-SALVELINUS AFTER LIMING OF A STRONGLY ACIDIFIED LAKE IN SOUTHWESTERN SWEDEN,1984.0,"Biochemistry & Molecular Biology; Developmental Biology; Environmental Sciences & Ecology; Endocrinology & Metabolism; Nutrition & Dietetics; Physiology; Public, Environmental & Occupational Health; Reproductive Biology; Toxicology; Biodiversity & Conservation",,0082-0032,61,,78,92,,"HASSELROT B; SWED ENVIRON RES INST, PO BOX 5207, S-402 24 GOTHENBURG, SWEDEN","Before undergoing lime treatment in Dec. 1979 Lake Stora Holmevatten was a strongly acidified oligotrophic lake. Much of the biota including all fish species, had disappeared during the acid period. The indigenous Arctic char population which became extinct, had represented a unique genetic shock, classifying this lake with high national interest. After lime treatment, pH and alkalinity were observed to increase substantially, and the high Al levels (500 .mu.g .cntdot. l-1) decreased to < 100 .mu.g .cntdot. l-1. Biomass levels of phytoplankton, zooplankton and benthic organisms increased within 1-3 yr, following liming. Diversity of zooplankton and benthic fauna increased but the diversity of phytoplankton did not change significantly. In contrast to earlier studies, chironomid biomass increased following liming, suggesting that Al toxicity may have affected the larvae during the acidified period. The generally increased biomasses and shifts in phytoplankton and zooplankton species indicate that a higher net-production was one important effect of liming. The introduced Arctic char preyed on a variety of food items, one of which, the introduced Asellus aquaticus, was of growing importance. The growth rate of the introduced Arctic char was higher than that of the previous, now extinct population. Occurrence of 2 summer-old char in test catches in Nov. 1982 showed that natural spawning was successful already by autumn 1980.",,,,,,,,,,,,,,,,,,"Andersson, Bertil/C-9328-2009",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Institute of Freshwater Research Drottningholm Report,2021-04-13,BIOSIS:PREV198580109579,0,0,RADDUM G G; HAGENLUND G; HALVORSEN G A,J,English,EFFECTS OF LIME TREATMENT ON THE BENTHOS OF LAKE SONDRE-BOKSJO NORWAY SWEDEN,1984.0,"Biochemistry & Molecular Biology; Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology; Public, Environmental & Occupational Health; Toxicology",,0082-0032,61,,167,176,,"RADDUM G G; MUSEUM ZOOL, UNIV BERGEN, MUSEPLASS 3, N-5000 BERGEN, NORW, NORWAY","Lake Sondre (= S.) Boksjo, on the border between Sweden and Norway, was limed with 9000 tons of CaCO3 during July-Aug. 1980. Quantitative and qualitative samples of bottom animals were taken before and after the treatment in Lake S. Boksjo and in the untreated lake, Nordre (= N.) Boksjo. The running water fauna was investigated at one locality downstream of Lake N. Baksjo and at 2 localities downstream of Lake S. Boksjo. The mayfly Baetis rhodani (Pictet) was absent from the river before liming. After the treatment the species occurred at the upper part of the outlet river of Lake S. Boksjo. Asellus aquaticus (L.) was present in slow-flowing parts of the river before liming. After the treatment the species increased in density 8-10 times. A. aquaticus was not found in Lake S. Boksjo before liming, but occurred with a few individuals after the treatment. Increased abundance was recorded in the treated lake for the mayflies Leptophlebia spp., oligochaetes and chironomids in the depth zone 0.5-5 m. This was probably due to increased food availability for detritivorous animals, caused by the liming. The increased number of species of coleopterans and corixids observed was probably caused by elevated biological activity in general. In the profundal of Lake S. Boksjo a strong decrease in number of species and density of botton animals was recorded after liming. This could be caused by percipitation of Al or other metals.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Revue Francaise des Sciences de l'Eau,2021-04-13,BIOSIS:PREV198528092511,1,0,BOET P,J,French,THE BIOLOGY OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA AND ITS DESTRUCTION MEANS WHEN INVADING THE DRINKING WATER DISTRIBUTION SYSTEMS A REVIEW,1984.0,Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Anatomy & Morphology; Physiology; Reproductive Biology; Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation,3,0750-7186,1,,93,110,,"BOET P; LAB ZOOL, ECOLE NORMALE SUPERIEURE, 46, RUE ULM 75230 PARIS CEDEX 05, FR, FRANCE",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Voprosy Ikhtiologii,2021-04-13,BIOSIS:PREV198529028337,0,0,STERLIGOVA O P; PAVLOVSKII S A,J,Russian,EXPERIMENTAL STUDY OF THE CONSUMPTION OF WHITEFISH COREGONUS-LAVARETUS SALMONIDAE EGGS BY THE RAFFE GYMNOCEPHALUS-CERNUA AND INVERTEBRATES,1984.0,Nutrition & Dietetics; Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation,24,0042-8752,6,,1036,1039,,"STERLIGOVA O P; INST BIOL, KAREL BRANCH, ACAD SCI USSR, PETROZAVODSK, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Acta Embryologiae et Morphologiae Experimentalis New Series,2021-04-13,BIOSIS:PREV198528005153,0,0,VITAGLIANO TADINI G; VALENTINO F; MIGLIORE L,J,English,PHOTOPERIOD GRADIENT AND SPEED OF EMBRYONIC DEVELOPMENT IN ASELLUS-AQUATICUS,1983.0,Physiology; Meteorology & Atmospheric Sciences; Developmental Biology,4,0391-9706,3,,219,220,,"VITAGLIANO TADINI G; ROMA, ITALY",,,,,,,,,,,,,,,,,,,,,,,,,"SYMPOSIUM ON THE NUCLEIC ACIDS HELD AT THE 29TH MEETING OF THE ITALIAN EMBRYOLOGY GROUP, PALERMO, ITALY, MAY 27-29, 1983. ACTA EMBRYOL MORPHOL EXP NEW SER.",,,,,,,,,,,,,,,,,,,,,,
Article,Acta Hydrobiologica,2021-04-13,BIOSIS:PREV198579044522,0,0,JOP K; WOJTAN K,J,English,CONCENTRATIONS OF CADMIUM AND LEAD IN THE BODY OF SOME MACROBENTHOS SPECIES FROM 5 STREAMS OF SOUTHERN POLAND,1983.0,"Environmental Sciences & Ecology; Marine & Freshwater Biology; Pathology; Physiology; Public, Environmental & Occupational Health; Toxicology",24,0065-132X,3,,197,210,,"JOP K; JAGIELLONIAN UNIV, INST ENVIRON BIOL, DEP HYDROBIOL, UL OLEANDRY 2A, 30-063 KRAKOW, POL, POLAND","Concentrations of Cd and Pd were examined in body tissue of larvae of Ephemera danica and Baetis vernus (Ephemeroptera), and the specimens of Gammarus pulex (Amphipoda) and Asellus aquaticus (Isopoda) from 5 streams in the vicinity of Cracow, receiving metal fallout and wastes from a metal plant and Zn-Pb mines. Concentrations of metals decreased with increasing age in all species. The relationships of metal concentration in aquatic invertebrates were not consistent with the degree of contamination in stream. Ca concentration of stream waters appeared to affect body metal concentration.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Aquilo Ser Zoologica,2021-04-13,BIOSIS:PREV198478050254,0,0,LEONARDSSON K; NASLUND I,J,English,LOCAL EFFECTS OF NET PEN REARING OF FISH ON BENTHIC MACRO FAUNA IN THE NORTHERN BOTHNIAN SEA BALTIC SEA,1983.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Physiology; Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation,22,0570-5177,,,115,120,,"LEONARDSSON K; DEP ECOLOGICAL ZOOL, UNIV UMEA, UMEA, SWEDEN","Benthic macrofauna and the sediment, affected by 1 season of net pen rearing of fish in brackish water (5.permill.), were studied at the Ulvo islands [Sweden] during the spring of 1981. The bottom close under the cages was covered by sewage fungus and sulfur bacteria; benthic macrofauna and living macroalgae were absent. High values on ETS (respiratory Electron Transport System activity) and the formation of gas indicated the presence of strong decomposition processes. Fish feces and surplus food had influenced a layer of up to 22 cm in the sediment. The benthic macrofauna close to the cages was totally dominated by chironomids. Further away they were replaced by Asellus aquaticus L. Amphipod number increased with distance from the cages, i.e., a distribution corresponding to the zonation typical for organically loaded running waters. Very high biomass of a macroalgae (Cladophora glomerata (L.) Kutz.) in the area indicated high nutrient levels. Net pen rearing of fish in the Bothnian Sea will affect small areas under the cages and have a fertilizing effect on adjacent areas.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vestnik,2021-04-13,BIOSIS:PREV198478076242,0,0,STRUS J; BLEJEC A,J,English,REPRODUCTIVE ACTIVITY IN ASELLUS-AQUATICUS CRUSTACEA ISOPODA FROM LJUBLJANSKO-BARJE YUGOSLAVIA,1983.0,Environmental Sciences & Ecology; Physiology; Reproductive Biology; Life Sciences & Biomedicine - Other Topics,31,0520-1969,2,,83,92,,"STRUS J; INST ZA BIOLOGIJO UNIV E KARDELJA YU 61001 LJUBLJANA, ASKERCEVA 12, POB 141","The life cycle and breeding activity was studied in A. aquaticus (Crustacea, Isopoda) from Ljubljansko barje. Breeding occurred throughout most of the year. Two main periods of recruitment of young followed .apprx. 1 mo. after intense breeding in April-May and in Aug.-Sept. The medium to big size wintered females give birth to the spring generations and small to medium size spring females to the autumn generations. Reasonable correlations were found between the percentage of breeding females and annual changes in the length of daylight and between percentage of breeding females and annual temperature changes.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Genetica (Dordrecht),2021-04-13,BIOSIS:PREV198376080052,0,0,DI CASTRO M; PRANTERA G; CIPRIANI L; ROCCHI A,J,English,SILVER STAINING ANALYSIS OF NUCLEOLAR ORGANIZER ACTIVITY DURING SPERMATOGENESIS OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1983.0,Biochemistry & Molecular Biology; Cell Biology; Genetics & Heredity; Anatomy & Morphology; Physiology; Reproductive Biology,60,0016-6707,3,,163,166,,"DI CASTRO M; IST GENETICA CENT GENETICA EVOLUZIONISTICA CNR, UNIV ROMA, ROMA, ITALIA, ITALY","The Ag-staining technique was employed to investigate the activity of the nucleolar organizer [NOR] during spermatogenesis of the isopod crustacean A. aquaticus. It was concluded that the NOR remain continuously Ag-stained throughout spermatogenesis until maturation of the sperm, contrary to the situation in the other species so far described. In the gonial mitotic cells the NOR of a single pair, and in the meiotic cells the NOR of both pairs of chromosomes are Ag-stained and therefore active. Some of the individuals examined exhibited additional NOR.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Polskie Archiwum Hydrobiologii,2021-04-13,BIOSIS:PREV198478015681,2,0,ZIMAKOWSKA-GNOINSKA D,J,English,OXYGEN CONSUMPTION AND SURVIVAL OF ASELLUS-AQUATICUS CRUSTACEA IN VISTULA RIVER POLAND SECTION HIGHLY POLLUTED BY MUNICIPAL SEWAGE/,1983.0,"Marine & Freshwater Biology; Environmental Sciences & Ecology; Physiology; Public, Environmental & Occupational Health; Respiratory System; Toxicology",30,0032-3764,2,,165,173,,"ZIMAKOWSKA-GNOINSKA D; DEP OF ECOL BIOENERGETICS, INST OF ECOL, POLISH ACAD OF SCI, DZIEKANOW LESNY, 05-092 LOMIANKI, POLAND","The impact of polluted water was determined on O2 consumption and survival of male A. aquatticus in March-Nov., 1981. Tested water from the Vistula River (the 25 km section from Bielany sewage collector output to Dziekanow Polski) was polluted by Warsaw municipal sewage. Vistula River polluted water had an unfavorable and irreversible effect on A. aquaticus causing augmented respiration and delayed mortality. Experimental animals after exposure to this water for 3 or 24 h were transferred to a pure environment. Higher mortality was observed in the next 8 mo.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Universitatis Nicolai Copernici Prace Limnologiczne,2021-04-13,BIOSIS:PREV198376034251,0,0,DOBROWOLSKI Z,J,English,PRODUCTIVITY AND BIO ENERGETICS OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA IN THE JASNE LAKE POLAND,1982.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Physiology,,0208-5348,13,,3,26,,"DOBROWOLSKI Z; INSTYTUT BIOLOGII, ZAKLAD HYDROBIOLOGII, POLAND","A. aquaticus population from the moss zone of Drepanocladus fluitans (Hedw.) Warnst. overgrowing the bottom of the Jasne Lake (Ilawa Lake District) between 7th and 14th isobath was studied. Asellus was the dominant species (75.1% of the number, 56.4% of wet mass of the zoobenthos). The number of A. aquaticus was 1365/m2 the wet mass 6031 mg/m2, the annual productivity 21.72 g/m2. Annual respiration of Asellus population estimated on the base of Prus's regression amounted to 317.57 kJ. In spite of unfavorable habitat conditions (low temperature and limited nutrition basis) the rate of the production (production/Biomass annually 3.5) was higher than the one recorded by Anderson for Asellus in 2 Swedish lakes.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Florida Scientist,2021-04-13,BIOSIS:PREV198324027845,0,0,MARCUS J H,J,English,FEEDING AND GROWTH OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA ON GREEN PLANT TISSUE IN THE ENGLISH LAKE DISTRICT UK,1982.0,Developmental Biology; Gastroenterology & Hepatology; Nutrition & Dietetics; Physiology,45,0098-4590,SUPPL. 1,,29,,,"MARCUS J H; DEP BIOL, FLA INT UNIV, TAMIAMI CAMPUS, MIAMI, FL 33199, USA",,,,,,,,,,,,,,,,,,,,,,,,,"46TH ANNUAL MEETING OF THE FLORIDA ACADEMY OF SCIENCES, DELAND, FLA., USA, APRIL 22-24, 1982. FLA SCI.",,,,,,,,,,,,,,,,,,,,,,
Book,"MUELLER, K. (ED.). MONOGRAPHIAE BIOLOGICAE, VOL. 45. COASTAL RESEARCH IN THE GULF OF BOTHNIA. XIV+462P. DR. W. JUNK PUBLISHERS: THE HAGUE, NETHERLANDS; BOSTON, MASS., USA. ILLUS. MAPS",2021-04-13,BIOSIS:PREV198223066752,0,0,GRANSTROM U,S,English,LIFE CYCLE GROWTH AND FUNCTION OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA IN AN ESTUARY OF THE NORTHERN BOTHNIAN SEA SWEDEN,1982.0,Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Reproductive Biology; Life Sciences & Biomedicine - Other Topics,,0077-0639,,,P133,140,,"GRANSTROM U; DEP ECOL ZOOL, UNIV UMEA, S-901 87 UMEA, SWED, SWEDEN",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,90-6193-098-7,,,,Monographiae Biologicae,,,,,,,,,,,
Article,Polskie Archiwum Hydrobiologii,2021-04-13,BIOSIS:PREV198376076560,6,0,KANIEWSKA-PRUS M,J,English,THE EFFECT OF AMMONIA CHLORINE AND CHLORAMINE TOXICITY ON THE MORTALITY OF DAPHNIA-MAGNA,1982.0,"Environmental Sciences & Ecology; Endocrinology & Metabolism; Physiology; Public, Environmental & Occupational Health; Toxicology",29,0032-3764,3-4,,607,624,,"KANIEWSKA-PRUS M; DEP ECOL BIOENERGETICS, INSTITUTE ECOL, POLISH ACADEMY SCI, DZIEKANOW LESNY, 05-092, LOMIANKI, POLAND","The effects of different concentrations of ammonia, Cl and chloramines on the mortality of D. magna were investigated. For comparison, two other crustacean species were used in parts of the experiments: a planktonic Simocephalus vetulus and a benthic Asellus aquaticus. Besides the estimate of animal mortality (LC50 and PC50 [median paralysis concentration]) the stability coefficient of the compounds used (T) and the ratio of the threshold concentrations causing 50% mortality were also determined. The animals showed different degrees of sensitivity to the tested solutions: the highest was found for D. magna and the least for A. aquaticus. The greatest toxic effect was noted in solution containing all 3 kinds of chloramines, and the least in ammonia. This pointed to a synergic influence of the compound formed by ammonia and Cl.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Soviet Genetics (English Translation of Genetika),2021-04-13,BIOSIS:PREV198325052444,0,0,USHAKOV B P,J,English,PHYSIOLOGICAL STRUCTURE OF A POPULATION ARISING DURING THERMAL SELECTION,1982.0,Evolutionary Biology; Genetics & Heredity; Physiology,18,0038-5409,5,,573,580,,"USHAKOV B P; INSTITUTE CYTOL, ACADEMY SCIENCES, USSR, LENINGRAD, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Uspekhi Sovremennoi Biologii,2021-04-13,BIOSIS:PREV198426013471,0,0,USHAKOV B P,J,Russian,EVOLUTIONARY IMPORTANCE OF TEMPERATURE ADAPTATIONS IN ANIMALS,1982.0,Evolutionary Biology; Physiology,93,0042-1324,2,,302,319,,"USHAKOV B P; INST CYTOL, ACAD SCI USSR, LENINGRAD, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Biologisch Jaarboek,2021-04-13,BIOSIS:PREV198375057804,0,0,DE SMET W H O; DAS A M L,J,English,OBSERVATIONS ON THE COLONIZATION AND LIFE HISTORY OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA IN AN AERATED BROOK,1981.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Anatomy & Morphology; Reproductive Biology; Life Sciences & Biomedicine - Other Topics,49,0366-0818,,,131,147,,"DE SMET W H O; LAB OECOLOGIE, RIJKSUNIVERSITAIR CENTRUM ANTWERPEN, GROENENBORGERLAAN 171, B-2020 ANTWERPEN","The colonization by A. aquaticus of an aerated brook, and some aspects of its life history were studied. Colonization of the aeration basin probably started by drift organisms from the upstream unpolluted brook stretch. Development and spread of Asellus in the downstream ponds may have started from very small and scattered populations that increased in numbers when the environmental conditions became favorable. The vertical distribution of Asellus in the aeration basin showed a lowering of the zone of maximum abundance from the top 6 cm mud to a depth of 12 cm. During the 1st year of colonization, 2 generations (summer and autumn) developed. The sex ratio of the 3 mm size animals is in favor of females but is followed by a preponderance of males, due to the differential growth rates and the final adult size. The number of eggs produced by a female is positively correlated to her size. The relationship between size and wet weight, dry weight, ash content and ash-free organic matter was established, and described by the power function. The standing crop of the aeration basin ranged from 0.06 to 223.4 kg wet weight.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV198274021394,0,0,PETROVA I V,J,Russian,EVALUATION OF DIFFERENT METHODS OF INTRODUCING DIESEL FUEL INTO SILT BOTTOM SEDIMENTS IN TOXICOLOGICAL EXPERIMENTS,1981.0,"Biochemistry & Molecular Biology; Public, Environmental & Occupational Health; Environmental Sciences & Ecology; Agriculture; Toxicology",17,0375-8990,2,,101,103,,"PETROVA I V; MOSC STATE UNIV, MOSCOW, USSR",Two methods of diesel fuel introduction into sludge bottom sediments were studied experimentally. The 1st method suggested introduction into the moist sludge and the 2nd into dry sludge. Toxicity was determined by Asellus aquaticus survival rate and food consumption. These indices were higher with fuel introduction into moistened sludge. A lower toxicity was observed because oil was partially transferred into the water.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV198274008939,0,0,SHISHKIN B A; FIKS B V; GALEEVA T I,J,Russian,METHOD FOR CALCULATING THE MAIN PARAMETERS OF AQUATIC INVERTEBRATE CULTURES,1981.0,Environmental Sciences & Ecology; Physiology; Life Sciences & Biomedicine - Other Topics,17,0375-8990,2,,105,111,,"SHISHKIN B A; STATE RES INST LAKE RIVER FISH, LENINGRAD, USSR","An algorithm is presented for calculating the main parameters of water culture in the absence of medium resistance and under conditions of true cultivation: quantity and production of offsprings from 1 pair of individuals, age structure of the population and average weight of the individual, quantity and production of the population with the maternal culture and specific production. The species Moina macrocopa, Daphnia magna, Brachionus rubens and Artemia salina are used.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Internationale Vereinigung fuer Theoretische und Angewandte Limnologie Verhandlungen,2021-04-13,BIOSIS:PREV198223059549,1,0,PRUS T,J,English,DECOMPOSITION OF LEAF LITTER BY ASELLUS-AQUATICUS ISOPODA CRUSTACEA,1981.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Nutrition & Dietetics; Physiology,21,0368-0770,3,,1584,1588,,"PRUS T; DEP HYDROBIOL, INST ECOL, POL ACAD SCI, DZIEKANOW LESNY, PL-050150 LOMIANKI, POL, POLAND",,,,,,,,,,,,,,,,,,,,,,,,,"21ST CONGRESS OF THE INTERNATIONAL SOCIETY OF LIMNOLOGY, PART 3, KYOTO, JAPAN, AUG.-SEPT. 1980. INT VER THEOR ANGEW LIMNOL VERH.",,,,,,,,,,,,,,,,,,,,,,
Meeting,Kieler Meeresforschungen,2021-04-13,BIOSIS:PREV198223007490,2,0,WILLOUGHBY L G; MARCUS J H,J,English,AQUATIC FUNGI AND ACTINOMYCETES AS FOODS FOR FRESH WATER CRUSTACEA,1981.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,,,5,,433,,,"WILLOUGHBY L G; FRESHW BIOL ASSOC, AMBLESIDE, CUMBRIA, ENGL, UK",,,,,,,,,,,,,,,,,,,,,,,,,"15TH EUROPEAN MARINE BIOLOGY SYMPOSIUM: LOWER ORGANISMS AND THEIR ROLE IN THE FOOD WEB, KIEL, W. GERMANY, SEPT. 29-OCT. 3, 1980. KIEL MEERESFORSCH.",,,,,,,,,,,,,,,,,,,,,,
Article,Opuscula Zoologica (Budapest),2021-04-13,BIOSIS:PREV198375071165,0,0,ANDRIKOVICS S,J,English,FURTHER DATA TO THE DAILY MIGRATION OF THE LARVAE OF AQUATIC INSECTS,1981.0,Behavioral Sciences; Physiology; Environmental Sciences & Ecology; Marine & Freshwater Biology,17-18,0237-5419,,,49,56,,"ANDRIKOVICS S; ELTE ALLATRENDSZERTANI ES OKOL TANSZEK, 1088 BUDAPEST, VIII PUSKIN U 3, BUDAPEST","Examinations measuring the activity in a 24-h cycle of the insect larvae of the pondweed habitats (Utricularia vulgaris and Potamogenton pectinatus) of Lakes Ferto and Velence were conducted. The circadian vertical motion of the frequently occurring insects and larvae (Ephemeroptera, Odonata, Chironomidae, Heteroptera), as well as Asellus aquaticus were measured. The examinations were done with the aquatic funnel-trap developed by Pieczynski (1961). The young mayfly larvae from weedy habitats of Lake Velence do not perform a pulsating vertical locomotion as described in the literature. The motion intensity maximum is a short period. Considerable vertical motion in the Agrionidae larvae was observed during the night and at dawn. The data obtained for the Chironomidae and Heteroptera larvae agreed with those found in the literature. The description of circadian locomotion of A. aquaticus is presented. The nocturnal motion activity of that animal was 3 times that obtained during the day.",,,,,,,,,,,,,,,,,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Polskie Archiwum Hydrobiologii,2021-04-13,BIOSIS:PREV198375053591,0,0,WLODEK S,J,English,TOXICITY OF SEWAGE AND UTRATA RIVER POLAND WATERS DURING THE PRE RESTORATION PERIOD 1977 1978,1981.0,"Environmental Sciences & Ecology; Marine & Freshwater Biology; Pathology; Physiology; Public, Environmental & Occupational Health; Toxicology",28,0032-3764,3-4,,347,356,,"WLODEK S; INST ENVIRON ENG TECH UNIV WARSAW, NOWOWIEJSKA 20, 00-653 WARSZAWA, POLAND","To determine the effect of contamination on the toxicity of Utrata River waters, the approximate, acute and chronic toxicities of 17 kinds of wastewaters and river waters collected at 9 sampling stations were tested. The organisms tested included 3 spp. of invertebrates [Daphnia magna, Asellus aquaticus, Planorbarius corneus], 2 fish species [Cyprinus carpio, Lebistes reticularis], 1 vascular plant species [Lepidium sativum] and green algae. Only a few kinds of wastewaters were toxic. Animals living in contaminated river waters did not always show physiological symptoms; deaths were only rare and the development of the tested plant pointed to the absence of any negative toxic effects of the contaminants. Toxicity measurement methods in polluted river waters should be improved.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vestnik,2021-04-13,BIOSIS:PREV198375018693,0,0,LICAR P; GODEK M; BERCIC O,J,Slovenian,HISTOLOGICAL ANALYSIS AND ULTRASTRUCTURE OF FILTERS IN THE STOMACH OF PROASELLUS-COXALIS ISOPODA ASELLOTA,1980.0,Cell Biology; Gastroenterology & Hepatology; Anatomy & Morphology; Physiology,20,0520-1969,2,,1,20,,"LICAR P; YU 61001 LJUBLJANA, ASKERCEVA 12, PO 141/3 UNIV VTO BIOL BIOTEHNISKE FAKULTETE, INSTITUT BIOL","The functionally important parts of the stomach were studied in P. coxalis, using light and scanning electron microscopy. The macrostructures of the stomach and the ultrastructures of the filter apparatus were the same in P. coxalis, Asellus aquaticus ssp. and A. aquaticus cavernicolus.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin de la Societe des Amis des Sciences et des Lettres de Poznan Serie D Sciences Biologiques,2021-04-13,BIOSIS:PREV198172024628,0,0,HRYNIEWIECKA-SZYFTER Z; TYCZEWSKA J,J,English,MORPHOLOGICAL AND ENZYMATIC EVIDENCE FOR ION TRANSPORT IN THE HIND GUT OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1980.0,Cell Biology; Gastroenterology & Hepatology; Biochemistry & Molecular Biology; Anatomy & Morphology; Physiology,,0079-4570,20,,95,100,,"HRYNIEWIECKA-SZYFTER Z; DEPARTMENT OF CYTOLOGY AND HISTOLOGY, INSTITUTE OF BIOLOGY, A MICKIEWICZ UNIVERSITY, FREDRY 10, 61-701 POZNAN, POLAND","The hindgut cells of A. aquaticus were examined with the light and electron micrscope. A simple epithelium lines the whole hindgut. In its front part is consists of pyramid-like cells, in the sphincter of cubic cells, and in the rectum of flattened ones. The ultrastructure of all hindgut cells displays features typical of transporting epithelia, characterized by a folded apical and basal membranes. The infoldings of the basal membrane are associated with mitochondria. Other cell organelles are few. In the apical and basal folds the activity of alkaline phosphatase was found. The hindgut epithelium probably is involved in osmoregulation.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Doklady Biological Sciences,2021-04-13,BIOSIS:PREV198222002812,0,0,KAUFMAN B Z,J,English,EFFECT OF CAROTENOIDS ON PHOTO REACTION OF DAPHNIA-PULEX AND ASELLUS-AQUATICUS,1980.0,Behavioral Sciences; Endocrinology & Metabolism; Nutrition & Dietetics; Physiology,253,0012-4966,1-6,,432,433,,"KAUFMAN B Z; INST BIOL, KARELIAN BRANCH, ACAD SCI USSR, PETROZAVODSK, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV198222007163,0,0,PLIGIN YU V,J,Russian,MACRO ZOO BENTHOS OF THE SHALLOW WATER AREAS OF THE KREMENCHUG RESERVOIR UKRAINIAN-SSR USSR,1980.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,16,0375-8990,4,,115,116,,"PLIGIN YU V; INST HYDROBIOL, ACAD SCI UKR SSR, KIEV, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Swedish Wildlife Research Viltrevy,2021-04-13,BIOSIS:PREV198172016121,0,0,DANELL K; SJOBERG K,J,English,FOOD OF WIGEON ANAS-PENELOPE TEAL ANAS-CRECCA MALLARD ANAS-PLATYRHYNCHOS AND PINTAIL ANAS-ACUTA DURING THE SUMMER IN A NORTHERN SWEDISH LAKE,1980.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation,11,0349-5116,3,,141,167,,"DANELL K; DEP WILDL ECOL, SWED UNIV AGRIC SCI, S-901 83 UMEA, SWED, SWEDEN","A total of 77 dabbling ducks (wigeon, teat, mallard and pintail) were collected during the breeding seasons of 1976-1978 at Veittijaervi lake in northern Sweden, of which 23 ducklings and 6 adults were taken between June 28-July 4, and a further 48 fully-fledged ducklings and adults during Aug. 3-15. The contents of the esophagus and proventriculus-ventriculus of each bird were analyzed separately. In the diet of both young ducklings and older birds, seeds of Potamogeton spp., Sparganium spp., Carex spp., Hippuris vulgaris and Empetrum sp. occurred frequently, as did remains of the invertebrates Asellus aquaticus, Hemiptera, Coleoptera and Diptera. Of the esophageal contents of teal ducklings, 82% (wet wt basis) were invertebrates caught on the water surface, or among the vegetation, 18% were invertebrates caught deeper down, and only traces of plant foods were present. For fully-fledged teal ducklings and adults taken in Aug., the respective values were 2.85 and 13%. The stomach contents of young and older teal contained a broader spectrum of food items than did those of wigeon, mallard and pintail. An estimate was made of the possible degree of over- or under-representation of the different types of food items in proventriculus-ventriculus samples. For the dabbling ducks taken in Aug., seeds of Sparganium spp., Carex aquatilis, C. rostrata and Potamogeton spp. occurred in significantly more of the proventriculus-ventriculus samples than expected from their occurrence in esophagus samples. Hemiptera (excepting Corixidae), the imagines of Coleoptera and Diptera (excepting Chironomidae), A. aquaticus, Gyraulus sp. and larvae of Chironomidae, occurred in significantly lesser numbers than expected.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Aqua Fennica,2021-04-13,BIOSIS:PREV198172058398,0,0,MIKKOLA H; OKSMAN H; SHEMEIKKA P,J,English,EXPERIMENTAL STUDY OF MORTALITY IN VENDACE AND WHITEFISH EGGS THROUGH PREDATION BY BOTTOM FAUNA AND FISH,1979.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Life Sciences & Biomedicine - Other Topics; Biodiversity & Conservation,9,0356-7133,,,68,72,,"MIKKOLA H; DEP ZOOL, UNIV KUOPIO, POB 138, 70101 KUOPIO 10","The possible importance of predation by bottom fauna and fish for the survival of vendace [Coregonus muksun] and whitefish [C. albula] eggs during the incubation period in winter was studied in aquarium experiments. The following potential egg predators were tested: ruffe, Gymnocephalus cernua; caddisfly larvae, Phryganea sp.; isopods, Asellus aquaticus; and mayfly larvae, Ephemeroptera. The consumption of vendace eggs by caddisfly larvae but not by ruffes and Asellus was observed. The size of the eggs was apparently too large for Asellus and for the ruffes, an apparent explanation might be the poor fertilization and hence poor condition of the vendace eggs. As with the whitefish eggs, the ruffes ate more than half of the 200 eggs used in tests and the used invertebrate predators, with a probable exception of Asellus, consumed all 50 eggs available only for them. Predation by bottom fauna and fish may play an important role in the survival, or lack of survival, of development of vendace and whitefish eggs. With advancing eutrophication the increasing bottom fauna and fish could reduce seriously the success of autumn-spawning fish.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archives de Biologie,2021-04-13,BIOSIS:PREV197968003131,0,0,DEMASSIEUX C; BALESDENT M-L,J,French,CYCLIC VARIATIONS OF THE BETA PROTOCEREBRAL NEURO SECRETORY CELLS RELATED WITH SEXUAL PHYSIOLOGY IN THE FEMALE OF THE CRUSTACEAN ISOPOD ASELLUS-AQUATICUS,1979.0,Cell Biology; Developmental Biology; Endocrinology & Metabolism; Neurosciences & Neurology; Physiology; Reproductive Biology,89,0003-9624,1,,89,106,,"DEMASSIEUX C; LAB BIOL ANIM 2, FAC SCI, UNIV NANCY I, BLVD DES AIGUILLETTES, F-54037 NANCY CEDEX, FR, FRANCE",".beta.-Protocerebral neurosecretory cells of the isopod A. aguaticus were studied histologically. Males and females were selected at different times of their molting cycles during annual reproduction or non-breeding seasons. In males and in females with small oocytes (during the annual non-breeding period), only a basophilic secretion was found in .beta.-pericaryons. There was an acidophilic secretion in the .beta.-pericaryons of females showing a rapid growth of the oocytes. .beta.-Cells are most acidophilic just before the greatest storage of vitellogen in the oocytes during the pre-spawning intermolt. If the acidophilic secretion of neurosecretory cells corresponds to their inactivity with regard to the target organs, .beta.-cell secretion may have an inhibiting effect on vitellogenesis.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vestnik,2021-04-13,BIOSIS:PREV198070023805,0,0,LICAR P; BLEJEC A; URBANC-BERCIC O,J,Slovenian,MECHANICAL PROPERTIES OF THE PRIMARY FILTERS IN THE STOMACH OF ASELLUS-AQUATICUS-CAVERNICOLUS ISOPODA ASELLOTA,1979.0,Gastroenterology & Hepatology; Anatomy & Morphology; Physiology,27,0520-1969,1,,33,48,,"LICAR P; UNIV BIOL ODDELEK, BIOTEH FAK, ASKERCEVA 12, PP 141/3, YU 61001 LJUBLJANA, YUGOSL, YUGOSLAVIA",The fine structure of the filters in the stomach of A. aquaticus cavernicolus closely resembled the structure of the filters in A. aquaticus ssp. The possible mechanical properties of the primary filters were calculated.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin de la Societe des Amis des Sciences et des Lettres de Poznan Serie D Sciences Biologiques,2021-04-13,BIOSIS:PREV198070009792,0,0,BABULA A,J,English,STRUCTURE OF THE RESPIRATORY ORGANS OF THE FRESH WATER ISOPOD ASELLUS-AQUATICUS CRUSTACEA,1979.0,Cell Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Anatomy & Morphology; Physiology; Respiratory System,,0079-4570,19,,75,82,,"BABULA A; DEP CYTOL HISTOL, INST BIOL, A MICKIEWICZ UNIV, FREDRY 10, 61-701 POZNAN, POL, POLAND","The lamellar pleopods of the freshwater isopod A. aquaticus L. were examined using light microscopy and EM. The internal structure of the pleopods resembles the structure of typical gills of aquatic crustaceans. The lamellae are lined with a monolaminar, thin epithelium which forms numerous plasmatic infoldings dividing the cavity of the pleopods into sinuses filled with hemolymph. The surface of the pleopods is covered with a very thin cuticle. By EM the epithelium of the lamellae display a marked morphological differentiation depending on the type of pleopods. In exopodites the apical surface of the epithelium is smooth and the basal membrane shows no invaginations. In endopodites the apical surface of the epithelial cells forms microvilli and the basal membrane has a shape of numerous invaginations penetrating deeply into the cytoplasm. Exopodites in A. aquaticus play the role of respiratory organs. Additionally endopodites take part in osmoregulation. The dependence of the area of pleopods (A) on the body weight (W) was examined. The dependence can be rendered by the formula: log A = log a' + b' log W. The respiratory area of individuals of 10 mg of body wt = 0.172 cm2. The value of coefficient b' equals 0.74.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Caryologia,2021-04-13,BIOSIS:PREV198069050450,0,0,DI CASTRO M; PRANTERA G; MARCHETTI E; ROCCHI A,J,English,CHARACTERIZATION OF THE CHROMATIN OF ASELLUS-AQUATICUS BY TREATMENT IN-VIVO WITH BROMODEOXY URIDINE AND HOECHST 33258,1979.0,Cell Biology; Genetics & Heredity; Endocrinology & Metabolism; Physiology; Reproductive Biology,32,0008-7114,1,,81,88,,"DI CASTRO M; CENT GENET EVOL, CNR, IST GENET, UNIV ROMA, ROMA, ITALY","A. aquaticus males were injected with BrdU [bromodeoxyuridine] and Hoechst 33258; gonad preparations were set up at various time intervals after treatment. Both substances acted within 4 h of treatment, outside of S phase, interfering with the normal mitotic and meiotic process of chromosomal condensation. A very slight banding appeared on the mitotic metaphase chromosomes 48 and 65 h after treatment; this was the only effect obtained which may have been due to the action of the 2 substances during S phase.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Glasgow Naturalist,2021-04-13,BIOSIS:PREV198070080121,0,0,BRATTEY J,J,English,INTESTINAL HELMINTHS FROM THE FISH OF THE FORTH AND CLYDE CANAL AT TEMPLE GLASGOW SCOTLAND UK,1979.0,Gastroenterology & Hepatology; Environmental Sciences & Ecology; Parasitology; Pathology; Physiology; Life Sciences & Biomedicine - Other Topics,19,0373-241X,6,,475,479,,"BRATTEY J; DEP ZOOL, UNIV LIVERP, LIVERPOOL L69 3BX, ENGL, UK","The Forth and Clyde canal supports a large number of fish, including Perca fluviatilis L., Esox lucius L., Rutilus rutilus L., Carassius auratus L. and Gasterosteus aculeatus L. Intestinal helminths found in these fish were Acanthocephalus lucii, Bunodera luciopercae, Camallanus lacustris and Caryophyllaeides fennica. A. lucii, the only parasite found in all 3 spp. of fish studied, was consistently found aggregated from the middle to posterior region of the intestine. Acanthocephalans have been recorded in many fish species, but they attain sexual maturity in only a few. Roach and perch acquire infection directly by eating infected isopod crustaceans Asellus aquaticus L., the intermediate hosts of A. lucii. Large perch and pike do not prey on invertebrates and probably acquire infection secondarily from infected fish prey. Specimens of A. aquaticus were examined. Only the cystacanth stage of the parasite was found. The infection level in the intermediate host was constant.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Institute of Freshwater Research Drottningholm Report,2021-04-13,BIOSIS:PREV198171051259,1,0,STENSON J A E,J,English,PREDATOR PREY RELATIONS BETWEEN FISH AND INVERTEBRATE PREY IN SOME FOREST LAKES,1979.0,Behavioral Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology; Neurosciences & Neurology,,0082-0032,58,,166,183,,"STENSON J A E; UNIV GOTEBORG, DEP ZOOL, BOX 25059, S-400 31 GOTEBORG, SWED, SWEDEN","The feeding habits of 2 types of fish populations, with differences in species composition and density, were examined. Perch and roach utilized crustacean zooplankton to a significantly higher degree and during a longer period than the salmonids. Only larger species occurred in the salmonid stomachs. Copepoda and littoral Cladocera were more frequent in the perch stomachs than in the roach. Roach stomachs contained significantly smaller Bosmina spp. than perch stomachs, when fish of the same size were compared. Ostracods were found only in the roach stomachs. Roach search more than perch in and on the bottom sediment as seen by the greater importance of Chironomidae larvae, Ceratopogonidae larvae and Pisidium spp. in the roach stomachs. The larger number of Asellus aquaticus, Trichoptera and Odonata species, the higher frequence of emerging specimens and the regularly presence of aquatic Hemiptera and Coleoptera in the salmonid diet, when compared to the perch and roach diet, indicate a predatory influence on the spatial distribution and abundance of these groups. This predatory influence is also revealed in bottom samples, where Asellus and dragon fly nymphs are more common in the salmonid lakes where the lowest predation pressure from fish prevails. The selection for invertebrate predators (e.g., dragon fly nymphs) may change the balance and numeric relations between predators and prey in the benthic community.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Oikos,2021-04-13,BIOSIS:PREV197968066308,0,0,ROSSI L; FANO A E,J,English,ROLE OF FUNGI IN THE TROPHIC NICHE OF THE CONGENERIC DETRITIVOROUS ASELLUS-AQUATICUS AND ASELLUS-COXALIS ISOPODA,1979.0,Environmental Sciences & Ecology; Microbiology; Nutrition & Dietetics; Physiology,32,0030-1299,3,,381,385,,"ROSSI L; LAB ECOL, IST GENET, CITTA UNIV, 00185 ROME, ITALY","The importance of various fungal samples, isolated from plant detritus, and of the plant detritus itself in the trophic niche of A. aquaticus (L.) and A. coxalis Dollf., was studied in the laboratory. The fungi and not the plant detritus, from which they are isolated, constitute the energy source for both species. The animals to whom the sterilized detritus was offered died within a few days. The animals to whom the fungal colonies were given had significantly higher survival and body growth compared to the controls. The various fungal samples, offered as sole source of food, were used with different efficiency, both by animals of the same species and by animals of different species. The heterogeneous fungal populations, present in nature in the detritus, constitute a food resource mosaic which permits an even distribution of the trophic resources between 2 ecologically similar, cohabitating detritivorous species.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Polskie Archiwum Hydrobiologii,2021-04-13,BIOSIS:PREV198070034031,2,1,FURMANSKA M,J,English,EFFECT OF COPPER ZINC AND IRON ON THE BIOTIC COMPONENTS OF AQUATIC ECOSYSTEMS,1979.0,"Marine & Freshwater Biology; Endocrinology & Metabolism; Pathology; Physiology; Environmental Sciences & Ecology; Public, Environmental & Occupational Health; Toxicology",26,0032-3764,1-2,,213,220,,"FURMANSKA M; INST ENVIRON ENG WARSAW TECH UNIV, PL JEDNOSCI ROBOTNICZEJ 1, 00-661 WARSAW, POL, POLAND","The acute test testified to the high harmfulness of Cu, Zn and Fe to aquatic macrofauna LC50-48 h of an order of tens of mg/dm3). The action of Cu and Zn was most harmful and that of Fe less harmful. Crustaceans [Asellus aquaticus] were most sensitive, whereas fish [Lebistes reticulatus] and mollusks [Planibarius spp.] were more resistant. Values of concentrations LC50-48 h exhibited a 3-fold decrease upon cumulative action of the above elements on fish. The chronic test (19 days) showed an intensification of the cumulative noxious action of the investigated metals against aquatic micro- and macroorganisms. The most sensitive organisms were those from bottom sediments, followed by the aquatic macrofauna. Deformations of cellular structures of Elodea canadensis leaves were observed at concentrations of 15, 25 and 30 mg/dm3 for Cu, Zn and Fe, respectively. Psychrophilic bacteria were the most resistant organisms. Environmental contamination by industrial wastes is discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Voprosy Ikhtiologii,2021-04-13,BIOSIS:PREV198070022305,1,0,ZUBENKO E B,J,Russian,SEASONAL FEEDING DYNAMICS OF THE EUROPEAN PERCH PERCA-FLUVIATILIS FROM THE KREMENCHUG RESERVOIR UKRAINIAN-SSR USSR,1979.0,Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics,19,0042-8752,4,,648,654,,"ZUBENKO E B; INST HYDROBIOL, ACAD SCI UKR SSR, KIEV, USSR","The seasonal feeding dynamics of P. fluviatilis L. were analyzed to clarify its significance in the trophic chain of the Kremenchug reservoir. The stomach contents of 557 specimens were studied and identified. The principal food objects of the European perch are Neogobius fluviatilis and Clupeonella delicatula and in second place Acerina cernua, Blicca bjoerkna and Rutilus rutilus. Incidents of cannibalism were also observed, especially in older specimens. The most important invertebrates in the perch's diet were Asellus aquaticus and larvae of Chironomidae. The type of diet and the number of diet components are strictly dependent on the size of the fish. Invertebrates were seen to dominate in the diet of young specimens, gradually being replaced by fish as the specimens mature. The largest number of diet components was observed in perch specimens 13-15 cm long (24 components), this being made possible by the wide spectrum of feeding conditions available to them (i.e., foraging in shoals as well as in deep waters).",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vyestsi Akademii Navuk BSSR Syeryya Biyalahichnykh Navuk,2021-04-13,BIOSIS:PREV198019015142,0,0,ROSHCHIN V E; MAZELEV K L,J,Russian,EFFECT OF CONSTANT TEMPERATURE ON EMBRYONAL DEVELOPMENT OF ASELLUS-AQUATICUS CRUSTACEA,1979.0,Developmental Biology; Endocrinology & Metabolism; Science & Technology - Other Topics; Physiology,,0002-3558,1,,128,130,,"ROSHCHIN V E; DEP ZOOL PARASITOL, ACAD SCI B SSR, MINSK, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,BIOSIS:PREV197968067997,0,0,VON KNORRE D,J,English,THE DISTRIBUTION OF PROASELLUS-COXALIS CRUSTACEA ISOPODA ASELLIDAE IN THURINGIA EAST GERMANY A CONTRIBUTION TO THE PROBLEMS OF THE EXPANSION OF AN ANIMAL SPECIES,1979.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,202,0044-5231,3-4,,185,198,,"VON KNORRE D; SEKT BIOL, FRIEDRICH-SCHILLER UNIV, AM NEUTOR 1, DDR-69 JENA, E GER, EAST GERMANY","The distribution of P. coxalis in Thuringia [East Germany] at present is reported. Ecological and geographical aspects support the thesis that the species was probably introduced into central Europe into botanical gardens together with waterplants from its original mediterranean area. The postulated interspecific competition, by which P. coxalis was replaced by Asellus aquaticus could not be confirmed. P. coxalis can probably tolerate higher amounts of harmful substances in water.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annals of Zoology (Agra),2021-04-13,BIOSIS:PREV198069080130,0,0,MISHRA T N,J,English,THE OCCURRENCE OF ACANTHOCEPHALUS-LUCII IN THE FISHES OF THE SHROPSHIRE UNION CANAL CHESHIRE ENGLAND UK,1978.0,Gastroenterology & Hepatology; Environmental Sciences & Ecology; Parasitology; Physiology,14,0003-5009,4,,181,188,,"MISHRA T N; DEP ZOOL, RAJENDRA COLL, CHAPRA, BIHAR, INDIA","A. lucii was found in the intestine of perch (Perca fluviatilis), roach (Rutilus rutilus), pike (Esox lucius) and eel (Anguilla anguilla) during an investigation of parasites of fish of the Shropshire Union Canal, Cheshire, England UK. The percentage of infection in perch, roach, pike and eel was 48.7, 13.2, 2.6 and 75.0%, respectively. The intensity and the percentage of infection of A. lucii increased with the increasing length of perch. The infection percentage of fish with A. lucii depended partly on the feeding habit of the fish, but mostly on the occurrence of Asellus aquaticus and Gammarus pulex in the food contents of the final hosts. The presence of shelled acanthors in female worms during all the seasons contradicted the earlier views of an annual life cycle.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting,Atti Associazione Genetica Italiana,2021-04-13,BIOSIS:PREV198018034889,0,0,DI CASTRO M; PRANTERA G; MARCHETTI E; ROCCHI A,J,Italian; English,NUCLEOLAR ORGANIZERS IN ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1978.0,Cell Biology; Genetics & Heredity; Endocrinology & Metabolism; Physiology,23,0392-9574,,,105,106,,"DI CASTRO M; CENT GENET EVOL, CNR, IST GENET, UNIV ROMA, ROMA, ITALY",,,,,,,,,,,,,,,,,,,,,,,,,"23RD SCIENTIFIC REUNION OF THE ASSOCIAZIONE GENETICA ITALIANA (ITALIAN GENETIC ASSOCIATION), NAPLES, ITALY, OCT. 25-27, 1977. ATTI ASSOC GENET ITAL.",,,,,,,,,,,,,,,,,,,,,,
Article,Ekologia polska,2021-04-13,BIOSIS:PREV197866057205,0,0,PRUS T,J,English,EXPERIMENTAL AND FIELD STUDIES ON ECOLOGICAL ENERGETICS OF ASELLUS-AQUATICUS ISOPODA PART 4 ENERGY BUDGET OF A POPULATION IN THE LITTORAL ZONE OF POWSINSKIE LAKE,1978.0,Environmental Sciences & Ecology; Endocrinology & Metabolism; Nutrition & Dietetics; Physiology,25,0420-9036,4,,593,624,,"PRUS T; DEP ECOL BIOENERG, INST ECOL, POL ACAD SCI, DZIEKANOW LESNY, 05-150 LOMIANKI, POL, POLAND","Production for successive seasons amounted to 6.5, 4.1 and 2.8kcal m-2. The cost of maintenance was estimated according to 2 types of regression equations, predictive and functional (GM), resulting in somewhat different values of this element (12% difference) and of the whole budget (10% difference). The energy flow through the population occurred mainly in late spring (May, June), with very little energy passing through the population in summer; it was diminished considerably from year to year. Cumulative energy budget (half year average) in kcal was; P, 4.3; R, 16.3; A. 20.6; C, 68.1 (predictive); or P, 4.3; R, 14.1; A, 18.4; C, 60.8 (functional). The energetic role of A. aquaticus in the lake ecosystem [in Poland] was discussed.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Flora og Fauna,2021-04-13,BIOSIS:PREV197968003364,1,0,KAISER E W,J,Danish,THE MALACOSTRACA OF THE INLAND WATERS OF THY AND VESTER-HANHERRED JUTLAND DENMARK ZOO TOPOGRAPHICAL INVESTIGATION IN THY-14,1978.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,84,0015-3818,1-2,,3,28,,"KAISER E W; MEDD NATURHIST MUS, ARHUS, DEN, DENMARK","In fresh water (Cl- < 100 mg/l) 5 spp. were found, Asellus aquaticus, Gammarus pulex, G. lacustris, G. duebeni and G. zaddachi. The last 2 spp. were never seen in propagation in purely fresh water in Thy during zoogeographical investigations. In weak brackish water A. aquaticus and G. lacustris were found. G. duebeni is dominated by G. lacustris at salinities up to about 0.9.permill.. Neomysis integer is a common and very numerous species in brackish waters. In 2 localities, propagation takes place at very low salinities. Propagation of N. integer takes place from May to the middle of Sept. The number of eggs increases with the length of the females, but during the summer egg numbers decrease with females of equal length. Going from the Netherlands via the Kiel Canal to Denmark, the propagation period is shortened, and the number of eggs/female during the summer decreases. From the south to the north an increasing number of eggs/female was observed. A. aquaticus was found in acid lakes, in waters poor and rich in lime and in brackish waters (salinity 2.8.permill.). Propagation takes place from April to Sept., and ceases during the winter. During midsummer its itensity is reduced owing to the alternation of generations. G. pulex is restricted to the south of Thy due to its postglacial immigration history. G. lacustris is distributed over most of Thy and is also found in both fresh water lakes and weak brackish water. It has a 1-yr cycle in Denmark and propagation culminates in May and June. From Oct. to the middle of April propagation of G. lacustris is interrupted. G. duebeni often occurs with G. zaddachi, but generally in much fewer specimens. G. duebeni is lacking in Thy in places with weak brackish water (salinity 0.2-0.9.permill.) where G. lacustris is common. This supports the theory that the 2 spp. in this salinity do not flourish together, as G. lacustris dominates G. duebeni. G. zaddachi is widely distributed in the area. Females of G. zaddachi with eggs were found from Feb. to Dec.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV198069054625,0,0,BRAGINSKII L P; SHCHERBAN' E P,J,Russian,ACUTE HEAVY METAL TOXICITY FOR WATER INVERTEBRATES WITH VARIOUS TEMPERATURE CONDITIONS,1978.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Endocrinology & Metabolism; Science & Technology - Other Topics; Pathology; Physiology; Toxicology,14,0375-8990,6,,86,92,,"BRAGINSKII L P; INST HYDROBIOL, KIEV, USSR","A comparative toxicity of Cd2+, Zn2+, Cu2+, Ni2+, Mn2+ at temperature of 10, 15, 25 and 30.degree. C within the concentration range of 0.0025-5000 mg/l is established in acute 3-day experiments with 6 spp. of freshwater invertebrates. Maximum sensitivity to heavy metal ions is characteristic of Daphnia magna fry. Acanthocyclops viridis, mayfly [Cloeon dipterum] larvae and Asellus aquaticus are least sensitive. Maximum toxicity is shown with Cd followed by Cu, Zn, Ni and Mn. With the temperature elevation to 25-30.degree. C, Cd toxicity increased by 3-4 orders, Cu and Zn by 1-3 orders. Organisms of Acarina were also studied.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,BIOSIS:PREV197967020918,0,0,MOTH IVERSEN T; WIBERG-LARSEN P; BIRKHOLM HANSEN S; HANSEN F S,J,English,THE EFFECT OF PARTIAL AND TOTAL DROUGHT ON THE MACRO INVERTEBRATE COMMUNITIES OF 3 SMALL DANISH STREAMS,1978.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,60,0018-8158,3,,235,242,,"MOTH IVERSEN T; FRESHWATER BIOL LAB, UNIV COPENH, 51 HELSINGORSGADE, DK-3400 HILLEROD, DEN, DENMARK","Three cases of partial or total drought were studied. A 2 wk stop of water flow with reduced water level and stagnant water was survived by most stream species. Only the population of Baetis rhodani Pict. was almost eliminated. An unprecedented drought of 2-3 mo. reduced numbers of stream species. The differential effects are discussed in relationship to the behavior, life cycle and physiology of the individual species. After the drought many invaders were found, but most disappeared rapidly. Only Asellus aquaticus L. maintained a population in the stream. In an intermittent stream with 3-4 mo. drought, no changes were observed, and many species were the same as those which survived in the 2nd stream. The consequences of an increasing frequency of drought, for example due to increasing ground water use, will depend on the species normally present and on the season and duration of the drought. [Turbellaria, Oligochaeta, Hirudinea, Crustacea, Plecoptera, Ephemeroptera, Odonta, Neuroptera, Coleoptera, Trichoptera, Diptera, Acarina and Mollusca were discussed.].",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Monitore Zoologico Italiano,2021-04-13,BIOSIS:PREV197916005394,0,0,VITAGLIANO TADINI G; FANO E A; VALENTINO F; MIGLIORE L,J,English,THE ENDOGENOUS CIRCANNUAL RHYTHM OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1978.0,Behavioral Sciences; Biochemistry & Molecular Biology; Physiology; Developmental Biology; Environmental Sciences & Ecology,12,0026-9786,1,,74,75,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Poznanskie Towarzystwo Przyjaciol Nauk Wydzial Matematyczno-Przyrodniczy Prace Komisji Biologicznej,2021-04-13,BIOSIS:PREV197866071796,0,0,SZCZEPANOWSKI P,J,Polish,EPIZOIC CILIATA ON ASELLUS-AQUATICUS OF POZNAN POLAND AND SURROUNDINGS,1978.0,Environmental Sciences & Ecology; Physiology; Life Sciences & Biomedicine - Other Topics,46,0079-4619,,,1,72,,"SZCZEPANOWSKI P; ZAKL MORFOL ZWIERZAT, UNIW ADAMA MIKIEWICZA, UL FREDRY 10, 61-701 POZNAN, POL, POLAND","Investigations on ciliata settling on 40 specimens of A. aquaticus living in reservoirs of Poznan [Poland] and its surroundings were made from Nov. 1974 to Nov. 1975. Among the 49 epizoic taxa identified there were: 37 new records for Asellus, 43 new records for the Polish fauna, and 21 new taxa. The greatest number of epizoic ciliata taxons occurred on pereiopoda I and II (16) and the smallest number on branchial lamella (4). The number of groups on specific walking legs was strongly correlated with trophic conditions. The branchial fauna was very sensitive to environmental changes, particularly decreased amounts of O2. The greatest number of resident ciliata occurred on Asellus in winter. As a rule Asellus without epizoa were not found. Taxa found to be ecotypes were: Vorticella marginata, V. f. m. ploenensis and V. m. var. minor; and Carchesium polypinum; C. p. f. corymbosum. V. hyalina = C. p. f. corymbosum. New species described were: Scyphidia asellicola, Epistylis cupata, E. perlata, E. clavatum, E. mutabilipedunculata, E. calliciformes, E. sacculata, Opercularia duplex, O. ovalis, O. constipes, O. pulchra, Vorticella longipharyngea, V. plicata, Carchesium marsupialis and Zoothamnium latipedia. Four new forms were: V. longifilium f. epizoicum, Intrastylum steini f. asellicola, I. macrostylum f. branchialis and Zoothamnium microdiscum f. aselli. There was also a new variety Z. affine var. asellicola and new combination Pseudocarchesium (Carchesium) trichopterarum described.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,"SLADECEK, V. (ED.). INTERNATIONALE VEREINIGUNG FUER THEORETISCHE UND ANGEWANDTE LIMNOLOGIE VERHANDLUNGEN. INTERNATIONAL ASSOCIATION OF THEORETICAL AND APPLIED LIMNOLOGY, PROCEEDINGS, VOL. 20. PART 1 AND 2. COPENHAGEN, DENMARK, AUG. 8, 1977. IV+748P.; VIII+708P. ILLUS. MAPS. E. SCHWEIZERBART'SCHE VERLAGSBUCHHANDLUNG: STUTTGART, WEST GERMANY. ISBN 3-510-54013-1 (PART 1); ISBN 3-510-54014-X (PART 2)",2021-04-13,BIOSIS:PREV197917045752,0,0,EDWARDS R W; OBORNE A C; BROOKER M P; SAMBROOK H T,B,English,BEHAVIOR AND BUDGETS OF SELECTED IONS IN THE WYE CATCHMENT,1978.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,,,,,1418,1422,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vyestsi Akademii Navuk BSSR Syeryya Biyalahichnykh Navuk,2021-04-13,BIOSIS:PREV198018015241,0,0,ROSHCHIN V E; MAZELEV K L,J,Russian,RESPIRATION AND ENERGY UTILIZATION EFFECTIVENESS IN THE COURSE OF EMBRYONIC DEVELOPMENT IN ASELLUS-AQUATICUS,1978.0,Developmental Biology; Endocrinology & Metabolism; Physiology; Respiratory System,,0002-3558,5,,112,114,,"ROSHCHIN V E; DEP ZOOL PARASITOL, ACAD SCI B SSR, MINSK, USSR",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,"BHATIA, BALRAJ, G. S. CHHINA AND BALDEV SINGH (ED.). SELECTED TOPICS IN ENVIRONMENTAL BIOLOGY. XXVI INTERNATIONAL CONGRESS OF PHYSIOLOGICAL SCIENCES. NEW DELHI, INDIA, OCT. 20-26, 1974. XIV+529P. ILLUS. PERGAMON PRESS: NEW YORK, N.Y., USA; OXFORD, ENGLAND. ISBN 0-08-021210-7",2021-04-13,BIOSIS:PREV197916053013,0,0,USHAKOV B P,B,English,POPULATIONAL PHYSIOLOGY AND THE PROBLEM OF RESISTANCE ADAPTATION,1977.0,Physiology,,,,,119,123,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vestnik,2021-04-13,BIOSIS:PREV197967060968,0,0,LICAR P,J,Slovenian,SURFACE STRUCTURE OF THE HEPATO PANCREAS AND THE ORIGIN OF THE MID GUT IN ASELLUS-AQUATICUS-SSP ISOPODA ASELLOTA,1977.0,Developmental Biology; Gastroenterology & Hepatology; Anatomy & Morphology; Physiology,25,0520-1969,2,,129,138,,"LICAR P; BIOTEHN FAK, UNIV, P P 141/3, ASKERCEVA 12, LJUBLJANA 61001, YUGOSL, YUGOSLAVIA",Stereoscan electron microscopy revealed that the hepatopancreas in A. aquaticus ssp. resembles a corncob with 2 types of gland cells arranged in circles around the cob. There are articulated longitudinal structures between these cells. The irregular fiber network covering the gland cells and spaces between them is part of the myoepithelial cells. Transmission electron micrographs of the intestine close to the opening of the hepatopancreas show that the cuticula is well developed in the entire length of the gut; the whole intestine is probably of ectodermal origin.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ekologiya (Moscow),2021-04-13,BIOSIS:PREV197968003133,0,0,PASHKOVA I M,J,Russian,SEASONAL CHANGES IN THE THERMAL STABILITY OF MUSCLES AND ESTERASE ACTIVITY OF MUSCLE TISSUE IN WATER SLATERS,1977.0,Physiology; Environmental Sciences & Ecology; Biochemistry & Molecular Biology; Endocrinology & Metabolism,,0367-0597,6,,58,62,,"PASHKOVA I M; INST CYTOL, ACAD SCI USSR, LENINGRAD, USSR",Seasonal changes in thermal stability of muscles and levels of esterase activity in muscle tissue of water slaters [Asellus aquaticus] were observed. Time and amplitude of changes in animals coincided under natural and laboratory conditions. Thermal stability and esterase activity in muscle tissue were related to seasonal hormonal changes associated with reproduction. The latent period of muscle response to electrical stimulation in a 36.degree. C solution was used as a criterion of thermal stability.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Heredity,2021-04-13,BIOSIS:PREV197865046413,0,0,DI CASTRO M; PRANTERA G; MARCHETTI E; ROCCHI A,J,English,N BANDING AND NUCLEOLUS ORGANIZERS IN ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1977.0,Cell Biology; Genetics & Heredity; Physiology,39,0018-067X,2,,259,262,,"DI CASTRO M; CENT GENET EVOL, CNR, ROMA, ITALY",The N-banding technique was used to stain the nucleolus organizer [NO] of the karyotype of A. aquaticus. Observations were made on the morphological expression of NO as secondary constrictions and the presence of nucleoli in mitotic prophase. An attempt was made to correlate the various results and it seems likely that N-banding is not a reflection of NO activity.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mikrokosmos,2021-04-13,BIOSIS:PREV197814033531,0,0,BURWITZ P,J,English,AN UNUSUAL COLONY FORMATION OF THE ROTIFERA PHILODINA-MEGALOTROCHA,1977.0,Environmental Sciences & Ecology; Physiology; Life Sciences & Biomedicine - Other Topics,66,0026-3680,10,,293,294,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Polskie Archiwum Hydrobiologii,2021-04-13,BIOSIS:PREV197967018959,1,0,ZIMAKOWSKA-GNOINSKA D,J,English,TOXICOLOGICAL AND PHYSIOLOGICAL ASPECTS OF THE ACTION OF HERBICIDE SODIUM SALT OF 2 4-D ON ASELLUS-AQUATICUS ISOPODA,1977.0,"Endocrinology & Metabolism; Physiology; Neurosciences & Neurology; Environmental Sciences & Ecology; Public, Environmental & Occupational Health; Toxicology",24,0032-3764,3,,389,412,,"ZIMAKOWSKA-GNOINSKA D; DEP ECOL BIOENERG, INST ECOL, POL ACAD SCI, DZIEKANOW LESNY, 05-150 LOMIANKI, POL, POLAND","Sodium salt of 2,4-D 24 h-C50 [concentration causing paralysis in 50% of test animals] and 48 h-C50 concentrations, tested on A. aquaticus, were 1.07 and 0.53 g/l, respectively. An important aspect of this poison is its prolonged action: T coefficient of poison persistence is less than 1; the mortality of animals exposed to 0.17-5.00 mM solutions for 24 h and subsequently transferred to pure water was 100% after 150 days in pure water. The O2 consumption changes under the herbicide influence in different ways, being the highest in 5 mM solution. Herbicide causes the increased CO2 excretion, which was the highest in 5 mM solution.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Prirodovedne Prace Ustavu Ceskoslovenske Akademie Ved v Brne,2021-04-13,BIOSIS:PREV197764039032,0,0,TRNKOVA J,J,English,THE TOXIC ACTION OF ENDRIN ON AQUATIC INVERTEBRATES,1977.0,Developmental Biology; Endocrinology & Metabolism; Physiology; Toxicology,11,0032-8758,3,,1,32,,,"The toxicity of endrin in form of the preparation Endrin 20 Spolana was determined for 23 spp. of aquatic invertebrates from stagnant and running waters. Of the tested stagnant water species, Daphnia pulex was the most sensitive, showing the toxicity value LC50 (72 h) of 8 .cntdot. 10-9 mg/l at 20.degree. C.; Tubifex tubifex was the most resistant, with LC50 (72 h) of 21.11 mg/1 at 20.degree. C. Of the running water species, larvae of Caenis robusta were the most sensitive, with LC50 (72 h) of 1.1 .cntdot. 10-8 mg/l at 14.degree. C.; Planaria gonocephala was the most resistant, with LC50 (72 h) of 0.1 mg/l at 15.degree. C. Juvenile Asellus aquaticus at the age of 1 wk were more resistant than those at the age of 2-4 wk the LC50 values for juveniles at 5 mo. were of the same order of magnitude as those for adults. The sensitivity of larvae of Cloeon dipterum to endrin was inversely proportional to age. Pupae of Culex pipiens were 102 times more resistant than 4th instar larvae, and 104 times more resistant than 3rd instar larvae. The age of prepared emulsion of the toxicant, the temperature of the emulsion as well as the absence of substrate in the testing vessels may affect the experimental results. Endrin is accumulated in tissues of certain aquatic invertebrates in amounts up to 100 times higher than the concentration of the testing emulsion, and can persist in the tissues for up to 4 mo.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vyestsi Akademii Navuk BSSR Syeryya Biyalahichnykh Navuk,2021-04-13,BIOSIS:PREV197815012259,0,0,SARVIRO V S,J,English,DETERMINATION OF THE ECOLOGICAL OPTIMUM AND TEMPERATURE LIMITS OF THE TOLERANCE OF CRUSTACEANS,1977.0,Environmental Sciences & Ecology; Mathematical & Computational Biology; Physiology,2,0002-3558,,,115,118,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Hydrobiologie,2021-04-13,BIOSIS:PREV197763014095,0,0,DE SILVA P K,J,English,THE FACTORS AFFECTING THE FEEDING OF DENDROCOELUM-LACTEUM TURBELLARIA TRICLADIDA ON ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1976.0,Environmental Sciences & Ecology; Endocrinology & Metabolism; Nutrition & Dietetics; Physiology,77,0003-9136,3,,347,374,,,"Experiments were carried out to study the effect of various factors on feeding of D. lacteum on A. aquaticus. This prey was almost always easten in a proportion greater than that in various mixtures offered. The way in which numbers caught vary with relative sizes of prey and predator, with the nature of the substratum and with temperature, is examined.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vestnik,2021-04-13,BIOSIS:PREV197764021243,0,0,LICAR P,J,English,THE STOMACH MORPHOLOGY AND SIZE OF SOME TAXONS OF THE FAMILY ASELLIDAE ISOPODA ASELLOTA,1976.0,Gastroenterology & Hepatology; Physiology; Life Sciences & Biomedicine - Other Topics,24,0520-1969,1,,39,46,,,"The stomach of the Asellidae is quite uniform except for morphological differences of taxonomic value between Asellus and Proasellus [Asellus aquaticus aquaticus, A. a. cavernicolus, A. a. carniolicus, Proasellus istrianus, P. coxalis, P. deminutus, P. anopthalmus]. There are no functional differences among closely related but ecologically distant forms. Between body size and stomach size there is a highly significant regression correlation. A revision of certain stomach structures is necessary.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vestnik,2021-04-13,BIOSIS:PREV197865046400,0,0,LICAR P,J,Slovenian,THE STOMACH OF ASELLUS-AQUATICUS-SSP ISOPODA ASELLOTA AND ITS FILTRATION CAPABILITIES PRELIMINARY REPORT,1976.0,Gastroenterology & Hepatology; Anatomy & Morphology; Physiology,24,0520-1969,2,,209,218,,"LICAR P; BIOL ODD, BIOTEH FAK, UNIV INST BIOL, ASKERCEVA 12, PP 141/3, YU-61001 LJUBLJANA, YUGOSL, YUGOSLAVIA",Stereoscan analyses of cardiac stomach in A. aquaticus revealed new details in form and function of cardiac scraping plates and teeth on lateralia. Cardiac scraping plates are perforated with holes 1 .mu.m in diameter and probably serve as a primary filter - cardiac filter.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Decheniana,2021-04-13,BIOSIS:PREV197763031522,0,0,FRIEDRICH G; THOME K N,J,English,LIMNOLOGIC GEOLOGIC EXCURSION IN THE TERRITORY OF THE LOWER ERFT RIVER WEST GERMANY,1976.0,"Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Public, Environmental & Occupational Health",129,0366-872X,,,268,272,,,"The geography and hydrology of the area of the excursion are described. There is much damage due to brown coal strip mining operations. Ground water was drained through a canal leading to the Erft River. The water in nearby springs is rich in Fe which repels plant life. The canal contains only a few blue algae (Oscillatoria splendida) and filamentous green algae (Ulothrix tenerrima) which tolerate high Fe concentrations. The Erft shore plant population includes Sparganium erectum, Potamogeton natans, P. pectinatus and Ranunculus fluitans. On flowering plants and stones, diatoms, various green algae (Cladophora glomerata, Stigeoclonium tenue, Oedogonium capillare) and the tropical red alga Compsopogon hookeri were found. The macrozoobenthos is composed mainly of snails (Bithynia tenaculata, Lymnaea ovata, Physa fontinalis, P. acuta and worms of North American origin (Dugesia tigrina, Dendrocoelum lacteum and Planaria lugubris). The Isopoda included Asellus coxalis and A. aquaticus. Leeches (Herpobdella octoculata) and insect larvae (Chironomids, Limnephilids) were also found.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ekologia polska,2021-04-13,BIOSIS:PREV197764055717,0,0,PRUS T,J,English,EXPERIMENTAL AND FIELD STUDIES ON ECOLOGICAL ENERGETICS OF ASELLUS-AQUATICUS ISOPODA PART 1 ASSIMILABILITY OF LIPIDS PROTEINS AND CARBOHYDRATES,1976.0,Gastroenterology & Hepatology; Environmental Sciences & Ecology; Endocrinology & Metabolism; Nutrition & Dietetics; Physiology,24,0420-9036,3,,461,472,,,"Analysis was made of food and feces composition of A. aquaticus L. distinguishing ash, lipids, proteins, carbohydrates and lignin contents. Calculated percentages were applied to absolute values of consumption and defecation rates assessed earlier for various groups of these animals. Absolute values of components of assimilated food obtained by difference (C - F = A) were then expressed as percent of dry weight or ash-free dry weight. Efficiencies with which nutritional components of food were assimilated by various groups of these animals are also given.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV197662067184,0,0,ALEKSEEV V A; ANTIPIN B N,J,English,TOXICOLOGICAL CHARACTERISTICS AND SYMPTOM COMPLEX OF ACUTE PHENOL INTOXICATION OF CERTAIN FRESH WATER CRUSTACEANS AND MOLLUSKS,1976.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Physiology; Neurosciences & Neurology; Toxicology,12,0375-8990,2,,37,44,,,"Toxicological characters, LC100, LC50 and MTC (maximum tolerant concentration) are obtained for 20 spp. [Asellus aquaticus, Polyhemus pediculus, Daphnia longispina, D. pulex, Lynceus brachyurus, Bythotrephes longimanus, Acanthodiaptomus denticornis, Cyclops vicinus, Eudiaptomus gracilis, Cypris pubera, Physa fontinalis, Lymnaea stagnalis, Radix ovata, Viviparus viviparus, Bithynia tentaculata, Planorbis vortex, P. planorbis, Dreissena polymorpha, Anodonta complanata and Sphaerium corneum] of fresh-water crustaceans and mollusks. Resistance of the studied animals to toxins is explained as dependent on their morpho-physiological behavior and other peculiarities. In a symptom-complex of intoxication 5 main phases are distinguished in the development of the pathological process evoked by phenol intoxication, similar to those in other invertebrate species and typical of neuro-paralytic toxins.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,BIOSIS:PREV197662042151,0,0,SHPAK A D,J,English,REPRODUCTION AND PRODUCTION OF THE WATER SOW-BUG ASELLUS-AQUATICUS IN LAKE SHOGOYARVI RUSSIAN-SFSR USSR,1976.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Physiology; Life Sciences & Biomedicine - Other Topics,12,0375-8990,1,,104,105,,,"The reproduction of A. aquaticus in Lake Shogoyarvi [Karelian ASSR, Russian SFSR, USSR] began during the last 10 days of May at a water temperature of 8-10.degree.. Average fertility was 67 eggs, the egg incubation period was 14-16 days and the life cycle was 1 yr, 1 mo. The production/biomass coefficient was 2.5 for the vegetation period, and 3 for individuals completing a full life cycle.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiological Journal,2021-04-13,BIOSIS:PREV197815014130,0,0,ALEKSEYEV V A; ANTIPIN B N,J,English,TOXICOLOGICAL CHARACTERISTICS AND SYMPTOMS OF ACUTE PHENOL POISONING IN SOME FRESH WATER CRUSTACEANS AND MOLLUSKS,1976.0,"Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Public, Environmental & Occupational Health; Toxicology",12,0018-8166,2,,27,33,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiological Journal,2021-04-13,BIOSIS:PREV197713067630,0,0,SHPAK A D,J,English,REPRODUCTION AND PRODUCTION OF THE WATER SOW-BUG ASELLUS-AQUATICUS IN LAKE SHOGOYARVI,1976.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Reproductive Biology,12,0018-8166,1,,85,86,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,BIOSIS:PREV197662030465,0,0,FLOESSNER D,J,English,THE BIOMASS AND PRODUCTION OF THE MACRO BENTHOS OF THE MIDDLE COURSE OF THE SAALE RIVER EAST GERMANY,1976.0,Biochemistry & Molecular Biology; Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Life Sciences & Biomedicine - Other Topics,10,0075-9511,1,,123,153,,,"Quantitative studies on the macrobenthos of the Saale River at 6 localities between Eichicht and Grossheringen [East Germany] made from Feb.-Oct. 1971 and from March-Aug. 1972. Chironomidae predominated everywhere and Gammarus pulex was abundant between Eichicht and Fischersdorf; Herpodella octoculata, Asellus and Hydropsyche angustipennis were dominant in the lower, more polluted sections. Rheophilic insects were commonly only at Fischersdorf. Pollution with sewage reduced the number of species. The biomass was lowest in late winter and early spring and highest in mid-summer. The important productive species were G. pulex at Eichicht, G. pulex, Rhyacophila nubila and Hydropsyche sp. at Fischersdorf and H. octoculata, Asellus aquaticus, A. coxalis and H. angustipennis from Rothenstein to Grossheringen. Ancylus fluviatilis was also important at Maua.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vyestsi Akademii Navuk BSSR Syeryya Biyalahichnykh Navuk,2021-04-13,BIOSIS:PREV197713014342,0,0,NYAKHAYEVA T I,J,English,FEEDING OF THE TENCH IN THE SOLIGORSK RESERVOIR BELORUSSIAN-SSR USSR,1976.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology,1,0002-3558,,,84,85,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologisk Revy,2021-04-13,BIOSIS:PREV197662042160,0,0,STAAV R,J,English,AUTUMN FOOD HABITS OF MALLARDS IN AN ARTIFICIAL LAKE,1976.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Nutrition & Dietetics; Life Sciences & Biomedicine - Other Topics,38,,1,,11,18,,,"In a former watery pasture a small bird-lake of 16 ha was created through damming. The marsh is covered with plants over nearly 60% of the water surface. Less than 1/3 of the area is covered with free water. The important plants are Carex rostrata, C. vesicaria, C. pseudocyperus, C. acuta, Equisetum fluviatile, Sparganium ramosum, Utricularia vulgaris, Hippuris vulgaris, Alisma plantago aquatica, Potamogeton obtusifolius and Bidens tripartita. Many of these seeds were important foods for the ducks. An analysis was made of the contents of the foremost part of the alimentary canal. Contents of the throat (esophagus, crop and proventriculus) and gizzard were analyzed separately. The mallard is mostly a seedeater in autumn and seeds of the marsh and waterplants C. rostrata, Scirpus lacustris, S. ramosum and Potamogeton spp. were the most important. Among invertebrates Asellus aquaticus, Coleoptera and larvae of Trichoptera and Chironomidae were found in stomach contents. Mallards seem to change foods during the course of autumn. The most important food plants flower in early June-July and are eaten during the whole period. The availability of the seeds is probably of importance. A comparison between food supply and food habits of mallards in the lake shows that C. rostrata, which dominated the vegetation is also eaten to a considerable extent.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Fossils and Strata,2021-04-13,BIOSIS:PREV197713023528,1,0,MILLER J,J,English,STRUCTURE AND FUNCTION OF TRILOBITE TERRACE LINES,1975.0,Dermatology; Paleontology; Physiology; Life Sciences & Biomedicine - Other Topics,4,0300-9491,,,155,178,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,International Journal of Speleology,2021-04-13,BIOSIS:PREV197661060959,0,0,MAGNIEZ G,J,English,OBSERVATIONS ON THE BIOLOGY OF STENASELLUS-VIREI CRUSTACEA ISOPODA ASELLOTA OF SUBTERRANEAN WATERS,1975.0,Behavioral Sciences; Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Reproductive Biology; Life Sciences & Biomedicine - Other Topics,7,0392-6672,1-2,,79,228,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Vsesoyuznogo Nauchno-Issledovatel'skogo Instituta Prudovogo Rybnogo Khozyaistva,2021-04-13,BIOSIS:PREV197713018203,0,0,BOGATOVA I B; PECHNIKOVA N V,J,English,CULTIVATION OF ASELLUS-AQUATICUS IN THE ROPSHA FISH NURSERY OF THE LENINGRAD OBLAST USSR,1975.0,Endocrinology & Metabolism; Nutrition & Dietetics; Physiology; Biodiversity & Conservation,24,,,,86,89,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologica Poloniae,2021-04-13,BIOSIS:PREV197661008233,0,0,JAZDZEWSKI K; GONDKO R; ALIKHAN M A,J,English,A STUDY OF THE HEMOLYMPH PROTEIN PATTERN IN SOME AMPHIPOD AND ISOPOD SPECIES,1975.0,Biochemistry & Molecular Biology; Cardiovascular System & Cardiology; Environmental Sciences & Ecology; Physiology; Life Sciences & Biomedicine - Other Topics,25,0044-510X,1,,73,80,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annales Instituti Biologici (Tihany) Hungaricae Academiae Scientiarum,2021-04-13,BIOSIS:PREV197559053960,0,0,BIRO P,J,English,OBSERVATIONS ON THE FOOD OF EEL ANGUILLA-ANGUILLA IN LAKE BALATON HUNGARY,1974.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology; Biodiversity & Conservation,41,,,,133,152,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,BIOSIS:PREV197713056699,0,0,ROSSI L; FANO E A; VITAGLIANO TADINI G,J,English,RESEARCH ON THE RELATION BETWEEN SPECIES OF THE GENUS ASELLUS PART 2 PARENTAL INFLUENCE,1974.0,Developmental Biology; Physiology,57,0392-7881,1/2,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,BIOSIS:PREV197713031055,0,0,ROCCHI BRASIELLO A; DI CASTRO M,J,English,TRITIATED ACTINOMYCIN D BONDED TO NUCLEI OF SPERMATOGENESIS OF ASELLUS-AQUATICUS IN VARIOUSLY FIXED MATERIAL,1974.0,Endocrinology & Metabolism; Pharmacology & Pharmacy; Physiology; Reproductive Biology,41,0373-4137,4,,521,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Monitore Zoologico Italiano,2021-04-13,BIOSIS:PREV197559066532,0,0,VITAGLIANO TADINI G; CEAS M P; VALENTINO F; ROSSI L,J,English,LETHAL EFFECT ON ASELLUS-AQUATICUS CRUSTACEA ISOPODA EMBRYOS BY EXPOSURE TO ACTINOMYCIN D DURING GAMETOGENESIS,1974.0,Developmental Biology; Genetics & Heredity; Pharmacology & Pharmacy; Physiology,8,0026-9786,4,,189,204,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,"USHER, M. B. AND M. H. WILLIAMSON (ED.). ECOLOGICAL STABILITY. WORKSHOP. YORK, ENGLAND, JULY 17-18, 1973. XII+196P. ILLUS. HALSTED PRESS, A DIVISION OF JOHN WILEY AND SONS: NEW YORK, N.Y., U.S.A.; CHAPMAN AND HALL: LONDON, ENGLAND. ISBN 0-470-89648-5",2021-04-13,BIOSIS:PREV197511013001,0,0,LAWTON J H; BEDDINGTON J R; BONSER R,B,English,SWITCHING IN INVERTEBRATE PREDATORS,1974.0,Environmental Sciences & Ecology; Mathematical & Computational Biology; Nutrition & Dietetics,,,,,141,158,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Flora og Fauna,2021-04-13,BIOSIS:PREV197458059926,0,0,BLOCH D,J,English,STOMACH CONTENT OF DUCKS FROM THE NAKSKOV INDREFJORD GAME PRESERVE IN THE SUMMER OF 1970,1973.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Nutrition & Dietetics; Biodiversity & Conservation,79,0015-3818,2,,39,42,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Polskie Archiwum Hydrobiologii,2021-04-13,BIOSIS:PREV197410011754,0,0,IMHOF G,J,English,ASPECTS OF ENERGY FLOW BY DIFFERENT FOOD CHAINS IN A REED BED A REVIEW,1973.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology,20,0032-3764,1,,165,168,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Polskie Archiwum Hydrobiologii,2021-04-13,BIOSIS:PREV197458031680,0,0,ZIMAKOWSKA D,J,English,EFFECTS OF 2 4-D SODIUM OF VARIOUS CONCENTRATIONS ON RESPIRATION OF AN AQUATIC CRUSTACEAN ASELLUS-AQUATICUS,1973.0,Endocrinology & Metabolism; Environmental Sciences & Ecology; Physiology; Respiratory System; Toxicology,20,0032-3764,3,,469,473,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,"SLADECEK, V. (ED.). INTERNATIONALE VEREINIGUNG FUER THEORETISCHE UND ANGEWANDTE LIMNOLOGIE VERHANDLUNGEN. PROCEEDINGS OF THE INTERNATIONAL ASSOCIATION OF THEORETICAL AND APPLIED LIMNOLOGY, VOL. 18. PART 3. CONGRESS IN USSR 1971. 1889P. ILLUS. MAPS. PUBLISHING HOUSE NAUKA, LENINGRAD BRANCH: LENINGRAD, USSR",2021-04-13,BIOSIS:PREV197511048881,0,0,KLEKOWSKI R Z,B,English,NEW FINDINGS IN THE AREA OF BIO ENERGETICS AND THE PHYSIOLOGICAL ECOLOGY OF AQUATIC ANIMALS,1973.0,Environmental Sciences & Ecology; Endocrinology & Metabolism; Physiology; Toxicology,,,,,1594,1609,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologicke Listy,2021-04-13,BIOSIS:PREV197559001260,0,0,PELLANTOVA J,J,English,THE FOOD OF THE NEWT TRITURUS-VULGARIS IN SOUTHERN MORAVIA,1973.0,Gastroenterology & Hepatology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Nutrition & Dietetics; Physiology,22,0044-5142,4,,329,340,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,BIOSIS:PREV197309025196,0,0,MINELLI A; BOLELLI C,J,English,THE CONTROL OF SYMMETRY IN THE MORPHOGENESIS OF CEPHALIC APPENDICES OF ASELLUS-AQUATICUS,1972.0,Developmental Biology; Physiology,38,0373-4137,4,,540,541,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,BIOSIS:PREV197309025237,0,0,VITAGLIANO TADINI G; VALENTINO F; AMADORI S; VITAGLIANO E,J,English,REGULATION MECHANISMS OF POPULATION DENSITY IN AN ENVIRONMENT CHANGING PERIODICALLY,1972.0,Environmental Sciences & Ecology; Genetics & Heredity; Life Sciences & Biomedicine - Other Topics,38,0373-4137,4,,568,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin de la Societe Zoologique de France,2021-04-13,BIOSIS:PREV197356002868,0,0,HENRY J-P,J,English,A STUDY ON THE CHROMOSOME CONSTITUTION OF ASELLIDAE CRUSTACEA ISOPODA,1972.0,Cell Biology; Genetics & Heredity; Life Sciences & Biomedicine - Other Topics,97,0037-962X,2,,119,131,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Entomologische Abhandlungen (Dresden),2021-04-13,BIOSIS:PREV197559020731,0,0,ENGELMANN H-D,J,English,A LIGHT TRAP FOR CATCHING INSECTS UNDER WATER,1972.0,Instruments & Instrumentation; Marine & Freshwater Biology; Environmental Sciences & Ecology; Life Sciences & Biomedicine - Other Topics,39,0373-8981,4,1972-1973,243,246,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Journal of the Zoological Society of India,2021-04-13,BIOSIS:PREV197457055102,0,0,TIWARI K K; RAM L,J,English,THE FORE GUT OF NICHOLLSIA-KASHIENSE CRUSTACEA ISOPODA PHREATOICOIDEA,1972.0,Gastroenterology & Hepatology; Anatomy & Morphology; Nutrition & Dietetics; Physiology,24,0049-8769,1,,69,79,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Oesterreichische Akademie der Wissenschaften Mathematisch-Naturwissenschaftliche Klasse Sitzungsberichte Abteilung I,2021-04-13,BIOSIS:PREV197457030445,0,0,LICHTENBERG R,J,English,HYDROBIOLOGICAL INVESTIGATIONS OF A BRICK POOL SOUTH OF VIENNA AUSTRIA HALLATEICH,1972.0,"Developmental Biology; Marine & Freshwater Biology; Environmental Sciences & Ecology; Public, Environmental & Occupational Health; Agriculture",180,0029-8808,8-10,,279,316,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Polskie Archiwum Hydrobiologii,2021-04-13,BIOSIS:PREV197355020111,0,0,PRUS T,J,English,ENERGY REQUIREMENT EXPENDITURE AND TRANSFORMATION EFFICIENCY DURING DEVELOPMENT OF ASELLUS-AQUATICUS CRUSTACEA ISOPODA,1972.0,Environmental Sciences & Ecology; Endocrinology & Metabolism; Physiology,19,0032-3764,1,,97,112,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,"ALVARADO, R., E. GADEA AND A. DE HARO (ED.). ACTA SALMANTICENSIA. IUSSU SENATUS UNIVERSITATIS EDITA. CIENCIAS, 36. ACTAS DEL I SIMPOSIO INTERNACIONAL DE ZOOFILOGENIA. (SALAMANCA, 13-17 OCTUBRE 1969). (PROCEEDINGS OF THE 1ST INTERNATIONAL SYMPOSIUM ON ZOOPHYLOGENY. (SALAMANCA, 13-17 OCTOBER, 1969). 492P. ILLUS. MAP. UNIVERSIDAD DE SALAMANCA: SALAMANCA, SPAIN",2021-04-13,BIOSIS:PREV197208064934,0,0,MONTALENTI G,B,English,THE EFFECT OF NATURAL SELECTION AS A FACTOR IN ADAPTION AND EVOLUTION,1971.0,Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity; Hematology,,,,,387,394,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annales de Parasitologie Humaine et Comparee,2021-04-13,BIOSIS:PREV197457026497,0,0,PETTER A-J,J,English,RE DESCRIPTION OF HEDRURIS-ANDROPHORA NEMATODA HEDRURIDAE AND STUDY OF ITS DEVELOPMENT IN THE INTERMEDIATE HOST,1971.0,Developmental Biology; Parasitology; Physiology; Life Sciences & Biomedicine - Other Topics,46,0003-4150,4,,479,495,,,,,,,,,,,,,,,,,,,,,,5168527.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Doklady Biological Sciences,2021-04-13,BIOSIS:PREV197309034395,0,0,USHAKOV B P; MILANOVIC M; HADZISCE S,J,English,TISSUE HEAT TOLERANCE OF PLANARIANS AND ASELLIDS OF LAKE OHRID IN YUGOSLAVIA,1971.0,Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology,199,0012-4966,1-6,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Experimental Cell Research,2021-04-13,BIOSIS:PREV197355020069,0,0,BRASIELLO A R,J,English,PROTEIN SYNTHESIS DURING SPERMATOGENESIS OF ASELLUS-AQUATICUS,1971.0,Cell Biology; Endocrinology & Metabolism; Physiology; Reproductive Biology,67,0014-4827,2,,279,286,,,,,,,,,,,,,,,,10.1016/0014-4827(71)90410-1,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Embryologiae Experimentalis,2021-04-13,BIOSIS:PREV197107069637,0,0,MONTALENTI G,J,English,ANOMALOUS DEVELOPMENT OF EGGS FERTILIZED BY SPERM TREATED WITH ACTINOMYCIN D DURING SPERMATOGENESIS,1970.0,Developmental Biology; Physiology; Reproductive Biology; Toxicology,2,0065-1184,,,193,194,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Blyttia,2021-04-13,BIOSIS:PREV197152047240,0,0,OKLAND K A,J,English,MYRIOPHYLLUM-VERTICILLATUM-D FOUND IN FINNMARK NORTH NORWAY AND SOME OTHER FINDS OF AQUATIC PLANTS FROM NORWAY,1970.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology,28,0006-5269,3,,147,158,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annales Instituti Biologici (Tihany) Hungaricae Academiae Scientiarum,2021-04-13,BIOSIS:PREV197152061310,0,0,PONYI J; BIRO K; P-ZANKAI N,J,English,ON SOME PROPERTIES OF THE EXO PEPTIDASE OF GAMMARUS-RIVULOGAMMARUS-ROESELI AMPHIPODA AND ASELLUS-AQUATICUS ISOPODA,1969.0,Biochemistry & Molecular Biology; Gastroenterology & Hepatology; Physiology,36,,,,223,228,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,"ANON. GIDROBIOL. I RYBN. X-VO VNUTREN. VODOEMOV PRIBALTIKI. (HYDROBIOLOGY AND THE FISHING INDUSTRY OF THE INLAND WATERS OF THE BALTIC COUNTRIES.) VALGUS: TALLIN, USSR. FROM REF ZH BIOL 1969 NO. 12",2021-04-13,BIOSIS:PREV197006066545,0,0,TIMM V,B,English,THE POSSIBILITY OF REARING ASELLUS-AQUATICUS,1969.0,Physiology; Biodiversity & Conservation,,,,,FROM,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,BIOSIS:PREV197051104781,0,0,TADINI G V; VALENTINO F,J,English,EFFECT OF ACTINOMYCIN D ON THE INTERRUPTION OF THE REPRODUCTIVE STASIS IN ASELLUS-AQUATICUS PRELIMINARY NOTE,1969.0,Physiology; Pharmacology & Pharmacy; Reproductive Biology,46,0392-7881,2,,217,220,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Caryologia,2021-04-13,BIOSIS:PREV197051104785,0,0,BRASIELLO A R; TADINI G V,J,English,AUTO RADIOGRAPHIC STUDY OF SPERMATOGENESIS IN ASELLUS-AQUATICUS DURING REPRODUCTIVE STASIS,1969.0,"Cell Biology; Physiology; Radiology, Nuclear Medicine & Medical Imaging; Reproductive Biology",22,0008-7114,4,,323,330,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Institute of Freshwater Research Drottningholm Report,2021-04-13,BIOSIS:PREV197152043406,0,0,ANDERSSON E,J,English,LIFE CYCLE AND GROWTH OF ASELLUS-AQUATICUS WITH SPECIAL REFERENCE TO THE EFFECTS OF TEMPERATURE,1969.0,Environmental Sciences & Ecology; Life Sciences & Biomedicine - Other Topics,,0082-0032,49,,5,26,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Internationale Vereinigung fuer Theoretische und Angewandte Limnologie Verhandlungen,2021-04-13,BIOSIS:PREV197006074386,0,0,HYNES H B N; KAUSHIK N K,J,English,THE RELATIONSHIP BETWEEN DISSOLVED NUTRIENT SALTS AND PROTEIN PRODUCTION IN SUBMERGED AUTUMNAL LEAVES,1969.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Endocrinology & Metabolism; Nutrition & Dietetics; Physiology,17,0368-0770,PART 1,,95,103,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vestnik Ceskoslovenske Spolecnosti Zoologicke,2021-04-13,BIOSIS:PREV197051040669,0,0,FLASAROVA M,J,English,THE MORPHOLOGY OF THE STOMACH OF ASELLUS-AQUATICUS AND JAERA-ALBIFRONS ISOPODA ASELLOTA,1969.0,Gastroenterology & Hepatology; Anatomy & Morphology; Physiology,33,0042-4595,3,,214,222,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Science of the Total Environment,2021-04-13,CABI:20183314973,1,1,"Oliveira, P. C. dos R.; Kraak, M. H. S.; Geest, H. G. van der; Naranjo, S.; Verdonschot, P. F. M.",J,English,Sediment composition mediated land use effects on lowland streams ecosystems.,2018.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Food Science & Technology; Forestry; Biodiversity & Conservation; Water Resources (provided by Clarivate Analytics),631/632,0048-9697,,,,,agricultural land; aquatic environment; aquatic organisms; benthos; carbon; carbon-nitrogen ratio; characterization; composition; deposition; ecosystems; effects; food quality; forests; indexes; land use; mortality; nitrogen; oxygen; ratios; reproduction; requirements; respiration; runoff; sediment; streams,"FAME - Freshwater and Marine Ecology, Institute for Biodiversity and Ecosystem Dynamics, University of Amsterdam, P.O. Box 94248, 1090 GE Amsterdam, Netherlands.","Despite the widely acknowledged connection between terrestrial and aquatic ecosystems, the contribution of runoff to the sediment composition in lowland stream deposition zones and the subsequent effects on benthic invertebrates remain poorly understood. The aim of this study was therefore to investigate the mechanisms by which runoff affects sediment composition and macroinvertebrates in deposition zones of lowland stream ecosystems. To this end, sediment from runoff and adjacent instream deposition zones from streams with different land use was chemically characterized and the biological effects were assessed at the species, community and ecosystem level. Runoff and deposition zone sediment composition as well as biological responses differed clearly between forest and agricultural streams. The stream deposition zone sediment C/N ratio reflected the respective runoff sediment composition. Deposition zones in the forest stream had a higher C/N ratio in comparison to the agricultural streams. Growth of Hyalella azteca and reproduction of Asellus aquaticus were higher on forest stream sediment, whereas chironomids and worms suffered less mortality on the agricultural sediments containing only natural food. The forest stream deposition zones showed higher values for indices indicative of biological integrity and had a lower sediment oxygen demand. We concluded that agricultural land use affects lowland stream ecosystem deposition zones at the species, community and ecosystem level via altered food quality (C/N ratio) and higher oxygen demand of the sediment.",Elsevier Ltd,,,"Oxford, UK",,,,,,,,,10.1016/j.scitotenv.2018.03.010,,,p.c.dosreisoliveira@uva.nl,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Environmental Toxicology and Chemistry,2021-04-13,CABI:20173351261,0,0,"Brink, P. J. van den; Klein, S. L.; Rico, A.",J,English,"Interaction between stress induced by competition, predation, and an insecticide on the response of aquatic invertebrates.",2017.0,Toxicology; Chemistry; Environmental Sciences & Ecology; Marine & Freshwater Biology; Behavioral Sciences; Nutrition & Dietetics; Agriculture; Infectious Diseases; Veterinary Sciences (provided by Clarivate Analytics),36,0730-7268,9,,,,aquatic animals; aquatic invertebrates; aquatic organisms; cannibalism; chlorpyrifos; ecology; effects; environment; grazing; insecticides; interactions; natural enemies; pesticides; population structure; predation; predators; stress; stress conditions; survival; toxicology,"Department of Aquatic Ecology and Water Quality Management, Wageningen University and Research Centre, Wageningen University, Wageningen, Netherlands.","The present study investigated the effects of species interactions like competition and (intraguild) predation on the sensitivity of aquatic organisms to the insecticide chlorpyrifos. In the first experiment, combined effects of chlorpyrifos and different levels of intraspecific and interspecific interaction were assessed on Gammarus pulex survival using Asellus aquaticus as an interacting species. Intraspecific and interspecific interactions increased the time to extinction of G. pulex up to a factor of 2, most likely because of the cannibalistic nature of G. pulex and its intraguild predation on A. aquaticus under stress conditions. In the second experiment, combined effects of chlorpyrifos and intraspecific and interspecific interaction were assessed on Daphnia pulex abundance using Brachionus calyciflorus as a competing species and Chaoborus sp. larvae as a predator. Intraspecific and interspecific interactions significantly affected the D. pulex population structure, but they did not influence the total population size. Predation decimated D. pulex abundance; however, interacting effects of predation and chlorpyrifos exposure were less noticeable at high exposure concentrations because of the reduced predatory efficiency of Chaoborus sp. larvae. The present study shows that species interactions do not always increase the vulnerability of aquatic populations to chemical stress and that some interactions (e.g., cannibalism and intraguild predation) or reduced predator grazing pressure can alleviate competition and predation stress on population-level insecticide effects under food-limiting conditions.",Wiley,26 ref.,,"Boston, USA",,,,,,,,,10.1002/etc.3788,,,paul.vandenbrink@wur.nl,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Ecotoxicology and Environmental Safety,2021-04-13,CABI:20153268920,0,0,"Arco, A. I. del; Parra, G.; Rico, A.; Brink, P. J. van den",J,English,Effects of intra- and interspecific competition on the sensitivity of aquatic macroinvertebrates to carbendazim.,2015.0,Chemistry; Environmental Sciences & Ecology; Toxicology; Zoology (provided by Clarivate Analytics),120,0147-6513,,,,,aquatic animals; aquatic organisms; carbendazim; competitive ability; fungicides; growth; mortality; nontarget effects; predation; risk assessment; survival,"Department of Plant Biology, Animal Biology and Ecology, Jaen University, B3-078 Campus de las Lagunillas s/n, 23071 Jaen, Spain.","The Ecological Risk Assessment of pesticides and other potentially toxic chemicals is generally based on toxicity data obtained from single-species laboratory experiments. In the field, however, contaminant effects are ubiquitously co-occurring with ecological interactions such as species competition and predation, which might influence the sensitivity of the individuals exposed to toxicants. The present experimental study investigated how intra- and interspecific competition influence the response of sensitive aquatic organisms to a pesticide. For this, the effects of the fungicide carbendazim were assessed on the mortality and growth of the snail Bithynia tentaculata and the crustacean Gammarus pulex under different levels of intraspecific and interspecific competition for a food resource. Interspecific competition was created by adding individuals of Radix peregra and Asellus aquaticus, respectively. The interaction of competition and carbendazim exposure significantly influenced B. tentaculata growth, however, combined effects on survival and immobility were considered transient and were less easily demonstrated. Positive influence of competition on G. pulex survival was observed under low-medium carbendazim concentrations and under medium-high density pressures, being partly related to cannibalistic and predation compensatory mechanisms, enhanced under food limiting conditions. This study shows that intra- and interspecific competition pressure may influence the response of sensitive aquatic organisms in a more complex way (positive, non-significant and negative effects were observed) than just increasing the sensitivity of the studied species, as has generally been hypothesized.",Elsevier,,,"Amsterdam, Netherlands",,,,,,,,,10.1016/j.ecoenv.2015.05.001,,,aarco@ujaen.es,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Limnological Review,2021-04-13,CABI:20143192064,5,0,"Rzymski, P.; Klimaszyk, P.; Kubacki, T.; Poniedzialek, B.",J,English,The effect of glyphosate-based herbicide on aquatic organisms - a case study.,2013.0,Plant Sciences; Chemistry; Environmental Sciences & Ecology; Toxicology; Marine & Freshwater Biology; Water Resources; Zoology (provided by Clarivate Analytics),13,1642-5952,4,,,,aquatic animals; aquatic organisms; aquatic plants; aquatic weeds; detection; GC-MS; glyphosate; herbicide residues; herbicides; nontarget effects; nontarget organisms; polluted water; water pollution; water quality; weeds,"Department of Biology and Environmental Protection, Poznan University of Medical Sciences, Rokietnicka 8, 60-806 Poznan, Poland.","The non-selective, post-emergence herbicides based on glyphosate [N-(phosphonomethyl) glycine] are one of the most widely used pesticides in agriculture, urban areas and forestry. Although there has been documentation on the physical, chemical and toxicological properties of glyphosate, the aquatic toxicity of such formulations still requires assessment and evaluation. In the present study, we describe deliberate use of glyphosate-based herbicide in a bathing area of Lake Lednica (Wielkopolska, Poland) by unknown perpetrators in April, 2011. Glyphosate was detected using gas chromatography mass spectrometry (GC-MS) in the water samples collected from the bathing area at a mean concentration of 0.09 mg dm-3. Aboveground parts of emerged macrophytes (Phragmites australis and Typha latifolia) covering the investigated area were completely withered. Studies of benthic macroinvertebrates revealed no significant differences in taxa number between event (13 taxa) and control (14 taxa) sites although differences in abundance of particular taxa were observed. Significantly lower numbers of Chironomidae (by 41%), Oligochaeta (by 43%), Vivipariae (by 75%), Hirudinae (by 75%), Asellus aquaticus (by 77%), Gammarus pulex (by 38%) and Dreissena polymorpha (by 42%) were found at the glyphosate-treated site. Furthermore, compared to the control, chironomids (Chironomidae) exposed to glyphosate were represented by specimens smaller in length while A. aquaticus only showed large adults. The ranges of glyphosate concentration in the tissues of sampled macroinvertebrates and Phragmites australis organs were 7.3-10.2 g kg-1 and 16.2-24.7 g kg-1, respectively. Our study indicates that glyphosate-based herbicides may have adverse effects on aquatic organisms including macroinvertebrates, thus their use in (or nearby) surface waters should be subject to strict limitation.",De Gruyter Open,29 ref.,,"Warsaw, Poland",,,,,,,,,,,,rzymskipiotr@ump.edu.pl,,,,,,,Other Gold,,,,,,,,,,,,,,,,,,,,,,,
Thesis,"Activated carbon in sediment remediation: benefits, risks and perspectives",2021-04-13,CABI:20133054981,0,0,"Kupryianchyk, D.",B,English,"Activated carbon in sediment remediation: benefits, risks and perspectives.",2013.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Water Resources (provided by Clarivate Analytics),,,,,,,activated carbon; aquatic animals; aquatic communities; aquatic environment; aquatic invertebrates; aquatic organisms; aromatic hydrocarbons; benthos; granules; growth; locomotion; mass transfer; mortality; plankton; polluted water; polychlorinated biphenyls; polycyclic hydrocarbons; remediation; risk; sediment; ventilation; water pollution; water quality; zooplankton,"Wageningen University, Wageningen, Netherlands.","This thesis aims to explore the effect of activated carbon (AC) application on hydrophobic organic compound (HOC) exposure and toxicity reduction for benthic species and communities, and to bridge the gap between laboratory and field settings for AC remediation. Chapter 2 reviews the current state-of-the-art for the use of AC as an extensive method for sediment remediation, covering both technical and ecological angles. A conceptual framework to assess affinity constants for (HOC) sorption to black carbon (BC) and AC is provided in Chapter 3. In Chapter 4, effects of three different sediment treatment with AC, viz. powdered AC addition, granular AC addition and subsequent removal of granular AC (sediment stripping), on PCB pore water concentrations, sediment-to-water fluxes, and mass transfer coefficients, are assessed. Chapter 5 provides data on effects of AC addition on locomotion and ventilation, sediment avoidance, mortality, and growth of two benthic species, Gammarus pulex and Asellus aquaticus, in clean versus polycyclic aromatic hydrocarbons (PAH) contaminated sediment. In Chapter 6, a conceptual model to quantify the trade off between the advantageous and the disadvantageous effects of AC on populations of benthic species of different sensitivity is presented. Further, the long-term effects of AC application on benthic communities are investigated by evaluating the recolinization of benthic communities in Chapter 7. In Chapter 8, the effects of three different AC treatments, viz., powdered AC addition, granular AC addition, and addition and subsequent removal of granular AC (sediment stripping, on PAHs) and polychlorinated biphenyl (PCBs) concentrations in pore water, benthic invertebrates, zooplankton and fish (Leuciscus idus melanotus) are investigated. Finally, Chapter 9 summarizes all benefits and risks associated with AC application, evaluates alternatives for the remediation of contaminated sediments, and gives an outlook and recommendations for future studies.",Wageningen Universiteit (Wageningen University),many ref.,,"Wageningen, Netherlands",,,,,,,,,,,,,,,,,,,,,,,,,,,978-94-6173-431-0,,,,,,,,,,,,,,,
Bulletin,Alterra-rapport - Wageningen University and Research Centre,2021-04-13,CABI:20123324044,0,0,"Roessink, I.; Fait, G.; Belgers, J. D. M.; Boerwinkel, M. C.",J,Dutch,Possible effects of medicines in effluent on aquatic organisms.Mogelijke effecten van geneesmiddelen in effluent op aquatische organismen.,2012.0,Reproductive Biology; Zoology; Toxicology; Chemistry; Environmental Sciences & Ecology (provided by Clarivate Analytics),,1566-7197,2338,,,,aquatic animals; aquatic organisms; aquatic plants; aquatic weeds; drug residues; drugs; population dynamics; sulfamethoxazole; wastewater; water pollution; weeds,,"The effects of medicine [drug] residues in waste water effluents from the Dutch watershed of Regge and Dinkel on populations of 5 groups of aquatic organisms was investigated for 8 weeks in a laboratory experiment. Within 2 weeks approximately 59% of residues had disappeared. Drug residues were not persistent except for sulfamethoxazole and biphenol A. No growth or developmental effects were found in populations of water fleas (Daphnia magna), waterlice (Asellus aquaticus), blackworms (Lumbriculus variegatus), freshwater snails (Physella sp.) and waterweed (Elodea canadensis). Population densities increased, probably due to greater food availability in the effluent.",LEI Wageningen UR,29 ref.,,"Den Haag, Netherlands",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book chapter; Conference paper,"Ecohydrology of surface and groundwater dependent systems: concepts, methods and recent developments. Proceedings of Symposium JS.1 at the Joint Convention of the International Association of Hydrological Sciences (IAHS) and the International Association of Hydrogeologists (IAH) held in Hyderabad, India, 6-12 September 2009",2021-04-13,CABI:20103145264,0,0,"Obolewski, K. T.; Glinska-Lewczuk, K.; Kobus, S.",B,English,"The effect of flow on the macrozoobenthos structure in a re-opened oxbow lake: a case study of the Slupia River, northern Poland.",2009.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Water Resources (provided by Clarivate Analytics),,,,,,,aquatic animals; aquatic invertebrates; aquatic organisms; benthos; biodiversity; biomass; freshwater ecology; freshwater invertebrates; human activity; lakes; rivers; spatial distribution; species diversity; species richness; stream flow,"Department of Land Reclamation and Environmental Management, University of Warmia and Mazury, Plac Lodzki 2, 10-756 Olsztyn, Poland.","This study focuses on the assessment of relationships between flow and macrozoobenthos structure that was performed in a re-opened oxbow lake, Osokowy Staw, located near the Slupia River, northern Poland. Macrozoobenthos samples were taken between 1999 and 2005 at six sampling sites near the shore and four in the middle of the water body. In July 2000 the Osokowy Staw was re-opened and connected with the river through PVC pipes which enabled free water inflow and outflow. After re-opening, macrozoobenthos density increased from 99 to 659 individuals m-2 and the wet biomass from 0.03 to 73.1 g wet weight m-2, although these increases were not statistically insignificant. In the closed Osokowy Staw the dominant species was Asellus aquaticus. After re-opening it was replaced by bivalves and Chironomidae larvae (during the first year) and then, in 2005, A. aquaticus became the most abundant again. The number of taxa increased from four in the closed water body to 17 during the first year after re-opening and 14 in the next year. The Shannon biodiversity index also increased from H′=0.35 (in 1999) to H′=1.5 (in 2005). Revitalization processes of the re-opened oxbow lake were connected with the qualitative and quantitative recolonization by riverine macrozoobenthos.",IAHS Press,30 ref.,,"Wallingford, UK",,,,,,,,,,,,obolewsk@apsl.edu.pl,"GLINSKA-LEWCZUK, KATARZYNA/0000-0002-7845-6353",,,,,,,"Ecohydrology of surface and groundwater dependent systems: concepts, methods and recent developments. Proceedings of Symposium JS.1 at the Joint Convention of the International Association of Hydrological Sciences (IAHS) and the International Association of Hydrogeologists (IAH) held in Hyderabad, India, 6-12 September 2009.",,,,,,,978-2-902503-99-2,,"Thoms, M.; Heal, K.; Bogh, E.; Chambel, A.; Smakhtin, V.",,,,,,,,,,,,,
Journal article,Environmental Science & Technology,2021-04-13,CABI:20093312156,0,0,"Brooks, A. C.; Gaskell, P. N.; Maltby, L. L.",J,English,Importance of prey and predator feeding behaviors for trophic transfer and secondary poisoning.,2009.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Zoology; Physiology; Behavioral Sciences; Toxicology (provided by Clarivate Analytics),43,0013-936X,20,,,,aquatic animals; aquatic organisms; behaviour; contaminants; diet; feeding; feeding behaviour; mode of action; natural enemies; poisoning; predation; predators; prey; risk assessment; sediment; toxicity; water pollution,"Department of Animal & Plant Sciences, The University of Sheffield, Western Bank, Sheffield S10 2TN, UK.","Hydrophobic contaminants accumulate within aquatic sediments, hence pelagic predators may have limited direct contact with such compounds, but can be exposed via their benthic prey (i.e., via dietary exposure). Here we examine the importance of feeding behaviors of both prey (sediment ingesters or noningesters) and predators (piercers or engulfers) in determining the extent of dietary exposure and toxic effects. A freshwater macroinvertebrate system was used, consisting of two predator species, a piercer (Notonecta glauca) and an engulfer (Ischnura elegans), and three prey species, a sediment noningester (Cloeon dipterum) and two sediment ingesters (Asellus aquaticus, Chironomus riparius). Predators were fed prey previously exposed to artificial sediment dosed with 30 g/g of 14C benzophenone. The piercer predator accumulated more benzophenone from sediment ingester compared to sediment noningester prey, whereas the engulfer predator accumulated a similar concentration for all three prey species. Toxic effects, in terms of reduced feeding rate, were only observed with the engulfer feeding on sediment noningesters, probably due to the interaction between the narcotic mode of action of benzophenone and predator hunting strategy. The importance of dietary exposure in risk assessments may therefore depend on exposure pathways of prey, feeding behaviors of predators, and the contaminant's toxic mode of action.",American Chemical Society,,,"Washington, USA",,,,,,,,,10.1021/es900747n,,,l.maltby@sheffield.ac.uk,"Maltby, Lorraine/0000-0003-3817-4033","Maltby, Lorraine/A-6702-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Environmental Pollution,2021-04-13,CABI:20093309068,0,0,"Lange, H. J. de; Griethuysen, C. van; Koelmans, A. A.",J,English,"Sampling method, storage and pretreatment of sediment affect avs concentrations with consequences for bioassay responses.",2008.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Water Resources; Agriculture (provided by Clarivate Analytics),151,0269-7491,1,,,,aquatic organisms; benthos; bioassays; characteristics; contamination; fresh water; metals; pollution; pretreatment; responses; sampling; sediment; toxicity; trace elements,"Aquatic Ecology and Water Quality Management Group, Wageningen University, Wageningen University and Research Centre, P.O. Box 8080, 6700 DD, Wageningen, Netherlands.","Sediment treatment and sediment storage may alter sediment toxicity, and consequently biotic response. Purpose of our study was to combine these three aspects (treatment-toxicity-biotic response) in one integrated approach. We used Acid Volatile Sulfide (AVS) concentrations as a proxy of the disturbance of the sediment. AVS and Simultaneously Extracted Metal (SEM) concentrations were compared to bioassay responses with the freshwater benthic macroinvertebrate Asellus aquaticus. Storage conditions and sediment treatment affected AVS but not SEM levels. AVS can be used as a proxy for sediment disturbance. The best way to pretreat the sediment for use in a bioassay in order to maintain initial AVS conditions was to sample the sediment with an Ekman grab, immediately store it in a jar without headspace, and freeze it as soon as possible. In a survey using seven different sediments, bioassay responses of A. aquaticus were correlated with SEM and AVS characteristics. Change in AVS is a good proxy for sediment disturbance and combined with SEM it can be used as a suitable predictor for biotic effects of sediment contamination.",Elsevier,,,"Oxford, UK",,,,,,,,,10.1016/j.envpol.2007.01.052,,,marieke.delange@wur.nl,"Koelmans, Albert/0000-0001-7176-4356",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Science of the Total Environment,2021-04-13,CABI:20083317360,0,0,"Jonge, M. de; Vijver, B. van de; Blust, R.; Bervoets, L.",J,English,Responses of aquatic organisms to metal pollution in a lowland river in Flanders: a comparison of diatoms and macroinvertebrates.,2008.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Water Resources (provided by Clarivate Analytics),407,0048-9697,1,,,,ammonium; aquatic animals; aquatic communities; aquatic environment; aquatic organisms; aquatic plants; biological indicators; cadmium; chloride; conductivity; environmental factors; heavy metals; pH; phosphate; physicochemical properties; polluted water; sediment; water pollution; water quality; zinc,"Department of Biology, Ecophysiology, Biochemistry and Toxicology Group, University of Antwerp, Groenenborgerlaan 171, B-2020 Antwerp, Belgium.","The role of macroinvertebrates and diatoms as indicator for metal pollution was investigated by assessing both biota along a metal gradient in the Belgian river the Dommel. Macroinvertebrates and diatoms were sampled in summer and winter and physical-chemical characteristics of the water were measured at four different sample periods and related to sediment characteristics. Although metal concentrations, except cadmium, in the water nowhere exceeded water quality standards, high metal concentrations were measured in the sediment, indicating historical contamination of the Dommel. At the sites that were situated downstream of the pollution source, high levels of conductivity and chloride were measured in the water. Redundancy Analysis (RDA) indicated pH, phosphate and zinc as the significant environmental variables explaining each respectively 7.7%, 11.6% and 22.6% of the macroinvertebrate community composition. Two clusters could be separated, with Gammarus pulex, Leptocerus interruptus, Baetis rhodani and Cloeon dipterum associated with low zinc concentrations and Tubificidae, Asellus aquaticus, Erpobdella sp. and Chironomus thummi-plumosus associated with higher zinc concentrations. Ammonium (10.6%), conductivity (16.5%), chloride (11.4%) and zinc (5.9%) turned out to be significant variables explaining the diatom community structure. Based on physical-chemical differences and species composition, three different groups could be separated. With this Tabellaria flocculosa and Fragilaria capucina var. rumpens were associated with low metal concentrations, Gomphonema parvulum and Nitzschia palea with elevated concentrations and Eolimna minima and Sellaphora seminulum with high zinc concentrations. In conclusion, the diatom community best reflected the metal gradient. With regard to water quality indices, those based on macroinvertebrates best followed the metal pollution gradient and were most strongly correlated with physical-chemical variables of water and sediment. This study indicated that to assess the effect of metal pollution in lowland rivers, the combined use of macroinvertebrates and diatoms is more appropriate than the use of both biota separately.",Elsevier,47 ref.,,"Amsterdam, Netherlands",,,,,,,,,10.1016/j.scitotenv.2008.07.020,,,maarten.dejonge@ua.ac.be,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Environmental Toxicology and Chemistry,2021-04-13,CABI:20073221710,0,0,"Brink, P. J. van den; Baveco, J. M.; Verboom, J.; Heimbach, F.",J,English,An individual-based approach to model spatial population dynamics of invertebrates in aquatic ecosystems after pesticide contamination.,2007.0,Chemistry; Toxicology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Water Resources; Biodiversity & Conservation; Mathematics (provided by Clarivate Analytics),26,0730-7268,10,,,,animal ecology; aquatic animals; aquatic environment; aquatic invertebrates; aquatic organisms; ditches; dosage effects; drift; insecticides; life history; models; mortality; pesticides; polluted water; ponds; population dynamics; spatial distribution; streams; temporal variation; water pollution; water quality,"Alterra, Wageningen University and Research Centre, P.O. Box 47, 6700 AA Wageningen, Netherlands.","In the present study we present a population model (Metapopulation model for Assessing Spatial and Temporal Effects of Pesticides [MASTEP]) describing the effects on and recovery of the waterlouse Asellus aquaticus after exposure to a fast-acting, nonpersistent insecticide as a result of spray drift in pond, ditch, and stream scenarios. The model used the spatial and temporal distribution of the exposure in different treatment conditions as an input parameter. A dose-response relation derived from a hypothetical mesocosm study was used to link the exposure with the effects. The modelled landscape was represented as a lattice of 1- by 1-m cells. The model included processes of mortality of A. aquaticus, life history, random walk between cells, density dependence of population regulation, and, in the case of the stream scenario, medium-distance drift of A. aquaticus due to flow. All parameter estimates were based on expert judgment and the results of a thorough review of published information on the ecology of A. aquaticus. In the treated part of the water body, the ditch scenario proved to be the worst-case situation, due to the absence of drift of A. aquaticus. Effects in the pond scenario were smaller because the pond was exposed from one side, allowing migration from the other, less contaminated side. The results of the stream scenario showed the importance of including drift for the population recovery in the 100-m stretch of the stream that was treated. It should be noted, however, that the inclusion of drift had a negligible impact on numbers in the stream as a whole (600 m).",Society of Environmental Toxicology and Chemistry (SETAC),39 ref.,,"Pensacola, USA",,,,,,,,,10.1897/07-022R.1,,,paul.vandenbrink@wur.nl,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Thesis,Trace metals in floodplain lake sediments: SEM/AVS as indicator of bioavailability and ecological effects,2021-04-13,CABI:20063111840,0,0,"Griethuysen, C. van",B,English,Trace metals in floodplain lake sediments: SEM/AVS as indicator of bioavailability and ecological effects.,2006.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Water Resources; Science & Technology - Other Topics (provided by Clarivate Analytics),,,,,,,analytical methods; aquatic animals; aquatic communities; aquatic environment; aquatic invertebrates; aquatic organisms; benthos; bioavailability; degradation; floodplains; food chains; geochemistry; lacustrine deposits; lakes; persistence; polluted water; risk assessment; sediment; spatial variation; sulfate; sulfides; temporal variation; trace elements; water pollution; water quality,"Wageningen University, Wageningen, Netherlands.","This thesis aims to: evaluate the applicability of the simultaneously extracted metals (SEM)/acid volatile sulfide (AVS) as a tool to estimate the bioavailability of trace metals in floodplain sediments; and explore the actual risks of trace metals in benthic communities in floodplain lakes in the Netherlands. Eight chapters are included wherein the first chapter provides an introduction to the thesis and illustrates the current sediment quality, bioavailability concept and the new developments in the assessment of bioavailability. A method for determining sulfides in freshwater wetlands with presumed variable concentrations of AVS was tested and implemented based on existing methods (chapter 2). The persistence, degradation and formation of AVS were studied in field and laboratory experiments in order to estimate time scales and overall reaction rate constants for AVS formation (chapter 3). Temporal variability of solid and dissolved trace metals in relation to sulfate-sulfide cycles due to seasonal dynamics, combined with fluctuation in water levels was addressed in chapter 4. Only a few localized point samples were taken to assess sediment quality. However, while bioavailability is dictated by local conditions, it is necessary to quantify spatial patterns on an ecologically relevant scale (benthic community habitat). In chapter 5, spatial within-lake variability of trace metals and sulfides was studied in a selected floodplain lake in the Afferdensche and Deestsche Waarden. To use, SEM/AVS as a tool in risk assessment, the relevance of the concept to different ecological endpoints is of major importance. Benthic invertebrate species and community are selected as ecological receptors because they are closely linked to sediment-bound contaminants and play an important role by supporting higher levels of the aquatic food chain. In chapter 6, a translation of geochemical data to biological responses is tested using bioassays in a laboratory setting. Endpoints comprise survival and growth of Asellus aquaticus, a benthic organism that lives in close contact with sediment. An experiment on field scale is presented in chapter 7 in which the link between the geochemical variables, total metals, AVS and SEM with bioavailability and ecological endpoints on the community level is studied in 10 floodplain lakes. Lastly, the results are integrated and discussed in chapter 8 with respect to recent scientific literature as well as developments in the field of risk assessment of metal-contaminated sediments.",Wageningen Universiteit (Wageningen University),many ref.,,"Wageningen, Netherlands",,,,,,,,,,,,,,,,,,,,,,,,,,,90-8504-365-4,,,,,,,,,,,,,,,
Book chapter; Conference paper,"2nd Young Researchers Conference, University of Wageningen, Netherlands, 23-24 April 2004",2021-04-13,CABI:20043170083,0,0,"Bloor, M.; Banks, C. J.; Krivtsov, V.",B,English,Water quality improvements by biological treatment: how leachate stress modifies the population dynamics of Asellus aquaticus and Gammarus pulex.,2004.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Water Resources; Biotechnology & Applied Microbiology (provided by Clarivate Analytics),,,,,,,anaerobic digestion; anaerobic treatment; biochemical oxygen demand; biological treatment; bioremediation; chemical oxygen demand; groundwater; groundwater pollution; landfill leachates; polluted water; population dynamics; toxicity; water quality; water treatment,"School of Civil Engineering and the Environment, University of Southampton, Highfield, Southampton SO17 1BJ, UK.","Three, two litre semi-continuous batch reactors (SBRs) were used to simulate on a small-scale the treatment potential of this method. A specific leachate was used for the study (255 mg l-1 COD and 133 mg l-1 BOD). Aerobic digestion effectively reduced the leachate's COD concentration. Regardless of dilution, the leachate's COD reached a <20 mgl-1 equilibrium after exposure for 96 hours to aerobic digestion, however, increasing the dilution factor accelerated the process. The LC50 for Gammarus pulex increased from 5% in raw leachate to 40% in full strength leachate that was subjected to aerobic digestion for 96 hours, whereas that of Asellus aquaticus rose from 60% to 95%. Biological treatment also proved effective at reducing the level of sub-lethal toxicity. The population dynamics of both test species remained unaltered after long-term exposure to leachate subjected to aerobic digestion, compared with a de-ionised water control. A 70% dilution of full strength leachate, which had been aerobically digested for 96 hours, was used as the test media. The media was re-diluted to obtain a series of sub-lethal concentrations that did not affect mortality during acute bioassays (100, 80, 60, 40 and 20% for A. aquaticus; 50, 40, 30, 20 and 10% for G. pulex).",IWA Publishing,12 ref.,,"London, UK",,,,,,,,,,,,,,,,,,,,"2nd Young Researchers Conference, University of Wageningen, Netherlands, 23-24 April 2004.",,,,,,,1-84339-505-3,,"Stuetz, R.; Lens, P.",,,,,,,,,,,,,
Journal article,Environmental Toxicology and Chemistry,2021-04-13,CABI:20043115092,0,0,"Wijngaarden, R. P. A. van; Cuppen, J. G. M.; Arts, G. H. P.; Crum, S. J. H.; Hoorn, M. W. van den; Brink, P. J. van den; Brock, T. C. M.",J,English,Aquatic risk assessment of a realistic exposure to pesticides used in bulb crops: a microcosm study.,2004.0,Environmental Sciences & Ecology; Toxicology; Chemistry; Marine & Freshwater Biology (provided by Clarivate Analytics),23,0730-7268,6,,,,aquatic animals; aquatic invertebrates; aquatic organisms; aquatic plants; asulam; drift; fluazinam; fungicides; half life; herbicides; insecticides; lambda-cyhalothrin; metamitron; phytoplankton; plankton; risk assessment; water quality; zooplankton,"Alterra, Green World Research, P.O. Box 47, 6700 AA, Wageningen, Netherlands.","The fungicide fluazinam, the insecticide lambda-cyhalothrin, and the herbicides asulam and metamitron were applied to indoor freshwater microcosms (water volume approximately 0.6 m3). The treatment regime was based on a realistic application scenario in tulip cultivation. Concentrations of each pesticide were equal to 0%, 0.2%, 0.5%, 2%, and 5% spray drift emission of label-recommended rates. Contribution of compounds to the toxicity of the pesticide package was established by expressing their concentrations as fractions of toxic units. The fate of the compounds in the water, and responses of phytoplankton, zooplankton, periphyton, macroinvertebrates, macrophytes, decomposition, and water quality were followed for 13 weeks. The half-lives of lambda-cyhalothrin, metamitron, and fluazinam were 1 to 2 d; that of asulam was >30 d. No consistent effects could be demonstrated for the 0.2% treatment regime that was therefore considered the no-observed-effect concentrationcommunity (NOEC). The macroinvertebrate populations of Gammarus pulex, Asellus aquaticus, and Proasellus meridianus were the most sensitive end points, followed by species of copepods and cladocerans. Responses mainly were due to lambda-cyhalothrin. The 0.5% treatment regime resulted in short-term effects. Pronounced effects were observed at the 2% and 5% treatment levels. At the end of the experiment, the macrophyte biomass that consisted of Elodea nuttallii, showed a decline at the two highest treatment levels, asulam being the causal factor (NOEC: 0.5% treatment level). Primary production was reduced at the 5% treatment level only. In our experiment, the first-tier risk assessment procedure for individual compounds was adequate for protecting sensitive populations exposed to realistic combinations of pesticides. Spray drift reduction measures seem to be efficient in protecting aquatic ecosystems in agricultural areas.",Society of Environmental Toxicology and Chemistry (SETAC),41 ref.,,"Pensacola, USA",,,,,,,,,10.1897/03-80,,,rene.vanwijngaarden@wur.nl,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Acta Horticulturae et Regiotecturae,2021-04-13,CABI:20013105124,0,0,"Klivar, D.",J,Czech,Biomonitoring in the revitalization of the Moravka River.Biomonitorovani jako soucast revitalizace reky Moravky.,2000.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Water Resources; Biodiversity & Conservation (provided by Clarivate Analytics),3,1335-2563,Supplement,,,,alluvium; aquatic animals; aquatic organisms; freshwater ecology; monitoring; rivers,"RaVS Statni melioracni sprava, Hlinky 60, 603 00 Brno, Czech Republic.","Without regular flows following its separation from the Morava River in the Czech Republic, the Moravka River started to be very strongly fouled by alluvium, and at present a large part of it is filled with alluvium. A survey of hydrobionts living in the Moravka River was conducted and the following organisms were found to occur there: Electrogena affinis, Asellus aquaticus, Tubifex tubifex, Limnodrilus hoffmeisteri, Chironomus thummi [C. riparius], Lymnaea stagnalis, Bythinia tentaculata, Galba truncatula, Planorbarius corneus and the like. It is concluded that the river must be dregded from alluvium.",Vydavatel'ske a edicne stredisko SPU v Nitre,7 ref.,,"Nitra, Slovakia",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Hydrobiological Journal,2021-04-13,CABI:19891418975,0,0,"Zhemayeva, N. P.",J,English,"Feeding of the aquatic sowbug, Asellus aquaticus (Crustacea, Isopoda), in relation to its introduction into fish rearing ponds.",1988.0,Environmental Sciences & Ecology; Marine & Freshwater Biology (provided by Clarivate Analytics),24,0018-8166,1,,,,feeding habits,,"Feed composition of the aquatic sowbug was studied by gut dissection of preserved specimens collected from ponds. Faecal pellets were primarily detritus. Feed of plant origin included microalgae and particles of higher plants; animal components were pieces of insect extremities, parts of crustaceans, protozoans, rotifers and small pieces of oligochaetes and, sometimes, animal eggs. The feed also included mineral particles of up to 40-60 m. Detritus made up 94.9% of gut contents, algae 0.30, higher plants 2.49, quartz grains 0.75, animal remains 1.51 and others 0.02. Of the algae, the protococcal (Cladophora), euglenas, diatoms and desmids were most predominant.",,4 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,translation of Gidrobiologicheskii Zhurnal,,,,,,,,,,,,,,,,,
Journal article,Acta Parasitologica Polonica,2021-04-13,CABI:19870840878,0,0,"Pilecka-Rapacz, M.",J,English,"On the development of acanthocephalans of the genus Acanthocephalus Koelreuther, 1771, with special attention to their influence on intermediate host, Asellus aquaticus L.",1986.0,Veterinary Sciences; Infectious Diseases (provided by Clarivate Analytics),30,0065-1478,22/34,,,,behaviour; development; helminths; hosts; intermediate hosts; parasites,"Inst. Parasit., PAN, ul. Pasteura 3, S.p. 153, 00-973 Warsaw, Poland.","The effect of 3 European acanthocephalan species (originating from different areas of Poland) on the behaviour of their intermediate isopod host, Asellus aquaticus, was studied. The body dimensions of the acanthellae and cystacanths of Acanthocephalus anguillae and A. lucii and of cystacanths of A. ranae are given, and the influence of worm burdens on isopod growth and the frequency of occurrence of isopods in various water depths during acanthocephalan development is analysed. Development of acanthellae to the infective stage took approx. 40 days from infection for A. anguillae and 50 for A. lucii. Worm burdens of ≥3 developing larvae inhibited growth of the host. Marked persistent changes in body pigmentation occurred 57 to 76 days pi in the isopods infected with A. anguillae and A. lucii but not with A. ranae; changed pigmentation was accompanied by enhanced mobility and translocation to upper water layers.",,26 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,1 pl. (unpaged),,,,,,,,,,,,,,,,,
Journal article,Acta Parasitologica Polonica,2021-04-13,CABI:19850826358,0,0,"Pikecka-Rapacz, M.",J,English,"Cystacanths of Polymorphus contortus (Bremser, 1821) (Acanthocephala, Polymorphidae) in Asellus aquaticus L.",1984.0,Infectious Diseases; Veterinary Sciences (provided by Clarivate Analytics),29,0065-1478,9-19,,,,acanthocephalan larvae; cystacanths; distribution; helminthoses; helminths; hosts; infections; intermediate hosts; Life history; morphology; parasites; parasitoses,"Inst. Parasit., Polish Acad. of Sci., ul. Pasteura 3, S.p. 153, 00-973 Warsaw, Poland.","Cystacanths, identified by the proboscis hooks as those of P. contortus, were found in 17 of 26 Asellus aquaticus from the Kampinos forest near Warsaw, Poland. The life-cycle of this bird acanthocephalan was so far unknown. Up to 4 larvae/crustacean were present and infected Asellus were black instead of the normal grey. The cystacanths are described.",,6 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Ekologiya Gel'mintov (Voprosy ekologicheskoi gel'mintologii),2021-04-13,CABI:19850823303,0,0,"Zbarakh, T. I.; Kulagina, O. P.",J,Russian,"Crustacea of Lake Nero, intermediate hosts of helminths.",1984.0,Infectious Diseases; Veterinary Sciences (provided by Clarivate Analytics),,,4,,,,animal parasitic nematodes; cestode infections; helminthoses; Helminths; hosts; infections; intermediate hosts; nematode infections; parasites; parasitoses; surveys; trematode infections,"Yaroslavl' Pedogogical Inst., Yaroslavl', USSR.","Crustaceans of Lake Nero, USSR, were examined for the presence of helminth larvae. Triaenophorus nodulosus was found in Cyclops strenuus, Camallanus lacustris in Mesocyclops leucarti, Acanthocephalus anguillae in Asellus aquaticus, and Plagiorchis laricola and Catatropis verrucosa in Gammarus pulex. Cladocera and Ostracoda were not infected.",,6 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,"Zeszyty Naukowe, Akademia Rolnicza w Szczecinie, Rybactwo Morskie i Technologia Zywnosci",2021-04-13,CABI:19841457589,0,0,"Szlauer, L.",J,Polish,Aggregation of aquatic invertebrates in artificial shelters in rivers and possibilities of utilizing such a phenomenon.Skupianie sie bezkregowcow wodnych w sztucznych kryjowkach umieszczonych w rzekach i mozliwosci wykorzystania tego zjawiska.,1982.0,Zoology (provided by Clarivate Analytics),,, 12,,,,Aquatic organisms; yields,"Inst. Oceanografii Rybackiej i Ochrony Morza AR, Kazimierza Krolewicza 4, 71-550 Szczecin, Poland.","Artificial shelters were bags 300 * 150 * 45 mm of 2 litres capacity made from synthetic fibre nets of 5 * 5 mm mesh size and fastened to the bottom in three different rivers. During 4 weeks large numbers, from about 20 000 to 53 000, equivalent to from 3 to 18 g fresh weight, of invertebrate animals of different size gathered in each bag; the yield was greatest from March to May. The highest numbers per bag were: larvae of Chironomidae 41 107; Oligochaeta 19 600, larvae of Simulium sp. 3617; Gammaridae 3416 and Asellus aquaticus 1897.",,9 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Informationen fur die Fischwirtschaft,2021-04-13,CABI:19811431139,0,0,"Huschenbeth, E.; Heckman, C. W.",J,German,"Hydrocarbon residues in aquatic organisms from the Hamburg fruit-growing district, the ""Altes Land"".Chlorkohlenwasserstoffruckstande in aquatischen Organismen aus dem Hamburger Obstandbaugebiet, dem ""Alten Land"".",1981.0,Toxicology; Veterinary Sciences; Pharmacology & Pharmacy (provided by Clarivate Analytics),28,0020-0344,4,,,,aquatic organisms; pesticide residues; DDT; pesticides; dieldrin,"Inst. Kusten- und Binnenfischerei, Hamburg, German Federal Republic.","Concentrations of chlorinated hydrocarbons in aquatic organisms in the Hamburg fruit-growing area (the Altes Land) are tabulated, including DDT, DDD, DDE, total DDT, dieldrin and Aroclor 1254 (PCB), for Erpobdella octoculata, Planorbis planorbis, P. corneus, Asellus aquaticus, Sigara striata, Carassius carassius and Tinca tinca in spring and autumn. DDT was only slightly elevated. P. corneus had the least of total DDT, 0.003 mg/kg, and A. aquaticus in spring had the highest, 0.086 mg/kg. In all other cases, the concentration was 0.012 to 0.086 mg/kg. The highest recorded for dieldrin was 0.018 mg/kg in A. aquaticus in the spring. For all species, save A. aquaticus, the total DDT concentration was higher in the autumn than in the spring.",,2 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Hydrobiological Journal,2021-04-13,CABI:19831441583,0,0,"Sherstyuk, V. V.",J,English,Estimation of the energy of fodder crustaceans.,1980.0,Agriculture; Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology (provided by Clarivate Analytics),16,0018-8166,6,,,,energy content,"Inst. Hydrobiology, Ukrainian Academy of Sciences, Kiev, Ukrainian SSR.","For plaktonic and benthic feed crustaceans from Kremenchug Reservoir, USSR, in 1972-73, in Cladocera DM ranged from 2.2% in Leptodora kindtii to 18.5% in Sida crystallina. The range in benthic crustaceans was 22 to 30%. Energy content of DM was for Cladocera 4.2 to 5.1, mean 4.46 kcal/g, highest for S. crystallina. Energy content of DM for Copepoda differed between species, mean 5.0 kcal/g, and was greatest in Cyclops vicinus, 5.14 kcal/g; that of crustaceans was on average 0.6 kcal/g [wet bodyweight]. The most common crustacean in the reservoir, Mesomysis kovalewskyi, had mean DM 23.0% of bodyweight. Mysids had organic matter 80 to 90, mean 88%, with energy content 4.2 to 4.7 kcal/g DM or about 0.94 kcal/g [wet bodyweight] for all estimations. Gammaridae had DM 17 to 26% and organic matter 60 to 78% of bodyweight, with mean energy 3.33 kcal/g DM or 0.77 kcal/g wet bodyweight. Asellus aquaticus had energy 3.37 kcal/g dry weight or 0.80 kcal/g bodyweight. Ostracoda, with their thicker carapace, had a high content of ash, 48.9%, and energy 2.68 kcal/g DM or 0.81 kcal/g wet bodyweight. There was a close linear relation between total organic matter in the body, X, and energy content, Y, expressed as Y = 0.068 X - 1.216. Allowing for s.d. of plus or minus 0.27, the equation may be used to calculate the approximate energy content of feed crustaceans.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Journal of the Institution of Water Engineers and Scientists,2021-04-13,CABI:19810582582,0,0,"Mitcham, R. P.; Shelley, M. W.",J,English,"The control of animals in water mains using permethrin, a synthetic pyrethroid.",1980.0,Water Resources; Marine & Freshwater Biology; Environmental Sciences & Ecology; Chemistry (provided by Clarivate Analytics),34,,5,,,,chemical control; control; fish; insect control; insecticides; permethrin; pest control; pyrethrins; pyrethroids; toxicity; water supply,"Essex Water Company, Langford, Essex, UK.","Since a parthenogenetic species of Paratanytarsus was discovered in 1971 infesting the water distribution system at Southend-on-Sea, England, pyrethrins have been applied regularly at the treatment works to control populations of this chironomid. When supplies of pyrthrins became limited in 1978, permethrin was tested as a possible alternative. The initial tests (in which the bioassay organisms included Paratanytarsus, some species of aquarium fishes and adults of Asellus aquaticus (L.)) were promising, and between 10 and 20 October 1978, treated water from the Langford works was dosed to give a calculated concentration of 0.025 mg permethrin/litre. Although the concentration of permethrin in the final water was less than half the calculated value for most of the dosing period (10 days), samples taken 24 km from the treatment site indicated that very little permethrin had been lost to the system during that period. At the 2 sites most heavily infested by Paratanytarsus, all the chironomids were removed within 2 weeks of dosing and no reinfestation occurred even after 90 weeks (as compared with a maximum of 20 weeks for pyrethrins). The permethrin treatment, unlike the pyrethrin treatment, suppressed populations of the crustacea Chydorus and Alona and resulted in a population explosion of the mite Limnochares aquatica (L.); this latter was presumably the result of Limnochares having abundant dead invertebrates on which to feed and multiply. The mite populations returned to their normal levels about 15 weeks after dosing.",,17 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,5 fig.,,,,,,,,,,,,,,,,,
Journal article,Doklady Timiryazevskoi Sel'skokhozyaistvennoi Akademii,2021-04-13,CABI:19810894359,0,0,"Andryuk, L. V.",J,Russian,On the life-cycle of acanthocephalans from the genus Acanthocephalus Koelreuther.,1979.0,Marine & Freshwater Biology; Environmental Sciences & Ecology (provided by Clarivate Analytics),,,255,,,,aquatic animals; aquatic organisms; freshwater fishes; helminthoses; helminths; hosts; infections; intermediate hosts; life history; parasites; parasitoses; seasonal variation,,"The prevalence of Acanthocephalus infection was studied in 1974 to 1978 in 4 species of fish in the Upper Dnepr region, USSR. A. lucii was found in 95.4% of Perca fluviatilis, 37.1% of Esox lucius, 42.2% of Leuciscus idus and in 11.3% of Abramis brama. Acanthocephalus anguillae was recorded in 7.2% of E. lucius, 94% of L. idus and in 43.6% of Abramis brama. In the laboratory, infective acanthellae developed in the natural intermediate host, Asellus aquaticus, in 32 days at 22 deg C and in 72 days at 15 to 16 deg C. In natural conditions, development took about 60 days, A. aquaticus with infective acanthellae being found from late August. In September-October, 9.6% were found infected with Acanthocephalus lucii and 5.9% with A. anguillae. Fish become infected during periods of most active feeding in autumn and in spring (by overwintered larvae), the parasites reaching maturity in fish infected in autumn in the following spring and in late autumn in fish infected in the spring.",,5 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,"Izvestiya Akademii Nauk Azerbaidzhanskoi SSR (Azarbajcan SSR Elmlar Akademijasynyn Habarlari), Biologicheskie Nauki",2021-04-13,CABI:19800866926,0,0,"Kurbanov, M. N.",J,Russian,"The development of Acanthocephalus ranae (Schrank, 1788) Luhe, 1911 in the intermediate host.",1978.0,Evolutionary Biology (provided by Clarivate Analytics),,,1,,,,development; helminths; hosts; intermediate hosts; life history; morphology; parasites,,"Asellus aquaticus was established in natural conditions and in the laboratory as the intermediate host of Acanthocephalus ranae in Azerbaidzhan, USSR. Development to the infective acanthella stage took approximately 48 days at 20 to 24 deg C. All the stages are described and illustrated. The acanthor stage lasted 10 days. The pre-acanthella stage lasted 20 days and was characterized by rapid growth and sex differentiation. The acanthella stage began with the invagination of the proboscis and encystment and the infective stage was achieved in 12 to 14 days.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Miscellaneous,"Prace Komisji Biologicznej, Wydzial Matematyczno-Przyrodniczy, Poznanskie Towarzystwo Przyjaciol Nauk",2021-04-13,CABI:19790854121,0,0,"Szczepanowski, P.",J,Polish,Epizoic ciliates on Asellus aquaticus (L.) in the town and neighbourhood of Poznan.Orzeski epizoiczne na Asellus aquaticus (L.) Poznania i okolic.,1978.0,Veterinary Sciences; Infectious Diseases; Evolutionary Biology (provided by Clarivate Analytics),46,,,,,,new species; parasites; reservoirs,,"Forty-nine species and varieties of epizoic ciliates of the Peritrichia group were found on examination of 40 Asellus aquaticus collected in the course of a year from water reservoirs in 4 localities in the Poznan area. The ciliates are described and figured. 15 are new species, 5 new varieties and 2 were identified only to genus; 37 are new for Asellus and 43 new for Poland.",Panstwowe Wydawnictwo Naukowe.,,,"Warsaw, Poland",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,"Uchenye Zapiski Azerbaidzhanskogo Universiteta, Biologicheskie Nauki",2021-04-13,CABI:19810889808,0,0,"Kurbanov, M. N.",J,Russian,"The development of Acanthocephalus ranae Luhe, 1911 in the final host.",1978.0,Health Care Sciences & Services; Parasitology (provided by Clarivate Analytics),,, 2,,,,development; helminths; hosts; intermediate hosts; life history; parasites,,"A. ranae was found in 19 of 20 Rana ridibunda examined in the Astarinsk region, Azerbaidzhan SSR.; Asellus aquaticus was established as the intermediate host. The development of Acanthocephalus ranae was observed in both experimentally infected hosts. In the frog, A. ranae became mature in 35 days and oviposition began on day 46. Similar results were obtained in Bufo viridis.",,3 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,"Izvestiya Gosudarstvennogo Nauchno-Issledovatel'skogo Instituta Ozernogo i Rechnogo Rybnogo Khozyaistva (Vzaimootnosheniya krugoresnichnykh infuzorii, parazitov i epibiontov vodnykh organizmov s khozyaevami i vneshnei sredoi)",2021-04-13,CABI:19820895980,0,0,"Boitsova, I. L.",J,Russian,"New species of Peritricha, Sessilia on benthic invertebrates in the Ropsha ponds.",1977.0,Infectious Diseases; Veterinary Sciences; Evolutionary Biology; Marine & Freshwater Biology; Environmental Sciences & Ecology (provided by Clarivate Analytics),119,,,,,,aquatic organisms; benthos; parasites,,"One new subspecies and 19 new species of sessile peritrichs epibiotic on benthic invertebrates, chiefly Asellus aquaticus and Gammarus pulex, are described and a new subgenus, Operculariopsis, is erected in Zoothamnium.",,5 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Materialy Nauchnoi Konferentsii Vsesoyuznogo Obshchestva Gel'mintologov (Trematody i trematodozy),2021-04-13,CABI:19780846494,0,0,"Krasnolobova, T. A.",J,Russian,"Morphological and biological features of Plagiorchis nanus (Rudolphi, 1802) Braun, 1901.",1977.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Infectious Diseases; Veterinary Sciences (provided by Clarivate Analytics),,, 29,,,,aquatic animals; aquatic invertebrates; aquatic organisms; freshwater invertebrates; freshwater molluscs; helminthoses; helminths; hosts; infections; intermediate hosts; life history; morphology; parasites; parasitoses; trematode infections; validity,"GELAN, Moscow, USSR.","In the Yamal peninsula, USSR, Plagiorchis nanus was found in 50 species of birds (Charadriiformes, Strigeiformes, Galliformes and Anseriformes). Cercariae were found in Lymnaea ovata and metacercariae in Chironomus sp., Nemura arctica, Neuronia clathrata, Dytiscidae and Asellus aquaticus. Small infective metacercariae were obtained in the laboratory 10 days after infection of Dityscidae and A. aquaticus. Corvus corone, Motacilla alba, Phaloropus lobatus and Charadrius hiaticula, but not Riparia riparia, became infected after eating various infected intermediaries. The morphology of the newly excysted P. nanus changed considerably in the bird intestine: the uterus of young specimens, clearly seen to extend to the end of the body, became masked by the vitellarian follicles. This age-related variation was not taken into account by the authors who proposed that P. fastuosus, P. morosovi and P. obtusus be synonymized with P. nanus. Although the validity of P. morosovi and P. obtusus requires further study, that of P. fastuosus is not open to doubt.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Nauchnye Doklady Vysshei Shkoly. Biologicheskie Nauki,2021-04-13,CABI:19770550049,0,0,"Pavlichenko, V. I.",J,Russian,The natural enemies of black-flies.,1977.0,Infectious Diseases; Veterinary Sciences; Environmental Sciences & Ecology; Behavioral Sciences (provided by Clarivate Analytics),,, 8,,,,aquatic animals; aquatic organisms; infections; natural enemies; parasites; parasitoses; predators; prey; protozoal infections,"Kafedra Biologii Zaporozhskogo Meditsinskogo Instituta, USSR.","In various water-bodies of the Lugansk (Voroshilovgrad), Donets and Zaporozhe regions of the USSR, eggs, larvae and pupae of the simuliids Simulium aureum Fries (Eusimulium aureum), S. latizonum (Rubtsov) (E. latizonum), S. latigonium (Rubtsov) (Chelocnetha latigonium), S. mediterraneum Puri (Wilhelmia mediterranea), S. lineatum (Mg.) (W. salopiensis (Edw.)) S. balcanicum End. (W. balcanica), S. ornatum Mg. (Odagmia ornata), S. baracorne Smart (Odagmia baracornis) and S. erythrocephalum (Deg.) (Boophthora erythrocephala) were found to be attacked by microsporidia, a leech (Herpobdella octoculata), molluscs (Viviparus viviparus, Bithynia tentaculata and Theodoxus fluviatilis), Crustacea (Asellus aquaticus (L.) and amphipods) and trichopterous larvae (Hydropsyche angustipennis (Curt.), H. pellucidula (Curt.) and H. ornatula McLachlan).<new para>ADDITIONAL ABSTRACT:<new para>In various water-bodies of the Lugansk (Voroshilovgrad), Donets and Zaporozhe regions of the USSR, eggs, larvae and pupae of the simuliids Simulium aureum (Eusimulium aureum), S. latizonum (E. latizonum), S. latigonium (Chelocnetha latigonium), S. mediterraneum (Wilhelmia mediterranea), S. lineatum (W. salopiensis), S. balcanicum (W. balcanica), S. ornatum (Odagmia ornata), S. baracorne (O. baracornis) and S. erythrocephalum (Boophthora erythrocephala) were found to be attacked by microsporidia, a leech (Herpobdella octoculata), Crustacea, molluscs, and trichopterous larvae.",,10 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Prirodovedne Prace Ustavu Ceskoslovenske Akademie ved v Brne,2021-04-13,CABI:19780552074,0,0,"Trnkova, J.",J,German,The toxic effect of endrin on aquatic invertebrates.Die toxische wirkung des endrins auf aquatische wirbellose.,1977.0,Environmental Sciences & Ecology; Chemistry (provided by Clarivate Analytics),11,0032-8758,3,,,,aquatic animals; aquatic invertebrates; aquatic organisms; chemical control; control; endrin; insecticides; mosquito nets; toxicity,"Institut fur Wirbeltierforschung, Tschechoslowakische Akademie der Wissenschaften, Experimentell-okologische Abteilung, Studenes 122, 675 02 Konesin, Bez. Trebic, Czechoslovakia.","The toxicity of endrin in the form of the preparation Endrin 20 Spolana was determined for 23 species of aquatic invertebrates from stagnant and running waters. Of the tested stagnant-water species, Daphnia pulex Mull. was the most sensitive, with a LC50 (72 h) of 8 X 10-9 mg/l at 20 deg C; Tubifex tubifex was the most resistance (LC50 (72 h) 21.11 mg/l at 20 deg C). Of the running-water species, larvae of Caenis robusta Eaton were the most sensitive (LC50 (72 h) 1.1 X 10-8 mg/l at 14 deg C); Planaria gonocephala was the most resistant (LC50 (72 h) 0.1 mg/l at 15 deg C). Juveniles of Asellus aquaticus (L.) were more resistant when one week old than at the age of 2-4 weeks. The LC50 for juveniles 5 months old was the same as for adults. The sensitivity of larvae of Cloeon dipterum (L.) was inversely proportional to age. Pupae of Culex pipiens L. were 100 times more resistant than fourth larval instars, and 10 000 times more so than third instars. It was found that the results of experiments may be affected by the age of the prepared emulsion of the toxicant, the temperature of the emulsion and the absence of substrate in the testing vessels. It was also found that endrin accumulates in the tissues of certain aquatic invertebrates in amounts 100 times greater than the concentration of the tested emulsion, and can persist in the tissues for up to 4 months.",,24 ref.,,,,,,,,,,,,,,,,,,,,,,,,,,,2 fig.,,,,,,,,,,,,,,,,,
Abstract only; Conference paper,"II Vsesoyuznyi Simpozium po boleznyam i parazitam vodnykh bespozvonochnykh, Leningrad, 28-30 Jan. 1976. Tezisy dokladov.",2021-04-13,CABI:19760826040,0,0,"Andryuk, L. V.",J,Russian,The infection of Asellus aquaticus with Acanthocephalus larvae in the Upper Dniepr Basin (USSR).,1976.0,Infectious Diseases; Veterinary Sciences (provided by Clarivate Analytics),,,,,,,helminths; incidence; parasites; seasonal variation,"VIGIS, Moscow, USSR.",,"Izdatel'stvo ""Nauka"", Leningradskoe Otdelenie",,,"Leningrad, USSR",,,,,,,,,,,,,,,,,,,,"II Vsesoyuznyi Simpozium po boleznyam i parazitam vodnykh bespozvonochnykh, Leningrad, 28-30 Jan. 1976. Tezisy dokladov.",,,,,,,,,,,,,,,,,,,,,,
Journal article,Byulleten' Vsesoyuznogo Instituta Gel'mintologii im. K.I. Skryabina,2021-04-13,CABI:19770834177,0,0,"Andryuk, L. V.",J,Russian,The infection rate of fish with acanthocephalans in the upper reaches of the Dnepr.,1974.0,Veterinary Sciences; Infectious Diseases; Environmental Sciences & Ecology; Marine & Freshwater Biology (provided by Clarivate Analytics),,0581-1929, 13,,,,aquatic animals; aquatic organisms; epidemiology; freshwater fishes; helminthoses; helminths; incidence; infections; parasites; parasitoses,,"Of 233 fish collected from the Dnepr in the Ukraine, USSR, 106 (47.53%) were infected with acanthocephalans. Acanthocephalus lucii occurred in 32.73%, A. anguillae in 25.11% and Neoechinorhynchus rutili in 0.44%. Acanthellae were found in 5.5% of Asellus aquaticus. Infection of fish occurred in spring whilst feeding on Asellus and the crustaceans became infected in the autumn. [From English summary]",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Byulleten' Vsesoyuznogo Instituta Gel'mintologii im. K.I. Skryabina,2021-04-13,CABI:19770834910,0,0,"Andryuk, L. V.",J,Russian,"The development of Acanthocephalus lucii (Muller, 1776), Luhe, 1911 (Echinorhynchidae) in the intermediate host.",1974.0,Health Care Sciences & Services; Parasitology (provided by Clarivate Analytics),,0581-1929, 13,,,,development; helminths; hosts; intermediate hosts; life history; parasites,,"Asellus aquaticus was established as the intermediate host of Acanthocephalus lucii in the Ukraine, USSR. The development of the acanthor, pre-acanthella and acanthella in experimentally-infected A. aquaticus is described. At average daily temperatures of 18 and 15 to 16 deg C the infective stage was reached in 72 and 60 days, respectively.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal article,Byulleten' Vsesoyuznogo Instituta Gel'mintologii im. K.K. Skryabina,2021-04-13,CABI:19760828398,0,0,"Andryuk, L. V.",J,Russian,Development of Acanthocephalus anguillae.,1974.0,Health Care Sciences & Services; Parasitology (provided by Clarivate Analytics),,,14,,,,development; helminths; hosts; intermediate hosts; life history; parasites,,"In experimental infections, Asellus aquaticus is an intermediate host for the larva of Acanthocephalus anguillae which, at an external temperature of 24 deg C, reaches the infective stage in 15 days. The acanthella is in the main a replica of the adult acanthocephalan.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGICAL INDICATORS,2021-04-13,WOS:000624333800002,3,3,"Thornhill, I; Friberg, N; Batty, L; Thamia, V; Ledger, ME",J,English,Leaf breakdown rates as a functional indicator were influenced by an invasive non-native invertebrate in urban ponds,2021.0,Biodiversity & Conservation; Environmental Sciences & Ecology,124,1470-160X,,MAY,,,Biodiversity and ecosystem functioning (BEF); Shredders; Ecosystem functioning; Freshwater; Functional replacement; Functional indicators,"[Thornhill, Ian; Batty, Lesley; Thamia, Victoria; Ledger, Mark E.] Univ Birmingham, Sch Geog Earth & Environm Sci, Birmingham B15 2TT, W Midlands, England; [Thornhill, Ian] Bath Spa Univ, Sch Sci, Bath BA2 9BN, Avon, England; [Friberg, Nikolai] Norwegian Inst Water Res NIVA, Gaustadalleen 21, N-0349 Oslo, Norway; [Friberg, Nikolai] Univ Leeds, Sch Geog, Water Leeds, Leeds LS2 9JT, W Yorkshire, England; [Friberg, Nikolai] Univ Copenhagen, Freshwater Biol Sect, DK-2100 Copenhagen, Denmark","Impacts on biodiversity and the functioning of ecosystems are often overlooked in small waterbodies as they are not regularly monitored as part of the Water Framework Directive (WFD). These small systems are, however, often essential for freshwater biodiversity and are frequently characterized by high beta-diversity. In this study we examined shredder diversity and ecosystem functioning (leaf litter breakdown) as indicators of environmental stress along a gradient of urbanisation. The native isopod Asellus aquaticus and the non-native shrimp Crangonyx pseudogracilis (Amphipoda) were dominant species of the shredder communities in 26 study ponds. Variation in shredder community composition among ponds was explained by pond surface area (P < 0.05) and the coverage of impermeable surface within 500 m (P < 0.05), indicative of urban impact, which was strongly, and negatively correlated with shredder richness. Site mean total leaf breakdown was 0.0020 k d(-1) (range 0.0003 - 0.0053), whilst breakdown rates owing to microbial and fungal activity were lower and averaged 0.0010 k d(-1) (range 6.72(-5) - 0.0036). Both total and microbial activity driven breakdown rates showed relatively weak relationships with the environmental gradient reflecting degrees of urbanization. A model-averaging procedure suggested that total litter breakdown rates could be attributed to activity of shredders with A. aquaticus and C. pseudogracilis contributing most, explaining 65% of the variance (R-2 = 0.65, F = 13.7, P < 0.001), which both significantly and similarly predicted total leaf breakdown rates (P < 0.05). Total leaf breakdown rates were significantly correlated with the densities of both C. pseudogracilis (P < 0.001) and A. aquaticus (P < 0.001), however partial correlations indicated that the former showed the strongest association. The process of urbanisation can have significant, and negative impacts upon freshwater ecosystems, including small water bodies such as ponds both regarding biodiversity and ecosystem functioning. The findings of the current study suggest that ecosystem functioning indicators such as leaf litter decomposition should be paired with structural measures. This is because function sustained by tolerant invading species would not otherwise be detected, and their presence is increasingly likely due to climate change and urbanization.",ELSEVIER,93,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,QQ2CS,"Thornhill, Ian; Friberg, Nikolai; Batty, Lesley; Thamia, Victoria; Ledger, Mark E.",0.0,0.0,Biodiversity Conservation; Environmental Sciences,ECOL INDIC,Ecol. Indic.,10.1016/j.ecolind.2021.107360,"Thornhill, I (corresponding author), Bath Spa Univ, Sch Sci, Bath BA2 9BN, Avon, England.",,i.thornhill@bathspa.ac.uk,,,,1872-7034,Natural Environment Research Council (NERC)UK Research & Innovation (UKRI)Natural Environment Research Council (NERC); James Hutton Institute,"This work was supported by a Natural Environment Research Council (NERC) studentship, and received CASE Studentship support from The James Hutton Institute.",Other Gold,,107360,,,,,,,,,,,,,,,,,,,,,
Article; Early Access,ECOLOGY AND EVOLUTION,2021-04-13,WOS:000628450700001,0,0,"Pyrzanowski, K; Zieba, G; Leszczynska, J; Adamczuk, M; Dukowska, M; Przybylski, M",J,English,Food resource partitioning between juvenile and mature weatherfish Misgurnus fossilis,,Environmental Sciences & Ecology; Evolutionary Biology,,2045-7758,,,,,diet preference; habitat use; ontogenetic niche shift,"[Pyrzanowski, Kacper; Zieba, Grzegorz; Leszczynska, Joanna; Dukowska, Malgorzata; Przybylski, Miroslaw] Univ Lodz, Fac Biol & Environm Protect, Dept Ecol & Vertebrate Zool, 12-16 Banacha St, PL-90237 Lodz, Poland; [Adamczuk, Malgorzata] Univ Life Sci Lublin, Fac Environm Biol, Dept Hydrobiol & Protect Ecosyst, Lublin, Poland","This study represents a description of the diet composition of one of the largest European cobitids, the weatherfish Misgurnus fossilis. Specimens were collected in a drainage canal, representing a typical habitat for weatherfish, and with gut content analysis conducted with regard to individual total length and maturity stage. Overall, the weatherfish diet mainly consisted of Copepoda, Cladocera, Ostracoda, Oligochaeta, Asellus aquaticus, Chironomidae and Coleoptera larvae, Gastropoda, and detritus. To evaluate size-related patterns of resource use, fish were assigned to two size classes, defined according to size at first maturation. ANOSIM analyses revealed major ontogenetic shifts in feeding strategy, which were related to size and maturity, with a significant ontogenetic shift in feeding pattern, marked by differences in the proportions of the main taxonomic groups of prey consumed. Copepoda and Cladocera dominated in the diet of small and immature individuals, while large weatherfish primarily fed on detritus. Similarly, cluster analysis of diet classified into these food types showed distinct two groups comprising juvenile and mature fish. The weatherfish is a food opportunist using all available resources, but spatially showed a change in feeding sites. Smaller and sexually immature individuals more often use prey caught in the water column and among macrophytes, while larger (sexually mature) individuals occupying the bottom, much more often use detritus as a food base.",WILEY,54,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,QW1XQ,"Pyrzanowski, Kacper; Zieba, Grzegorz; Leszczynska, Joanna; Adamczuk, Malgorzata; Dukowska, Malgorzata; Przybylski, Miroslaw",0.0,0.0,Ecology; Evolutionary Biology,ECOL EVOL,Ecol. Evol.,10.1002/ece3.7340,"Pyrzanowski, K (corresponding author), Univ Lodz, Fac Biol & Environm Protect, Dept Ecol & Vertebrate Zool, 12-16 Banacha St, PL-90237 Lodz, Poland.",,kacper.pyrzanowski@biol.uni.lodz.pl,,,,,,,DOAJ Gold,,,,,,,,,,,,,MAR 2021,,,,,,,,,,
Article,PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES,2021-04-13,WOS:000625110700016,1,1,"Lurig, MD; Matthews, B",J,English,Dietary-based developmental plasticity affects juvenile survival in an aquatic detritivore,2021.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Evolutionary Biology,288,0962-8452,1945,FEB 24,,,development; stoichiometry; fitness; life history; phenotypic plasticity; diet quality,"[Lurig, Moritz D.] Lund Univ, Dept Biol, S-22362 Lund, Sweden; [Lurig, Moritz D.; Matthews, Blake] Eawag, Dept Fish Ecol & Evolut, Seestr 79, CH-6047 Kastanienbaum, Switzerland; [Lurig, Moritz D.] Eawag, Dept Aquat Ecol, Seestr 79, CH-6047 Kastanienbaum, Switzerland","Developmental plasticity is ubiquitous in natural populations, but the underlying causes and fitness consequences are poorly understood. For consumers, nutritional variation of juvenile diets is probably associated with plasticity in developmental rates, but little is known about how diet quality can affect phenotypic trajectories in ways that might influence survival to maturity and lifetime reproductive output. Here, we tested how the diet quality of a freshwater detritivorous isopod (Asellus aquaticus), in terms of elemental ratios of diet (i.e. carbon : nitrogen : phosphorus; C : N : P), can affect (i) developmental rates of body size and pigmentation and (ii) variation in juvenile survival. We reared 1047 individuals, in a full-sib split-family design (29 families), on either a high- (low C : P, C : N) or low-quality (high C : P, C : N) diet, and quantified developmental trajectories of body size and pigmentation for every individual over 12 weeks. Our diet contrast caused strong divergence in the developmental rates of pigmentation but not growth, culminating in a distribution of adult pigmentation spanning the broad range of phenotypes observed both within and among natural populations. Under low-quality diet, we found highest survival at intermediate growth and pigmentation rates. By contrast, survival under high-quality diet survival increased continuously with pigmentation rate, with longest lifespans at intermediate growth rates and high pigmentation rates. Building on previous work which suggests that visual predation mediates the evolution of cryptic pigmentation in A. aquaticus, our study shows how diet quality and composition can generate substantial phenotypic variation by affecting rates of growth and pigmentation during development in the absence of predation.",ROYAL SOC,63,"6-9 CARLTON HOUSE TERRACE, LONDON SW1Y 5AG, ENGLAND",LONDON,10.0,QR3KG,"Lurig, Moritz D.; Matthews, Blake",0.0,0.0,Biology; Ecology; Evolutionary Biology,P ROY SOC B-BIOL SCI,Proc. R. Soc. B-Biol. Sci.,10.1098/rspb.2020.3136,"Lurig, MD (corresponding author), Lund Univ, Dept Biol, S-22362 Lund, Sweden.; Lurig, MD (corresponding author), Eawag, Dept Fish Ecol & Evolut, Seestr 79, CH-6047 Kastanienbaum, Switzerland.; Lurig, MD (corresponding author), Eawag, Dept Aquat Ecol, Seestr 79, CH-6047 Kastanienbaum, Switzerland.",,moritz.lurig@biol.lu.se,"Matthews, Blake/0000-0001-9089-704X; Lurig, Moritz/0000-0002-8175-6234","Matthews, Blake/B-5608-2009",33593189.0,1471-2954,Center for Adaptation to a Changing Environment (ACE) at ETH Zurich; Department of Aquatic Ecology at Eawag,"M.D.L. was funded by the Center for Adaptation to a Changing Environment (ACE) at ETH Zurich, and by the Department of Aquatic Ecology at Eawag.",,,20203136,,,,,,,,,,,,,,,,,,,,,
Article,WATER,2021-04-13,WOS:000615680900001,2,2,"Gunkel, G; Michels, U; Scheideler, M",J,English,"Water Lice and Other Macroinvertebrates in Drinking Water Pipes: Diversity, Abundance and Health Risk",2021.0,Environmental Sciences & Ecology; Water Resources,13,,3,FEB,,,drinking water quality; drinking water pipes; biological stability; Asellus aquaticus; oligochaete; climate change effect; biofouling,"[Gunkel, Guenter] Berlin Univ Technol, Dept Water Qual Control, D-10623 Berlin, Germany; [Gunkel, Guenter; Michels, Ute; Scheideler, Michael] INWERT Inst Biol Drinking Water Qual, D-45721 Haltern, Germany; [Michels, Ute] AquaLytis, D-15745 Wildau, Germany; [Scheideler, Michael] Scheideler Dienstleistungen, D-45721 Haltern, Germany","Activities to ensure and maintain water quality in drinking water networks, including flushing, are presented after standardized hydrant sampling combined with a stainless-steel low pressure-high flow rate (NDHF) filter and a 100 mu m mesh size was used to separate pipe inhabitants. A databank of more than 1000 hydrant samples in European lowland areas was developed and used to analyze the diversity and abundance of macroinvertebrates in drinking water networks. Load classes for water louse (Asellus aquaticus) and oligochaetes are given with three evaluation classes: normal colonization, increased colonization, and mass development. The response of Asellus aquaticus in drinking water networks to environmental conditions are presented as are their growth and reproduction, promotion of a third generation by climate change effects, food limitations, and the composition and stability of their feces. Finally, the health risks posed by dead water lice and water lice feces with bacterial regrowth and the promotion of microbe development on house filters are analyzed.",MDPI,51,"ST ALBAN-ANLAGE 66, CH-4052 BASEL, SWITZERLAND",BASEL,17.0,QD7GE,"Gunkel, Guenter; Michels, Ute; Scheideler, Michael",0.0,0.0,Environmental Sciences; Water Resources,WATER-SUI,Water,10.3390/w13030276,"Gunkel, G (corresponding author), Berlin Univ Technol, Dept Water Qual Control, D-10623 Berlin, Germany.; Gunkel, G (corresponding author), INWERT Inst Biol Drinking Water Qual, D-45721 Haltern, Germany.",,guenter.gunkel@water-quality-control.de; utemichels@aqualytis.com; ms@scheideler.com,,,,2073-4441,"German Federal Ministry for Economic Affairs and Energy [KF 2058602 RH9, KF 2488501 RH9]",The German Federal Ministry for Economic Affairs and Energy funded the research by the ZIM program (KF 2058602 RH9) and the ProInno II program (KF 2488501 RH9).,"DOAJ Gold, Green Published",,276,,,,,,,,,,,,,,,,,,,,,
Article,BULLETIN OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:000590247900003,1,1,"Jacauna, RP; Kochhann, D; Campos, DF; Val, AL",J,English,"Aerobic Metabolism Impairment in Tambaqui (Colossoma macropomum) Juveniles Exposed to Urban Wastewater in Manaus, Amazon",2020.0,Environmental Sciences & Ecology; Toxicology,105,0007-4861,6,DEC,853,859,Biomarkers; Pollution; Resting metabolic rate; Biliary metabolites; Bioaccumulation; Metabolic stress,"[Jacauna, Roberta Prestes; Kochhann, Daiani; Campos, Derek Felipe; Val, Adalberto Luis] Brazilian Natl Inst Res Amazon, Manaus, AM, Brazil; [Kochhann, Daiani] Acarau Valley State Univ, Sobral, CE, Brazil","The main purpose of the present study was to investigate the potential use of metabolic parameters as non-specific biomarkers of pollution. The Igarape do Quarenta is a small urban river crossing an industrial area in the city of Manaus, Amazon, and receives the city wastewater without treatment. The fish tambaqui (Colossoma macropomum) were exposed to water collected from two different sites of that stretch for 96 h. After exposure, routine metabolic rate (RMR) was measured, and fish were euthanized for measurements of electron transport system (ETS) activity, Copper (Cu) and Cadmium (Cd) bioaccumulation and biliary PAHs. Water in the sampling points presented low oxygen and high pH, conductivity, dissolved ions, Cu, Cd and ammonia. Bile concentrations of PAHs were high suggesting industrial pollution. The tambaqui exposed to water from Igarape do Quarenta showed increased RMR and decreased ETS/RMR suggesting impairment of metabolic fish performance and the potential use of these parameters as biomarkers.",SPRINGER,53,"ONE NEW YORK PLAZA, SUITE 4600, NEW YORK, NY, UNITED STATES",NEW YORK,7.0,PA4BU,"Jacauna, Roberta Prestes; Kochhann, Daiani; Campos, Derek Felipe; Val, Adalberto Luis",0.0,0.0,Environmental Sciences; Toxicology,B ENVIRON CONTAM TOX,Bull. Environ. Contam. Toxicol.,10.1007/s00128-020-03041-2,"Kochhann, D (corresponding author), Brazilian Natl Inst Res Amazon, Manaus, AM, Brazil.; Kochhann, D (corresponding author), Acarau Valley State Univ, Sobral, CE, Brazil.",BIOTIC LIGAND MODEL; ASELLUS-AQUATICUS L; GAMMARUS-PULEX L; INCREASED TEMPERATURE; AROMATIC-COMPOUNDS; ORGANIC POLLUTION; OXIDATIVE STRESS; HIGH PH; TOXICITY; BIOMARKERS,daia.kochhann@gmail.com,,"Kochhann, Daiani/H-8243-2012",33201255.0,1432-0800,Brazilian National Research Council (CNPq)National Council for Scientific and Technological Development (CNPq) [465540/2014-7]; Amazonas State Research Foundation (FAPEAM) [062.01187/2017]; Coordination for the Improvement of Higher Education Personnel (CAPES)CAPES [001]; CNPqNational Council for Scientific and Technological Development (CNPq); FAPEAM,"This research was funded by a joint grant from the Brazilian National Research Council (CNPq, 465540/2014-7), the Amazonas State Research Foundation (FAPEAM, 062.01187/2017) and Coordination for the Improvement of Higher Education Personnel (CAPES, finance code 001) to ALV (INCT ADAPTA). ALV is the recipient of a research fellowship from the CNPq. RPJ was the recipient of a MSc fellowship from FAPEAM. Authors also would like to thank to the technicians Reginaldo Oliveira and Rogerio Pereira for all logistical support. Thanks are due to Maria de Nazare Paula da Silva for laboratory support and Jennifer Chung for English revision.",,,,,,,,,,,,,,NOV 2020,,,,,,,,,,
Article,JOURNAL OF CRUSTACEAN BIOLOGY,2021-04-13,WOS:000608482700009,2,2,"O'Callaghan, I; Sullivan, T",J,English,Shedding the load: moulting as a cause of variability in whole-body metal concentrations,2020.0,Marine & Freshwater Biology; Zoology,40,0278-0372,6,NOV,725,733,aquatic environment; bioaccumulation; body burden; crustaceans; ecdysis; measurement errors; exoskeleton; macroinvertebrates; metal pollution,"[O'Callaghan, Irene; Sullivan, Timothy] Univ Coll Cork, Sch Biol Earth & Environm Sci, Cork, Ireland; [O'Callaghan, Irene] Univ Coll Cork, Sch Chem, Cork, Ireland; [Sullivan, Timothy] Univ Coll Cork, Environm Res Inst, Cork, Ireland","Moulting is a biological process shared by aquatic macroinvertebrates, but while the exoskeleton is believed to be a major sink of metal pollutants, the contribution of the moulting of the crustacean exoskeleton to total accumulated metal concentrations is insufficiently considered. We present a conceptual, qualitative model that illustrates the impact of moulting on the whole-body burden of an unspecified metal analyte in a hypothetical moulting invertebrate. The model demonstrates that moult stage is a contributor to the whole-body pollutant concentration, and that this introduces a temporal component even in steady-state exposure conditions. The applicability of this model is illustrated by comparison to published results of pre- and post-moult accumulations. A solution for reducing this variability in the measurement of whole-body metal concentrations is presented, and its potential application to both ex-situ and in-situ studies of biomonitor species is discussed.",OXFORD UNIV PRESS,48,"GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND",OXFORD,9.0,PT2XV,"O'Callaghan, Irene; Sullivan, Timothy",0.0,0.0,Marine & Freshwater Biology; Zoology,J CRUSTACEAN BIOL,J. Crustac. Biol.,10.1093/jcbiol/ruaa077,"Sullivan, T (corresponding author), Univ Coll Cork, Sch Biol Earth & Environm Sci, Cork, Ireland.; Sullivan, T (corresponding author), Univ Coll Cork, Environm Res Inst, Cork, Ireland.",ISOPOD ASELLUS-AQUATICUS; TRACE-METALS; BIOACCUMULATION; MARINE; ACCUMULATION; ZINC; CADMIUM; RIVER; CRAB; INVERTEBRATES,timothy.sullivan@ucc.ie,,,,1937-240X,"Irish Research CouncilIrish Research Council for Science, Engineering and Technology; Environmental Protection Agency (Ireland)United States Environmental Protection Agency [GOIPG/2018/3351]","The authors wish to acknowledge the support of the Irish Research Council and the Environmental Protection Agency (Ireland) under grant GOIPG/2018/3351. The authors would also like to thank the two anonymous reviewers for their insightful comments, and Prof. Emer Rogan of the School of BEES, University College Cork, for casting a critical, but kind eye over the early development of this model.",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENTIFIC REPORTS,2021-04-13,WOS:000587692300092,2,2,"Csapo, H; Krzywozniak, P; Grabowski, M; Wattier, R; Bacela-Spychalska, K; Mamos, T; Jelic, M; Rewicz, T",J,English,Successful post-glacial colonization of Europe by single lineage of freshwater amphipod from its Pannonian Plio-Pleistocene diversification hotspot,2020.0,Science & Technology - Other Topics,10,2045-2322,1,OCT 29,,,,"[Csapo, Hedvig] Polish Acad Sci, Inst Oceanol, PL-81712 Sopot, Poland; [Csapo, Hedvig; Krzywozniak, Paula; Grabowski, Michal; Bacela-Spychalska, Karolina; Mamos, Tomasz; Rewicz, Tomasz] Univ Lodz, Dept Invertebrate Zool & Hydrobiol, Fac Biol & Environm Protect, PL-90237 Lodz, Poland; [Csapo, Hedvig] Univ Pecs, Dept Hydrobiol, Fac Sci, H-7634 Pecs, Hungary; [Wattier, Remi] Univ Bourgogne Franche Comte, UMR CNRS Biogeosci 6282, F-21000 Dijon, France; [Mamos, Tomasz] Univ Basel, Zool Inst, CH-4051 Basel, Switzerland; [Jelic, Misel] Varazdin City Museum, Dept Nat Sci, Varazhdin 42000, Croatia; [Rewicz, Tomasz] Univ Guelph, Ctr Biodivers Genom, Guelph, ON N1G 2W1, Canada","Gammarus roeselii Gervais, 1835 is a morphospecies with a wide distribution range in Europe. The Balkan Peninsula is known as an area of pre-Pleistocene cryptic diversification within this taxon, resulting in at least 13 Molecular Operational Taxonomic Units (MOTUs). The morphospecies diversified there during Neogene and has probably invaded other parts of the continent very recently, in postglacial or even historical times. Thus, the detailed goals of our study were to (1) identify which lineage(s) colonized Central-Western Europe (CWE), (2) determine their possible geographical origin, (3) verify, whether the colonisation was associated with demographic changes. In total, 663 individuals were sequenced for the cytochrome oxidase I (COI) barcoding fragment and 137 individuals for the internal transcribed spacer II (ITS2). We identified two MOTUs in the study area with contrasting Barcode Index Number and haplotype diversities. The Pannonian Basin (PB) appeared to be a potential ice age refugium for the species, while CWE was colonised by a single lineage (also present in PB), displaying low genetic diversity. Our results suggest that G. roeselii is a relatively recent coloniser in CWE, starting demographic expansion around 10 kya.",NATURE RESEARCH,95,"HEIDELBERGER PLATZ 3, BERLIN, 14197, GERMANY",BERLIN,15.0,OO9KN,"Csapo, Hedvig; Krzywozniak, Paula; Grabowski, Michal; Wattier, Remi; Bacela-Spychalska, Karolina; Mamos, Tomasz; Jelic, Misel; Rewicz, Tomasz",0.0,0.0,Multidisciplinary Sciences,SCI REP-UK,Sci Rep,10.1038/s41598-020-75568-7,"Rewicz, T (corresponding author), Univ Lodz, Dept Invertebrate Zool & Hydrobiol, Fac Biol & Environm Protect, PL-90237 Lodz, Poland.; Rewicz, T (corresponding author), Univ Guelph, Ctr Biodivers Genom, Guelph, ON N1G 2W1, Canada.",GAMMARUS-ROESELII GERVAIS; ASELLUS-AQUATICUS; GENETIC CONSEQUENCES; KILLER SHRIMP; LIFE-HISTORY; CRUSTACEA; FOSSARUM; DIVERSITY; PHYLOGEOGRAPHY; COMPLEX,tomasz.rewicz@biol.uni.lodz.pl,"Grabowski, Michal/0000-0002-4551-3454; Mamos, Tomasz/0000-0002-0524-3015; Rewicz, Tomasz/0000-0002-2085-4973; Wattier, Remi/0000-0001-5772-4681; Csapo, Hedvig/0000-0002-3659-685X; Jelic, Misel/0000-0003-4119-3948; Bacela-Spychalska, Karolina/0000-0003-4498-5107","Grabowski, Michal/K-1016-2012; Mamos, Tomasz/E-4529-2015; Rewicz, Tomasz/H-5332-2018; Bacela-Spychalska, Karolina/E-4234-2015",33122728.0,,"University of Lodz; Polish Ministry of Science and EducationMinistry of Science and Higher Education, Poland [N N303 579439]; National Science Centre, PolandNational Science Centre, Poland [2014/15/B/NZ8/00266]; UMR-CNRS-Ub-6282 Biogeosciences; Burgundy RegionRegion Bourgogne-Franche-Comte; Polish National Agency for Academic Exchange (NAWA) at Bekker Programme [PPN/BEK/2018/1/00162, PPN/BEK/2018/1/00225]; Polish National Agency for Academic Exchange within Polonium Programme [PPN/BIL/2018/1/00138]; ERASMUS+ Mobility Grant [17/1/KA103/035116/SMP-063, 18/1/KA103/0470013/SMS-040]; New National Excellence Program of the Hungarian Ministry of Human Capacities [uNKP-18-2-I-PTE-146]","We would like to thank Horia Bogdan, Kreimir Zganec, Radomir Jaskua, Kamil Hupao and Micha Rachalewski for their help in fieldwork. Laboratory work and molecular analysis were supported by internal funds of the University of Lodz as well as, partly, by the Polish Ministry of Science and Education (Grant No. N N303 579439) and National Science Centre, Poland (Grant No. 2014/15/B/NZ8/00266), internal funds of the UMR-CNRS-Ub-6282 Biogeosciences and the Burgundy Region. TR and TM were supported by the Scholarship of the Polish National Agency for Academic Exchange (NAWA) at Bekker Programme (TR Project nb. PPN/BEK/2018/1/00162, TM Project nb. PPN/BEK/2018/1/00225) and TR, RW, KBS and MG by the Polish National Agency for Academic Exchange within Polonium Programme (PPN/BIL/2018/1/00138). Additional financing for HC's stay in Poland was provided by the ERASMUS+ Mobility Grant (Grant No. 17/1/KA103/035116/SMP-063 and 18/1/KA103/0470013/SMS-040). The study was additionally supported by the New National Excellence Program of the Hungarian Ministry of Human Capacities (uNKP-18-2-I-PTE-146).","DOAJ Gold, Green Published",,18695,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000527930600054,1,0,"Lerebours, A; Robson, S; Sharpe, C; Smith, JT",J,English,Subtle effects of radiation on embryo development of the 3-spined stickleback,2020.0,Environmental Sciences & Ecology,248,0045-6535,,JUN,,,Radiation; Fish; Embryo,"[Lerebours, Adelaide; Smith, Jim T.] Univ Portsmouth, Sch Earth & Environm Sci, Portsmouth PO1 3QL, Hants, England; [Lerebours, Adelaide; Sharpe, Colin] Univ Portsmouth, Sch Biol Sci, Portsmouth PO1 2DY, Hants, England; [Robson, Samuel] Univ Portsmouth, Ctr Enzyme Innovat, Portsmouth PO1 2DT, Hants, England; [Lerebours, Adelaide] Univ La Rochelle, Littoral Environm & Soc LIENSs, UMR7266, CNRS, 2 Rue Olympe de Gouges, F-17042 La Rochelle, France","The Chernobyl and Fukushima nuclear power plant (NPP) accidents that occurred in 1986 and 2011 respectively have led to many years of chronic radiation exposure of wildlife. However, controversies remain on the dose threshold above which an impact on animal health occurs. Fish have been highly exposed immediately after both accidents in freshwater systems around Chernobyl and in freshwater and marine systems around Fukushima. The dose levels decreased during the years after the accidents, however, little is known about the effects of environmental low doses of radiation on fish health. The present laboratory study assesses the effects of an environmentally relevant dose range of radiation (0.1, 1 and 10 mGy/day) on early life stages of the 3-spined stickleback, Gasterosteus aculeatus. The cardiac physiology and developmental features (head width, diameter, area) of high exposed embryos (10 mGy/day) showed no significant change when compared to controls. Embryos exposed to the medium and high dose were slower to hatch than the controls (between 166 and 195 h post-fertilization). After 10 days of exposure (at 240 h post-fertilization), larvae exposed to the high dose displayed comparable growth to controls. High-throughput sequence analysis of transcriptional changes at this time point revealed no significant changes in gene regulation compared to controls regardless of exposure conditions. Our results suggest that exposure of fish embryos to environmental radiation elicits subtle delays in hatching times, but does not impair the overall growth and physiology, nor the gene expression patterns in the recently hatched larvae. (C) 2020 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,47,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,7.0,LG2IH,"Lerebours, Adelaide; Robson, Samuel; Sharpe, Colin; Smith, Jim T.",1.0,1.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2020.126005,"Lerebours, A (corresponding author), Univ Portsmouth, Sch Biol Sci, Portsmouth PO1 2DY, Hants, England.",GASTEROSTEUS-ACULEATUS L.; EARLY-LIFE STAGES; GAMMA-IRRADIATION; ASELLUS-AQUATICUS; OXIDATIVE STRESS; ZEBRAFISH; WATER; ABUNDANCE; FISH; RECONSTRUCTION,adelaide.lerebours@univ-lr.fr,"Smith, Jim/0000-0002-0808-2739; Sharpe, Colin/0000-0002-5022-0840; Lerebours, Adelaide/0000-0001-9789-7704","Smith, Jim/G-7716-2011",32032873.0,1879-1298,Environment Agency; Radioactive Waste Management Ltd (NERC) [NE/L000393/1],"Authors are grateful to Neil Fuller and Graham Malyon for their help with fish maintenance. This workwas completed as part of the TREE (Transfer-Exposure-Effects) consortium under the RATE programme (Radioactivity and the Environment), funded by the Environment Agency and Radioactive Waste Management Ltd (NERC grant NE/L000393/1).",,,126005,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:000525762800043,16,4,"Brock, TCM; Romao, J; Yin, X; Osman, R; Roessink, I",J,English,Sediment toxicity of the fungicide fludioxonil to benthic macroinvertebrates-evaluation of the tiered effect assessment procedure,2020.0,Environmental Sciences & Ecology; Toxicology,195,0147-6513,,JUN 1,,,Sediment ecotoxicology; Fungicide exposure; Standard test species; Species sensitivity distributions; Weight of evidence approach,"[Brock, Theo C. M.; Romao, Joao; Yin, Xiao; Osman, Rima; Roessink, Ivo] Wageningen Univ & Res, Wageningen Environm Res, POB 47, NL-6700 AA Wageningen, Netherlands; [Romao, Joao] Univ Aveiro, Dept Biol, P-3810193 Aveiro, Portugal; [Yin, Xiao] Zhe Jiang Agr & Forestry Univ, Coll Agr & Food Sci, 88 North Rd Huan Cheng, Hangzhou 311300, Zhejiang, Peoples R China","28-Day sediment-spiked laboratory toxicity tests with eight benthic macroinvertebrates and the lipophilic fungicide fludioxonil were conducted to verify the proposed tiered sediment effect assessment procedure as recommended by the European Food Safety Authority (EFSA). The test species were the oligochaetes Lumbriculus variegatus and Tubifex tubifex, the insects Chironomus riparius and Caenis horaria, the crustaceans Hyalella azteca and Asellus aquaticus and the bivalves Corbicula fluminalis and Pisidium amnicum. Toxicity estimates were expressed in terms of total concentration of dry sediment as well as in pore water concentration. Field-collected sediment, also used in a previously performed sediment-spiked microcosm experiment, was used in tests with all species. L. variegatus and C. riparius had similar lowest 28d-LEC10 values when expressed in terms of total sediment concentration, but in terms of pore water concentration L. variegatus was more sensitive. Three of the six additional benthic test species (A. aquaticus, C. horaria, C. fluminalis) had 28d-EC10, values a factor of 2-6 lower than that of L. variegatus. Comparing different effect assessment tiers for sediment organisms, i.e. Tier-0 (Modified Equilibrium Partitioning approach), Tier-1 (Standard Test Species approach), Tier-2 (Species Sensitivity Distribution (SSD) approach) and Tier-3 (Model Ecosystem approach), it is concluded that the tiers based on sediment-spiked laboratory toxicity tests provide sufficient protection when compared with the Tier-3 Regulatory Acceptable Concentration (RAC). Differences between Tier-1 and Tier-2 RACs, however, appear to be relatively small and not always consistent, irrespective of expressing the RAC in terms of total sediment or pore water concentration. Derivation of RACs by means of the SSD approach may be a challenge, because it is difficult obtaining a sufficient number of valid chronic EC10, values with appropriate 95% confidence bands for sediment-dwelling macroinvertebrates. Therefore, this paper proposes a Tier-2 Weight-of-Evidence approach to be used in case an insufficient number of valid additional toxicity data is made available. Similar studies with pesticides that differ in fate properties and toxic mode-of-action are necessary for further validation of the tiered effect assessment approach for sediment organisms.",ACADEMIC PRESS INC ELSEVIER SCIENCE,33,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,11.0,LD0ZU,"Brock, Theo C. M.; Romao, Joao; Yin, Xiao; Osman, Rima; Roessink, Ivo",0.0,0.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1016/j.ecoenv.2020.110504,"Roessink, I (corresponding author), Wageningen Univ & Res, Wageningen Environm Res, POB 47, NL-6700 AA Wageningen, Netherlands.",CHIRONOMUS-RIPARIUS; ORGANIC-CHEMICALS; PESTICIDES; BIFENTHRIN; LUFENURON,ivo.roessink@wur.nl,,,32220792.0,1090-2414,"TKI project [5200043069]; Dutch government; European Crop Protection Association; Dutch Ministry of Agriculture, Nature and Food Quality [BO-20-0002-001]","This research is a follow-up of TKI project 5200043069, a project co-funded by both the Dutch government and the European Crop Protection Association. The follow-up research presented in this paper is mainly financed by the Dutch Ministry of Agriculture, Nature and Food Quality (project BO-20-0002-001). The authors are indebted to Laura Buijse and Steven Crum for their help in analysing fludioxonil in sediment samples. Jasper van Smeden, Marie-Claire Boerwinkel, Dick Belgers, Maria Oursouzidou and Ioannis Anestis supported the conduct of and biological observation in the laboratory toxicity tests. Mick Hamer critically read a previous version of the paper and made valuable suggestions for improvement. Two anonymous reviewers provided useful comments to improve a previous version of the manuscript.","Green Published, Other Gold",,110504,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGY AND EVOLUTION,2021-04-13,WOS:000530356300001,2,0,"Herczeg, G; Hafenscher, VP; Balazs, G; Fiser, Z; Kralj-Fiser, S; Horvath, G",J,English,Is foraging innovation lost following colonization of a less variable environment? A case study in surface- vs. cave-dwelling Asellus aquaticus,2020.0,Environmental Sciences & Ecology; Evolutionary Biology,10,2045-7758,12,JUN,5323,5331,adaptation; behavioral flexibility; behavioral innovation; colonization; plasticity,"[Herczeg, Gabor; Hafenscher, Viktoria P.; Balazs, Gergely; Horvath, Gergely] Eotv Lorand Univ, Inst Biol, Dept Systemat Zool & Ecol, Behav Ecol Grp, Pazmany Peter Setany 1-C, H-1117 Budapest, Hungary; [Fiser, Ziga] Univ Ljubljana, Biotechn Fac, Dept Biol, Ljubljana, Slovenia; [Kralj-Fiser, Simona] Slovenian Acad Sci & Arts, Res Ctr, Inst Biol, Ljubljana, Slovenia","Behavioral innovation is a key process for successful colonization of new habitat types. However, it is costly due to the necessary cognitive and neural demands and typically connected to ecological generalism. Therefore, loss of behavioral innovativeness is predicted following colonization of new, simple, and invariable environments. We tested this prediction by studying foraging innovativeness in the freshwater isopod Asellus aquaticus. We sampled its populations along the route of colonizing a thermokarstic water-filled cave (simple, stable habitat with only bacterial mats as food) from surface habitats (variable environment, wide variety of food). The studied cave population separated from the surface populations at least 60,000 years ago. Animals were tested both with familiar and novel food types (cave food: bacterial mats; surface food: decaying leaves). Irrespective of food type, cave individuals were more likely to feed than surface individuals. Further, animals from all populations fed longer on leaves than on bacteria, even though leaves were novel for the cave animals. Our results support that cave A. aquaticus did not lose the ability to use the ancestral (surface) food type after adapting to a simple, stable, and highly specialized habitat.",WILEY,63,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,MJ3WS,"Herczeg, Gabor; Hafenscher, Viktoria P.; Balazs, Gergely; Fiser, Ziga; Kralj-Fiser, Simona; Horvath, Gergely",0.0,0.0,Ecology; Evolutionary Biology,ECOL EVOL,Ecol. Evol.,10.1002/ece3.6276,"Herczeg, G (corresponding author), Eotv Lorand Univ, Inst Biol, Dept Systemat Zool & Ecol, Behav Ecol Grp, Pazmany Peter Setany 1-C, H-1117 Budapest, Hungary.",BEHAVIORAL FLEXIBILITY; INVASION SUCCESS; GAMMARUS-PULEX; RELATIVE BRAIN; BIRDS; POPULATIONS; CRUSTACEA; SYSTEM; SIZE; INTELLIGENCE,gaborherczeg@caesar.elte.hu,"Horvath, Gergely/0000-0002-0485-333X; Fiser, Ziga/0000-0003-4576-5173; Herczeg, Gabor/0000-0003-0441-342X","Horvath, Gergely/Q-1119-2018",32607155.0,,"joint Hungarian-Slovenian grant for international cooperation (Hungarian National Research, Development and Innovation Fund) [SNN-125627]; joint Hungarian-Slovenian grant for international cooperation (Slovenian Research Agency) [N1-0069]; Research Core Funding (Slovenian Research Agency) [P1-0184]","We are highly indebted to two anonymous reviewers for their valuable comments. We thank Hajriz Berisha for his assistance during behavioral tests. This research was supported by the joint Hungarian-Slovenian grant for international cooperation (Hungarian National Research, Development and Innovation Fund: #SNN-125627; Slovenian Research Agency: #N1-0069) and the Research Core Funding (Slovenian Research Agency: #P1-0184).","DOAJ Gold, Green Published",,,,,,,,,,,,,MAY 2020,,,,,,,,,,
Article,ZOOLOGY,2021-04-13,WOS:000528199600003,10,1,"Kralj-Fiser, S; Premate, E; Copilas-Ciocianu, D; Volk, T; Fiser, Z; Balazs, G; Herczeg, G; Delic, T; Fiser, C",J,English,"The interplay between habitat use, morphology and locomotion in subterranean crustaceans of the genus Niphargus",2020.0,Zoology,139,0944-2006,,APR,,,appendage length; body size; habitat use; locomotion; Niphargus; subterranean environment,"[Kralj-Fiser, Simona] Slovenian Acad Sci & Arts, Sci & Res Ctr, Inst Biol, Novi Trg 2, SI-1000 Ljubljana, Slovenia; [Premate, Ester; Volk, Teja; Fiser, Ziga; Delic, Teo; Fiser, Cene] Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, SI-1000 Ljubljana, Slovenia; [Copilas-Ciocianu, Denis] Nat Res Ctr, Lab Evolutionary Ecol Hydrobionts, Akad Str 2, LT-08412 Vilnius, Lithuania; [Copilas-Ciocianu, Denis] Charles Univ Prague, Dept Ecol, Ovocny Trh 560-5, Prague 11636, Czech Republic; [Balazs, Gergely; Herczeg, Gabor] Eotvos Lorand Univ, Dept Systemat Zool & Ecol, Behav Ecol Grp, Egyet Ter 1-3, H-1053 Budapest, Hungary","Locomotion is an important, fitness-related functional trait. Environment selects for type of locomotion and shapes the morphology of locomotion-related traits such as body size and appendages. In subterranean aquatic arthropods, these traits are subjected to multiple, at times opposing selection pressures. Darkness selects for enhanced mechano- and chemosensory systems and hence elongation of appendages. Conversely, water currents have been shown to favor short appendages. However, no study has addressed the variation in locomotion of invertebrates inhabiting cave streams and cave lakes, or questioned the relationship between species' morphology and locomotion. To fill this knowledge gap, we studied the interplay between habitat use, morphology and locomotion in amphipods of the subterranean genus Niphargus. Previous studies showed that lake and stream species differ in morphology. Namely, lake species are large, stout and long-legged, whereas stream species are small, slender and short-legged. We here compared locomotion mode and speed between three lake and five stream species. In addition, we tested whether morphology predicts locomotion. We found that the stream species lie on their body sides and move using slow crawling or tail-flipping. The species inhabiting lakes move comparably faster, and use a variety of locomotion modes. Noteworthy, one of the lake species almost exclusively moves in an upright or semi-upright position that resembles walking. Body size and relative length of appendages predict locomotion mode and speed in all species. We propose that integrating locomotion in the studies of subterranean species might improve our understanding of their morphological evolution.",ELSEVIER GMBH,46,"HACKERBRUCKE 6, 80335 MUNICH, GERMANY",MUNICH,8.0,LG6HL,"Kralj-Fiser, Simona; Premate, Ester; Copilas-Ciocianu, Denis; Volk, Teja; Fiser, Ziga; Balazs, Gergely; Herczeg, Gabor; Delic, Teo; Fiser, Cene",1.0,1.0,Zoology,ZOOLOGY,Zoology,10.1016/j.zool.2020.125742,"Kralj-Fiser, S (corresponding author), Slovenian Acad Sci & Arts, Sci & Res Ctr, Inst Biol, Novi Trg 2, SI-1000 Ljubljana, Slovenia.",ASELLUS-AQUATICUS ISOPODA; AMPHIPOD GENUS; CAVE ANIMALS; DEEP-SEA; BEHAVIOR; EVOLUTION; DIVERSITY; SURFACE; WATERS; FISH,simonakf@zrc-sazu.si; ester.premate@gmail.com; copilas.denis@gmail.com; tejaklov@gmail.com; ziga.fiser@bf.uni-lj.si; balazsgrg@gmail.com; gaborherczeg@caesar.elte.hu; teo.delic@bf.uni-lj.si; cene.fiser@bf.uni-lj.si,"Copilas-Ciocianu, Denis/0000-0002-6374-2365; Fiser, Ziga/0000-0003-4576-5173; Balazs, Gergely/0000-0001-6372-387X","Copilas-Ciocianu, Denis/F-1956-2011",32086140.0,,"Slovenian Research AgencySlovenian Research Agency - Slovenia [N1-0069, P1-0184, P1-0236]; Hungarian National Research, Development and Innovation Fund for international cooperation [SNN-125627]; Charles University; Erasmus internship; University Foundation of ing. Lenarcic Milan","The study was supported by Slovenian Research Agency (project N1-0069 and programs P1-0184 and P1-0236) and the Hungarian National Research, Development and Innovation Fund for international cooperation (#SNN-125627). DCC was partially supported by Charles University and an Erasmus internship. EP was supported by University Foundation of ing. Lenarcic Milan. We are grateful to Stefano Mammola and an anonymous reviewer for constructive comments and suggestions that improved this manuscript.",,,125742,,,,,,,,,,,,,,,,,,,,,
Article,BIOTECHNOLOGY FOR BIOFUELS,2021-04-13,WOS:000521188800001,7,0,"Bredon, M; Herran, B; Bertaux, J; Greve, P; Moumen, B; Bouchon, D",J,English,Isopod holobionts as promising models for lignocellulose degradation,2020.0,Biotechnology & Applied Microbiology; Energy & Fuels,13,,1,MAR 13,,,Lignocellulose; CAZymes; Shotgun metagenomics; Microbiota; Holobiont; Transcriptomics; Isopods,"[Bredon, Marius; Herran, Benjamin; Bertaux, Joanne; Greve, Pierre; Moumen, Bouziane; Bouchon, Didier] Univ Poitiers, Lab Ecol & Biol Interact, Ecol & Biol Interact, UMR CNRS 7267, Batiment B8-B35,5 Rue Albert Turpin,TSA 51106, F-86073 Poitiers 9, France","BackgroundIsopods have colonized all environments, partly thanks to their ability to decompose the organic matter. Their enzymatic repertoire, as well as the one of their associated microbiota, has contributed to their colonization success. Together, these holobionts have evolved several interesting life history traits to degrade the plant cell walls, mainly composed of lignocellulose. It has been shown that terrestrial isopods achieve lignocellulose degradation thanks to numerous and diverse CAZymes provided by both the host and its microbiota. Nevertheless, the strategies for lignocellulose degradation seem more diversified in isopods, in particular in aquatic species which are the least studied. Isopods could be an interesting source of valuable enzymes for biotechnological industries of biomass conversion.ResultsTo provide new features on the lignocellulose degradation in isopod holobionts, shotgun sequencing of 36 metagenomes of digestive and non-digestive tissues was performed from several populations of four aquatic and terrestrial isopod species. Combined to the 15 metagenomes of an additional species from our previous study, as well as the host transcriptomes, this large dataset allowed us to identify the CAZymes in both the host and the associated microbial communities. Analyses revealed the dominance of Bacteroidetes and Proteobacteria in the five species, covering 36% and 56% of the total bacterial community, respectively. The identification of CAZymes and new enzymatic systems for lignocellulose degradation, such as PULs, cellulosomes and LPMOs, highlights the richness of the strategies used by the isopods and their associated microbiota.ConclusionsAltogether, our results show that the isopod holobionts are promising models to study lignocellulose degradation. These models can provide new enzymes and relevant lignocellulose-degrading bacteria strains for the biotechnological industries of biomass conversion.",BMC,73,"CAMPUS, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,14.0,KW5EU,"Bredon, Marius; Herran, Benjamin; Bertaux, Joanne; Greve, Pierre; Moumen, Bouziane; Bouchon, Didier",5.0,5.0,Biotechnology & Applied Microbiology; Energy & Fuels,BIOTECHNOL BIOFUELS,Biotechnol. Biofuels,10.1186/s13068-020-01683-2,"Bouchon, D (corresponding author), Univ Poitiers, Lab Ecol & Biol Interact, Ecol & Biol Interact, UMR CNRS 7267, Batiment B8-B35,5 Rue Albert Turpin,TSA 51106, F-86073 Poitiers 9, France.",ASELLUS-AQUATICUS; DEGRADING ENZYMES; GAMMARUS-PULEX; ALIGNMENT; PROTEIN; GENOME; SPECIFICITY; PREDICTION; DIGESTION; DATABASE,didier.bouchon@univ-poitiers.fr,"Bouchon, Didier/0000-0002-4938-408X; Marius, Bredon/0000-0001-7396-8870","Marius, Bredon/AAH-5517-2020; Bouchon, Didier/B-2419-2012",32190114.0,1754-6834,"2015-2020 State-Region Planning Contracts (CPER), European Regional Development Fund (FEDER) (BiodivUP project); Centre National de la Recherche ScientifiqueCentre National de la Recherche Scientifique (CNRS); University of Poitiers; French Ministere de l'Enseignement superieur, de la Recherche et de l'Innovation","This work was funded by the 2015-2020 State-Region Planning Contracts (CPER), European Regional Development Fund (FEDER) (BiodivUP project, coordinator DB), and intramural funds from the Centre National de la Recherche Scientifique and the University of Poitiers. The work of MB was supported by a Ph.D. grant from the French Ministere de l'Enseignement superieur, de la Recherche et de l'Innovation.","DOAJ Gold, Green Published",,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGY-BASEL,2021-04-13,WOS:000525146100005,1,0,"Glazier, DS; Borrelli, JJ; Hoffman, CL",J,English,Effects of Fish Predators on the Mass-Related Energetics of a Keystone Freshwater Crustacean,2020.0,Life Sciences & Biomedicine - Other Topics,9,,3,MAR,,,body-mass scaling; fat content; fish predation; food assimilation; freshwater springs; Gammarus minus; growth rate; metabolic rate; ontogeny; reproduction,"[Glazier, Douglas S.] Juniata Coll, Dept Biol, Huntingdon, PA 16652 USA; [Borrelli, Jonathan J.] Rensselaer Polytech Inst, Dept Biol Sci, Troy, NY 12180 USA; [Hoffman, Casandra L.] Univ Virginia, Sch Med, Dept Pediat, Charlottesville, VA 22908 USA","Little is known about how predators or their cues affect the acquisition and allocation of energy throughout the ontogeny of prey organisms. To address this question, we have been comparing the ontogenetic body-mass scaling of various traits related to energy intake and use between populations of a keystone amphipod crustacean inhabiting freshwater springs, with versus without fish predators. In this progress report, we analyze new and previously reported data to develop a synthetic picture of how the presence/absence of fish predators affects the scaling of food assimilation, fat content, metabolism, growth and reproduction in populations of Gammarus minus located in central Pennsylvania (USA). Our analysis reveals two major clusters of 'symmorphic allometry' (parallel scaling relationships) for traits related to somatic versus reproductive investment. In the presence of fish predators, the scaling exponents for somatic traits tend to decrease, whereas those for reproductive traits tend to increase. This divergence of scaling exponents reflects an intensified trade-off between somatic and reproductive investments resulting from low adult survival in the face of size-selective predation. Our results indicate the value of an integrated view of the ontogenetic size-specific energetics of organisms and its response to both top-down (predation) and bottom-up (resource supply) effects.",MDPI,186,"ST ALBAN-ANLAGE 66, CH-4052 BASEL, SWITZERLAND",BASEL,34.0,LC2GR,"Glazier, Douglas S.; Borrelli, Jonathan J.; Hoffman, Casandra L.",3.0,3.0,Biology,BIOLOGY-BASEL,Biology-Basel,10.3390/biology9030040,"Glazier, DS (corresponding author), Juniata Coll, Dept Biol, Huntingdon, PA 16652 USA.",SIZE-SELECTIVE PREDATION; AMPHIPOD GAMMARUS-MINUS; METABOLIC-RATE; ANTIPREDATOR BEHAVIOR; BODY-SIZE; PHYSIOLOGICAL-RESPONSES; PHENOTYPIC PLASTICITY; AVOIDANCE-BEHAVIOR; OXYGEN-CONSUMPTION; ASELLUS-AQUATICUS,glazier@juniata.edu; borrej4@rpi.edu; hoffmcl08@gmail.com,"Borrelli, Jonathan/0000-0003-1700-8116; Glazier, Douglas/0000-0001-7164-1823",,32106435.0,2079-7737,Merck-AAASMerck & Company; William J. von Liebig Foundation,"This research was funded, in part, by Merck-AAAS and William J. von Liebig Foundation grants awarded to Juniata College.","DOAJ Gold, Green Published",,40,,,,,,,,,,,,,,,,,,,,,
Article,FUNCTIONAL ECOLOGY,2021-04-13,WOS:000515564700001,14,3,"Francois, CM; Simon, L; Malard, F; Lefebure, T; Douady, CJ; Mermillod-Blondin, F",J,English,Trophic selectivity in aquatic isopods increases with the availability of resources,2020.0,Environmental Sciences & Ecology,34,0269-8463,5,MAY,1078,1090,C and N stable isotopes; diet determination; freshwater isopods; resource availability; resource diversity; selective feeding; stoichiometric quality; trophic choices,"[Francois, Clementine M.; Simon, Laurent; Malard, Florian; Lefebure, Tristan; Douady, Christophe J.; Mermillod-Blondin, Florian] Univ Claude Bernard Lyon 1, Univ Lyon, UMR5023 LEHNA, CNRS,ENTPE, F-69622 Villeurbanne, France; [Douady, Christophe J.] Inst Univ France, Paris, France","Trophic selectivity has major influences on consumers' fitness, stability of predator and prey populations, and nutrient fluxes in food webs. Trophic selectivity occurs when the relative abundances of resources in a consumer's diet differ from their relative abundances in the environment. This discrepancy between resources abundance and use has been predicted to increase with the availability of resources in the environment. Trophic selectivity has also been predicted to increase with the heterogeneity of resources quality in the environment. Despite their ecological and evolutionary implications, conclusive in situ tests of these predictions are still lacking. We challenged these two predictions by studying 15 closely related species of isopods distributed along a wide range of resource availability (RA) (from 1.3 to 57.6 g of organic carbon per m(2)). The dataset ranged from deep cave systems, considered as some of the most resource-limited environments on Earth, to highly productive surface streams. For each species, we quantified the relative abundance of all available resources in the environment and estimated the heterogeneity in the stoichiometric quality of these resources. Isopod diet was determined using C and N stable isotopes and a Bayesian mixing model. The degree of trophic selectivity was then calculated for each species. By coupling a standardized quantification of trophic resources with a fine determination of diets using stable isotopes, we uncovered a positive relationship between RA and trophic selectivity. In contrast to our second prediction, trophic selectivity did not correlate with the heterogeneity of resources quality. Our results have important implications in trophic ecology by highlighting that RA was a main driver of trophic choices in aquatic invertebrates across a broad range of environments. These findings call for further evaluation of the mechanisms (e.g. trophic competition) causing the positive relationship between trophic selectivity and RA, as these mechanisms could be closely linked to those generating the documented relationship between species richness and productive energy. A free Plain Language Summary can be found within the Supporting Information of this article.",WILEY,96,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,13.0,LK2LH,"Francois, Clementine M.; Simon, Laurent; Malard, Florian; Lefebure, Tristan; Douady, Christophe J.; Mermillod-Blondin, Florian",1.0,1.0,Ecology,FUNCT ECOL,Funct. Ecol.,10.1111/1365-2435.13530,"Francois, CM (corresponding author), Univ Claude Bernard Lyon 1, Univ Lyon, UMR5023 LEHNA, CNRS,ENTPE, F-69622 Villeurbanne, France.",FOOD-WEB STRUCTURE; STABLE-ISOTOPE; ASELLUS-AQUATICUS; ECOLOGICAL STOICHIOMETRY; ORGANIC-MATTER; NICHE BREADTH; LIFE-HISTORY; LIMITATION; DIET; PHYLOGENIES,clementine.francois@univ-lyon1.fr,"Douady, Christophe/0000-0002-4503-8040; Lefebure, Tristan/0000-0003-3923-8166; Simon, Laurent/0000-0003-1389-9871; Francois, Clementine M/0000-0001-7781-8781","Douady, Christophe/N-3069-2019; Lefebure, Tristan/A-6489-2009; Douady, Christophe J/N-1357-2014; Simon, Laurent/B-4641-2009",,1365-2435,Agence Nationale de la RechercheFrench National Research Agency (ANR)European Commission [ANR-08-JCJC-0120-01 DEEP]; Centre National de la Recherche Scientifique (APEGE 2012 'Stoichiogenomics') [70632]; Centre National de la Recherche Scientifique (EC2CO 2013-2014 'Ecosphere Continentale et Cotiere'-'CoCoNutS' project),This work was supported by grants from the Agence Nationale de la Recherche (ANR-08-JCJC-0120-01 DEEP) and the Centre National de la Recherche Scientifique (APEGE 2012 'Stoichiogenomics' No. 70632 and EC2CO 2013-2014 'Ecosphere Continentale et Cotiere'-'CoCoNutS' project).,,,,,,,,,,,,,,FEB 2020,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000514071800001,6,2,"Sworobowicz, L; Mamos, T; Grabowski, M; Wysocka, A",J,English,"Lasting through the ice age: The role of the proglacial refugia in the maintenance of genetic diversity, population growth, and high dispersal rate in a widespread freshwater crustacean",2020.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,65,0046-5070,6,JUN,1028,1046,Asellus aquaticus; Europe; phylogeography; Pleistocene; post-glacial colonisation,"[Sworobowicz, Lidia; Wysocka, Anna] Univ Gdansk, Fac Biol, Dept Genet & Biosystemat, Wita Stwosza 59, PL-80308 Gdansk, Poland; [Mamos, Tomasz; Grabowski, Michal] Univ Lodz, Dept Invertebrate Zool & Hydrobiol, Fac Biol & Environm Protect, Lodz, Poland; [Mamos, Tomasz] Univ Basel, Inst Zool, Basel, Switzerland","The severe climatic changes during the Pleistocene ice ages have shaped the genetic structure and distribution of biota in Europe. We aimed to reveal in detail the genetic diversity, geographical population structure, historical and present demography, migration patterns, and the presence of possible glacial refugia within the nominative subspecies Asellus aquaticus aquaticus. We analysed DNA sequences of the mitochondrial cytochrome c oxidase subunit I gene and nuclear noncoding internal transcribed spacer II region, from populations inhabiting post-glacial Europe (from the British Isles and Scandinavia to the northern Mediterranean and Black Sea coasts). The origin of the taxon, including establishment in the Dinaric Western Balkans, dates to the Middle/Late Pliocene, but most of its genetic diversity emerged during the Middle/Late Pleistocene before the Last Glacial Maximum. Despite the general absence of spatial genetic structure with population growth, we discovered two different phylogeographic stories across 11 clusters revealed by a coalescent approach. Firstly, the periglacial cluster group-spatially restricted mainly to the northern Balkans, Pannonian Basin, and Pontic Region-is older and more divergent. It apparently retained a relatively stable population size during the glacial-interglacial cycles. Conversely, the proglacial cluster group-widely distributed in areas close to the glacier margins (north of the Alps, Sudetes, Carpathians) and in the Pannonian Basin-is younger and composed of closely related individuals. It originated in Pleistocene and lasted continuously through the Last Glacial Maximum in numerous high latitude refugia. This was probably due to the vast network of proglacial lakes and rivers, which played a crucial role in the maintenance of genetic diversity, population growth, and high dispersal rate. The evolutionary history of A. a. aquaticus reveals unexpected patterns and is an important lesson when making predictions for other aquatic taxa. Our results suggest that we should stop perceiving the proglacial habitats as lifeless ice desert.",WILEY,134,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,19.0,LO2GL,"Sworobowicz, Lidia; Mamos, Tomasz; Grabowski, Michal; Wysocka, Anna",3.0,3.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.13487,"Wysocka, A (corresponding author), Univ Gdansk, Fac Biol, Dept Genet & Biosystemat, Wita Stwosza 59, PL-80308 Gdansk, Poland.",ASELLUS-AQUATICUS CRUSTACEA; POSTGLACIAL COLONIZATION; GLACIAL REFUGIA; LIFE-HISTORY; PHYLOGEOGRAPHIC RELATIONSHIPS; PHYLOGENETIC-RELATIONSHIPS; GEOGRAPHICAL PATTERNS; HYPOGEAN POPULATIONS; EUROPE INSIGHTS; PANNONIAN BASIN,anna.wysocka@ug.edu.pl,"Mamos, Tomasz/0000-0002-0524-3015; Grabowski, Michal/0000-0002-4551-3454; Sworobowicz, Lidia/0000-0003-3266-1471; Wysocka, Anna/0000-0003-1218-7311","Mamos, Tomasz/AAU-9303-2020; Grabowski, Michal/K-1016-2012; Sworobowicz, Lidia/D-1923-2019",,1365-2427,"Ministerstwo Nauki i Szkolnictwa WyzszegoMinistry of Science and Higher Education, Poland [2014/15/B/NZ8/00266, 538-L260-B524-17, N N303 581 839]","Ministerstwo Nauki i Szkolnictwa Wyzszego, Grant/Award Number: 2014/15/B/NZ8/00266, 538-L260-B524-17 and N N303 581 839",,,,,,,,,,,,,,FEB 2020,,,,,,,,,,
Review,JOURNAL OF ENVIRONMENTAL RADIOACTIVITY,2021-04-13,WOS:000510973800002,23,8,"Shuryak, I",J,English,Review of resistance to chronic ionizing radiation exposure under environmental conditions in multicellular organisms,2020.0,Environmental Sciences & Ecology,212,0265-931X,,FEB,,,Radioactive contamination; Radioresistance; Chronic irradiation; Plants; Animals,"[Shuryak, Igor] Columbia Univ, Ctr Radiol Res, Irving Med Ctr, 630 West 168th St,VC-11-234-5, New York, NY 10032 USA","Ionizing radiation resistance occurs among many phylogenetic groups and its mechanisms remain incompletely understood. Tolerances to acute and chronic irradiation do not always correlate because different mechanisms may be involved. The radioresistance phenomenon becomes even more complex in the field than in the laboratory because the effects of radioactive contamination on natural populations are intertwined with those of other factors, such as bioaccumulation of radionuclides, interspecific competition, seasonal variations in environmental conditions, and land use changes due to evacuation of humans from contaminated areas. Previous reviews of studies performed in radioactive sites like the Kyshtym, Chernobyl, and Fukushima accident regions, and of protracted irradiation experiments, often focused on detecting radiation effects at low doses in radiosensitive organisms. Here we review the literature with a different purpose: to identify organisms with high tolerance to chronic irradiation under environmental conditions, which maintained abundant populations and/or outcompeted more radiosensitive species at high dose rates. Taxa for which consistent evidence for radioresistance came from multiple studies conducted in different locations and at different times were found among plants (e.g. willow and birch trees, sedges), invertebrate and vertebrate animals (e.g. rotifers, some insects, crustaceans and freshwater fish). These organisms are not specialized ""extremophiles"", but tend to tolerate broad ranges of environmental conditions and stresses, have small genomes, reproduce quickly and/or disperse effectively over long distances. Based on these findings, resistance to radioactive contamination can be examined in a more broad context of chronic stress responses.",ELSEVIER SCI LTD,205,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,14.0,KH9MX,"Shuryak, Igor",2.0,2.0,Environmental Sciences,J ENVIRON RADIOACTIV,J. Environ. Radioact.,10.1016/j.jenvrad.2019.106128,"Shuryak, I (corresponding author), Columbia Univ, Ctr Radiol Res, Irving Med Ctr, 630 West 168th St,VC-11-234-5, New York, NY 10032 USA.",CHRONIC GAMMA-IRRADIATION; INTERNAL ALPHA-IRRADIATION; GENOME SIZE; CHROMOSOMAL-ABERRATIONS; GENETIC CONSEQUENCES; REPRODUCTIVE SUCCESS; CHERNOBYL ACCIDENT; CADMIUM TOLERANCE; ASELLUS-AQUATICUS; NATURAL INCREASE,is144@cumc.columbia.edu,,,31818732.0,1879-1700,,,,,106128,,,,,,,,,,,,,,,,,,,,,
Editorial Material,JOURNAL OF ENVIRONMENTAL RADIOACTIVITY,2021-04-13,WOS:000503313400010,7,1,"Smith, J",J,English,"Field evidence of significant effects of radiation on wildlife at chronic low dose rates is weak and often misleading. A comment on ""Is non-human species radiosensitivity in the lab a good indicator of that in the field? Making the comparison more robust"" by Beaugelin-Seiller et al",2020.0,Environmental Sciences & Ecology,211,0265-931X,,JAN,,,,"[Smith, Jim] Univ Portsmouth, Sch Earth & Environm Sci, Burnaby Bldg,Burnaby Rd, Portsmouth PO1 3QL, Hants, England",,ELSEVIER SCI LTD,38,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,6.0,JW8RE,"Smith, Jim",4.0,4.0,Environmental Sciences,J ENVIRON RADIOACTIV,J. Environ. Radioact.,10.1016/j.jenvrad.2019.01.007,"Smith, J (corresponding author), Univ Portsmouth, Sch Earth & Environm Sci, Burnaby Bldg,Burnaby Rd, Portsmouth PO1 3QL, Hants, England.",RADIONUCLIDE CONTAMINATION; ASELLUS-AQUATICUS; BARN SWALLOWS; CHERNOBYL; ABUNDANCE; EXPOSURE; REPRODUCTION; POPULATIONS; MAMMALS; IMPACT,jim.smith@port.ac.uk,,,30773307.0,1879-1700,Environment Agency; Radioactive Waste Management Ltd.; NERC iCLEAR - Innovating the Chernobyl Landscape: Environmental Assessment for Rehabilitation and Management projectUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/R009619/1],"This work was completed as part of the TREE (Transfer-Exposure-Effects) project under the UK Natural Environment Research Council (NERC) Radioactivity and the Environment programme, part funded by the Environment Agency and Radioactive Waste Management Ltd. It was also completed as part of the NERC iCLEAR - Innovating the Chernobyl Landscape: Environmental Assessment for Rehabilitation and Management (NE/R009619/1) project.",,,105895,,,,,,,,,,,,,,,,,,,,,
Article,GENES,2021-04-13,WOS:000514898000106,3,1,"Gross, JB; Sun, DNA; Carlson, BM; Brodo-Abo, S; Protas, ME",J,English,"Developmental Transcriptomic Analysis of the Cave-Dwelling Crustacean, Asellus aquaticus",2020.0,Genetics & Heredity,11,,1,JAN,,,regressive evolution; de novo transcriptome; differential expression; troglomorphy; cave,"[Gross, Joshua B.] Univ Cincinnati, Dept Biol Sci, Cincinnati, OH 45221 USA; [Sun, Dennis A.] Univ Calif Berkeley, Dept Mol & Cell Biol, Berkeley, CA 94720 USA; [Carlson, Brian M.] Coll Wooster, Dept Biol, Wooster, OH 44691 USA; [Brodo-Abo, Sivan; Protas, Meredith E.] Dominican Univ Calif, Dept Nat Sci & Math, San Rafael, CA 94901 USA","Cave animals are a fascinating group of species often demonstrating characteristics including reduced eyes and pigmentation, metabolic efficiency, and enhanced sensory systems. Asellus aquaticus, an isopod crustacean, is an emerging model for cave biology. Cave and surface forms of this species differ in many characteristics, including eye size, pigmentation, and antennal length. Existing resources for this species include a linkage map, mapped regions responsible for eye and pigmentation traits, sequenced adult transcriptomes, and comparative embryological descriptions of the surface and cave forms. Our ultimate goal is to identify genes and mutations responsible for the differences between the cave and surface forms. To advance this goal, we decided to use a transcriptomic approach. Because many of these changes first appear during embryonic development, we sequenced embryonic transcriptomes of cave, surface, and hybrid individuals at the stage when eyes and pigment become evident in the surface form. We generated a cave, a surface, a hybrid, and an integrated transcriptome to identify differentially expressed genes in the cave and surface forms. Additionally, we identified genes with allele-specific expression in hybrid individuals. These embryonic transcriptomes are an important resource to assist in our ultimate goal of determining the genetic underpinnings of the divergence between the cave and surface forms.",MDPI,60,"ST ALBAN-ANLAGE 66, CH-4052 BASEL, SWITZERLAND",BASEL,18.0,KN5SY,"Gross, Joshua B.; Sun, Dennis A.; Carlson, Brian M.; Brodo-Abo, Sivan; Protas, Meredith E.",0.0,0.0,Genetics & Heredity,GENES-BASEL,Genes,10.3390/genes11010042,"Protas, ME (corresponding author), Dominican Univ Calif, Dept Nat Sci & Math, San Rafael, CA 94901 USA.",GENE-EXPRESSION; POPULATIONS; ISOPODA; EVOLUTION; SURFACE; EYE; ADAPTATION; FISH,grossja@ucmail.uc.edu; dennis.a.sun@berkeley.edu; bcarlson@wooster.edu; sivan.brodo-abo@students.dominican.edu; meredith.protas@dominican.edu,"Carlson, Brian/0000-0002-0879-6600",,31905778.0,2073-4425,"US National Institutes of HealthUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USA [NEI R15 EY029499-01A1]; National Eye Institute of the National Institutes of HealthUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Eye Institute (NEI) [R15EY029499]; NSF GRFP Fellowship (Division of Graduate Education) [NSF GRFP 2016230010]; US National Institute of HealthUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USA [NIDCR R01-DE025033]; US National Science FoundationNational Science Foundation (NSF) [DEB-1457630]; NATIONAL EYE INSTITUTEUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Eye Institute (NEI) [R15EY029499] Funding Source: NIH RePORTER; NATIONAL INSTITUTE OF DENTAL & CRANIOFACIAL RESEARCHUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Institute of Dental & Craniofacial Research (NIDCR) [R01DE025033, R01DE025033, R01DE025033, R01DE025033] Funding Source: NIH RePORTER","M.E.P. is supported by funding from the US National Institutes of Health (NEI R15 EY029499-01A1). Research reported in this publication was supported by the National Eye Institute of the National Institutes of Health under Award Number R15EY029499. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health. D.A.S. is supported by an NSF GRFP Fellowship (Division of Graduate Education, Grant/Award Number: NSF GRFP 2016230010). J.B.G. is supported by funding from the US National Institute of Health (NIDCR R01-DE025033) and the US National Science Foundation (DEB-1457630).","DOAJ Gold, Green Published",,42,,,,,,,,,,,,,,,,,,,,,
Review,CHEMOSPHERE,2021-04-13,WOS:000487567000053,38,4,"O'Callaghan, I; Harrison, S; Fitzpatrick, D; Sullivan, T",J,English,The freshwater isopod Asellus aquaticus as a model biomonitor of environmental pollution: A review,2019.0,Environmental Sciences & Ecology,235,0045-6535,,NOV,498,509,Asellus aquaticus; Biomonitor; Freshwater; Trace metal; Pollution,"[O'Callaghan, Irene; Harrison, Simon; Sullivan, Timothy] Univ Coll Cork, Sch Biol Earth & Environm Sci, Cork, Ireland; [O'Callaghan, Irene; Fitzpatrick, Dara] Univ Coll Cork, Sch Chem, Cork, Ireland","Anthropogenic substances pollute freshwater systems worldwide, with serious, long-lasting effects to aquatic biota. Present methods of detecting elevated levels of trace metal pollutants are typically accurate but expensive, and therefore not suitable for applications requiring high spatial resolution. Additionally, these methods are not efficient solutions for the determination of long-term averages of pollution concentration. This is the rationale for the implementation of a biomonitoring programme as an alternative means of pollutant detection. This review summarises recent literature concerning the past and potential uses of the benthic isopod Asellus aquaticus as a biomonitor for pollution in freshwater systems. Recent studies indicate that A. aquaticus is well suited for this purpose. However, the mechanisms by which it bioaccumulates toxins have yet to be fully understood. In particular, the interactions between coexisting trace metal pollutants in the aquatic environment have only recently been considered, and it remains unclear how a biomonitoring programme should adapt to the effects of these interactions. It is evident that failing to account for these additional stressors will result in an ineffective biomonitoring programme; for this reason, a comprehensive understanding of the bioaccumulation mechanisms is required in order to reliably anticipate the effects of any interferences on the outcome. (C) 2019 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,148,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,12.0,JA1HB,"O'Callaghan, Irene; Harrison, Simon; Fitzpatrick, Dara; Sullivan, Timothy",4.0,4.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2019.06.217,"Sullivan, T (corresponding author), Univ Coll Cork, Sch Biol Earth & Environm Sci, Cork, Ireland.",COXALIS DOLLF CRUSTACEA; TRACE-METAL SPECIATION; GAMMARUS-PULEX L; HEAVY-METALS; LIFE-HISTORY; CONTAMINATED SEDIMENTS; HYPOGEAN POPULATIONS; HUMIC SUBSTANCES; MERIDIANUS RAC; TOXICITY,timothy.sullivan@ucc.ie,"O'Callaghan, Irene/0000-0002-9030-2824; Sullivan, Timothy/0000-0002-1093-0602","O'Callaghan, Irene/AAB-7710-2020",31276864.0,1879-1298,"Irish Research CouncilIrish Research Council for Science, Engineering and Technology; Environmental Protection Agency (Ireland)United States Environmental Protection Agency [GOIPG/2018/3351]",The authors wish to acknowledge the support of the Irish Research Council and the Environmental Protection Agency (Ireland) under Grant No. GOIPG/2018/3351.,,,,,,,,,,,,,,,,,,,,,,,,
Article,FOLIA PARASITOLOGICA,2021-04-13,WOS:000490812100001,4,2,"Amin, OM; Heckmann, RA; Fiser, Z; Zaksek, V; Herlyn, H; Kostanjsek, R",J,English,Description of Acanthocephalus anguillae balkanicus subsp. n. (Acanthocephala: Echinorhynchidae) from Proteus anguinus Laurenti (Amphibia: Proteidae) and the cave ecomorph of Asellus aquaticus (Crustacea: Asellidae) in Slovenia,2019.0,Parasitology,66,0015-5683,,OCT 10,,,new subspecies; acanthocephalans; olm; EDXA analysis; molecular profile; Postojna-Planina Cave System,"[Amin, Omar M.] Inst Parasit Dis, 11445 E Via Linda 2-419, Scottsdale, AZ 85259 USA; [Heckmann, Richard A.] Brigham Young Univ, Dept Biol, Provo, UT 84602 USA; [Fiser, Ziga; Zaksek, Viderija; Kostanjsek, Rok] Univ Ljubljana, Biotech Fac, Dept Biol, Ljubljana, Slovenia; [Herlyn, Holger] Johannes Gutenberg Univ Mainz, Inst Organism & Mol Evolut, Anthropol, Mainz, Germany","Acanthocephalus balkanicus Batchvarov et Combes, 1974 was incompletely described from the northern crested newt, Triturus cristatus (Laurenti) (Amphibia: Salamandridae), a possible synonym of the Balkan crested newt, Triturus ivanbureschi Arntzen et Wielstra, from a pond in village of Pesnopoy, southern Bulgaria. We provide a full description of adult males and females of the same taxon from the olm, Proteus anguinus Laurenti (Amphibia: Proteidae), the only exclusively aquatic cave-dwelling vertebrate in Europe, captured in Postojna-Planina Cave System in Slovenia. Cystacanths were also collected from the cave ecomorph of Asellus aquaticus (Linnaeus) (Crustacea: Asellidae) in the same location. Molecular analysis of specimens from Slovenia revealed that they are genetically almost identical to those of Acanthocephalus anguillae (Muller, 1780), a common parasite of European freshwater fishes. We propose to recognise the morphological and host differences by describing A. balkanicus as a new subspecies of A. anguillae. Acanthocephalus anguillae balkanicus is rather small and cylindrical with cylindrical proboscis having 10 rows of 6 hooks with simple roots each, long neck, large balloon-shaped lemnisci, small spherical anterior testis, and 6 club-shaped cement glands in 3 pairs. SEM images reveal more morphological details and the X-ray scans of gallium cut hooks shows considerably higher levels of phosphorus and calcium in adult hooks than in cystacanth hooks, especially in basal areas. Sulfur levels were higher in the arch and basal area of cystacanth hooks than adult hooks. Considering that both definitive and intermediate hosts of the Slovenian population of this acanthocephalan are bound to cave life, it is possible that its entire life cycle is uniquely completed underground.",FOLIA PARASITOLOGICA,46,"BRANISOVSKA 31,, CESKE BUDEJOVICE 370 05, CZECH REPUBLIC",CESKE BUDEJOVICE,13.0,JE6PA,"Amin, Omar M.; Heckmann, Richard A.; Fiser, Ziga; Zaksek, Viderija; Herlyn, Holger; Kostanjsek, Rok",3.0,3.0,Parasitology,FOLIA PARASIT,Folia Parasitol.,10.14411/fp.2019.015,"Amin, OM (corresponding author), Inst Parasit Dis, 11445 E Via Linda 2-419, Scottsdale, AZ 85259 USA.",RAY-ANALYSIS EDXA; PHYLOGENETIC-RELATIONSHIPS; RHADINORHYNCHUS-ORNATUS; PROBOSCIS HOOKS; POPULATIONS; DNA; ISOPODA; SURFACE,omaramin@aol.com,"Kostanjsek, Rok/0000-0001-8377-1182; Fiser, Ziga/0000-0003-4576-5173","Kostanjsek, Rok/ABE-7313-2020",31617498.0,1803-6465,"Department of Biology, Brigham Young University (BYU), Provo, Utah; Parasitology Center, Inc. (PCI), Scottsdale, Arizona; Slovenian Research AgencySlovenian Research Agency - Slovenia [P1-0184, N1-0069, 1000-12-0510]","This project was supported by the Department of Biology, Brigham Young University (BYU), Provo, Utah and by an Institutional Grant from the Parasitology Center, Inc. (PCI), Scottsdale, Arizona as well as by the Slovenian Research Agency through the Research Core Funding P1-0184, research project N1-0069, and a PhD grant (Contract No. 1000-12-0510) to ZF. Credit for dissecting olms and procuring parasites is gratefully attributed to Lilijana Bizjak Mali (Department of Biology, Biotechnical Faculty, University of Ljubljana). We are further grateful to Peter Trontelj (Department of Biology, Biotechnical Faculty, University of Ljubljana) for thoughtful discussions on olm's biology and parasitic threats. We thank Susanne Reier, Helmut Sattmann and Anja Palandacic (Natural History Museum Vienna, Austria) for providing acanthocephalan specimens and genetic material for initial comparative purposes. We also thank Sarah Vorkink, Bean Museum (BYU) for expert help in the preparation and organisation of plates and figures, and Michael Standing, Electron Optics Laboratory (BYU), for his technical help and expertise. Microscopy has also been supported by the infrastructural centre ""Microscopy of Biological Samples"", located at Biotechnical Faculty, University of Ljubljana.",Bronze,,015,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL RESEARCH COMMUNICATIONS,2021-04-13,WOS:000579509700002,0,0,"Hunting, ER; de Jong, S; Schrama, M",J,English,Significance of sunlight for organic matter degradation in aquatic systems,2019.0,Environmental Sciences & Ecology,1,2515-7620,10,OCT,,,decomposition; DECOTABs; invertebrates; microorganisms; sunlight; UV,"[Hunting, Ellard R.] Univ Bristol, Sch Biol Sci, Bristol, Avon, England; [Hunting, Ellard R.] Woods Hole Oceanog Inst, Dept Biol, Woods Hole, MA 02543 USA; [de Jong, Sanne; Schrama, Maarten] Leiden Univ, Inst Environm Sci CML, Leiden, Netherlands; [Schrama, Maarten] Univ Manchester, Soil & Ecosyst Ecol Grp, Manchester, Lancs, England","Degradation of organic matter (OM) is generally considered to be primarily governed by biotic factors in aquatic environments. However, a number of abiotic processes also play key roles in mediating OM-degradation. Sunlight can act as a principal abiotic driver of the degradation of terrestrial organic matter, but its importance for freshwater ecosystems and possible interactions with biotic drivers remains poorly understood. We carried out two microcosm experiments which focused on the role of sunlight on microbial and invertebrate-mediated OM degradation using two species of plant leaves and the aquatic invertebrate Asellus aquaticus. Results indicated that sunlight was the primary driver of leaf mass loss during the early stages of decomposition, whereas microbial communities had a negligible effect. Sunlight was observed to strongly affect invertebrate behavior as invertebrates avoided direct illumination. This alteration of behavior resulted in a reduction in the consumption of a leaf surrogate (DECOTAB) by A. aquaticus. Together, these results indicate that sunlight has the potential to strongly influence structural and functional attributes of shallow freshwater systems, and hence serve as an appraisal to consider sunlight as a significant direct and indirect physical driver governing OM degradation in shallow aquatic systems.",IOP PUBLISHING LTD,57,"TEMPLE CIRCUS, TEMPLE WAY, BRISTOL BS1 6BE, ENGLAND",BRISTOL,9.0,OC9XO,"Hunting, Ellard R.; de Jong, Sanne; Schrama, Maarten",0.0,0.0,Environmental Sciences,ENVIRON RES COMMUN,Environ. Res. Commun.,10.1088/2515-7620/ab4390,"Hunting, ER (corresponding author), Univ Bristol, Sch Biol Sci, Bristol, Avon, England.; Hunting, ER (corresponding author), Woods Hole Oceanog Inst, Dept Biol, Woods Hole, MA 02543 USA.",LEAF-LITTER BREAKDOWN; ULTRAVIOLET-RADIATION; FUNCTIONAL DIVERSITY; DECOMPOSITION RATES; UV-RADIATION; COMMUNITIES; TEMPERATE; STREAMS; MACROINVERTEBRATES; SUBSTRATE,e.r.hunting@bristol.ac.uk,"Hunting, Ellard/0000-0002-8794-3452",,,,,,"DOAJ Gold, Green Published",,101002,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY RESEARCH,2021-04-13,WOS:000482439500008,6,0,"Munoz, JCV; Bierbach, D; Knopf, K",J,English,Eye fluke (Tylodelphys clavata) infection impairs visual ability and hampers foraging success in European perch,2019.0,Parasitology,118,0932-0113,9,SEP,2531,2541,Tylodelphys clavata; Eye fluke; Perca fluviatilis; Host-parasite interaction; Foraging behavior; Prey preference; Intraspecific competition,"[Vivas Munoz, Jenny Carolina; Bierbach, David; Knopf, Klaus] Leibniz Inst Freshwater Ecol & Inland Fisheries, Muggelseedamm 310, D-12589 Berlin, Germany; [Vivas Munoz, Jenny Carolina; Knopf, Klaus] Humboldt Univ, Fac Life Sci, Invalidenstr 42, D-10115 Berlin, Germany","Visual performance and environmental conditions can influence both behavioral patterns and predator-prey interactions of fish. Eye parasites can impair their host's sensory performance with important consequences for the detection of prey, predators, and conspecifics. We used European perch (Perca fluviatilis) experimentally infected with the eye fluke Tylodelphys clavata and evaluated their feeding behavior and competitive ability under competition with non-infected conspecifics, in groups of four individuals, for two different prey species (Asellus aquaticus and Daphnia magna). To test whether the effect of T. clavata infection differs at different light conditions, we performed the experiments at two light intensities (600 and 6 lx). Foraging efficiency of perch was significantly affected by infection but not by light intensity. The distance at which infected fish attacked both prey species was significantly shorter in comparison to non-infected conspecifics. Additionally, infected fish more often unsuccessfully attacked A. aquaticus. Although the outcome of competition depended on prey species, there was a general tendency that non-infected fish consumed more of the available prey under both light intensities. Even though individual prey preferences for either A. aquaticus or D. magna were observed, we could not detect that infected fish change their prey preference to compensate for a reduced competitive foraging ability. As infection of T. clavata impairs foraging efficiency and competitive ability, infected fish would need to spend more time foraging to attain similar food intake as non-infected conspecifics; this presumably increases predation risk and potentially enhances transmission success to the final host.",SPRINGER,63,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,11.0,IS8ZZ,"Vivas Munoz, Jenny Carolina; Bierbach, David; Knopf, Klaus",6.0,6.0,Parasitology,PARASITOL RES,Parasitol. Res.,10.1007/s00436-019-06389-5,"Munoz, JCV (corresponding author), Leibniz Inst Freshwater Ecol & Inland Fisheries, Muggelseedamm 310, D-12589 Berlin, Germany.; Munoz, JCV (corresponding author), Humboldt Univ, Fac Life Sci, Invalidenstr 42, D-10115 Berlin, Germany.",DIPLOSTOMUM-SPATHACEUM; 3-SPINED STICKLEBACKS; COMPETITIVE ABILITY; SHOALING BEHAVIOR; HOST MANIPULATION; RUTILUS-RUTILUS; PREDATION RISK; PREY DETECTION; FOOD-INTAKE; FLUVIATILIS,jennyvivas@igb-berlin.de; bierbach@igb-berlin.de; klaus.knopf@igb-berlin.de,"Bierbach, David/0000-0001-7049-2299","Bierbach, David/H-7347-2019",31286263.0,1432-1955,Graduate School IMPact-Vector - Senate Competition Committee grant of the Leibniz-Association [SAW-2014-SGN-3]; DFGGerman Research Foundation (DFG)European Commission [BI 1828/2-1],This research was supported by the Graduate School IMPact-Vector funded by the Senate Competition Committee grant (SAW-2014-SGN-3) of the Leibniz-Association. Research of D.B. is currently supported by the DFG (BI 1828/2-1).,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER SCIENCE,2021-04-13,WOS:000481502300005,15,2,"Weitowitz, DC; Robertson, AL; Bloomfield, JP; Maurice, L; Reiss, J",J,English,Obligate groundwater crustaceans mediate biofilm interactions in a subsurface food web,2019.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,38,2161-9549,3,SEP 1,491,502,protozoa; microcosms; bacteria; biofilm; flow cytometer; stygobite; Niphargus; Proasellus,"[Weitowitz, Damiano C.; Robertson, Anne L.; Reiss, Julia] Univ Roehampton, Dept Life Sci, Holybourne Ave, London SW15 4JD, England; [Bloomfield, John P.; Maurice, Louise] British Geol Survey, Maclean Bldg, Wallingford OX10 8BB, Oxon, England","Food webs in groundwater ecosystems are dominated by only a few top-level consumers, mainly crustaceans. These obligate groundwater dwellers-or stygobites-clearly interact with groundwater biofilm, but it is uncertain whether they affect the abundance and structure of biofilm assemblages. We hypothesized that crustacean stygobites would reduce bacteria and protozoan abundance and alter biofilm assemblage structure. We also hypothesized that high densities of stygobites would remove more bacteria and protozoa than would low densities, and that this difference would become more pronounced over time. First, we established that the amphipods Niphargus fontanus and Niphargus kochianus both ingest biofilm by examining their gut contents. We then conducted 2 microcosm experiments. The 1(st) experiment showed that both N. fontanus and the isopod Proasellus cavaticus increased protozoan abundance but that bacterial abundance was only slightly reduced in the presence of P. cavaticus. In the 2(nd) experiment, we determined how zero, low, and high densities of N. kochianus affected the biofilm. The high-density treatment of N. kochianus had significantly higher protozoan abundance than the control and the low-density treatment, and high densities of N. kochianus significantly increased the relative proportions of small- and medium-sized bacteria over time compared with controls. Our controlled microcosm experiments demonstrate that macroinvertebrate stygobites can influence groundwater biofilm assemblages, although the exact mechanisms are not clear. These results support the hypothesis that stygobites influence essential ecosystem services supplied by groundwater ecosystems.",UNIV CHICAGO PRESS,88,"1427 E 60TH ST, CHICAGO, IL 60637-2954 USA",CHICAGO,12.0,IR5UI,"Weitowitz, Damiano C.; Robertson, Anne L.; Bloomfield, John P.; Maurice, Louise; Reiss, Julia",2.0,2.0,Ecology; Marine & Freshwater Biology,FRESHW SCI,Freshw. Sci.,10.1086/704751,"Robertson, AL (corresponding author), Univ Roehampton, Dept Life Sci, Holybourne Ave, London SW15 4JD, England.",BACTERIAL COMMUNITY COMPOSITION; ASELLUS-AQUATICUS L; BOTTOM-UP CONTROL; GAMMARUS-PULEX L; TOP-DOWN; METABOLIC-RESPONSES; POPULATION-DYNAMICS; COMPARATIVE ECOLOGY; ECOSYSTEM SERVICES; BIODIVERSITY,weitowid@roehampton.ac.uk; a.robertson@roehampton.ac.uk; jpb@bgs.ac.uk; loma@bgs.ac.uk; julia.reiss@roehampton.ac.uk,"robertson, anne/0000-0001-8398-3556","Bloomfield, John/ABE-7911-2020",,2161-9565,"National Environment Research Council (NERC)UK Research & Innovation (UKRI)Natural Environment Research Council (NERC); University of Roehampton, London","DW was supported by a joint studentship from the National Environment Research Council (NERC) and the University of Roehampton, London. LM and JPB publish with the permission of the Executive Director of the British Geological Survey (UKRI). We are indebted to Lee Knight for organizing caving trips and assisting in the collection of stygobite individuals. We would also like to thank Tim Johns from the Environment Agency for organizing access to the chalk boreholes. Additional thanks goes to Professor Rosemary Bailey for statistical help, the University of Roehampton technical staff for providing assistance during the lab work, and to Dr. Robert Busch for the provision of theoretical and practical training on the BD C6 flow cytometer. We thank Szymon Szary for numerous fruitful discussions. We thank the four anonymous reviewers whose comments improved the manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Review,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000469847200027,38,4,"Di Lorenzo, T; Di Marzio, WD; Fiasca, B; Galassi, DMP; Korbel, K; Iepure, S; Pereira, JL; Reboleira, ASPS; Schmidt, SI; Hose, GC",J,English,Recommendations for ecotoxicity testing with stygobiotic species in the framework of groundwater environmental risk assessment,2019.0,Environmental Sciences & Ecology,681,0048-9697,,SEP 1,292,304,ERA; Decision-makers; Good laboratory practices; Stygofauna; Ecotoxicology,"[Di Lorenzo, Tiziana] CNR, Res Inst Terr Ecosyst IRET, Via Madonna del Piano 10, I-50019 Florence, Italy; [Dario Di Marzio, Walter] Univ Nacl Lujan, CONICET, Dept Ciencias Basicas, Programa Invest Ecotoxicol, Buenos Aires, DF, Argentina; [Fiasca, Barbara; Galassi, Diana Maria Paola] Univ Aquila, Dept Life Hlth & Environm Sci, Via Vetoio 1, I-67100 Laquila, Italy; [Korbel, Kathryn; Hose, Grant C.] Macquarie Univ, Dept Biol Sci, Sydney, NSW 2019, Australia; [Iepure, Sanda] Univ Valencia, Cavanilles Inst Biodivers & Evolutionary Biol, Jose Beltran 15 Martinez,2, Valencia 46980, Spain; [Iepure, Sanda] Univ Gdansk, Fac Biol, Dept Genet & Biosystemat, Wita Stwosza 59,17, PL-80308 Gdansk, Poland; [Pereira, Joana Luisa] Univ Aveiro, Dept Biol, Aveiro, Portugal; [Pereira, Joana Luisa] Univ Aveiro, CESAM Ctr Environm & Marines Studies, Aveiro, Portugal; [Reboleira, Ana Sofia P. S.] Univ Copenhagen, Nat Hist Museum Denmark, Univ Pk 15, DK-2100 Copenhagen, Denmark; [Schmidt, Susanne, I] Acad Sci Czech Republ, Inst Hydrobiol, Na Sadkach 7, Ceske Budejovice, Czech Republic","As a consequence of the growing global dependence on groundwater resources, environmental risk assessments (ERA) for groundwater are increasingly required and, with that, ecotoxicological studies with groundwater fauna (stygofauna). However, the literature on the ecotoxicological studies with stygobiotic species (i.e. species that complete their life cycle exclusively in groundwater) has not expanded significantly since the first paper published in this field. The limitations regarding the use of stygobiotic species for ecotoxicological testing are clear and consistent across the globe; stygobiotic species are often 1) naturally present in low numbers, 2) difficult to collect, and 3) difficult to culture under laboratory conditions. This paper reviews the methods used in ecotoxicological studies performed with stygobiotic species, and provides ten recommendations for Good Laboratory Practice (GLP) for such tests. The recommendations focused on the following 10 points: 1) the taxonomic identification, the life stage/size and gender of the test organisms; 2) collection methodology of the organisms, including collection location, conditions and methods: 3) holding and acclimation conditions in the laboratory; 4) exposure conditions such as test set up and exposure time, number of replicates and densities of organisms in tests and in test vessels; 5) range-finding test set up and schedule; 6) final test design, including details &controls and treatments, and replication options; 7) incubation conditions, specifying temperature, pH and oxygenation levels throughout the test; 8) test duration; 9) observations and endpoints; 10) test validity criteria and compliance. The recommendations were developed for the purpose of supporting future short-term ecotoxicological testing with stygofauna through providing consistency in the protocols. A discussion of the potential implications for groundwater managers and decision-makers committed to ERA for groundwater is included. (C) 2019 Elsevier B.V. All rights reserved.",ELSEVIER,148,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,13.0,IA8ZM,"Di Lorenzo, Tiziana; Dario Di Marzio, Walter; Fiasca, Barbara; Galassi, Diana Maria Paola; Korbel, Kathryn; Iepure, Sanda; Pereira, Joana Luisa; Reboleira, Ana Sofia P. S.; Schmidt, Susanne, I; Hose, Grant C.",8.0,8.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2019.05.030,"Di Lorenzo, T (corresponding author), CNR, Res Inst Terr Ecosyst IRET, Via Madonna del Piano 10, I-50019 Florence, Italy.",FRESH-WATER COPEPODS; ISOPOD ASELLUS-AQUATICUS; BLIND CAVE CRAYFISH; ACUTE TOXICITY; GAMMARUS-PULEX; SILVER NANOPARTICLES; METABOLIC-RESPONSES; OXYGEN-CONSUMPTION; ECOSYSTEM SERVICES; QUALITY GUIDELINES,tiziana.dilorenzo@cnr.it,"Iepure, Sanda/0000-0002-3748-3478; Pereira, Joana Luisa/0000-0001-7573-6184; Di Lorenzo, Tiziana/0000-0002-3131-7049; Schmidt, Susanne/0000-0003-0051-6480; Reboleira, Ana Sofia/0000-0002-4756-7034; Hose, Grant/0000-0003-2106-5543; Galassi, Diana M.P./0000-0002-6448-2710","Iepure, Sanda/AAA-6388-2019; Pereira, Joana Luisa/A-5003-2009; Di Lorenzo, Tiziana/F-1544-2013; Schmidt, Susanne/Q-1657-2015; Reboleira, Ana Sofia/B-3459-2010; Galassi, Diana M.P./N-1674-2015",31103666.0,1879-1026,"European CommunityEuropean Commission [LIFE12 BIO/IT/000231 AQUALIFE]; programme ""International Mobilities of Researchers of the Biology Centre"" [CZ. 02.2.69/0.0/0.0/16_027/0008357]; Villum Fonden [15471]; FCTPortuguese Foundation for Science and TechnologyEuropean Commission [DL 57/2016]; CESAM [UID/AMB/50017/2019]; FCT/MCTES through national funds [UID/AMB/50017/2019]","TDL, DMPG and BF are granted by LIFE12 BIO/IT/000231 AQUALIFE project financed by the European Community. SIS acknowledges funding through the programme ""International Mobilities of Researchers of the Biology Centre"", reg. no.: CZ. 02.2.69/0.0/0.0/16_027/0008357. ASR is supported by a research grant (15471) from Villum Fonden. JLP is funded through FCT (contract foreseen in art. 23 of DL 57/2016, changed by Law 57/2017), CESAM (UID/AMB/50017/2019) being supported by FCT/MCTES through national funds. We are indebted to two anonymous reviewers who provided comments that improved the manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGY AND EVOLUTION,2021-04-13,WOS:000483170100001,7,1,"Fuller, N; Ford, AT; Lerebours, A; Gudkov, DI; Nagorskaya, LL; Smith, JT",J,English,"Chronic radiation exposure at Chernobyl shows no effect on genetic diversity in the freshwater crustacean, Asellus aquaticus thirty years on",2019.0,Environmental Sciences & Ecology; Evolutionary Biology,9,2045-7758,18,SEP,10135,10144,Chernobyl; crustacean; genetic diversity; genotyping-by-sequencing,"[Fuller, Neil; Ford, Alex T.; Lerebours, Adelaide] Univ Portsmouth, Sch Biol Sci, Inst Marine Sci, Ferry Rd, Portsmouth PO4 9LY, Hants, England; [Gudkov, Dmitri I.] Inst Hydrobiol, Dept Freshwater Radioecol, Kiev, Ukraine; [Nagorskaya, Liubov L.] Natl Acad Sci Belarus, Appl Sci Ctr Bioresources, Minsk, BELARUS; [Smith, Jim T.] Univ Portsmouth, Sch Earth & Environm Sci, Portsmouth, Hants, England","Analysis of genetic diversity represents a fundamental component of ecological risk assessments in contaminated environments. Many studies have assessed the genetic implications of chronic radiation exposure at Chernobyl, generally recording an elevated genetic diversity and mutation rate in rodents, plants, and birds inhabiting contaminated areas. Only limited studies have considered genetic diversity in aquatic biota at Chernobyl, despite the large number of freshwater systems where elevated dose rates will persist for many years. Consequently, the present study aimed to assess the effects of chronic radiation exposure on genetic diversity in the freshwater crustacean, Asellus aquaticus, using a genome-wide SNP approach (Genotyping-by-sequencing). It was hypothesized that genetic diversity in A. aquaticus would be positively correlated with dose rate. A. aquaticus was collected from six lakes in Belarus and the Ukraine ranging in dose rate from 0.064 to 27.1 mu Gy/hr. Genotyping-by-sequencing analysis was performed on 74 individuals. A significant relationship between geographical distance and genetic differentiation confirmed the Isolation-by-Distance model. Conversely, no significant relationship between dose rate and genetic differentiation suggested no effect of the contamination gradient on genetic differentiation between populations. No significant relationship between five measures of genetic diversity and dose rate was recorded, suggesting that radiation exposure has not significantly influenced genetic diversity in A. aquaticus at Chernobyl. This is the first study to adopt a genome-wide SNP approach to assess the impacts of environmental radiation exposure on biota. These findings are fundamental to understanding the long-term success of aquatic populations in contaminated environments at Chernobyl and Fukushima.",WILEY,77,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,JK8FM,"Fuller, Neil; Ford, Alex T.; Lerebours, Adelaide; Gudkov, Dmitri I.; Nagorskaya, Liubov L.; Smith, Jim T.",11.0,11.0,Ecology; Evolutionary Biology,ECOL EVOL,Ecol. Evol.,10.1002/ece3.5478,"Fuller, N (corresponding author), Univ Portsmouth, Sch Biol Sci, Inst Marine Sci, Ferry Rd, Portsmouth PO4 9LY, Hants, England.",INDUCED GENOMIC INSTABILITY; MINISATELLITE MUTATION-RATE; PINUS-SYLVESTRIS L.; RADIONUCLIDE CONTAMINATION; IONIZING-RADIATION; METAL POLLUTION; POPULATIONS; CONSERVATION; SNP; ECOTOXICOLOGY,neil.fuller@port.ac.uk,"Gudkov, Dmitri/0000-0002-5304-7414; Lerebours, Adelaide/0000-0001-9789-7704; Ford, Alex/0000-0001-5202-546X","Gudkov, Dmitri/D-1111-2017; Ford, Alex/C-3522-2008",31624541.0,,Radioactive Waste Management; Environment Agency; Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/L000393/1],"Radioactive Waste Management; Environment Agency; Natural Environment Research Council, Grant/Award Number: NE/L000393/1","DOAJ Gold, Green Published",,,,,,,,,,,,,AUG 2019,,,,,,,,,,
Article,SCIENTIFIC REPORTS,2021-04-13,WOS:000470962100031,4,2,"Pyrzanowski, K; Zieba, G; Dukowska, M; Smith, C; Przybylski, M",J,English,The role of detritivory as a feeding tactic in a harsh environment -a case study of weatherfish (Misgurnus fossilis),2019.0,Science & Technology - Other Topics,9,2045-2322,,JUN 11,,,,"[Pyrzanowski, Kacper; Zieba, Grzegorz; Dukowska, Malgorzata; Smith, Carl; Przybylski, Miroslaw] Univ Lodz, Dept Ecol & Vertebrate Zool, Lodz, Poland; [Smith, Carl] Acad Sci Czech Republ, Inst Vertebrate Biol, Brno, Czech Republic; [Smith, Carl] Univ St Andrews, Sch Biol, St Andrews, Fife, Scotland; [Smith, Carl] Univ St Andrews, Bell Pettigrew Museum Nat Hist, St Andrews, Fife, Scotland","The weatherfish (Misgumus fossilis) is a species that is tolerant of unfavourable environmental conditions and can survive low dissolved oxygen concentrations and high water temperatures. Although this species occurs across almost the whole of Europe, and is protected in many countries, relatively little is known regarding its ecology. To determine the diet of weatherfish, 120 individuals from an artificial drainage canal in central Poland were collected in two seasons (spring and late summer) with contrasting abiotic condition (oxygen concentration, water temperature and transparency). Analysis of gut fullness showed that weatherfish consumed a greater quantity of food in spring (0.92 +/- 0.90) compared with summer (0.20 +/- 0.26). Contrary to other cobitid taxa, weatherfish fed actively during daytime in both seasons. An estimate of the importance of each dietary component indicated that the most important food categories were chironomids, copepods, Asellus aquaticus and detritus. SIMPER analysis indicated that these four categories together constituted over 65.8% of cumulative dissimilarity in the diet between seasons. Additionally, trophic niche breadth differed significantly between seasons. The study demonstrated that the weatherfish is an opportunistic feeder, consuming large quantities of detritus despite possessing a gut morphology that is atypical of a detritivore. The quantity of detritus in the gut of weatherfish was positively associated with fish total length and varied seasonally, with a greater quantity of detritus in the diet in late summer. These results demonstrate the importance of detritus as a source of energy, particularly during periods of scarcity of alternative prey categories.",NATURE PUBLISHING GROUP,68,"MACMILLAN BUILDING, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,9.0,IC4UN,"Pyrzanowski, Kacper; Zieba, Grzegorz; Dukowska, Malgorzata; Smith, Carl; Przybylski, Miroslaw",3.0,3.0,Multidisciplinary Sciences,SCI REP-UK,Sci Rep,10.1038/s41598-019-44911-y,"Pyrzanowski, K (corresponding author), Univ Lodz, Dept Ecol & Vertebrate Zool, Lodz, Poland.",FISH; DROUGHT; ANGUILLICAUDATUS; STREAM; PLASTICITY; DITCHES; LOACH; DIET; GUT,kacper.pyrzanowski@biol.uni.lodz.p1,"Dukowska, Malgorzata/0000-0003-1767-0759; Smith, Carl Hendrik/0000-0003-3285-0379; Przybylski, Miroslaw/0000-0001-5786-5695; Zieba, Grzegorz/0000-0003-4443-6802; Pyrzanowski, Kacper/0000-0002-0684-7750",,31186507.0,,University of Lodz [B1711000001529.02],"This study was supported by the University of Lodz, Grant No. B1711000001529.02 (grants for young scientists).","DOAJ Gold, Green Published, Green Accepted",,8467,,,,,,,,,,,,,,,,,,,,,
Article,BMC GENOMICS,2021-04-13,WOS:000470715200002,12,0,"Bredon, M; Herran, B; Lheraud, B; Bertaux, J; Greve, P; Moumen, B; Bouchon, D",J,English,Lignocellulose degradation in isopods: new insights into the adaptation to terrestrial life,2019.0,Biotechnology & Applied Microbiology; Genetics & Heredity,20,1471-2164,,JUN 7,,,Transcriptomics; CAZymes; Isopods; Lignocellulose; Terrestrialization,"[Bredon, Marius; Herran, Benjamin; Lheraud, Baptiste; Bertaux, Joanne; Greve, Pierre; Moumen, Bouziane; Bouchon, Didier] Univ Poitiers, Lab Ecol & Biol Interact, UMR CNRS 7267, Equipe Ecol Evolut Symbiose, Batiment B8-B35,5 Rue Albert Turpain,TSA 51106, F-86073 Poitiers 9, France","BackgroundIsopods constitute a particular group of crustaceans that has successfully colonized all environments including marine, freshwater and terrestrial habitats. Their ability to use various food sources, especially plant biomass, might be one of the reasons of their successful spread. All isopods, which feed on plants and their by-products, must be capable of lignocellulose degradation. This complex composite is the main component of plants and is therefore an important nutrient source for many living organisms. Its degradation requires a large repertoire of highly specialized Carbohydrate-Active enZymes (called CAZymes) which are produced by the organism itself and in some cases, by its associated microbiota. The acquisition of highly diversified CAZymes could have helped isopods to adapt to their diet and to their environment, especially during land colonization.ResultsTo test this hypothesis, isopod host CAZomes (i.e. the entire CAZyme repertoire) were characterized in marine, freshwater and terrestrial species through a transcriptomic approach. Many CAZymes were identified in 64 isopod transcriptomes, comprising 27 de novo datasets. Our results show that marine, freshwater and terrestrial isopods exhibit different CAZomes, illustrating different strategies for lignocellulose degradation. The analysis of variations of the size of CAZy families shows these are expanded in terrestrial isopods while they are contracted in aquatic isopods; this pattern is probably resulting from the evolution of the host CAZomes during the terrestrial adaptation of isopods. We show that CAZyme gene duplications and horizontal transfers can be involved in adaptive divergence between isopod CAZomes.ConclusionsOur characterization of the CAZomes in 64 isopods species provides new insights into the evolutionary processes that enabled isopods to conquer various environments, especially terrestrial ones.",BMC,95,"CAMPUS, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,14.0,IC1JJ,"Bredon, Marius; Herran, Benjamin; Lheraud, Baptiste; Bertaux, Joanne; Greve, Pierre; Moumen, Bouziane; Bouchon, Didier",8.0,8.0,Biotechnology & Applied Microbiology; Genetics & Heredity,BMC GENOMICS,BMC Genomics,10.1186/s12864-019-5825-8,"Bouchon, D (corresponding author), Univ Poitiers, Lab Ecol & Biol Interact, UMR CNRS 7267, Equipe Ecol Evolut Symbiose, Batiment B8-B35,5 Rue Albert Turpain,TSA 51106, F-86073 Poitiers 9, France.",PHILOSCIA-MUSCORUM SCOPOLI; LITTER DECOMPOSITION; SPHAEROMA-TEREBRANS; CELLULOSE DIGESTION; DEGRADING ENZYMES; ASELLUS-AQUATICUS; GAMMARUS-PULEX; SOIL LITTER; CRUSTACEA; GENE,marius.bredon@univ-poitiers.fr; didier.bouchon@univ-poitiers.fr,"Bouchon, Didier/0000-0002-4938-408X; Marius, Bredon/0000-0001-7396-8870","Bouchon, Didier/B-2419-2012; Marius, Bredon/AAH-5517-2020",31174468.0,,"2015-2020 State-Region Planning Contracts (CPER); European Regional Development Fund (FEDER) (BiodivUP project); Centre National de la Recherche ScientifiqueCentre National de la Recherche Scientifique (CNRS); University of Poitiers; French Ministere de l'Enseignement superieur, de la Recherche et de l'Innovation","This work was funded by the 2015-2020 State-Region Planning Contracts (CPER), European Regional Development Fund (FEDER) (BiodivUP project, coordinator DB), and intramural funds from the Centre National de la Recherche Scientifique and the University of Poitiers. The funding agencies were not involved in designing the study nor in collecting, analysing, and interpreting the data or in writing the manuscript. MB was supported by a PhD grant from the French Ministere de l'Enseignement superieur, de la Recherche et de l'Innovation.","DOAJ Gold, Green Published",,462,,,,,,,,,,,,,,,,,,,,,
Article,ZOOLOGY,2021-04-13,WOS:000477688200006,9,0,"Fiser, Z; Prevorcnik, S; Lozej, N; Trontelj, P",J,English,No need to hide in caves: shelter-seeking behavior of surface and cave ecomorphs of Asellus aquaticus (Isopoda: Crustacea),2019.0,Zoology,134,0944-2006,,JUN,58,65,shelter-seeking behavior; thigmotaxis; substrate preference; non-parallel evolution; cave,"[Fiser, Ziga; Prevorcnik, Simona; Lozej, Nina; Trontelj, Peter] Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, Ljubljana 1000, Slovenia","Shelter-seeking is a vital behavior for stress reduction and survival in a range of animals. It comes at the cost of reduced foraging, mate finding, dispersal and territoriality, and is expected to reflect the trade-off between fitness costs and benefits. One way to test this hypothesis is to compare shelter-seeking behavior in surface habitats and in caves where external threat factors are largely reduced. We did so using the freshwater isopod Asellus aquaticus from the Postojna-Planina Cave System and surrounding surface waters. Animals from two distinct, replicated pairs of surface and cave populations were individually offered a choice between shelter and open area. The thigmotatic sensation of a transparent plastic plate was the only stimulus that could trigger the sheltering behavior. Video recordings showed a clear reduction of shelter-seeking behavior in the cave ecomorph in one population pair (Pivka). There were no changes in the other population pair (Rak), where the behavioral response had a much higher variance. Our results were partly in agreement with the hypothesis that shelter-seeking behavior should be selected against in an environment with reduced external threats. It is nevertheless too early for generalizations as the results in the second population pair were inconclusive. Additionally, we showed that for benthic walkers like A. aquaticus the use of rough substrate is crucial to obtain unbiased behavioral responses. Results of some previous studies using smooth glass or plastic substratum could be affected, by unnatural behavior of animals constantly trying to find firm contact with the ground.",ELSEVIER GMBH,59,"HACKERBRUCKE 6, 80335 MUNICH, GERMANY",MUNICH,8.0,IM0ON,"Fiser, Ziga; Prevorcnik, Simona; Lozej, Nina; Trontelj, Peter",2.0,2.0,Zoology,ZOOLOGY,Zoology,10.1016/j.zool.2019.03.001,"Fiser, Z (corresponding author), Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, Ljubljana 1000, Slovenia.",POPULATIONS; FLOW; AGGREGATION; INTEGRATION; DIVERGENCE; PREDATION; SELECTION; WOODLICE; RIVER; FISH,ziga.fiser@bf.uni-lj.si; simona.prevorcnik@bf.uni-lj.si; lozej.nina@gmail.com; peter.trontelj@bf.uni-lj.si,"Fiser, Ziga/0000-0003-4576-5173",,31146907.0,,"Slovenian Research AgencySlovenian Research Agency - Slovenia [P1-0184, N1-0069, 1000-12-0510]","This research was supported by the Slovenian Research Agency through the Research Core FundingP1-0184, research project N1-0069, and a PhD grant (contract no, 1000-12-0510) to ZF.",,,,,,,,,,,,,,,,,,,,,,,,
Review,MUTATION RESEARCH-GENETIC TOXICOLOGY AND ENVIRONMENTAL MUTAGENESIS,2021-04-13,WOS:000474676600002,5,1,"Geras'kin, S; Volkova, P; Vasiliyev, D; Dikareva, N; Oudalova, A; Kazakova, E; Makarenko, E; Duarte, G; Kuzmenkov, A",J,English,Scots pine as a promising indicator organism for biomonitoring of the polluted environment: A case study on chronically irradiated populations,2019.0,Biotechnology & Applied Microbiology; Genetics & Heredity; Toxicology,842,1383-5718,,JUN,3,13,Scots pine; Chernobyl accident; Chronic exposure; Cytogenetic effects; Genetic diversity; Genome-wide methylation; Gene expression; Transcriptome; Antioxidants; Morphological abnormalities; Reproductive ability; Temporal dynamics,"[Geras'kin, Stanislav; Volkova, Polina; Vasiliyev, Denis; Dikareva, Nina; Oudalova, Alla; Kazakova, Elizaveta; Makarenko, Ekaterina; Duarte, Gustavo; Kuzmenkov, Alexey] Russian Inst Radiol & Agroecol, Obninsk, Russia; [Oudalova, Alla] Natl Res Nucl Univ MEPhl, Obninsk Inst Nucl Power Engn, Obninsk, Russia; [Duarte, Gustavo] Inst Jean Pierre Bourgin, Versailles, France","In this paper the main results of long-term (2003-2016) observations on Scots pine populations inhabiting sites affected by the Chernobyl accident are presented. Populations growing for many years under chronic radiation exposure are characterized by the enhanced mutation rates, increased genetic diversity, changes in the gene expression and in the level of genome-wide methylation, alterations in the temporal dynamics of cytogenetic abnormalities and genetic structure of populations. However, significant changes at the genetic level had no effects on enzymatic activity, morphological abnormalities, and reproductive ability of pine trees. The results presented increase our understanding of the long-term effects of chronic radiation exposure on plant populations in the wild nature and provide important information for the management and monitoring of radioactively contaminated territories.",ELSEVIER SCIENCE BV,63,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,11.0,IH7IF,"Geras'kin, Stanislav; Volkova, Polina; Vasiliyev, Denis; Dikareva, Nina; Oudalova, Alla; Kazakova, Elizaveta; Makarenko, Ekaterina; Duarte, Gustavo; Kuzmenkov, Alexey",6.0,5.0,Biotechnology & Applied Microbiology; Genetics & Heredity; Toxicology,MUTAT RES-GEN TOX EN,Mutat. Res. Genet. Toxicol. Environ. Mutagen.,10.1016/j.mrgentox.2018.12.011,"Geras'kin, S (corresponding author), Russian Inst Radiol & Agroecol, Obninsk, Russia.",CHRONIC RADIATION-EXPOSURE; OFFICINALE SEED PROGENY; TERM CHRONIC EXPOSURE; GENETIC DIVERSITY; FLUCTUATING ASYMMETRY; ASELLUS-AQUATICUS; CHERNOBYL; SYLVESTRIS; PLANTS; STRESS,stgeraskin@gmail.com,"Makarenko, Ekaterina E.S./0000-0001-7519-9550; Volkova, Polina/0000-0003-2824-6232; Kazakova, Elizaveta/0000-0002-2975-5891; Geras'kin, Stanislav/0000-0001-9978-3049; Duarte, Gustavo/0000-0002-3248-4957; OUDALOVA, ALLA/0000-0003-2758-5793","Makarenko, Ekaterina E.S./S-7880-2017; Volkova, Polina/D-6925-2016; Kazakova, Elizaveta/V-1742-2017; Geras'kin, Stanislav/AAR-3670-2020",31255224.0,1879-3592,,,,,,,,,,,,,,SI,,,,,,,,,,,,
Article,INTERNATIONAL JOURNAL OF SPELEOLOGY,2021-04-13,WOS:000482790200002,3,0,"Simcic, T; Sket, B",J,English,Comparison of some epigean and troglobiotic animals regarding their metabolism intensity. Examination of a classical assertion,2019.0,Geology,48,0392-6672,2,MAY,133,144,food scarcity; temperature; oxygen consumption; ETS activity; amphipod; isopod,"[Simcic, Tatjana] Natl Inst Biol, Dept Organisms & Ecosyst Res, Vecna Pot 111, SI-1000 Ljubljana, Slovenia; [Sket, Boris] Univ Ljubljana, Biotech Fac, Vecna Pot 111, SI-1000 Ljubljana, Slovenia","This study determines oxygen consumption (R), electron transport system (ETS) activity and R/ETS ratio in two pairs of epigean and hypogean crustacean species or subspecies. To date, metabolic characteristics among the phylogenetic distant epigean and hypogean species (i.e., species of different genera) or the epigean and hypogean populations of the same species have been studied due to little opportunity to compare closely related epigean and hypogean species. To fill this gap, we studied the epigean Niphargus zagrebensis and its troglobiotic relative Niphargus stygius, and the epigean subspecies Asellus aquaticus carniolicus in comparison to the troglobiotic subspecies Asellus aquaticus cavernicolus. We tested the previous findings of different metabolic rates obtained on less-appropriate pairs of species and provide additional information on thermal characteristics of metabolic enzymes in both species or subspecies types. Measurements were done at four temperatures. The values of studied traits, i.e., oxygen consumption, ETS activity, and ratio R/ETS, did not differ significantly between species or subspecies of the same genus from epigean and hypogean habitats, but they responded differently to temperature changes. Higher Q(10)-values for oxygen consumption of N. stygius than N. zagrebensis in the temperature range 10-20 degrees C and higher E-a indicated higher thermal sensitivity in the subterranean species. On the other hand, lower Q(10) and E-a-values for ETS activity of N. stygius than N. zagrebensis indicated more thermally stable enzymatic machinery in N. stygius than N. zagrebensis. In Asellus, we observed a similar trend of lower E-a for oxygen consumption and higher E-a for ETS activity in epigean than the troglomorphic subspecies, but the values did not differ significantly between the two. Our most important conclusion is that the low metabolic rate is not a universal property of troglobiotic animals, and the degree of metabolic adaptation is not necessarily in agreement with the degree of morphological adaptation (troglomorphy).",SOCIETA SPELEOLOGICA ITALIANA,65,"VIA ZAMBONI 67, BOLOGNA, 40126, ITALY",BOLOGNA,12.0,IT3WV,"Simcic, Tatjana; Sket, Boris",0.0,0.0,"Geology; Geosciences, Multidisciplinary",INT J SPELEOL,Int. J. Speleol.,10.5038/1827-806X.48.2.2251,"Simcic, T (corresponding author), Natl Inst Biol, Dept Organisms & Ecosyst Res, Vecna Pot 111, SI-1000 Ljubljana, Slovenia.",ELECTRON-TRANSPORT SYSTEM; ASELLUS-AQUATICUS CRUSTACEA; LONG-TERM STARVATION; OXYGEN-CONSUMPTION; ETS ACTIVITY; THERMAL TOLERANCE; RESPIRATION RATE; AMPHIPOD POPULATIONS; GAMMARUS-FOSSARUM; NIPHARGUS-VIREI,tatjana.simcic@nib.si,,,,1827-806X,Slovenian Research AgencySlovenian Research Agency - Slovenia [P1-0255],Thanks Jennifer Ellis for Engish revision of the manuscript. We are grateful to three anonymous referees for helpful comments on an earlier version of this manuscript. This study was financially supported by the Slovenian Research Agency (Research Program P1-0255).,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000463154600009,10,0,"MacNeil, C",J,English,Differences in the abilities of native and invasive amphipods to tolerate poor water quality and recolonise degraded habitats,2019.0,Marine & Freshwater Biology,834,0018-8158,1,MAY,119,129,Amphipod; ASPT; Biomonitoring; Crangonyx; Gammarus; Organic pollution; Recolonisation,"[MacNeil, Calum] Brookvale Cottage,Main Rd, Union Mills IM4 4AJ, Man, England","It has been hypothesised that freshwater pollution may favour the establishment of tolerant invaders at the expense of less-tolerant residents. To test this, this study capitalises on the aftermath of a farm pollution incident, a slurry discharge to a small British stream, which eliminated the resident macroinvertebrate assemblage. Stream transplant bioassay experiments at the discharge site revealed a higher pollution tolerance of the invasive amphipod Crangonyx pseudogracilis and the isopod Asellus aquaticus than that of the native amphipod Gammarus duebeni celticus and the invasive Gammarus pulex. A. aquaticus recolonised the stream up to the discharge point within days, followed by C. pseudogracilis, then G. pulex, with G. duebeni celticus undetected after a month. Values of a macroinvertebrate-derived biotic index of organic water quality, the Average Score Per Taxon (ASPT), gradually increased up to the discharge point in the 30days following the incident. In a larger-scale survey (72 river and 12 pond sites), inclusion/exclusion of Gammarus spp. had no effect on ASPT values, while inclusion of C. pseudogracilis increased values, despite an assumed equivalence of these amphipods in the index. Pollution could facilitate the establishment of tolerant invaders, and this has implications for biomonitoring.",SPRINGER,34,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,11.0,HR4YW,"MacNeil, Calum",0.0,0.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-019-3916-9,"MacNeil, C (corresponding author), Brookvale Cottage,Main Rd, Union Mills IM4 4AJ, Man, England.",CRUSTACEA; RIVER; COEXISTENCE; PATTERNS; INVADERS; RANGE,calummac73@hotmail.com,,,,1573-5117,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000460694400004,17,0,"MacNeil, C",J,English,"Predatory impacts of the invasive ""killer shrimp' Dikerogammarus villosus on a resident amphipod and isopod (Crustacea: Malacostraca) are influenced by water quality and habitat type",2019.0,Marine & Freshwater Biology,833,0018-8158,1,MAY,53,64,Amphipod; Asellus; Coexistence; Crangonyx; Dikerogammarus; Exclusion; Gammarus; Supertramp,"[MacNeil, Calum] Brookvale Cottage, Main Rd, Isle Of Man IM4 4AJ, British Isles, England","The Ponto-Caspian amphipod Dikerogammarus villosus has invaded Central European and British freshwaters and its arrival is associated with biodiversity decline, as D. villosus is predatory towards many macroinvertebrate taxa, including resident amphipods such as Crangonyx pseudogracilis and isopods such as Asellus aquaticus. I investigated how differential physiological tolerance, habitat use and predation may drive coexistence or exclusion among D. villosus and resident supertramp' prey such as C. pseudogracilis. Experiments revealed that D. villosus could not survive 12h in the extremely poor water qualities that C. pseudogracilis and A. aquaticus commonly live. Experiments manipulating oxygen levels, revealed low survivorship of C. pseudogracilis and A. aquaticus in the presence of D. villosus at higher oxygen levels but this survivorship increased significantly as oxygen levels fell. Predation of C. pseudogracilis by a resident amphipod Gammarus pulex followed a similar pattern but was much less severe and A. aquaticus appeared resistant to G. pulex predation. Mesocosm experiments showed that C. pseudogracilis survivorship in the presence of D. villosus increased when dense vegetation was present compared to bare substrate. Survivorship of A. aquaticus was uniformly poor in all habitats. Taxa with high environmental tolerance and adaptability may be resistant to this invader's worst impacts.",SPRINGER,59,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,12.0,HO1TR,"MacNeil, Calum",4.0,4.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-018-3881-8,"MacNeil, C (corresponding author), Brookvale Cottage, Main Rd, Isle Of Man IM4 4AJ, British Isles, England.",INTERFERENCE COMPETITION; INVADER; GAMMARUS; RIVER; SOWINSKY; INTRODUCTIONS; CONSUMPTION; TEMPERATURE; COEXISTENCE; DISPERSAL,calummac73@hotmail.com,,,,1573-5117,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ANIMAL ECOLOGY,2021-04-13,WOS:000467994800011,12,2,"Lurig, MD; Best, RJ; Svitok, M; Jokela, J; Matthews, B",J,English,The role of plasticity in the evolution of cryptic pigmentation in a freshwater isopod,2019.0,Environmental Sciences & Ecology; Zoology,88,0021-8790,4,APR,612,623,Asellus aquaticus; computer vision; crypsis; divergent selection; macrophytes; phenotypic divergence; phenotypic plasticity; shallow lakes,"[Lurig, Moritz D.; Best, Rebecca J.; Svitok, Marek; Matthews, Blake] Swiss Fed Inst Aquat Sci & Technol Eawag Kastanie, Kastanienbaum, Switzerland; [Lurig, Moritz D.; Jokela, Jukka] Inst Integrat Biol, Ctr Adapt Changing Environm ACE, Zurich, Switzerland; [Best, Rebecca J.] No Arizona Univ, Sch Earth & Sustainabil, Flagstaff, AZ 86011 USA; [Svitok, Marek] Tech Univ Zvolen, Fac Ecol & Environm Sci, Dept Biol & Gen Ecol, Zvolen, Slovakia; [Svitok, Marek] Univ South Bohemia, Dept Ecosyst Biol, Fac Sci, Ceske Budejovice, Czech Republic; [Jokela, Jukka] EAWAG, Swiss Fed Inst Aquat Sci & Technol, Dept Aquat Ecol, Dubendorf, Switzerland","Cryptic pigmentation of prey is often thought to evolve in response to predator-mediated selection, but pigmentation traits can also be plastic, and change with respect to both abiotic and biotic environmental conditions. In such cases, identifying the presence of, and drivers of trait plasticity is useful for understanding the evolution of crypsis. Previous work suggests that cryptic pigmentation of freshwater isopods (Asellus aquaticus) has evolved in response to predation pressure by fish in habitats with varying macrophyte cover and coloration. However, macrophytes can potentially influence the distribution of pigmentation by altering not only habitat-specific predation susceptibility, but also dietary resources and abiotic conditions. The goals of this study were to experimentally test how two putative agents of selection, namely macrophytes and fish, affect the pigmentation of A.aquaticus, and to assess whether pigmentation is plastic, using a diet manipulation in a common garden. We performed two experiments: (a) in an outdoor mesocosm experiment, we investigated how different densities of predatory fish (0/30/60 three-spined stickleback [Gasterosteus aculeatus] per mesocosm) and macrophytes (presence/absence) affected the abundance, pigmentation and body size structure of isopod populations. (b) In a subsequent laboratory experiment, we reared isopods in a common garden experiment on two different food sources (high/low protein content) to test whether variation in pigmentation of isopods can be explained by diet-based developmental plasticity. We found that fish presence strongly reduced isopod densities, particularly in the absence of macrophytes, but had no effect on pigmentation or size structure of the populations. However, we found that isopods showed consistently higher pigmentation in the presence of macrophytes, regardless of fish presence or absence. Our laboratory experiment, in which we manipulated the protein content of the isopods' diet, revealed strong plasticity of pigmentation and weak plasticity of growth rate. The combined results of both experiments suggest that pigmentation of A.aquaticus is a developmentally plastic trait and that multiple environmental factors (e.g. macrophytes, diet and predation) might jointly influence the evolution of cryptic pigmentation of A.aquaticus in nature on relatively short time-scales.",WILEY,76,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,12.0,HY3AG,"Lurig, Moritz D.; Best, Rebecca J.; Svitok, Marek; Jokela, Jukka; Matthews, Blake",1.0,1.0,Ecology; Zoology,J ANIM ECOL,J. Anim. Ecol.,10.1111/1365-2656.12950,"Lurig, MD (corresponding author), Swiss Fed Inst Aquat Sci & Technol Eawag Kastanie, Kastanienbaum, Switzerland.; Lurig, MD (corresponding author), Inst Integrat Biol, Ctr Adapt Changing Environm ACE, Zurich, Switzerland.",PHENOTYPIC PLASTICITY; ASELLUS-AQUATICUS; LIFE-HISTORY; MORPHOLOGICAL PLASTICITY; THREESPINE STICKLEBACK; SELECTION; FOOD; DIVERGENCE; PREDATION; GROWTH,moritz.luerig@eawag.ch,"Matthews, Blake/0000-0001-9089-704X; Best, Rebecca/0000-0003-2103-064X; Svitok, Marek/0000-0003-2710-8102; Lurig, Moritz/0000-0002-8175-6234; Jokela, Jukka/0000-0002-1731-727X","Matthews, Blake/B-5608-2009; Best, Rebecca/D-2934-2013; Svitok, Marek/A-4843-2013",30666639.0,1365-2656,Center for Adaptation to a Changing Environment (ACE) at ETH Zurich; European Regional Development FundEuropean Commission [CZ.02.1.01/0.0/0.0/15_003/0000441]; Agentura na Podporu Vyskumu a Vyvoja [APVV-16-0236]; Eawag Directorate,"Center for Adaptation to a Changing Environment (ACE) at ETH Zurich; Eawag Directorate; European Regional Development Fund, Grant/Award Number: CZ.02.1.01/0.0/0.0/15_003/0000441; Agentura na Podporu Vyskumu a Vyvoja, Grant/Award Number: APVV-16-0236",Green Accepted,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH,2021-04-13,WOS:000464851100088,8,0,"McCallum, ES; Lindberg, RH; Andersson, PL; Brodin, T",J,English,Stability and uptake of methylphenidate and ritalinic acid in nine-spine stickleback (Pungitius pungitius) and water louse (Asellus aquaticus),2019.0,Environmental Sciences & Ecology,26,0944-1344,9,MAR,9371,9378,Pharmaceuticals; Ecotoxicology; Stimulant; Behaviour; Methylphenidate; Aquatic organisms,"[McCallum, Erin S.; Brodin, Tomas] Umea Univ, Dept Ecol & Environm Sci, S-90187 Umea, Sweden; [McCallum, Erin S.; Brodin, Tomas] Swedish Univ Agr Sci SLU, Dept Wildlife Fish & Environm Studies, S-90183 Umea, Sweden; [Lindberg, Richard H.; Andersson, Patrik L.] Umea Univ, Dept Chem, S-90187 Umea, Sweden","The presence of human pharmaceuticals in the environment has garnered significant research attention because these compounds may exert therapeutic effects on exposed wildlife. Yet, for many compounds, there is still little research documenting their stability in the water column and uptake in organism tissues. Here, we measured the uptake and stability of methylphenidate (Ritalin (R), a frequently prescribed central nervous system stimulant) and its primary metabolite, ritalinic acid, in (1) water only or (2) with nine-spine stickleback and water louse. Methylphenidate degraded to ritalinic acid in both studies faster at a higher temperature (20 degrees C versus 10 degrees C), with concentrations of ritalinic acid surpassing methylphenidate after 48-100 h, depending on temperature. The concentration of methylphenidate in stickleback was highest at the first sampling point (60 min), while the concentration in water louse tissues reached comparatively higher levels and peaked after similar to 6 days. Neither stickleback nor water louse took up ritalinic acid in tissues despite being present in the water column. Our findings provide valuable data for use in future risk assessment of methylphenidate and will aid in the design of studies aimed at measuring any ecotoxicological effects on, for example, the behaviour or physiology of aquatic organisms.",SPRINGER HEIDELBERG,37,"TIERGARTENSTRASSE 17, D-69121 HEIDELBERG, GERMANY",HEIDELBERG,8.0,HT8YM,"McCallum, Erin S.; Lindberg, Richard H.; Andersson, Patrik L.; Brodin, Tomas",1.0,1.0,Environmental Sciences,ENVIRON SCI POLLUT R,Environ. Sci. Pollut. Res.,10.1007/s11356-019-04557-9,"McCallum, ES (corresponding author), Umea Univ, Dept Ecol & Environm Sci, S-90187 Umea, Sweden.; McCallum, ES (corresponding author), Swedish Univ Agr Sci SLU, Dept Wildlife Fish & Environm Studies, S-90183 Umea, Sweden.",PERSONAL CARE PRODUCTS; PHARMACEUTICALS; FISH; BIOCONCENTRATION; EXPOSURE; BEHAVIOR; CONTAMINANTS; RESPONSES; CHILDREN; EFFLUENT,erin.mccallum@slu.se,"McCallum, Erin/0000-0001-5426-9652","McCallum, Erin/AAJ-4052-2020",30805842.0,1614-7499,AForsk Foundation,Financial support was provided by AForsk Foundation.,"Green Published, Other Gold",,,,,,,,,,,,,,,,,,,,,,,
Article,BULLETIN OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:000460893000001,14,1,"Zubrod, JP; Englert, D; Feckler, A; Rosenfeldt, RR; Pasternack, H; Hollert, H; Seiler, TB; Schulz, R; Bundschuh, M",J,English,Is Hyalella azteca a Suitable Model Leaf-Shredding Benthic Crustacean for Testing the Toxicity of Sediment-Associated Metals in Europe?,2019.0,Environmental Sciences & Ecology; Toxicology,102,0007-4861,3,MAR,303,309,Body burden; Ecosystem functioning; Metals; Sediment toxicity tests; Shredders,"[Zubrod, Jochen P.; Englert, Dominic; Feckler, Alexander; Rosenfeldt, Ricki R.; Pasternack, Hendrik; Schulz, Ralf; Bundschuh, Mirco] Univ Koblenz Landau, Inst Environm Sci, Fortstr 7, D-76829 Landau, Germany; [Zubrod, Jochen P.; Schulz, Ralf] Univ Koblenz Landau, Eusserthal Ecosyst Res Stn, Birkenthalstr 13, D-76857 Eusserthal, Germany; [Feckler, Alexander; Bundschuh, Mirco] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Box 7050, S-75007 Uppsala, Sweden; [Rosenfeldt, Ricki R.] nEcoTox, Neumuhle 2, D-76855 Annweiler, Germany; [Hollert, Henner; Seiler, Thomas-Benjamin] Rhein Westfal TH Aachen, Dept Ecosyst Anal, Inst Environm Res, Worringer Weg 1, D-52074 Aachen, Germany","The leaf-shredding crustacean Hyalella azteca, which is indigenous to Northern and Central America, is used to assess environmental risks associated with (metal-)contaminated sediments and to propose sediment quality standards also in Europe. Yet, it is unknown if H. azteca is protective for European crustacean shredders. We thus compared the sensitivity of H. azteca with that of the European species Asellus aquaticus and Gammarus fossarum towards copper- and cadmium-contaminated sediments (prepared according to OECD 218) under laboratory conditions employing mortality and leaf consumption as endpoints. H. azteca either reactedapproximatelyfourfold more sensitive than the most tolerant tested species (as for cadmium) or its sensitivity was only 1.6 times lower than the highest sensitivity determined (as for copper), which should be covered by safety factors applied during risk assessments. Therefore, the results for the sediment type and the two heavy metals tested during the present study in combination with the existence of standardized testing protocols, their ease of culture, and short generation time, suggest H. azteca as suitable crustacean model shredder for assessing the toxicity of sediment-associated metals in Europe.",SPRINGER,47,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,7.0,HO4LC,"Zubrod, Jochen P.; Englert, Dominic; Feckler, Alexander; Rosenfeldt, Ricki R.; Pasternack, Hendrik; Hollert, Henner; Seiler, Thomas-Benjamin; Schulz, Ralf; Bundschuh, Mirco",1.0,1.0,Environmental Sciences; Toxicology,B ENVIRON CONTAM TOX,Bull. Environ. Contam. Toxicol.,10.1007/s00128-019-02557-6,"Zubrod, JP; Bundschuh, M (corresponding author), Univ Koblenz Landau, Inst Environm Sci, Fortstr 7, D-76829 Landau, Germany.; Zubrod, JP (corresponding author), Univ Koblenz Landau, Eusserthal Ecosyst Res Stn, Birkenthalstr 13, D-76857 Eusserthal, Germany.; Bundschuh, M (corresponding author), Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Box 7050, S-75007 Uppsala, Sweden.",ASELLUS-AQUATICUS L; GAMMARUS-PULEX; LITTER DECOMPOSITION; RISK-ASSESSMENT; WATER; SENSITIVITY; COPPER; ZINC; BIOACCUMULATION; INVERTEBRATES,zubrod@uni-landau.de; bundschuh@uni-landau.de,"Schulz, Ralf/0000-0002-6348-6971; Schulz, Ralf/0000-0002-6348-6971; Bundschuh, Mirco/0000-0003-4876-220X; Seiler, Thomas-Benjamin/0000-0001-8127-510X; Zubrod, Jochen/0000-0001-9642-2205","Schulz, Ralf/ABI-4526-2020; Hollert, Henner/A-1027-2009; Schulz, Ralf/G-3674-2011; Bundschuh, Mirco/H-4559-2014; Seiler, Thomas-Benjamin/K-6294-2012",30706079.0,1432-0800,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF HEREDITY,2021-04-13,WOS:000461145800006,10,2,"Voros, J; Ursenbacher, S; Jelic, D",J,English,"Population Genetic Analyses Using 10 New Polymorphic Microsatellite Loci Confirms Genetic Subdivision within the Olm, Proteus anguinus",2019.0,Evolutionary Biology; Genetics & Heredity,110,0022-1503,2,MAR,211,218,amphibians; caudata; caves; Dinaric karst; troglomorphism,"[Voros, Judit] Hungarian Nat Hist Museum, Dept Zool, Baross U 13, H-1088 Budapest, Hungary; [Voros, Judit] Hungarian Nat Hist Museum, Lab Mol Taxon, Ludovika Ter 2-6, H-1083 Budapest, Hungary; [Ursenbacher, Sylvain] Univ Basel, Sect Conservat Biol, Dept Environm Sci, St Johanns Vorstadt 10, CH-4056 Basel, Switzerland; [Ursenbacher, Sylvain] Info Fauna, UniMail Batiment G,Bellevaux 51, CH-2000 Neuchatel, Switzerland; [Jelic, Dusan] BIOTA Jdoo, Croatian Inst Biodivers, Maksimirska Cesta 129-7, HR-10000 Zagreb, Croatia","We provide a comparative population genetic study of the elusive amphibian, Proteus anguinus, by comparing the genetic diversity and divergence among 4 cave populations (96 individuals) sampled in the Dinaric Karst of Croatia. We developed 10 variable microsatellite markers using pyrosequencing and applied them to the 4 selected populations belonging to 4 different cave systems. The results showed strong genetic differentiation between the 4 caves corroborating with previous findings suggesting that Proteus might comprise several unrecognized taxa. Our results confirmed that gene flow should be high within the caves, whereas it is low between hydrographic systems since geological periods. Finally, we conclude that the high genetic subdivision suggests the necessity of treating the 4 studied Proteus populations as evolutionary significant units.",OXFORD UNIV PRESS INC,54,"JOURNALS DEPT, 2001 EVANS RD, CARY, NC 27513 USA",CARY,8.0,HO7RI,"Voros, Judit; Ursenbacher, Sylvain; Jelic, Dusan",4.0,4.0,Evolutionary Biology; Genetics & Heredity,J HERED,J. Hered.,10.1093/jhered/esy067,"Voros, J (corresponding author), Hungarian Nat Hist Museum, Dept Zool, Baross U 13, H-1088 Budapest, Hungary.",ASELLUS-AQUATICUS CRUSTACEA; GROUNDWATER BIODIVERSITY; SOFTWARE; PHYLOGEOGRAPHY; DIVERGENCE; DIVERSITY; EVOLUTION; URODELA; MARKERS; SURFACE,voros.judit@nhmus.hu,"Ursenbacher, Sylvain/0000-0001-5093-6403; Voros, Judit/0000-0001-9707-1443",,30576453.0,1465-7333,Bolyai Janos Research Scholarship of the Hungarian Academy of SciencesHungarian Academy of Sciences [BO/00579/14/8]; PROTEUS project; Zoological Society of London (EDGE Programme; UK); MAVA Foundation (Switzerland); Krka National Park (Croatia),"This work was supported by the Bolyai Janos Research Scholarship of the Hungarian Academy of Sciences (BO/00579/14/8) to J.V.; PROTEUS project and D.J. were generously financed by Zoological Society of London (EDGE Programme; UK), MAVA Foundation (Switzerland), and Krka National Park (Croatia).",Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL RESEARCH,2021-04-13,WOS:000458592200006,18,3,"Van Ginneken, M; Blust, R; Bervoets, L",J,English,The impact of temperature on metal mixture stress: Sublethal effects on the freshwater isopod Asellus aquaticus,2019.0,"Environmental Sciences & Ecology; Public, Environmental & Occupational Health",169,0013-9351,,FEB,52,61,Behavior; Feeding rate; Growth rate; Multiple stressors; Respiration,"[Van Ginneken, M.; Blust, R.; Bervoets, L.] Univ Antwerp, Syst Physiol & Ecotoxicol Res SPHERE, Dept Biol, Groenenborgerlaan 171, B-2020 Antwerp, Belgium","Chemical and natural factors have been demonstrated to interact and potentially change the toxicity of the individual stressors. Yet, while there exists a multitude of papers studying the temperature-dependent toxicity of single chemicals, little research exists on the impact of temperature on chemical mixtures. This paper investigates the effect of temperature on environmentally-relevant mixtures of Cd, Cu and Pb. We linked the effects on respiration, growth, feeding rate and activity of Asellus aquaticus to the free ion activities, as a measure for the bioavailability of the metals, and the body concentrations. We observed interactions of temperature and metal body concentrations on all sublethal endpoints, except activity. Mixture effects on accumulation and feeding rate were observed as well and even an interaction between metal body burden, mixture and temperature treatment was revealed for the feeding rate of Pb exposed isopods. This research adds to a growing body of evidence that the current chemical-based monitoring is insufficient to estimate chemical toxicity in aquatic ecosystems and must, therefore, be complemented with effect-based tools.",ACADEMIC PRESS INC ELSEVIER SCIENCE,50,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,10.0,HL3DE,"Van Ginneken, M.; Blust, R.; Bervoets, L.",3.0,3.0,"Environmental Sciences; Public, Environmental & Occupational Health",ENVIRON RES,Environ. Res.,10.1016/j.envres.2018.10.025,"Van Ginneken, M (corresponding author), Univ Antwerp, Syst Physiol & Ecotoxicol Res SPHERE, Dept Biol, Groenenborgerlaan 171, B-2020 Antwerp, Belgium.",CRASSOSTREA-VIRGINICA; GAMMARUS-PULEX; CADMIUM EXPOSURE; DAPHNIA-MAGNA; TOXICITY; SENSITIVITY; ZINC; CD; ZN; BIOACCUMULATION,marjolein.vanginneken@uantwerpen.be,,,30415100.0,1096-0953,"Research Foundation Flanders, Belgium (FWO)FWO [11Z5317N]","Marjolein Van Ginneken is funded by a doctoral grant of the Research Foundation Flanders, Belgium (FWO; grant number 11Z5317N).",,,,,,,,,,,,,,,,,,,,,,,,
Article,SYMBIOSIS,2021-04-13,WOS:000457466500006,18,1,"dos Santos, TT; de Oliveira, DP; Cabette, HSR; de Morais, PB",J,English,"The digestive tract of Phylloicus (Trichoptera: Calamoceratidae) harbours different yeast taxa in Cerrado streams, Brazil",2019.0,Microbiology,77,0334-5114,2,FEB,147,160,Aquatic macroinvertebrates; Freshwater; Fungal diversity; fungus-insect interaction; Symbiosis,"[dos Santos, Taides Tavares; de Morais, Paula Benevides] Univ Fed Tocantins, Lab Microbiol Ambiental & Biotecnol, Colecao Culturas Microbianas Carlos Rosa, Programa Doutorado Biodiversidade & Biotecnol Red, Campus Univ Palmas,Quadra 109 Norte,Av NS 15, BR-77001090 Palmas, Tocantins, Brazil; [de Oliveira, Deyla Paula] Fundacao Amparo Pesquisa Estado Tocantins FAPT, Palmas, Tocantins, Brazil; [Ramos Cabette, Helena Soares] Univ Estado Mato Grosso, Nova Xavantina, MG, Brazil","The interaction between insects, both larval and adult, and yeasts associated with their digestive tract (DT), has been of interest in recent years, since it can be beneficial for both partners. Studies focusing on this habitat have contributed to the expansion of knowledge about diversity, biogeography and functional characterization of yeasts, especially in ecosystems still poorly exploited, such as the Brazilian Cerrado. We investigated the interaction between larvae of Phylloicus spp. (Trichoptera: Calamoceratidae), which is an aquatic insect, and the yeasts isolated from its DT. The larvae were collected from first-order Cerrado streams of two States (Mato Grosso - MT and Para - PA) in Brazil. Yeasts were cultivated and identified based on sequence analysis of the D1/D2 domains of the large subunit of rRNA genes. A total of 20 yeast species, belonging to six genera of Ascomycota and five Basidiomycota, is harbored in the DT of the larvae. The most frequent genera were Candida, Papiliotrema, Rhodotorula (19.3% each) and Issatchenkia (15.8%). Candida parapsilosis and Rhodotorula mucilaginosa were only yeast species isolated from the DT of larvae in both locations. The most species-rich community was that associated with DT of Phylloicus spp. in MT samples (H=1.48) as compared to PA samples (H=0.67). All species were accidental (frequency<25%), which is indicative of a loose association of these yeasts with their host. This is the first report of the association of yeasts with the DT of the shredders group of aquatic insects.",SPRINGER,123,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,14.0,HJ8RE,"dos Santos, Taides Tavares; de Oliveira, Deyla Paula; Ramos Cabette, Helena Soares; de Morais, Paula Benevides",1.0,1.0,Microbiology,SYMBIOSIS,Symbiosis,10.1007/s13199-018-0577-9,"de Morais, PB (corresponding author), Univ Fed Tocantins, Lab Microbiol Ambiental & Biotecnol, Colecao Culturas Microbianas Carlos Rosa, Programa Doutorado Biodiversidade & Biotecnol Red, Campus Univ Palmas,Quadra 109 Norte,Av NS 15, BR-77001090 Palmas, Tocantins, Brazil.",ATLANTIC RAIN-FOREST; ORGANIC-MATTER DYNAMICS; SP-NOV.; COMMUNITY COMPOSITION; ASELLUS-AQUATICUS; GAMMARUS-PULEX; LEAF-LITTER; DIVERSITY; GUT; CANDIDA,moraispb@uft.edu.br,"Santos, Taides Tavares dos/0000-0001-5107-7970; de Oliveira, Deyla Paula/0000-0003-2929-8288; Morais, Paula/0000-0002-5050-5766","Santos, Taides Tavares dos/AAP-8928-2020; de Oliveira, Deyla Paula/J-8819-2016; Morais, Paula/E-9794-2013",,1878-7665,"Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq) Edital Chamada MCTI/CNPq/FNDCT Acao Transversal -Redes Regionais de Pesquisa em Ecossistemas, Biodiversidade e BiotecnologiaNational Council for Scientific and Technological Development (CNPq) [407676/2013-9, 79/2013]","This research was supported by grant 407676/2013-9 from Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq) Edital Chamada MCTI/CNPq/FNDCT Acao Transversal -Redes Regionais de Pesquisa em Ecossistemas, Biodiversidade e Biotecnologia No 79/2013.",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENTIFIC REPORTS,2021-04-13,WOS:000455346100010,4,0,"Duckworth, J; Jager, T; Ashauer, R",J,English,"Automated, high-throughput measurement of size and growth curves of small organisms in well plates",2019.0,Science & Technology - Other Topics,9,2045-2322,,JAN 9,,,,"[Duckworth, James; Ashauer, Roman] Univ York, Environm Dept, Wentworth Way, Heslington YO10 5NG, Yorks, England; [Jager, Tjalling] DEBtox Res, De Bilt, Netherlands","Organism size and growth curves are important biological characteristics. Current methods to measure organism size, and in particular growth curves, are often resource intensive because they involve many manual steps. Here we demonstrate a method for automated, high-throughput measurements of size and growth in individual aquatic invertebrates kept in microtiter well-plates. We use a spheroid counter (Cell(3)iMager, cc-5000) to automatically measure size of seven different freshwater invertebrate species. Further, we generated calibration curves (linear regressions, all p < 0.0001, r(2) >=0.9 for Ceriodaphnoa dubia, Asellus aquaticus, Daphnia magna, Daphnia pulex; r(2) >=0.8 for Hyalella azteca, Chironomus spec. larvae and Culex spec. larvae) to convert size measured on the spheroid counter to traditional, microscope based, length measurements, which follow the longest orientation of the body. Finally, we demonstrate semi-automated measurement of growth curves of individual daphnids (C. dubia and D. magna) over time and find that the quality of individual growth curves varies, partly due to methodological reasons. Nevertheless, this novel method could be adopted to other species and represents a step change in experimental throughput for measuring organisms' shape, size and growth curves. It is also a significant qualitative improvement by enabling high-throughput assessment of inter-individual variation of growth.",NATURE PUBLISHING GROUP,32,"MACMILLAN BUILDING, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,8.0,HG9RJ,"Duckworth, James; Jager, Tjalling; Ashauer, Roman",2.0,2.0,Multidisciplinary Sciences,SCI REP-UK,Sci Rep,10.1038/s41598-018-36877-0,"Ashauer, R (corresponding author), Univ York, Environm Dept, Wentworth Way, Heslington YO10 5NG, Yorks, England.",PHYSIOLOGICAL MODES; ASELLUS-AQUATICUS; REPRODUCTION; CHEMICALS; TOXICITY; INDIVIDUALS; ZOOPLANKTON; RESPONSES,roman.ashauer@york.ac.uk,"Jager, Tjalling/0000-0002-4424-1442; Duckworth, James/0000-0002-4715-2189; Ashauer, Roman/0000-0002-9579-8793","Duckworth, James/AAE-8823-2020; Jager, Tjalling/D-8168-2011; Ashauer, Roman/E-6640-2010",30626881.0,,SETAC-CEFIC-LRI Innovative Science Award; University of York's Graduate Winter Internship Programme,We thank Claire Jones for her contribution to the experimental work and Brett Sallach for feedback on an early version of this manuscript. We are grateful for funding by the SETAC-CEFIC-LRI Innovative Science Award to RA and support from the University of York's Graduate Winter Internship Programme.,"DOAJ Gold, Green Published, Green Accepted",,10,,,,,,,,,,,,,,,,,,,,,
Article,PLANT BIOSYSTEMS,2021-04-13,WOS:000506619600001,7,3,"Ceschin, S; Abati, S; Traversetti, L; Spani, F; Del Grosso, F; Scalici, M",J,English,Effects of the invasive duckweed Lemna minuta on aquatic animals: evidence from an indoor experiment,2019.0,Plant Sciences,153,1126-3504,6,,749,755,Aquatic ecosystem; free-floating plant; freshwater animal; non-native macrophyte; duckweed impact,"[Ceschin, Simona; Abati, Silverio; Traversetti, Lorenzo; Spani, Federica; Del Grosso, Floriano; Scalici, Massimiliano] Univ Roma Tre, Dept Sci, Viale G Marconi 446, I-00146 Rome, Italy","Since effects of alien invasive free-floating plants can be relevant in aquatic ecosystems, we investigated the non-native Lemna minuta impact on four aquatic animal groups: Hydra vulgaris (Coelenterates), Asellus aquaticus (Arthropods), Gambusia affinis (Fish), Bufo bufo tadpoles (Amphibians). An indoor experiment was conducted keeping animals in water held in tanks with L. minuta mats of 0.5 (WI1), 1.5cm thick (WI2) and without mats (WOU). Water parameters (DO, DO%, pH) and animal responses (survival rate, vitality) were measured every 48 h (0-288 h). Treatments with mats showed significant impacts on animals which were more severe with increasing mat thickness. Strong decreasing of oxygen and pH associated with mat occurrence had a large impact on animals. In WI2 all individuals died within 144 h (H. vulgaris, B. bufo within 96h), while in WI1 there was a higher survival rate and vitality (excluding B. bufo died within 96 h) and in WOU no deaths. This evidence suggests L. minuta thick mats (>= 1.5cm) could have a high impact on animal biodiversity, especially reducing oxygenation level in aquatic ecosystem.",TAYLOR & FRANCIS LTD,48,"2-4 PARK SQUARE, MILTON PARK, ABINGDON OR14 4RN, OXON, ENGLAND",ABINGDON,7.0,KB6RJ,"Ceschin, Simona; Abati, Silverio; Traversetti, Lorenzo; Spani, Federica; Del Grosso, Floriano; Scalici, Massimiliano",12.0,11.0,Plant Sciences,PLANT BIOSYST,Plant Biosyst.,10.1080/11263504.2018.1549605,"Ceschin, S (corresponding author), Univ Roma Tre, Dept Sci, Viale G Marconi 446, I-00146 Rome, Italy.",HYACINTH EICHHORNIA-CRASSIPES; WATER HYACINTH; FLOATING PLANTS; BIODIVERSITY; COMMUNITIES; IMPACT; GROWTH; KUNTH; MATS; SHOW,simona.ceschin@uniroma3.it,,,,1724-5575,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,INVERTEBRATE SYSTEMATICS,2021-04-13,WOS:000470955500005,4,2,"Guzik, MT; Stringer, DN; Murphy, NP; Cooper, SJB; Taiti, S; King, RA; Humphreys, WF; Austin, AD",J,English,Molecular phylogenetic analysis of Australian arid-zone oniscidean isopods (Crustacea:Haloniscus) reveals strong regional endemicity and new putative species,2019.0,Evolutionary Biology; Zoology,33,1445-5226,3,,556,574,CO1; 18S rRNA gene; groundwater; isolation; refugia,"[Guzik, Michelle T.; Stringer, Danielle N.; Cooper, Steven J. B.; King, Rachael A.; Austin, Andrew D.] Univ Adelaide, Sch Biol Sci, Australian Ctr Evolutionary Biol & Biodivers, North Terrace, SA 5005, Australia; [Murphy, Nicholas P.] Trobe Univ, Dept Ecol Environm & Evolut, Bundoora, Vic 3086, Australia; [Cooper, Steven J. B.; King, Rachael A.] South Australian Museum, Adelaide, SA 5000, Australia; [Taiti, Stefano] CNR, Ist Ric Ecosistemi Terrestri, Via Madonna Piano 10, I-50019 Sesto Fiorentino, Italy; [Taiti, Stefano] Museo Storia Nat Univ, Sez Zool La Specola, Via Romana 17, I-50125 Florence, Italy; [Humphreys, William F.] Western Australian Museum, Welshpool Dc, WA 6986, Australia; [Humphreys, William F.] Univ Western Australia, Sch Anim Biol, Crawley, WA 6009, Australia","During the Miocene, central and western Australia shared a warm-wet environment that harboured a mesic rainforest fauna. Now, although the area is within the arid climate zone, it provides a habitat for highly diverse groundwater-associated invertebrates. Periods of global cooling and aridification during the late Miocene resulted in isolated desert refuges that retained ancient lineages. We aimed to characterise oniscidean isopod crustaceans from three refugial locations in the arid zone, and salt lakes, to identify new putative species. Extensive sampling and sequencing of the mitochondrial Cytochrome Oxidase c subunit 1 gene and the 18S rRNA gene were conducted. A molecular phylogenetic analysis of the oniscidean genus Haloniscus showed results consistent with a relictualisation hypothesis of widespread populations from across South Australia to Western Australia with subsequent geographic isolation and diversification of new species within habitats. We observed significant regional endemicity, but some lineages were not regionally monophyletic, pointing to past connectivity. We expand the range of Haloniscus and identify at least 26 putative species from arid-zone locations in Australia, with substantial phylogeographic structure within locations. These findings highlight the importance of relictual groundwater habitats as refugia for a diverse fauna representing early climatic history in Australia's arid zone.",CSIRO PUBLISHING,95,"UNIPARK, BLDG 1, LEVEL 1, 195 WELLINGTON RD, LOCKED BAG 10, CLAYTON, VIC 3168, AUSTRALIA",CLAYTON,19.0,IC4SL,"Guzik, Michelle T.; Stringer, Danielle N.; Murphy, Nicholas P.; Cooper, Steven J. B.; Taiti, Stefano; King, Rachael A.; Humphreys, William F.; Austin, Andrew D.",3.0,3.0,Evolutionary Biology; Zoology,INVERTEBR SYST,Invertebr. Syst.,10.1071/IS18070,"Guzik, MT (corresponding author), Univ Adelaide, Sch Biol Sci, Australian Ctr Evolutionary Biol & Biodivers, North Terrace, SA 5005, Australia.",MITOCHONDRIAL-DNA PHYLOGEOGRAPHY; ASELLUS-AQUATICUS CRUSTACEA; GENERA LIMBODESSUS GUIGNOT; GREAT-ARTESIAN BASIN; SUBTERRANEAN ARCHIPELAGO; DELIMITATION METHOD; UNDERGROUND WATERS; CRYPTIC DIVERSITY; YILGARN REGION; DYTISCIDAE,michelle.guzik@adelaide.edu.au,,"Cooper, Steven JB/I-6291-2012",,1447-2600,"Bioplatforms Australia (Australian Biological Resources Study (ABRS)) grant: 'Framework DNA Barcode Datasets for Australia: Subterranean Invertebrate Biodiversity Data-set'; Bioplatforms Australia (University of Adelaide) grant: 'Framework DNA Barcode Datasets for Australia: Subterranean Invertebrate Biodiversity Data-set'; Australian Research CouncilAustralian Research Council [LP0669062, LP100200494, LP140100555]; ABRS Capacity Building grant [CT214-11]","Funding support was provided by a Bioplatforms Australia (supported by Australian Biological Resources Study (ABRS) and The University of Adelaide) grant: 'Framework DNA Barcode Datasets for Australia: Subterranean Invertebrate Biodiversity Data-set' to ADA and SJBC, Australian Research Council Linkage grants LP0669062, LP100200494 and LP140100555 to ADA, NPM, SJBC and WFH, and an ABRS Capacity Building grant (CT214-11) to DNS.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000452693500035,104,5,"Redondo-Hasselerharm, PE; de Ruijter, VN; Mintenig, SM; Verschoor, A; Koelmans, AA",J,English,Ingestion and Chronic Effects of Car Tire Tread Particles on Freshwater Benthic Macroinvertebrates,2018.0,Engineering; Environmental Sciences & Ecology,52,0013-936X,23,DEC 4,13986,13994,,"[Redondo-Hasselerharm, Paula E.; de Ruijter, Vera N.; Koelmans, Albert A.] Wageningen Univ & Res, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands; [Mintenig, Svenja M.] Univ Utrecht, Copernicus Inst Sustainable Dev, NL-3584 CS Utrecht, Netherlands; [Mintenig, Svenja M.] KWR Watercycle Res Inst, NL-3433 PE Nieuwegein, Netherlands; [Verschoor, Anja] Natl Inst Publ Hlth & Environm, POB 1, NL-3720 BA Bilthoven, Netherlands","Micronized particles released from car tires have been found to contribute substantially to microplastic pollution, triggering the need to evaluate their effects on biota. In the present study, four freshwater benthic macroinvertebrates were exposed for 28 days to tread particles (TP; 10-586 mu m) made from used car tires at concentrations of 0, 0.1, 0.3, 1, 3, and 10% sediment dry weight. No adverse effects were found on the survival, growth, and feeding rate of Gammarus pulex and Asellus aquaticus, the survival and growth of Tubifex spp., and the number of worms and growth of Lumbriculus variegatus. A method to quantify TP numbers inside biota was developed and here applied to G. pulex. In bodies and faces of G. pulex exposed to 10% car tire TP, averages of 2.5 and 4 tread particles per organism were found, respectively. Chemical analysis showed that, although car tire TP had a high intrinsic zinc content, only small fractions of the heavy metals present were bioavailable. PAHs in the TP-sediment mixtures also remained below existing toxicity thresholds. This combination of results suggests that real in situ effects of TP and TP-associated contaminants when dispersed in sediments are probably lower than those reported after forced leaching of contaminants from car tire particles.",AMER CHEMICAL SOC,62,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,9.0,HD6XL,"Redondo-Hasselerharm, Paula E.; de Ruijter, Vera N.; Mintenig, Svenja M.; Verschoor, Anja; Koelmans, Albert A.",22.0,21.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/acs.est.8b05035,"Redondo-Hasselerharm, PE (corresponding author), Wageningen Univ & Res, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands.",POLYCYCLIC AROMATIC-HYDROCARBONS; ROAD WEAR PARTICLES; AUTOMOBILE TIRES; TOXICITY; MICROPLASTICS; DEBRIS; QUALITY; METAL; BIOACCUMULATION; BENZOTHIAZOLES,paula.redondohasselerharm@wur.nl,"Hasselerharm, Paula E. Redondo/0000-0002-8055-6847; Verschoor, Anja/0000-0002-6844-8368","Hasselerharm, Paula E. Redondo/ABI-5436-2020; Koelmans, Albert A./D-8603-2014",30407008.0,1520-5851,"Dutch Technology Foundation TTW [13940]; KWR; IMARES; NVWA; RIKILT; Dutch Ministry of Infrastructure and the Environment; Dutch Ministry of Health, Welfare and Sport; Wageningen Food & Biobased Research; STOWA; RIWA; water boards Hoogheemraadschap van Delfland, Zuiderzeeland, Rijn en IJssel, Vechtstromen, Scheldestromen, Aa en Maas, de Dommel, and Rivierenland","This study was funded by the Dutch Technology Foundation TTW, project no. 13940. We acknowledge additional support from KWR; IMARES; NVWA; RIKILT; The Dutch Ministry of Infrastructure and the Environment; The Dutch Ministry of Health, Welfare and Sport; Wageningen Food & Biobased Research; STOWA; RIWA; and water boards Hoogheemraadschap van Delfland, Zuiderzeeland, Rijn en IJssel, Vechtstromen, Scheldestromen, Aa en Maas, de Dommel, and Rivierenland. We gratefully acknowledge Frits Gillissen, John Beijer, Marlies Vollebregt and Guus Frissen for their technical assistance; Patrick Bauerlein and Claudia Kooijman (KWR Watercycle Research Institute) for their contribution to the characterization of the car tire TP; and Edwin Peeters for his advice on the statistical analysis.","Green Published, Other Gold",,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONAL REVIEW OF HYDROBIOLOGY,2021-04-13,WOS:000458900600004,6,1,"Miler, O; Czarnecka, M; Garcia, XF; Jager, A; Pusch, M",J,English,Across-shore differences in lake benthic invertebrate communities within reed stands (Phragmites australis (Cav.) Trin. ex Steud.),2018.0,Marine & Freshwater Biology,103,1434-2944,5-6,DEC,99,112,diversity; functional metrics; indicator taxa; organic matter; riverine lakes,"[Miler, Oliver; Garcia, Xavier-Francois; Jaeger, Anne; Pusch, Martin] Leibniz Inst Freshwater Ecol & Inland Fisheries I, Muggelseedamm 301, D-12587 Berlin, Germany; [Czarnecka, Magdalena] Nicolaus Copernicus Univ, Fac Biol & Environm Protect, Torun, Poland","The spatial distribution of benthic macroinvertebrates along reed transects was studied in lakes with minimal human disturbances to enable a deeper understanding of the functioning of reed macroinvertebrate communities and relations to biotic and abiotic environmental variables. The taxonomic and functional macroinvertebrate community composition significantly differed between outer margin, center, and shore locations. At shore locations, higher proportions of Gastropoda, Hydrachnidia and Coleoptera, mobile swimmers/skaters, predators, and shredders were found. However, outer margin locations were characterized by a higher proportion of sessile filter-feeding Bivalvia and mining Diptera. At the outer margins, also greater contributions of taxa preferring pelal habitats and r-strategists typical for more disturbed environments were observed. An indicator species analysis revealed Asellus aquaticus (Crustacea) and Scirtidae Gen sp. (Coleoptera) as significant indicator taxa for shore locations and Valvata piscinalis (Gastropoda), Tinodes sp. and Orthotrichia sp. (Trichoptera) as significant indicator taxa for outer margin locations. The taxonomic composition of macroinvertebrate communities was significantly related to higher water depth, oxygen content, and pH at outer margin locations. Shore locations were characterized by higher amounts of woody debris, leaf litter, and decaying plant material. In summary, the taxonomic and functional composition of macroinvertebrates varied strongly from shore to outer margin locations and could be related to spatial changes in hydrodynamical and food conditions along the transects.",WILEY,63,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,14.0,HL7EG,"Miler, Oliver; Czarnecka, Magdalena; Garcia, Xavier-Francois; Jaeger, Anne; Pusch, Martin",1.0,1.0,Marine & Freshwater Biology,INT REV HYDROBIOL,Int. Rev. Hydrobiol.,10.1002/iroh.201801955,"Miler, O (corresponding author), Leibniz Inst Freshwater Ecol & Inland Fisheries I, Muggelseedamm 301, D-12587 Berlin, Germany.",HABITAT STRUCTURAL COMPLEXITY; FUNCTIONAL DIVERSITY; LITTORAL MACROINVERTEBRATES; DREISSENA-POLYMORPHA; ASELLUS-AQUATICUS; LARGEMOUTH BASS; GAMMARUS-PULEX; LIFE-HISTORY; FISH; PREY,oliver.miler@web.de,"Czarnecka, Magdalena/0000-0002-4100-1937; ","Czarnecka, Magdalena/M-3706-2014; Pusch, Martin T/G-6458-2013",,1522-2632,Umweltbundesamt [FKZ 371224223]; UFOPlan 2012,"Umweltbundesamt, Grant number: FKZ 371224223; UFOPlan 2012",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGICAL INDICATORS,2021-04-13,WOS:000456907500004,9,1,"Tagliaferro, M; Goncalves, AMM; Bergman, M; Sobral, O; Graca, MAS",J,English,Assessment of metal exposure (uranium and copper) by the response of a set of integrated biomarkers in a stream shredder,2018.0,Biodiversity & Conservation; Environmental Sciences & Ecology,95,1470-160X,,DEC,991,1000,Metal exposure; Uranium; Copper; Sub-lethal effects; Oxidative stress biomarkers; Catalase activity; Na plus /K plus adenosine triphosphatase activity,"[Tagliaferro, Marina] Univ Nacl Lujan, Inst Ecol & Desarrollo Sustentable INEDES CONICET, Ruta 5 & 7, RA-6700 Buenos Aires, DF, Argentina; [Goncalves, Ana M. M.; Bergman, Melissa; Sobral, Olimpia; Graca, Manuel A. S.] Univ Coimbra, Dept Life Sci, MARE Marine & Environm Sci Ctr, P-3001456 Coimbra, Portugal; [Goncalves, Ana M. M.] Univ Aveiro, Dept Biol, P-3810193 Aveiro, Portugal; [Goncalves, Ana M. M.] Univ Aveiro, CESAM, P-3810193 Aveiro, Portugal","Environmental pollution with toxic trace metals is of great concern for the environment and for public health. Here we assess the response of the shredder caddisfly Calamoceras marsupus to sub-lethal exposures to copper and uranium. As endpoints we used growth, feeding and growth efficiency, and a set of enzyme biomarkers (oxidative stress: glutathione-S-transferase and catalase; respiration: lactate dehydrogenase; and the activities of acetylcholinesterase and Na+/K+-adenosine triphosphatase). We found that survival, growth, feeding and growth efficiency were not affected by any of the copper (0, 35 and 70 mu g L-1) or uranium (0, 25 and 50 mu g L-1) conditions. However, catalase activity increased with increased copper concentration, from 0.20 to 0.85 nmol min(-1) mg(-1) protein (mean +/- SE; p < 0.0001). Na+/K+ ATPase activity decreased with increased U concentration (from 0.16 +/- 0.01 to 0.11 +/- 0.01; mean +/- SE; p < 0.001). The activities of LDH, GST and AChE enzymes did not differ across treatments. We concluded that CAT and Na+/K+-ATPase were the most sensitive biomarkers for copper and uranium respectively, at concentrations below levels that would affect growth and feeding.",ELSEVIER,141,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,HJ1FO,"Tagliaferro, Marina; Goncalves, Ana M. M.; Bergman, Melissa; Sobral, Olimpia; Graca, Manuel A. S.",7.0,7.0,Biodiversity Conservation; Environmental Sciences,ECOL INDIC,Ecol. Indic.,10.1016/j.ecolind.2017.10.065,"Tagliaferro, M (corresponding author), Univ Nacl Lujan, Inst Ecol & Desarrollo Sustentable INEDES CONICET, Ruta 5 & 7, RA-6700 Buenos Aires, DF, Argentina.",TITANIUM-DIOXIDE NANOPARTICLES; LIPID-PEROXIDATION; DEPLETED URANIUM; CHIRONOMUS-DILUTUS; LYMNAEA-STAGNALIS; ASELLUS-AQUATICUS; OXIDATIVE STRESS; CHRONIC TOXICITY; HYALELLA-AZTECA; ORGANIC-MATTER,azulmarinita@gmail.com,"Sobral, Olimpia/0000-0002-2893-4783; Tagliaferro, Marina/0000-0002-8795-3802; Graca, Manuel/0000-0002-6470-8919","Sobral, Olimpia/AAB-4228-2020; Tagliaferro, Marina/M-6560-2015",,1872-7034,"Portuguese Foundation for Science and Technology (FCT)Portuguese Foundation for Science and Technology [UID/MARE/04292/2013]; CONICET Postdoctoral Fellowship; FCT - Human Potential Operational Programme (National Strategic Reference Framework 2007-2013), European Social Fund (EU) [SFRH/BPD/97210/2013]; program POPH/FSEEuropean Social Fund (ESF); CONICET Travel Grant","This study was supported by the Portuguese Foundation for Science and Technology (FCT) through the strategic project UID/MARE/04292/2013 granted to MARE. M. Tagliaferro was supported by a CONICET Postdoctoral Fellowship and a CONICET Travel Grant for postdoctoral researchers. A.M.M. Goncalves also thanks FCT for the financial support provided through the postdoctoral grant SFRH/BPD/97210/2013 co funded by the Human Potential Operational Programme (National Strategic Reference Framework 2007-2013), European Social Fund (EU), and the program POPH/FSE.",,,,,,2,,,,,,,,,,,,,,,,,,
Article,SCIENTIFIC REPORTS,2021-04-13,WOS:000449499500078,4,0,"Mojaddidi, H; Fernandez, FE; Erickson, PA; Protas, ME",J,English,Embryonic origin and genetic basis of cave associated phenotypes in the isopod crustacean Asellus aquaticus,2018.0,Science & Technology - Other Topics,8,2045-2322,,NOV 8,,,,"[Mojaddidi, Hafasa; Fernandez, Franco E.; Protas, Meredith E.] Dominican Univ Calif, 50 Acacia Ave, San Rafael, CA 94901 USA; [Erickson, Priscilla A.] Univ Virginia, 90 Geldard Dr, Charlottesville, VA 22903 USA","Characteristics common to animals living in subterranean environments include the reduction or absence of eyes, lessened pigmentation and enhanced sensory systems. How these characteristics have evolved is poorly understood for the majority of cave dwelling species. In order to understand the evolution of these changes, this study uses an invertebrate model system, the freshwater isopod crustacean, Asellus aquaticus, to examine whether adult differences between cave and surface dwelling individuals first appear during embryonic development. We hypothesized that antennal elaboration, as well as eye reduction and pigment loss, would be apparent during embryonic development. We found that differences in pigmentation, eye formation, and number of segments of antenna II were all present by the end of embryonic development. In addition, we found that cave and surface hatchlings do not significantly differ in the relative size of antenna II and the duration of embryonic development. To investigate whether the regions responsible for eye and pigment differences could be genetically linked to differences in article number, we genotyped F2 hybrids for the four previously mapped genomic regions associated with eye and pigment differences and phenotyped these F2 hybrids for antenna II article number. We found that the region previously known to be responsible for both presence versus absence of pigment and eye size also was significantly associated with article number. Future experiments will address whether pleiotropy and/or genetic linkage play a role in the evolution of cave characteristics in Asellus aquaticus.",NATURE PUBLISHING GROUP,64,"MACMILLAN BUILDING, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,12.0,GZ5WC,"Mojaddidi, Hafasa; Fernandez, Franco E.; Erickson, Priscilla A.; Protas, Meredith E.",2.0,2.0,Multidisciplinary Sciences,SCI REP-UK,Sci Rep,10.1038/s41598-018-34405-8,"Protas, ME (corresponding author), Dominican Univ Calif, 50 Acacia Ave, San Rafael, CA 94901 USA.",ADAPTIVE EVOLUTION; EYE DEGENERATION; EGG SIZE; POPULATIONS; EXPRESSION; ASTYANAX; ANIMALS; PIGMENTATION; SUPERGENES; MIMICRY,meredith.protas@dominican.edu,"Erickson, Priscilla/0000-0001-8420-995X",,30409988.0,,National Speleological Society; Cave Conservancy Foundation; National Speleological Foundation; Dominican University of California; Old Timer's Reunion Association,"We thank Simona Turk-Prevorcnik, Peter Trontelj, Crystal Chaw, and Markus Friedrich for critical reading of the manuscript and advice throughout the project. We thank Peter Trontelj, Teo Delic, and Gregor Bracko for collecting animals. Thanks to Cassandra Re, Sivan Brodo-Abo, and Tia Furness for technical assistance. Thanks to CD Genomics for genotyping services. Thanks to Maryam Ahmed for assistance with figures; to Nipam Patel and Heather Bruce for advice about working with the embryos; to Isaac Villalpando, John Wallace, and Monique Bennett for assistance with embryos; to Hillary Protas for statistics advice. This research was funded by the National Speleological Society, Old Timer's Reunion Association, Cave Conservancy Foundation, National Speleological Foundation and Dominican University of California.","DOAJ Gold, Green Published",,16589,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000446282600045,37,2,"Finnegan, MC; Emburey, S; Hommen, U; Baxter, LR; Hoekstra, PF; Hanson, ML; Thompson, H; Hamer, M",J,English,A freshwater mesocosm study into the effects of the neonicotinoid insecticide thiamethoxam at multiple trophic levels,2018.0,Environmental Sciences & Ecology,242,0269-7491,,NOV,1444,1457,Insecticide; Mesocosms; Neonicotinoid; Aquatic toxicity,"[Finnegan, Meaghean C.; Emburey, Simon; Thompson, Helen; Hamer, Mick] Syngenta Ltd, Jealotts Hill Int Res Ctr, Bracknell, Berks, England; [Hommen, Udo] Fraunhofer Inst Mol Biol & Appl Ecol IME, Div Appl Ecol, Aberg 1, D-57392 Schmallenberg, Germany; [Baxter, Leilan R.] Novatox Inc, Guelph, ON, Canada; [Hoekstra, Paul F.] Syngenta Canada Inc, Guelph, ON, Canada; [Hanson, Mark L.] Univ Manitoba, Dept Environm & Geog, Winnipeg, MB, Canada","Thiamethoxam is a neonicotinoid insecticide used widely in agriculture to control a broad spectrum of insect pests. To assess potential risks from this compound to non-target aquatic organisms, an outdoor mesocosm study was performed. Mesocosms (1300 L) were treated once with a formulated product with the active substance (a.s.) thiamethoxam at nominal concentrations of 1 (n = 3), 3 (n = 3), 10 (n 4), 30 (n = 4), and 100 (n = 2) mu g a.s./L, plus untreated controls (n = 4). Primary producers (phytoplankton), zooplankton, and macroinvertebrates were monitored for up to 93 days following treatment. Thiamethoxam was observed to have a water column dissipation half-life (DT50) of <= 1.6-5.2 days in the mesocosms. Community-based principal response curve analysis detected no treatment effects for phytoplankton, zooplankton, emergent insects, and macroinvertebrates, indicating a lack of direct and indirect effects. A number of statistically significant differences from controls were detected for individual phytoplankton and zooplankton species abundances, but these were not considered to be treatment-related due to their transient nature and lack of concentration-response. After application of 30 mu g a.s./L, slight temporary effects on Asellus aquaticus could not be excluded. At 100 mu g a.s./L, there was an effect with no clear recovery of Asellus observed, likely due to their inability to recolonize these isolated test systems. A statistically significant but transient reduction in the emergence of chironomids by day 23 at the 100 mu g a.s./L treatment was observed and possibly related to direct toxicity from thiamethoxam on larval stages. Therefore, a conservative study specific No Observed Ecological Adverse Effect Concentration (NOEAEC) is proposed to be 30 mu g a.s./L. Overall, based on current concentrations of thiamethoxam detected in North American surface waters (typically <0.4 mu g/L), there is low likelihood of direct or indirect effects from a pulsed exposure on primary producers, zooplankton, and macroinvertebrates, including insects, as monitored in this study. (C) 2018 Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,42,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,14.0,GV7DQ,"Finnegan, Meaghean C.; Emburey, Simon; Hommen, Udo; Baxter, Leilan R.; Hoekstra, Paul F.; Hanson, Mark L.; Thompson, Helen; Hamer, Mick",5.0,5.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/j.envpol.2018.07.096,"Thompson, H (corresponding author), Syngenta Ltd, Jealotts Hill Int Res Ctr, Bracknell, Berks, England.",CHRONIC TOXICITY; CHIRONOMUS-DILUTUS; PRIMARY PRODUCERS; SURFACE WATERS; DOSE LEVELS; PESTICIDES; EXPOSURE; INVERTEBRATES; CONTAMINANTS; ZOOPLANKTON,helen.thompson@syngenta.com,,,30142560.0,1873-6424,Syngenta LLC.,The work presented here was funded by Syngenta LLC. LRB and MLH were compensated for their assistance in assembling this manuscript. Thank you to the two anonymous reviewers for taking their time to review our manuscript and provide helpful comments that contributed to the improvement of this paper.,,,,,,B,,,,,,,,,,,,,,,,,,
Article,AQUATIC SCIENCES,2021-04-13,WOS:000444562500002,20,4,"Zhai, YJ; Brun, NR; Bundschuh, M; Schrama, M; Hin, E; Vijver, MG; Hunting, ER",J,English,Microbially-mediated indirect effects of silver nanoparticles on aquatic invertebrates,2018.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,80,1015-1621,4,OCT,,,Asellus aquaticus; Food web; Freshwater biofilms; Decomposition and consumption; Silver nanoparticles; Ecosystem functioning,"[Zhai, Yujia; Brun, Nadja R.; Schrama, Maarten; Hin, Eline; Vijver, Martina G.; Hunting, Ellard R.] Leiden Univ, Inst Environm Sci CML, POB 9518, NL-2300 RA Leiden, Netherlands; [Brun, Nadja R.; Hunting, Ellard R.] Woods Hole Oceanog Inst, Dept Biol, Woods Hole, MA 02543 USA; [Bundschuh, Mirco] Univ Koblenz Landau, Inst Environm Sci, Fortstr 7, D-76829 Landau, Germany; [Bundschuh, Mirco] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Lennart Hjelms Vag 9, S-75007 Uppsala, Sweden; [Hunting, Ellard R.] Univ Bristol, Sch Biol Sci, 24 Tyndall Ave, Bristol BS8 1TQ, Avon, England","Complex natural systems are affected by multiple anthropogenic stressors, and therefore indirect effects within food webs are increasingly investigated. In this context, dead organic matter (OM) or detritus provides a food source sustaining detrital food webs that recycle the retained energy through microbial decomposition and invertebrate consumption. In aquatic environments, poorly water-soluble contaminants, including nanoparticles (NPs), quickly adsorb onto OM potentially modifying OM-associated microbial communities. Since invertebrates often depend on microbial conditioning to enhance OM quality, adverse effects on OM-associated microbial communities could potentially affect invertebrate performances. Therefore, this study assessed the effect ofenvironmentally relevant concentrations of the model emerging contaminant, silver nanoparticles (AgNPs), on OM-associated microorganisms and subsequent indirect effects on growth of the invertebrate Asellus aquaticus. At low concentrations (0.8 ug/L), AgNPs inhibited activity and altered metabolic diversity of the OM-associated microbial community. This was observed to coincide with a negative effect on the growth of A. aquaticus due to antimicrobial properties, as a decreased growth was observed when offered AgNP-contaminated OM. When A. aquaticus were offered sterile OM in the absence of AgNPs, invertebrate growth was observed to be strongly retarded, illustrating the importance of microorganisms in the diet of this aquatic invertebrate. This outcome thus hints that environmentally relevant concentrations of AgNPs can indirectly affect the growth of aquatic invertebrates by affecting OM-associated microbial communities, and hence that microorganisms are an essential link in understanding bottom-up directed effects of chemical stressors in food webs.",SPRINGER BASEL AG,59,"PICASSOPLATZ 4, BASEL, 4052, SWITZERLAND",BASEL,7.0,GT5PS,"Zhai, Yujia; Brun, Nadja R.; Bundschuh, Mirco; Schrama, Maarten; Hin, Eline; Vijver, Martina G.; Hunting, Ellard R.",9.0,9.0,Environmental Sciences; Limnology; Marine & Freshwater Biology,AQUAT SCI,Aquat. Sci.,10.1007/s00027-018-0594-z,"Hunting, ER (corresponding author), Leiden Univ, Inst Environm Sci CML, POB 9518, NL-2300 RA Leiden, Netherlands.; Hunting, ER (corresponding author), Woods Hole Oceanog Inst, Dept Biol, Woods Hole, MA 02543 USA.; Hunting, ER (corresponding author), Univ Bristol, Sch Biol Sci, 24 Tyndall Ave, Bristol BS8 1TQ, Avon, England.",COPPER-OXIDE NANOPARTICLES; FUNCTIONAL DIVERSITY; ASELLUS-AQUATICUS; LEAF DECOMPOSITION; GAMMARUS-PULEX; LITTER QUALITY; ORGANIC-MATTER; TOXICITY; DETRITIVORE; COMMUNITIES,e.r.hunting@bristol.ac.uk,"Brun, Nadja/0000-0002-8028-3076; Bundschuh, Mirco/0000-0003-4876-220X; Hunting, Ellard/0000-0002-8794-3452","Brun, Nadja/O-2954-2016; Bundschuh, Mirco/H-4559-2014",,1420-9055,Chinese Scholarship Council (CSC)China Scholarship Council [201506510003]; NWO-VIDINetherlands Organization for Scientific Research (NWO) [864.13.010],The Chinese Scholarship Council (CSC) is gratefully acknowledged for its financial support to Yujia Zhai [201506510003]. Martina G. Vijver is funded by NWO-VIDI [project number 864.13.010].,"Green Published, Other Gold",,44,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,INTEGRATIVE AND COMPARATIVE BIOLOGY,2021-04-13,WOS:000451996200006,9,1,"Re, C; Fiser, Z; Perez, J; Tacdol, A; Trontelj, P; Protas, ME",J,English,Common Genetic Basis of Eye and Pigment Loss in Two Distinct Cave Populations of the Isopod Crustacean Asellus aquaticus,2018.0,Zoology,58,1540-7063,3,SEP,421,430,,"[Re, Cassandra; Perez, Justin; Tacdol, Allyson; Protas, Meredith E.] Dominican Univ Calif, 50 Acacia Ave, San Rafael, CA 94901 USA; [Fiser, Ziga; Trontelj, Peter] Univ Ljubljana, Biotech Fac, Dept Biol, SI-1000 Ljubljana, Slovenia","Repeated evolution of similar phenotypes is a widespread phenomenon found throughout the living world and it can proceed through the same or different genetic mechanisms. Cave animals with their convergent traits such as eye and pigment loss, as well as elongated appendages, are a striking example of the evolution of similar phenotypes. Yet, few cave species are amenable to genetic crossing and mapping techniques making it challenging to determine the genetic mechanisms causing their similar phenotypes. To address this limitation, we have been developing Asellus aquaticus, a freshwater isopod crustacean, as a genetic model. Many of its cave populations originate from separate colonization events and thus independently evolved their similar cave-related phenotypes which differ from the still existent ancestral-like surface populations. In our prior work, we identified genomic regions responsible for eye and pigment loss in a single cave population from Slovenia. In this study we examined another, independently evolved cave population, also from Slovenia, and asked whether the same or different genomic regions are responsible for eye and pigment loss in the two cave populations. We generated F2 and backcross hybrids with a surface population, genotyped them for the previously identified genomic regions, and performed a complementation test by crossing individuals from the two cave populations. We found out that the same genomic regions are responsible for eye and pigment loss and that at least one of the genes causing pigment loss is the same in both cave populations. Future studies will identify the actual genes and mutations, as well as examine additional cave populations to see if the same genes are commonly associated with eye and pigment loss in this species.",OXFORD UNIV PRESS INC,41,"JOURNALS DEPT, 2001 EVANS RD, CARY, NC 27513 USA",CARY,10.0,HC7QJ,"Re, Cassandra; Fiser, Ziga; Perez, Justin; Tacdol, Allyson; Trontelj, Peter; Protas, Meredith E.",5.0,5.0,Zoology,INTEGR COMP BIOL,Integr. Comp. Biol.,10.1093/icb/icy028,"Protas, ME (corresponding author), Dominican Univ Calif, 50 Acacia Ave, San Rafael, CA 94901 USA.",CONVERGENCE; EVOLUTION; ADAPTATION; MUTATIONS; DIVERSITY; ALBINISM; HEDGEHOG; ANIMALS; SURFACE; FISH,meredith.protas@dominican.edu,"Fiser, Ziga/0000-0003-4576-5173",,29790967.0,1557-7023,"Cave Conservancy Foundation; National Speleological Foundation; Old Timer's Reunion Cave Society; Slovenian Research AgencySlovenian Research Agency - Slovenia [P1-0184, N1-0069, 1000-12-0510]; National Speleological Society","This work was supported by the Cave Conservancy Foundation, National Speleological Foundation, National Speleological Society, Old Timer's Reunion Cave Society, and by the Slovenian Research Agency through the Research Core Funding P1-0184, research project N1-0069, and a Ph.D. grant (Contract No. 1000-12-0510) to Z.F.",Bronze,Symposium on Evolution in the Dark - Unifying Understanding of Eye Loss at the Annual Meeting of the Society-for-Integrative-and-Comparative-Biology,,"JAN 03-07, 2018","San Francisco, CA",,,Soc Integrat & Comparat Biol,,,,,,,,,,,,,,,,
Article; Proceedings Paper,INTEGRATIVE AND COMPARATIVE BIOLOGY,2021-04-13,WOS:000451996200009,10,2,"Perez-Moreno, JL; Balazs, G; Bracken-Grissom, HD",J,English,Transcriptomic Insights into the Loss of Vision in Molnar Janos Cave's Crustaceans,2018.0,Zoology,58,1540-7063,3,SEP,452,464,,"[Perez-Moreno, Jorge L.; Bracken-Grissom, Heather D.] Florida Int Univ Biscayne Bay Campus, Dept Biol Sci, North Miami, FL 33181 USA; [Balazs, Gergely] Eotvos Lorand Univ, Dept Systemat Zool & Ecol, H-1117 Budapest, Hungary","Animals that inhabit subterranean environments often undergo various distinct phenotypic modifications (referred to as ""troglomorphy"") as they transition to life in perpetual darkness. However, the molecular basis behind troglomorphy remains poorly understood, particularly in regards to the mechanisms involved in the reduction and/or loss of traits at the transcriptomic level. In this study, we investigate the transcriptional basis behind vision loss in populations of cave-dwelling crustaceans. We employ phylogenetic and transcriptomic methods on surface and cave-adapted populations of an emerging model species for biospeleology, the isopod Asellus aquaticus (Linnaeus, 1758), and the amphipod Niphargus hrabei S. Karaman, 1932. These two species show contrasting directionality in the surface-cave transition, which positions them as ideal study subjects. Asellus aquaticus is common in surface waters and is only occasionally found in caves, where its populations present different degrees of eye reduction and pigmentation. On the other hand, the eyeless N. hrabei has successfully colonized surface environments despite belonging to an almost exclusively cave-dwelling genus. By sequencing and assembling robust de novo transcriptomes we characterized differences in visual genes and pathways among surface and cave populations of the aforementioned species. Our results indicate that despite having reduced eyes, recent cave colonizer A. aquaticus is still capable of expressing functional visual opsins and major components of the phototransduction pathway within the cave. Niphargus hrabei, a species with an ancient cave origin, shows no clear indication of being capable of sight. However, the expression of putative functional visual opsins and other phototransduction genes was maintained, which suggests that this eyeless species might be capable of extraocular photoreception. With the present study, we aim to bring forth the Molnar Janos Cave system as a promising research avenue to improve our understanding of patterns of reduction and loss of vision in caves and other aphotic environments.",OXFORD UNIV PRESS INC,83,"JOURNALS DEPT, 2001 EVANS RD, CARY, NC 27513 USA",CARY,13.0,HC7QJ,"Perez-Moreno, Jorge L.; Balazs, Gergely; Bracken-Grissom, Heather D.",5.0,5.0,Zoology,INTEGR COMP BIOL,Integr. Comp. Biol.,10.1093/icb/icy071,"Perez-Moreno, JL (corresponding author), Florida Int Univ Biscayne Bay Campus, Dept Biol Sci, North Miami, FL 33181 USA.",ASELLUS-AQUATICUS CRUSTACEA; MOLECULAR CHARACTERIZATION; HYPOGEAN POPULATIONS; REGRESSIVE EVOLUTION; EXPRESSION PATTERNS; VISUAL PIGMENTS; OPSIN GENE; LIGHT; EYE; ADAPTATION,jpere645@fiu.edu,,,29931265.0,1557-7023,"Philip M. Smith Graduate Research Grant for Cave and Karst Research from the Cave Research Foundation; National Science Foundation's Doctoral Dissertation Improvement GrantNational Science Foundation (NSF) [1701835]; NSF's Division of Environmental Biology Bioluminescence and Vision grant [1556059]; Hungarian Ministry of Human Capacities [UNKP-17-3]; National Research, Development and Innovation Fund for International Cooperation [SNN 125627]; Crustacean Society Scholarship in Graduate Studies; Florida International University's Dissertation Year Fellowship","J.L.P.-M. was supported by the Philip M. Smith Graduate Research Grant for Cave and Karst Research from the Cave Research Foundation, The Crustacean Society Scholarship in Graduate Studies, Florida International University's Dissertation Year Fellowship, and the National Science Foundation's Doctoral Dissertation Improvement Grant (No. 1701835) awarded to J.L.P.-M. and H.D.B.-G. H.D.B.-G. was additionally supported by NSF's Division of Environmental Biology Bioluminescence and Vision grant (No. 1556059). G.B. was supported by the Hungarian Ministry of Human Capacities (No. UNKP-17-3) and by the National Research, Development and Innovation Fund for International Cooperation (No. SNN 125627).",Bronze,Symposium on Evolution in the Dark - Unifying Understanding of Eye Loss at the Annual Meeting of the Society-for-Integrative-and-Comparative-Biology,,"JAN 03-07, 2018","San Francisco, CA",,,Soc Integrat & Comparat Biol,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000432471900048,31,2,"Oliveira, PCD; Kraak, MHS; van der Geest, HG; Naranjo, S; Verdonschot, PFM",J,English,Sediment composition mediated land use effects on lowland streams ecosystems,2018.0,Environmental Sciences & Ecology,631-632,0048-9697,,AUG 1,459,468,Deposition zone; Runoff; C/N ratio; Macroinvertebrates; Sediment respiration; Food quality,"[Oliveira, Paula C. dos Reis; Kraak, Michiel H. S.; van der Geest, Harm G.; Naranjo, Sofia; Verdonschot, Piet F. M.] Univ Amsterdam, Inst Biodivers & Ecosyst Dynam, FAME, POB 94248, NL-1090 GE Amsterdam, Netherlands; [Verdonschot, Piet F. M.] Wageningen UR, Wageningen Environm Res, Freshwater Ecol Grp, POB 47, NL-6700 AA Wageningen, Netherlands","Despite the widely acknowledged connection between terrestrial and aquatic ecosystems, the contribution of runoff to the sediment composition in lowland stream deposition zones and the subsequent effects on benthic invertebrates remain poorly understood. The aim of this study was therefore to investigate the mechanisms by which runoff affects sediment composition and macroinvertebrates in deposition zones of lowland stream ecosystems. To this end, sediment from runoff and adjacent instream deposition zones from streams with different land use was chemically characterized and the biological effects were assessed at the species, community and ecosystem level. Runoff and deposition zone sediment composition as well as biological responses differed clearly between forest and agricultural streams. The stream deposition zone sediment C/N ratio reflected the respective runoff sediment composition. Deposition zones in the forest stream had a higher C/N ratio in comparison to the agricultural streams. Growth of Hyalella azteca and reproduction of Asellus aquaticus were higher on forest stream sediment, whereas chironomids and worms suffered less mortality on the agricultural sediments containing only natural food. The forest stream deposition zones showed higher values for indices indicative of biological integrity and had a lower sediment oxygen demand. We concluded that agricultural land use affects lowland stream ecosystem deposition zones at the species, community and ecosystem level via altered food quality (C/N ratio) and higher oxygen demand of the sediment. (C) 2018 Elsevier B.V. All rights reserved.",ELSEVIER,86,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,GG1UC,"Oliveira, Paula C. dos Reis; Kraak, Michiel H. S.; van der Geest, Harm G.; Naranjo, Sofia; Verdonschot, Piet F. M.",9.0,9.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2018.03.010,"Oliveira, PCD (corresponding author), Sci Pk 904,C4-207, NL-1098 XH Amsterdam, Netherlands.",PARTICULATE ORGANIC-MATTER; OXYGEN-DEMAND; WATER-QUALITY; RIVERINE LANDSCAPES; FINE SEDIMENT; NEW-ZEALAND; PHOSPHORUS; CARBON; METABOLISM; RESOURCES,p.c.dosreisoliveira@uva.nl,"dos Reis Oliveira, Paula/0000-0001-7451-3659",,29529434.0,1879-1026,"CNPq, BrazilNational Council for Scientific and Technological Development (CNPq) [200879/2014-6]","This work was supported by the CNPq, Brazil [grant number 200879/2014-6, 2014].",,,,,,,,,,,,,,,,,,,,,,,,
Article,CONSERVATION BIOLOGY,2021-04-13,WOS:000438200100014,15,1,"Jyvasjarvi, J; Virtanen, R; Ilmonen, J; Paasivirta, L; Muotka, T",J,English,Identifying taxonomic and functional surrogates for spring biodiversity conservation,2018.0,Biodiversity & Conservation; Environmental Sciences & Ecology,32,0888-8892,4,AUG,883,893,Asellus aquaticus; Bryum weigelii; complementarity; functional diversity; Macropelopia; Paratrichocladius skirwithensis; taxonomic diversity,"[Jyvasjarvi, Jussi; Virtanen, Risto; Muotka, Timo] Univ Oulu, Dept Ecol & Genet, POB 3000, FI-90014 Oulu, Finland; [Virtanen, Risto] UFZ Helmholtz Ctr Environm Res, Dept Physiol Div, Permoserstr 15, D-04318 Leipzig, Germany; [Virtanen, Risto] German Ctr Integrat Biodivers Res iDiv, Deutsch Pl 5e, D-04103 Leipzig, Germany; [Ilmonen, Jari] Metsahallitus, POB 94, FI-01301 Vantaa, Finland; [Paasivirta, Lauri] Ruuhikoskenkatu, 17 B 5, FI-20240 Salo, Finland; [Muotka, Timo] Univ Oulu, Finnish Environm Inst, Nat Environm Ctr, POB 413, FI-90014 Oulu, Finland","Surrogate approaches are widely used to estimate overall taxonomic diversity for conservation planning. Surrogate taxa are frequently selected based on rarity or charisma, whereas selection through statistical modeling has been applied rarely. We used boosted-regression-tree models (BRT) fitted to biological data from 165 springs to identify bryophyte and invertebrate surrogates for taxonomic and functional diversity of boreal springs. We focused on these 2 groups because they are well known and abundant in most boreal springs. The best indicators of taxonomic versus functional diversity differed. The bryophyte Bryum weigelii and the chironomid larva Paratrichocladius skirwithensis best indicated taxonomic diversity, whereas the isopod Asellus aquaticus and the chironomid Macropelopia spp. were the best surrogates of functional diversity. In a scoring algorithm for priority-site selection, taxonomic surrogates performed only slightly better than random selection for all spring-dwelling taxa, but they were very effective in representing spring specialists, providing a distinct improvement over random solutions. However, the surrogates for taxonomic diversity represented functional diversity poorly and vice versa. When combined with cross-taxon complementarity analyses, surrogate selection based on statistical modeling provides a promising approach for identifying groundwater-dependent ecosystems of special conservation value, a key requirement of the EU Water Framework Directive.",WILEY,58,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,GM5SE,"Jyvasjarvi, Jussi; Virtanen, Risto; Ilmonen, Jari; Paasivirta, Lauri; Muotka, Timo",4.0,3.0,Biodiversity Conservation; Ecology; Environmental Sciences,CONSERV BIOL,Conserv. Biol.,10.1111/cobi.13101,"Jyvasjarvi, J (corresponding author), Univ Oulu, Dept Ecol & Genet, POB 3000, FI-90014 Oulu, Finland.",BRYOPHYTE COMMUNITIES; TOP PREDATORS; DIVERSITY; UMBRELLA; SELECTION; TAXA; MACROINVERTEBRATE; VERTEBRATES; DISTURBANCE; SHORTCUTS,jussi.jyvasjarvi@oulu.fi,"Virtanen, Risto/0000-0002-8295-8217","Virtanen, Risto/G-1810-2010",29484703.0,1523-1739,"European CommissionEuropean CommissionEuropean Commission Joint Research Centre [226536]; Academy of FinlandAcademy of FinlandEuropean Commission [128377, 263601]",We thank J. Oksanen for providing help with the complementarity algorithms. We also appreciate the insightful comments of the handling editors and 3 anonymous reviewers on a previous draft of our article. This work was carried out as part of the GENESIS project on groundwater systems (http://www.thegenesisproject.eu) financed by the European Commission 7FP contract 226536. The study was also funded by the Academy of Finland (projects 128377 and 263601).,,,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC TOXICOLOGY,2021-04-13,WOS:000438180700015,30,2,"Van Ginneken, M; Blust, R; Bervoets, L",J,English,Combined effects of metal mixtures and predator stress on the freshwater isopod Asellus aquaticus,2018.0,Marine & Freshwater Biology; Toxicology,200,0166-445X,,JUL,148,157,Bioaccumulation; Free ion activity; Behavior; Feeding rate; Growth,"[Van Ginneken, M.; Blust, R.; Bervoets, L.] Univ Antwerp, Dept Biol Syst Physiol & Ecotoxicol Res SPHERE, Groenenborgerlaan 171, B-2020 Antwerp, Belgium","Biotic stressors have been demonstrated to change the toxicity of pollutants. While the combined effects of predator cues and pesticides are well documented, the interaction of predator stress with metals is a topic that has remained largely unexplored. In this laboratory experiment, the freshwater isopod Asellus aquaticus is exposed to predator cues and metal mixtures of Cd, Cu and Pb. We examined the effects on growth, respiration and, as behavioral parameters, feeding rate and activity. These were linked to the free ion activities (FIAs) in the water and the metal body concentrations. The findings reveal that Cu accumulation significantly influenced the growth rate, the feeding rate and the activity of isopods exposed to predator stress. Furthermore, we found a concentration-dependent interaction of the Cd + Pb mixtures on the feeding rate and a lower feeding rate for Cd and Pb predator exposed asellids. As several interactions were found between metals and predator stress, it demonstrates the importance of investigating how organisms and whole ecosystems respond to multiple stressors. A better understanding of these interactions will undoubtedly improve risk assessment and management.",ELSEVIER SCIENCE BV,47,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,GM5ME,"Van Ginneken, M.; Blust, R.; Bervoets, L.",6.0,6.0,Marine & Freshwater Biology; Toxicology,AQUAT TOXICOL,Aquat. Toxicol.,10.1016/j.aquatox.2018.04.021,"Van Ginneken, M (corresponding author), Univ Antwerp, Dept Biol Syst Physiol & Ecotoxicol Res SPHERE, Groenenborgerlaan 171, B-2020 Antwerp, Belgium.",TROUT ONCORHYNCHUS-MYKISS; DAPHNIA-MAGNA; PREY INTERACTIONS; GAMMARUS-PULEX; MULTIPLE STRESSORS; COPPER TOXICITY; BINARY-MIXTURES; LIFE-HISTORY; COHO SALMON; IN-SITU,marjolein.vanginneken@uantwerpen.be,,,29753203.0,1879-1514,Research Foundation Flanders (FWO)FWO,"We would like to thank dr. Valentine Mubiana for the metal analyses and Kristine De Schamphelaere, Hanne Hetjens and Bossissi Nkuba for their assistance with the field work. Marjolein Van Ginneken is funded by a doctoral grant from the Research Foundation Flanders (FWO). The authors state they have no conflicts of interest.",Green Accepted,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000436413600013,16,0,"Barmentlo, SH; Parmentier, EM; de Snoo, GR; Vijver, MG",J,English,Thiacloprid-induced toxicity influenced by nutrients: Evidence from in situ bioassays in experimental ditches,2018.0,Environmental Sciences & Ecology; Toxicology,37,0730-7268,7,JUL,1907,1915,Agrochemical; Crustacean; Fertilizer; Insect; Multiple stressors; Neonicotinoid,"[Barmentlo, S. Henrik; Parmentier, Elinor M.; de Snoo, Geert R.; Vijver, Martina G.] Leiden Univ, Inst Environm Sci, Leiden, Netherlands","Many studies show that neonicotinoid insecticides cause toxicity to aquatic invertebrates. Some studies report that insecticide toxicity may differ in combination with other agrochemicals under realistic field conditions. To explore such altered toxicity further, we aimed to determine the single and combined effects of environmentally relevant levels of the neonicotinoid thiacloprid and nutrients on different endpoints of 4 aquatic invertebrate species. Animals were exposed to these agrochemicals using a caged experiment within experimental ditches. We observed thiacloprid-induced toxicity for 2 crustaceans, Daphnia magna and Asellus aquaticus, and for 1 out of 2 tested insect species, Cloeon dipterum. We observed no toxic effects for Chironomus riparius at the time-weighted average test concentration of 0.51g thiacloprid/L. For D. magna, the observed toxicity, expressed as the lowest-observed-effect concentration (LOEC), on growth and reproduction was present at thiacloprid concentrations that were 2456-fold lower than laboratory-derived LOEC values. This shows that these species, when exposed under natural conditions, may exhibit neonicotinoid-induced toxic stress. Contrary to the low nutrient treatment, such toxicity was often not observed under nutrient-enriched conditions. This was likely attributable to the increased primary production that allowed for compensatory feeding. These findings warrant the inclusion of different feeding regimes in laboratory experiments to retrieve the best estimates of neonicotinoid-induced toxicity in the natural environment. Environ Toxicol Chem 2018;37:1907-1915. (c) 2018 SETAC",WILEY,33,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,GK7TV,"Barmentlo, S. Henrik; Parmentier, Elinor M.; de Snoo, Geert R.; Vijver, Martina G.",7.0,7.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.4142,"Barmentlo, SH (corresponding author), Leiden Univ, Inst Environm Sci, Leiden, Netherlands.",DAPHNIA-MAGNA; MAYFLY NYMPHS; COMMUNITIES; SUBLETHAL; RESPONSES; MIXTURES; QUALITY; IMPACT,S.H.Barmentlo@cml.leidenuniv.nl,"Barmentlo, Henrik/0000-0001-5279-3047; Vijver, Martina/0000-0003-2999-1605",,29600525.0,1552-8618,NWO-VIDINetherlands Organization for Scientific Research (NWO) [864.13.010],"We thank M. Beekman from the University of Amsterdam (Amsterdam, The Netherlands) for kindly providing the test species C. riparius. Furthermore, we thank R. Heutink, E. Baalbergen, J.I. Knetsch, and M. Schrama for their assistance with the experimental work. We also thank 2 anonymous reviewers for their valuable suggestions. S.H. Barmentlo and M.G. Vijver were funded by NWO-VIDI 864.13.010 granted to M. G. Vijver.",,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF INVERTEBRATE PATHOLOGY,2021-04-13,WOS:000441481400006,6,2,"Bojko, J; Dunn, AM; Stebbing, PD; van Aerle, R; Bacela-Spychalska, K; Bean, TP; Urrutia, A; Stentiford, GD",J,English,'Candidatus Aquirickettsiella gammari' (Gammaproteobacteria: Legionellales: Coxiellaceae): A bacterial pathogen of the freshwater crustacean Gammarus fossarum (Malacostraca: Arnphipoda),2018.0,Zoology,156,0022-2011,,JUL,41,53,Rickettsiella; Gammaridae; Coxiellaceae; Metagenomics; Taxonomy; Biocontrol,"[Bojko, Jamie; Dunn, Alison M.] Univ Leeds, Fac Biol Sci, Leeds LS2 9JT, W Yorkshire, England; [Bojko, Jamie; van Aerle, Ronny; Bean, Tim P.; Urrutia, Ander; Stentiford, Grant D.] Cefas, Weymouth Lab, Pathol & Microbial Systemat Theme, Weymouth DT4 8UB, Dorset, England; [Stebbing, Paul D.] Cefas, Weymouth Lab, Epidemiol & Risk Team, Weymouth DT4 8UB, Dorset, England; [van Aerle, Ronny; Bean, Tim P.; Stentiford, Grant D.] Cefas, Weymouth Lab, European Union Reference Lab Crustacean Dis, Weymouth DT4 8UB, Dorset, England; [Bacela-Spychalska, Karolina] Univ Lodz, Dept Invertebrate Zool & Hydrobiol, Banacha 12-16, PL-90237 Lodz, Poland","Invasive and non-native species can pose risks to vulnerable ecosystems by co-introducing bacterial pathogens. Alternatively, co-introduced bacterial pathogens may regulate invasive population size and invasive traits. We describe a novel candidate genus and species of bacteria ('Candidatus Aquirickettsiella gammari') found to infect Gammarus fossarum, from its native range in Poland. The bacterium develops intracellularly within the haemocytes and cells of the musculature, hepatopancreas, connective tissues, nervous system and gonad of the host. The developmental cycle of 'Candidatus Aquirickettsiella gammari' includes an elementary body (496.73 nm +/- 37.56 nm in length, and 176.89 nm +/- 36.29 nm in width), an elliptical, condensed spherical stage (737.61 nm +/- 44.51 nm in length and 300.07 nm +/- 44.02 nm in width), a divisional stage, and a spherical initial body (1397.59 nm +/- 21.26 nm in diameter). We provide a partial genome for 'Candidata Aquirickettsiella gammari', which clades phylogenetically alongside environmental 16S rRNA sequences from aquatic habitats, and bacterial symbionts from aquatic isopods (Asellus aquaticus), grouping separately from the Rickettsiella, a genus that includes bacterial pathogens of terrestrial insects and isopods. Increased understanding of the diversity of symbionts carried by G. fossarum identifies those that might regulate host population size, or those that could pose a risk to native species in the invasive range. Identification of 'Candidatus Aquirickettsiella gammari' and its potential for adaptation as a biological control agent is explored.",ACADEMIC PRESS INC ELSEVIER SCIENCE,77,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,13.0,GQ2JN,"Bojko, Jamie; Dunn, Alison M.; Stebbing, Paul D.; van Aerle, Ronny; Bacela-Spychalska, Karolina; Bean, Tim P.; Urrutia, Ander; Stentiford, Grant D.",9.0,9.0,Zoology,J INVERTEBR PATHOL,J. Invertebr. Pathol.,10.1016/j.jip.2018.07.010,"Stentiford, GD (corresponding author), Cefas, Weymouth Lab, Pathol & Microbial Systemat Theme, Weymouth DT4 8UB, Dorset, England.",ELECTRON-MICROSCOPIC CHARACTERIZATION; SEQUENCE-ANALYSIS MLSA; DIKEROGAMMARUS-VILLOSUS; RICKETTSIELLA BACTERIA; TAXONOMIC POSITION; CRASSOSTREA-GIGAS; GENOME SEQUENCE; AMPHIPOD; ORGANISM; DISEASE,grant.stentiford@Cefas.co.uk,"Bacela-Spychalska, Karolina/0000-0003-4498-5107; Bojko, Jamie/0000-0001-5972-0844; Dunn, Alison/0000-0002-4855-1077; Bean, Tim/0000-0002-2544-9918","Bacela-Spychalska, Karolina/E-4234-2015; Bean, Tim/H-6792-2014",30017949.0,1096-0805,"NERCUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [1368300]; Cefas [1368300, DP227x, NE/G015201/1]; AlienChallenge [TD1209]; UK Department for Environment, Food and Rural Affairs (Defra)Department for Environment, Food & Rural Affairs (DEFRA) [FB002]; European UnionEuropean Commission [C6928]; Cefas","The authors would like to thank NERC (#:1368300) and Cefas (CASE award #DP227x) for PhD funding to JB, AMD, PDS and GDS (#:1368300) and grant funding to AMD (Grant: NE/G015201/1); AlienChallenge TD1209 (eCOST) funding for an STSM to allow JB to visit Poland and work with KBS; UK Department for Environment, Food and Rural Affairs (Defra) (#FB002) and European Union (C6928) funding to GDS, and Cefas Seedcorn funding for metagenomic analysis support (special thanks to Ioanna Katsiadaki and Lisa Sivyer). Thanks to Michal Grabowski and Michal Rachalewski for their contribution to animal collection, Stuart Ross and Kelly Bateman for their advice on electron microscopy, and Kuttichantran Subramaniam for bioinformatics and assembly advice.","Green Published, Other Gold",,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THE ROYAL SOCIETY INTERFACE,2021-04-13,WOS:000440140600007,7,0,"Zhang, JF; Papanikolaou, NE; Kypraios, T; Drovandi, CC",J,English,Optimal experimental design for predator-prey functional response experiments,2018.0,Science & Technology - Other Topics,15,1742-5689,144,JUL,,,D-optimality; exchange algorithm; Fisher information; functional response; optimal design; robust design,"[Zhang, Jeff F.; Drovandi, Christopher C.] Queensland Univ Technol, Sch Math Sci, Brisbane, Qld, Australia; [Drovandi, Christopher C.] Queensland Univ Technol, Australian Ctr Excellence Math & Stat Frontiers A, Brisbane, Qld, Australia; [Papanikolaou, Nikos E.] Greek Minist Rural Dev & Food, Directorate Plant Protect, Athens, Greece; [Papanikolaou, Nikos E.] Agr Univ Athens, Lab Agr Zool & Entomol, Athens, Greece; [Papanikolaou, Nikos E.] Benaki Phytopathol Inst, Athens, Greece; [Kypraios, Theodore] Univ Nottingham, Sch Math Sci, Nottingham, England","Functional response models are important in understanding predator-prey interactions. The development of functional response methodology has progressed from mechanistic models to more statistically motivated models that can account for variance and the over-dispersion commonly seen in the datasets collected from functional response experiments. However, little information seems to be available for those wishing to prepare optimal parameter estimation designs for functional response experiments. It is worth noting that optimally designed experiments may require smaller sample sizes to achieve the same statistical outcomes as non-optimally designed experiments. In this paper, we develop a model-based approach to optimal experimental design for functional response experiments in the presence of parameter uncertainty (also known as a robust optimal design approach). Further, we develop and compare new utility functions which better focus on the statistical efficiency of the designs; these utilities are generally applicable for robust optimal design in other applications (not just in functional response). The methods are illustrated using a beta-binomial functional response model for two published datasets: an experiment involving the freshwater predator Notonecta glauca (an aquatic insect) preying on Asellus aquaticus (a small crustacean), and another experiment involving a ladybird beetle (Propylea quatuordecimpunctata L.) preying on the black bean aphid (Aphis fabae Scopoli). As a by-product, we also derive necessary quantities to perform optimal design for beta-binomial regression models, which may be useful in other applications.",ROYAL SOC,28,"6-9 CARLTON HOUSE TERRACE, LONDON SW1Y 5AG, ENGLAND",LONDON,13.0,GO6HN,"Zhang, Jeff F.; Papanikolaou, Nikos E.; Kypraios, Theodore; Drovandi, Christopher C.",6.0,6.0,Multidisciplinary Sciences,J R SOC INTERFACE,J. R. Soc. Interface,10.1098/rsif.2018.0186,"Zhang, JF (corresponding author), Queensland Univ Technol, Sch Math Sci, Brisbane, Qld, Australia.",BAYESIAN EXPERIMENTAL-DESIGN; GENERALIZED LINEAR-MODELS; UNCERTAINTY; ROBUST,j.f.zhang21@gmail.com,"Kypraios, Theodore/0000-0002-6190-4762; Drovandi, Christopher/0000-0001-9222-8763","Drovandi, Christopher/J-1051-2012",30021925.0,1742-5662,Australian Research CouncilAustralian Research Council [DE160100741]; Foundation for Education and European Culture,C.C.D. was supported by an Australian Research Council's Discovery Early Career Researcher Award funding scheme (DE160100741). N.E.P. acknowledges financial support from the 'Foundation for Education and European Culture' under a postdoctoral research grant (2016-2018).,"Green Accepted, Green Published, Bronze",,20180186,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000432462000002,18,2,"Fuller, N; Ford, AT; Nagorskaya, LL; Gudkov, DI; Smith, JT",J,English,Reproduction in the freshwater crustacean Asellus aquaticus along a gradient of radionuclide contamination at Chernobyl,2018.0,Environmental Sciences & Ecology,628-629,0048-9697,,JUL 1,11,17,Chernobyl; Crustacean; Fecundity; Radiation,"[Fuller, Neil; Ford, Alex T.] Univ Portsmouth, Inst Marine Sci, Sch Biol Sci, Ferry Rd, Portsmouth PO4 9LY, Hants, England; [Smith, Jim T.] Univ Portsmouth, Sch Earth & Environm Sci, Burnaby Bldg,Burnaby Rd, Portsmouth PO1 3QL, Hants, England; [Gudkov, Dmitri I.] Inst Hydrobiol, Dept Freshwater Radioecol, Geroyev Stalingrada Ave 12, UA-04210 Kiev, Ukraine; [Nagorskaya, Liubov L.] Natl Acad Sci Belarus, Appl Sci Ctr Bioresources, 27 Acad Skaya Str, Minsk 220072, BELARUS","Nuclear accidents such as Chernobyl and Fukushima have led to contamination of the environment that will persist for many years. The consequences of chronic low-dose radiation exposure for non-human organisms inhabiting contaminated environments remain unclear. In radioecology, crustaceans are important model organisms for the development of environmental radioprotection. Previous laboratory studies have demonstrated deleterious effects of radiation exposure on crustacean reproduction. However, no studies have documented the effects of chronic radiation exposure on the reproduction of natural crustacean populations. Based on data from laboratory exposures, we hypothesised that populations of the freshwater isopod Asellus aquaticus exposed to radiation for thirty years at Chernobyl would display reduced reproductive output and altered timing of reproduction. To test this hypothesis, A. aquaticus was collected from six lakes at Chernobyl over two years with total dose rates ranging from 0.06-27.1 mu Gy/h. No significant differences in the fecundity, mass of broods or proportion of reproducing female A. aquaticus were recorded. Significant differences in the body mass of gravid females were recorded suggesting different timings of reproduction, however this was not related to radiation contamination. No significant effect of a range of environmental parameters on A. aquaticus reproduction was recorded. Our data suggests current dose rates at Chernobyl are not causing discernible effects on the reproductive output of A. aquatints. This study is the first to assess the effects of chronic low-dose radiation exposure on the reproductive output of an aquatic invertebrate at Chernobyl. These findings are consistent with proposed radiological protection benchmarks for the maintenance of wildlife populations and will assist in management of environments impacted by radiation. (C) 2018 The Authors. Published by Elsevier B.V.",ELSEVIER,58,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,7.0,GG1QP,"Fuller, Neil; Ford, Alex T.; Nagorskaya, Liubov L.; Gudkov, Dmitri I.; Smith, Jim T.",16.0,15.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2018.01.309,"Smith, JT (corresponding author), Univ Portsmouth, Sch Earth & Environm Sci, Burnaby Bldg,Burnaby Rd, Portsmouth PO1 3QL, Hants, England.",INTERNAL ALPHA-IRRADIATION; LIFE-HISTORY; IONIZING-RADIATION; CHRONIC EXPOSURE; DAPHNIA-MAGNA; GROWTH; POPULATIONS; ABUNDANCE; ENVIRONMENT; ADAPTATION,jim.smith@port.ac.uk,"Smith, Jim T/0000-0002-0808-2739; Ford, Alex/0000-0001-5202-546X; Gudkov, Dmitri/0000-0002-5304-7414; Fuller, Neil/0000-0001-9486-6654","Smith, Jim T/G-7716-2011; Ford, Alex/C-3522-2008; Gudkov, Dmitri/D-1111-2017",29427871.0,1879-1026,Natural Environment Research Council (NERC)UK Research & Innovation (UKRI)Natural Environment Research Council (NERC); Environment Agency and Radioactive Waste Management Ltd.; NERCUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/L000393/1],"This work was completed as part of the TREE (Transfer-Exposure-Effects) consortium under the RATE programme (Radioactivity and the Environment), funded by the Natural Environment Research Council (NERC), The Environment Agency and Radioactive Waste Management Ltd. N.F was supported by a NERC grant (NE/L000393/1) awarded to A.T.F and J.T.S.","Other Gold, Green Published",,,,,,,,,,,,,,,,,,,,,,,
Article,FUNDAMENTAL AND APPLIED LIMNOLOGY,2021-04-13,WOS:000437048300007,17,1,"Zidar, P; Skufca, D; Prevorcnik, S; Kalcikova, G; Kokalj, AJ",J,English,"Energy reserves in the water louse Asellus aquaticus (Isopoda, Crustacea) from surface and cave populations: seasonal and spatial dynamics",2018.0,Marine & Freshwater Biology,191,1863-9135,3,JUN,253,265,water lice; lipids; carbohydrates; proteins; water quality; biomonitoring,"[Zidar, Primoz; Skufca, David; Prevorcnik, Simona; Kokalj, Anita Jemec] Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, Ljubljana 1000, Slovenia; [Kalcikova, Gabriela] Univ Ljubljana, Fac Chem & Chem Technol, Vecna Pot 113, Ljubljana 1000, Slovenia","The depletion of energy reserves in animals has already been recognized as a useful indicator of environmental pollution with potentially high ecological significance. However, apart from being affected by pollution, energy reserves in organisms also vary depending on natural abiotic and biotic factors. Seasonal and spatial dynamics of energy reserves in Asellus aquaticus (Isopoda, Crustacea) are presented here to determine the reference values of energy biomarkers. A. aquaticus are abundant and ubiquitous freshwater crustaceans and, as such, very suitable organisms for biomonitoring. Individuals were collected in spring, summer and autumn at two surface localities and one cave locality along the sinking river Pivka (Slovenia), and analysed for lipid, carbohydrate and protein content. The obtained values of energy reserves are discussed together with the physical and chemical parameters of water determined at the time of sampling. The surface-water populations in particular show a seasonal and spatial variability of energy reserves. Carbohydrates follow a distinct seasonal pattern of decreasing values toward autumn in all three populations. The spring protein content in both surface populations is much lower compared with the summer and autumn levels, while no distinct pattern was observed for lipids. The quantity of energy reserves in cave specimens does not differ much from the surface ones, but are less variable. Our data reveal that energy biomarkers differ between both season and locality, which should be taken into consideration in biomonitoring studies. We also suggest the use of only male specimens of comparable size where possible. To enable a valid comparison between different studies, the methods for the analysis of energy reserves should be harmonised.",E SCHWEIZERBARTSCHE VERLAGSBUCHHANDLUNG,90,"NAEGELE U OBERMILLER, SCIENCE PUBLISHERS, JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,13.0,GL3OY,"Zidar, Primoz; Skufca, David; Prevorcnik, Simona; Kalcikova, Gabriela; Kokalj, Anita Jemec",3.0,3.0,Limnology; Marine & Freshwater Biology,FUND APPL LIMNOL,Fundam. Appl. Limnol.,10.1127/fal/2018/1118,"Zidar, P (corresponding author), Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, Ljubljana 1000, Slovenia.",METABOLIC-RESPONSES; LIFE-HISTORY; ENVIRONMENTAL ASSESSMENT; SUBSEQUENT RECOVERY; RAPID-DETERMINATION; OXYGEN-CONSUMPTION; POLLUTION GRADIENT; GAMMARUS-FOSSARUM; PORCELLIO-SCABER; CHARRING METHOD,primoz.zidar@bf.uni-lj.si,"Jemec Kokalj, Anita/0000-0003-3143-4461; Skufca, David/0000-0002-1832-7840","Jemec Kokalj, Anita/F-9206-2019",,,"Slovenian Research AgencySlovenian Research Agency - Slovenia [P1-0184, P2-0191]","The authors thank the Slovenian Research Agency who financially supported this investigation through the research programs ""Integrative zoology and speleobiology (P1-0184)"" and ""Chemical engineering (P2-0191)"". The authors also thank Anja Slavic for laboratory help with the water analysis, Dr. Ziga Fiser for help with collecting the animals, and Dr. Suzana Zizek for critically commenting on the manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Article,PEERJ,2021-04-13,WOS:000429850500008,40,2,"Elbrecht, V; Vamos, EE; Steinke, D; Leese, F",J,English,Estimating intraspecific genetic diversity from community DNA metabarcoding data,2018.0,Science & Technology - Other Topics,6,2167-8359,,APR 9,,,Metabarcoding; High-throughput sequencing; Population genetics; Haplotyping; Ecosystem assessment; Exact sequence variant; CO1,"[Elbrecht, Vasco; Vamos, Ecaterina Edith; Leese, Florian] Univ Duisburg Essen, Aquat Ecosyst Res, Essen, North Rhine Wes, Germany; [Elbrecht, Vasco; Steinke, Dirk] Univ Guelph, Ctr Biodivers Genom, Guelph, ON, Canada; [Leese, Florian] Univ Duisburg Essen, Ctr Water & Environm Res ZWU Essen, Essen, North Rhine Wes, Germany","Background: DNA metabarcoding is used to generate species composition data for entire communities. However, sequencing errors in high-throughput sequencing instruments are fairly common, usually requiring reads to be clustered into operational taxonomic units (OTUs), losing information on intraspecific diversity in the process. While Cytochrome c oxidase subunit I (COI) Ihaplotype information is limited in resolving intraspecific diversity it is nevertheless often useful e.g. in a phylogeographic context, helping to formulate hypotheses on taxon distribution and dispersal. Methods: This study combines sequence denoising strategies, normally applied in microbial research, with additional abundance-based filtering to extract haplotype information from freshwater macroinvertebrate metabarcoding datasets. This novel approach was added to the R package JAMP"" and can be applied to COI amplicon datasets. We tested our haplotyping method by sequencing (i) a single-species mock community composed of 31 individuals with 15 different haplotypes spanning three orders of magnitude in biomass and (ii) 18 monitoring samples each amplified with four different primer sets and two PCR replicates. Results: We detected all 15 haplotypes of the single specimens in the mock community with relaxed filtering and denoising settings. However, up to 480 additional unexpected haplotypes remained in both replicates. Rigorous filtering removes most unexpected haplotypes, but also can discard expected haplotypes mainly from the small specimens. In the monitoring samples, the different primer sets detected 177-200 OTUs, each containing an average of 2.40-3.30 haplotypes per OTU. The derived intraspecific diversity data showed population structures that were consistent between replicates and similar between primer pairs but resolution depended on the primer length. A closer look at abundant taxa in the dataset revealed various population genetic patterns, e.g. the stonefly Taeniopteryx nebulosa and the caddisfly Hydropsyche pellucidula showed a distinct north south cline with respect to haplotype distribution, while the beetle Oulimnius tuberculatus and the isopod Asellus aquaticus displayed no clear population pattern but differed in genetic diversity. Discussion: We developed a strategy to infer intraspecific genetic diversityfrom bulk invertebrate metabarcoding data. It needs to be stressed that at this point this metabarcoding-informed haplotyping is not capable of capturing the full diversity present in such samples, due to variation in specimen size, primer bias and loss of sequence variants with low abundance. Nevertheless, for a high number of species intraspecific diversity was recovered, identifying potentially isolated populations and taxa for further more detailed phylogeographic investigation. While we are currently,' lacking large-scale metabarcoding datasets to fully take advantage f f our new approach, metabarcoding-informed haplotyping holds great promise or biomonitoring efforts that not only seek information about species diversity but also underlying genetic diversity.",PEERJ INC,49,"341-345 OLD ST, THIRD FLR, LONDON, EC1V 9LL, ENGLAND",LONDON,13.0,GC5TC,"Elbrecht, Vasco; Vamos, Ecaterina Edith; Steinke, Dirk; Leese, Florian",46.0,41.0,Multidisciplinary Sciences,PEERJ,PeerJ,10.7717/peerj.4644,"Elbrecht, V (corresponding author), Univ Duisburg Essen, Aquat Ecosyst Res, Essen, North Rhine Wes, Germany.; Elbrecht, V (corresponding author), Univ Guelph, Ctr Biodivers Genom, Guelph, ON, Canada.",IDENTIFICATION,elbrecht@uoguelph.ca,"Leese, Florian/0000-0002-5465-913X; Elbrecht, Vasco/0000-0003-4672-7099","Leese, Florian/D-4277-2012",29666773.0,,Canada First Research Excellence Fund for the Food from Thought initiative; Bodnarescu Foundation (Deutsches Stiftungszentrum),"This study is part of the European Cooperation in Science and Technology (COST) Action DNAqua-Net (CA15219). Dirk Steinke and Vasco Elbrecht were supported by the Canada First Research Excellence Fund for the Food from Thought initiative. Ecaterina Edith Vamos was supported by a grant of the Bodnarescu Foundation (Deutsches Stiftungszentrum). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.","DOAJ Gold, Green Published",,e4644,,,,,,,,,,,,,,,,,,,,,
Article,FUNCTIONAL ECOLOGY,2021-04-13,WOS:000429323400008,31,0,"Verberk, WCEP; Leuven, RSEW; van der Velde, G; Gabel, F",J,English,Thermal limits in native and alien freshwater peracarid Crustacea: The role of habitat use and oxygen limitation,2018.0,Environmental Sciences & Ecology,32,0269-8463,4,APR,926,936,amphipods; global warming; hypoxia; invasive species; isopods; pollution,"[Verberk, Wilco C. E. P.; Leuven, Rob S. E. W.; van der Velde, Gerard] Radboud Univ Nijmegen, IWWR, Dept Anim Ecol & Physiol, Nijmegen, Netherlands; [Leuven, Rob S. E. W.] Radboud Univ Nijmegen, IWWR, Dept Environm Sci, Nijmegen, Netherlands; [Leuven, Rob S. E. W.; van der Velde, Gerard] Netherlands Ctr Expertise Exot Species NEC E, Nijmegen, Netherlands; [van der Velde, Gerard] Naturalis Biodivers Ctr, Leiden, Netherlands; [Gabel, Friederike] Univ Munster, Inst Landscape Ecol, Munster, Germany","1. In order to predict which species can successfully cope with global warming and how other environmental stressors modulate their vulnerability to climate-related environmental factors, an understanding of the ecophysiology underpinning thermal limits is essential for both conservation biology and invasion biology. 2. Heat tolerance and the extent to which heat tolerance differed with oxygen availability were examined for four native and four alien freshwater peracarid crustacean species, with differences in habitat use across species. Three hypotheses were tested: (1) Heat and lack of oxygen synergistically reduce survival of species; (2) patterns in heat tolerance and the modulation thereof by oxygen differ between alien and native species and between species with different habitat use; (3) small animals can better tolerate heat than large animals, and this difference is more pronounced under hypoxia. 3. To assess heat tolerances under different oxygen levels, animal survival was monitored in experimental chambers in which the water temperature was ramped up (0.25 degrees C min(-1)). Heat tolerance (CTmax) was scored as the cessation of all pleopod movement, and heating trials were performed under hypoxia (5 kPa oxygen), normoxia (20 kPa) and hyperoxia (60 kPa). 4. Heat tolerance differed across species as did the extent by which heat tolerance was affected by oxygen conditions. Heat-tolerant species, for example, Asellus aquaticus and Crangonyx pseudogracilis, showed little response to oxygen conditions in their CTmax, whereas the CTmax of heat-sensitive species, for example, Dikerogammarus villosus and Gammarus fossarum, was more plastic, being increased by hyperoxia and reduced by hypoxia. 5. In contrast to other studies on crustaceans, alien species were not more heat-tolerant than native species. Instead, differences in heat tolerance were best explained by habitat use, with species from standing waters being heat tolerant and species from running waters being heat sensitive. In addition, larger animals displayed lower critical maximum temperature, but only under hypoxia. An analysis of data available in the literature on metabolic responses of the study species to temperature and oxygen conditions suggests that oxygen conformers and species whose oxygen demand rapidly increases with temperature (low activation energy) may be more heat sensitive. 6. The alien species D. villosus appeared most susceptible to hypoxia and heat stress. This may explain why this species is very successful in colonizing new areas in littoral zones with rocky substrate which are well aerated due to continuous wave action generated by passing ships or prevailing winds. This species is less capable of spreading to other waters which are poorly oxygenated and where C. pseudogracilis is the more likely dominant alien species.",WILEY,95,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,GB8JY,"Verberk, Wilco C. E. P.; Leuven, Rob S. E. W.; van der Velde, Gerard; Gabel, Friederike",22.0,22.0,Ecology,FUNCT ECOL,Funct. Ecol.,10.1111/1365-2435.13050,"Verberk, WCEP (corresponding author), Radboud Univ Nijmegen, IWWR, Dept Anim Ecol & Physiol, Nijmegen, Netherlands.",ASELLUS-AQUATICUS L; AMPHIPOD DIKEROGAMMARUS-VILLOSUS; CAPACITY-LIMITATION; POLAR GIGANTISM; TOLERANCE OCLTT; HEAT TOLERANCE; AEROBIC SCOPE; TEMPERATURE; RESPONSES; CONSUMPTION,wilco@aquaticecology.nl,"Leuven, Rob/0000-0001-5434-6005; Verberk, Wilco/0000-0002-0691-583X","van der Velde, Gerard/C-7776-2011; Leuven, Rob/A-3303-2012; Verberk, Wilco/E-6337-2011",29937614.0,1365-2435,European Research CouncilEuropean Research Council (ERC)European Commission [Marie-Curie Fellowship FP7-PEOPLE-2012-CIG],"European Research Council, Grant/Award Number: Marie-Curie Fellowship FP7-PEOPLE-2012-CIG","Green Published, Other Gold",,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,INTEGRATIVE AND COMPARATIVE BIOLOGY,2021-04-13,WOS:000429309602145,3,1,"Mojaddidi, H; Re, C; Perez, J; Tacdol, A; Fiser, Z; Trontelj, P; Protas, M",J,English,"Development and genetics of eye loss in the crustacean, Asellus aquaticus",2018.0,Zoology,58,1540-7063,,MAR,E157,E157,,"Dominican Univ Calif, San Rafael, CA USA; Univ Ljubljana, Ljubljana, Slovenia",,OXFORD UNIV PRESS INC,0,"JOURNALS DEPT, 2001 EVANS RD, CARY, NC 27513 USA",CARY,1.0,GB8FA,"Mojaddidi, H.; Re, C.; Perez, J.; Tacdol, A.; Fiser, Z.; Trontelj, P.; Protas, M.",0.0,0.0,Zoology,INTEGR COMP BIOL,Integr. Comp. Biol.,,,,meredith.protas@dominican.edu,,,,1557-7023,,,,Annual Meeting of the Society-for-Integrative-and-Comparative-Biology (SICB),,"JAN 03-07, 2018","San Francisco, CA",,1.0,Soc Integrat & Comparat Biol,,,,,,,,S3-6,,,,,,,,
Meeting Abstract,INTEGRATIVE AND COMPARATIVE BIOLOGY,2021-04-13,WOS:000429309604348,2,1,"Re, C; Perez, J; Tacdol, A; Protas, M",J,English,"The Genetics Behind Pigmentation and Eye Traits in Cave Populations of the Crustacean, Asellus aquaticus",2018.0,Zoology,58,1540-7063,,MAR,E401,E401,,"[Re, C.; Perez, J.; Tacdol, A.; Protas, M.] Dominican Univ Calif, San Rafael, CA USA",,OXFORD UNIV PRESS INC,0,"JOURNALS DEPT, 2001 EVANS RD, CARY, NC 27513 USA",CARY,1.0,GB8FA,"Re, C.; Perez, J.; Tacdol, A.; Protas, M.",0.0,0.0,Zoology,INTEGR COMP BIOL,Integr. Comp. Biol.,,,,cas-re@hotmail.com,,,,1557-7023,,,,Annual Meeting of the Society-for-Integrative-and-Comparative-Biology (SICB),,"JAN 03-07, 2018","San Francisco, CA",,1.0,Soc Integrat & Comparat Biol,,,,,,,,P1-113,,,,,,,,
Article,TURKISH JOURNAL OF FISHERIES AND AQUATIC SCIENCES,2021-04-13,WOS:000422952500002,5,0,"Baytasoglu, H; Gozler, AM",J,English,"Seasonal Changes of Malacostraca (Crustacea) Fauna of the Upper Coruh River Basin (Bayburt Province, Turkey) and its Ecological Characteristics",2018.0,Fisheries; Marine & Freshwater Biology,18,1303-2712,3,MAR,367,375,Malacostraca; water quality; upper Coruh basin; bioecology,"[Baytasoglu, Hazel; Gozler, Ahmet Mutlu] Recep Tayyip Erdogan Univ, Fac Fisheries, TR-53100 Rize, Turkey","A three samplings were carried out between September 2014 and August 2015, at twelve stations to determine the seasonal changes of species, relations with water quality parameters, and the Malacostraca fauna of the Upper Coruh River Basin. A hand net was used to collect the biological samples. Dissolved oxygen, temperature, pH, electrical conductivity, and total dissolved solids were measured using a portable water meter. Nitrite, ammonium, phosphate, and biochemical oxygen levels were also measured. Seven taxa were identified (five of them belong to Amphipoda, one to Isopoda, and one to Decapoda). Gammarus birsteini was the continuous, while G. kischineffensis and Asellus aquaticus are common. G. fossarum, G. balcanicus, Gammarus sp. and Potamon ibericum were rarely found. AF (Aydincik Foundation) and DF (Degirmencik Foundation) stations had first class water quality while other stations had second and third quality according to the Quality Criteria According to Classes of Inland Water Resources.",CENTRAL FISHERIES RESEARCH INST,45,"PO BOX 129, TRABZON, 61001, TURKEY",TRABZON,9.0,FT2EK,"Baytasoglu, Hazel; Gozler, Ahmet Mutlu",0.0,0.0,Fisheries; Marine & Freshwater Biology,TURK J FISH AQUAT SC,Turk. J. Fish. Quat. Sci.,10.4194/1303-2712-v18_3_02,"Baytasoglu, H (corresponding author), Recep Tayyip Erdogan Univ, Fac Fisheries, TR-53100 Rize, Turkey.",ADJACENT REGIONS; ASIA CRUSTACEA; NORTH-AFRICA; EUROPE; AMPHIPODA; SURVIVAL,hazel.gokbulut@erdogan.edu.tr,,,,2149-181X,project TUBITAKTurkiye Bilimsel ve Teknolojik Arastirma Kurumu (TUBITAK) [114Y805],"This work was supported by the project TUBITAK (114Y805). I would like to thank Michal Grabowski from the University of Lodz, Poland, who helped us to identify the species. This article is part of PhD thesis.",Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000426143300066,177,20,"Redondo-Hasselerharm, PE; Falahudin, D; Peeters, ETHM; Koelmans, AA",J,English,Microplastic Effect Thresholds for Freshwater Benthic Macroinvertebrates,2018.0,Engineering; Environmental Sciences & Ecology,52,0013-936X,4,FEB 20,2278,2286,,"[Redondo-Hasselerharm, Paula E.; Falahudin, Dede; Peeters, Edwin T. H. M.; Koelmans, Albert A.] Wageningen Univ & Res, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands; [Koelmans, Albert A.] Wageningen Marine Res, POB 68, NL-1970 AB Ijmuiden, Netherlands","Now that microplastics have been detected in lakes, rivers, and estuaries all over the globe, evaluating their effects on biota has become an urgent research priority. This is the first study that aims at determining the effect thresholds for a battery of six freshwater benthic macroinvertebrates with different species traits, using a wide range of microplastic concentrations. Standardized 28 days single species bioassays were performed under environmentally relevant exposure conditions using polystyrene microplastics (20-500 mu m) mixed with sediment at concentrations ranging from 0 to 40% sediment dry weight (dw). Microplastics caused no effects on the survival of Gammarus pulex, Hyalella azteca, Asellus aquaticus, Sphaerium corneum, and Tubifex spp. and no effects were found on the reproduction of Lumbriculus variegatus. No significant differences in growth were found for H. azteca, A. aquaticus, S. corneum, L. variegatus, and Tubifex spp. However, G. pulex showed a significant reduction in growth (EC10 = 1.07% sediment dw) and microplastic uptake was proportional with microplastic concentrations in sediment. These results indicate that although the risks of environmentally realistic concentrations of microplastics may be low, they still may affect the biodiversity and the functioning of aquatic communities which after all also depend on the sensitive species.",AMER CHEMICAL SOC,48,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,9.0,FX5TN,"Redondo-Hasselerharm, Paula E.; Falahudin, Dede; Peeters, Edwin T. H. M.; Koelmans, Albert A.",79.0,77.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/acs.est.7b05367,"Redondo-Hasselerharm, PE (corresponding author), Wageningen Univ & Res, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands.",ARENICOLA-MARINA L.; LUMBRICULUS-VARIEGATUS; HYALELLA-AZTECA; SEDIMENTS; INGESTION; EXPOSURE; AMMONIA; GROWTH; WORMS; BIOACCUMULATION,paula.redondohasselerharm@wur.nl,"Hasselerharm, Paula E. Redondo/0000-0002-8055-6847; Falahudin, Dede/0000-0001-9489-1665","Koelmans, Albert A./D-8603-2014; Hasselerharm, Paula E. Redondo/ABI-5436-2020; Falahudin, Dede/AAW-4429-2020",29337537.0,1520-5851,"Dutch Technology Foundation TTW [13940]; KWR; IMARES; NVVVA; RIKILT; Dutch Ministry of Infrastructure and the Environment; Dutch Ministry of Health, Welfare and Sport; Wageningen Food & Biobased Research; STOWA; RI -WA","This study was funded by the Dutch Technology Foundation TTW, project no. 13940. We acknowledge additional support from KWR; IMARES; NVVVA; RIKILT; the Dutch Ministry of Infrastructure and the Environment; the Dutch Ministry of Health, Welfare and Sport; Wageningen Food & Biobased Research; STOWA; RI -WA; and water boards Hoogheemraad-schap van Delfland, Zuiderzeeland, Rijn en Ijssel, Vechtstromen, Scheldestromen, Aa en Maas, de Dommel, and Rivierenland. We thank John Beijer and Jos Sewalt for their practical assistance and advice, Svenja Mintenig for her help in the development of the micro-FTIR analysis protocol and Lyke Stuurman and Dianneke van Wijk for performing the first pilot tests.","Green Published, Other Gold",,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000414922600143,41,1,"Zimmermann, S; Sures, B",J,English,"Lessons learned from studies with the freshwater mussel Dreissena polymorpha exposed to platinum, palladium and rhodium",2018.0,Environmental Sciences & Ecology,615,0048-9697,,FEB 15,1396,1405,Platinum group metals; Aquatic organisms; Bivalves; Bioaccumulation factor; Biological availability,"[Zimmermann, Sonja] Univ Duisburg Essen, Aquat Ecol, Univ Str 5, D-45141 Essen, Germany; Univ Duisburg Essen, Ctr Water & Environm Res, Univ Str 5, D-45141 Essen, Germany","The platinum group elements (PGE) platinum, palladium and rhodium gain increasing (eco-) toxicological interest due to their cumulative introduction into ecosystems. So far, most PGE exposure studies investigating biological availability, uptake and bioaccumulation of PGE as well as their effects on different toxicological endpoints were performed under non-standardized conditions which occasionally make an interpretation and comparison of the results difficult. Here we compare the results of different PGE exposure studies with zebra mussels (Dreissena polymorpha) showing influences due to the PGE source, the exposure medium, the exposure concentration and period as well as the test system. Problems associated to the performance and evaluation of these studies were identified and recommendations as well as needs for future studies are given. As nominal exposure concentrations often did not reflect real exposure conditions the reference for exposure concentration has to be chosen with caution, i.e. nominal versus quantified aqueous concentrations. The determination of bioaccumulation factors can be problematic when PGE concentrations in the exposure medium and in the test organism did not reach steady state even after several weeks of exposure. For future studies it would be advantageous to regularly correlating PGE bioaccumulation and biomarker responses to increase the knowledge on potential adverse effects of these metals, preferably using environmentally relevant PGE concentration scenarios. Many aspects discussed in the present study for zebra mussels and PGE can be transferred to other aquatic animals and other metals, respectively. (C) 2017 Elsevier B.V. All rights reserved.",ELSEVIER,42,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,FM3QQ,"Zimmermann, Sonja; Sures, Bernd",9.0,9.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2017.09.204,"Zimmermann, S (corresponding author), Univ Duisburg Essen, Aquat Ecol, Univ Str 5, D-45141 Essen, Germany.",ISOPOD ASELLUS-AQUATICUS; ZEBRA MUSSEL; INVERSE RELATIONSHIP; HUMIC SUBSTANCES; MYTILUS-EDULIS; GROUP ELEMENTS; BIOACCUMULATION; METALS; ACCUMULATION; SEDIMENTS,sonja.zimmermann@uni-due.de,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013",29751444.0,1879-1026,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,MOLECULAR PHYLOGENETICS AND EVOLUTION,2021-04-13,WOS:000423542500004,19,0,"Copilas-Ciocianu, D; Fiser, C; Borza, P; Petrusek, A",J,English,Is subterranean lifestyle reversible? Independent and recent large-scale dispersal into surface waters by two species of the groundwater amphipod genus Niphargus,2018.0,Biochemistry & Molecular Biology; Evolutionary Biology; Genetics & Heredity,119,1055-7903,,FEB,37,49,Dispersal; Ecological shift; Morphology; Phylogeography; Reversibility; Stygobitism,"[Copilas-Ciocianu, Denis; Petrusek, Adam] Charles Univ Prague, Dept Ecol, Fac Sci, Vinicna 7, CZ-12844 Prague, Czech Republic; [Fiser, Cene] Univ Ljubljana, Biotech Fac, Dept Biol, Vecna Pot 111, SI-1000 Ljubljana, Slovenia; [Borza, Peter] MTA Ctr Ecol Res, Danube Res Inst, Karolina Ut 29-31, H-1113 Budapest, Hungary","Groundwater is an extreme environment due to its absence of light, resource scarcity and highly fragmentary nature. Successful groundwater colonizers underwent major evolutionary changes and exhibit eye and pigment loss (troglomorphies). Consequently, their chances of dispersal and survival in the well-connected surface waters are greatly decreased, resulting in significant endemism. The West Palaearctic subterranean amphipod genus Niphargus comprises hundreds of narrowly endemic and troglomorphic species. Nevertheless, a few are known to occur in surface waters, two of which, N. hrabei and N. valachicus, have extremely large ranges that even exceed those of many surface-water amphipods. We tested if this pattern results from a secondary colonization of the relatively well-connected epigean environment, and whether this ecological shift promoted the large-scale dispersal of these species. Results showed that despite their ecological and zoogeographic similarities, N. hrabei and N. valachicus are not closely related and independently colonized surface waters. Their phylogeographic patterns indicate Middle to Late Pleistocene dispersal episodes throughout the Danube lowlands, and relatively modest yet significant genetic differentiation among populations. Clustering based on morphology revealed that the two species are phenotypically closer to each other than they are to most other epigean congeners. We presume that the ecological shift to surface environments was facilitated by their ability to thrive in hypoxic waters where rheophilic competitors from the family Gammaridae cannot survive. In conclusion, our results indicate that adaptation to groundwater is not a one-way evolutionary path and that troglomorphic species can occasionally recolonize and widely disperse in surface waters.",ACADEMIC PRESS INC ELSEVIER SCIENCE,141,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,13.0,FU0LN,"Copilas-Ciocianu, Denis; Fiser, Cene; Borza, Peter; Petrusek, Adam",18.0,17.0,Biochemistry & Molecular Biology; Evolutionary Biology; Genetics & Heredity,MOL PHYLOGENET EVOL,Mol. Phylogenet. Evol.,10.1016/j.ympev.2017.10.023,"Copilas-Ciocianu, D (corresponding author), Charles Univ Prague, Dept Ecol, Fac Sci, Vinicna 7, CZ-12844 Prague, Czech Republic.",MULTIPLE SEQUENCE ALIGNMENT; GAMMARUS-FOSSARUM; CRYPTIC DIVERSITY; POPULATION-GROWTH; BLACK-SEA; OXYGEN-CONSUMPTION; STATISTICAL-METHOD; ASELLUS-AQUATICUS; CRUSTACEA; EVOLUTION,copilas.denis@gmail.com,"Petrusek, Adam/0000-0001-5150-4370; Copilas-Ciocianu, Denis/0000-0002-6374-2365","Petrusek, Adam/A-3510-2008; Copilas-Ciocianu, Denis/F-1956-2011",29108937.0,1095-9513,Charles University Grant Agency [1398214]; Slovenian Research AgencySlovenian Research Agency - Slovenia [P1-0184],"We thank Murat Sezgin, Monika Hess and Wolfram Graf for providing material, Marius G. Berchi for his help during the fieldwork, Jose A. Jurado-Rivera and Damia Jaume for kindly providing Pseudoniphargus sequences, and two anonymous reviewers for their helpful suggestions. Andrew Meade kindly changed the code in Bayes Traits such that we could reconstruct ancestral states under the covarion model. This study was supported by the Charles University Grant Agency, project no. 1398214, and Slovenian Research Agency, program P1-0184.",Green Accepted,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000419638400001,31,0,"Folegot, S; Krause, S; Mons, R; Hannah, DM; Datry, T",J,English,Mesocosm experiments reveal the direction of groundwater-surface water exchange alters the hyporheic refuge capacity under warming scenarios,2018.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,63,0046-5070,2,FEB,165,177,climate change; hydrologic exchange; hyporheic zone; riverine biodiversity; thermal refuge,"[Folegot, Silvia; Krause, Stefan; Hannah, David M.] Univ Birmingham, Sch Geog Earth & Environm Sci, Birmingham, W Midlands, England; [Mons, Raphael; Datry, Thibault] IRSTEA, UR MALY, Villeurbanne, France","Climate change is expected to affect hydrologic and thermal regimes of river ecosystems. During dry periods when river flows decrease and water temperatures increase, the hyporheic zone (HZ) can provide a refuge to surface aquatic invertebrates and enhance the resilience capacity of riverine ecosystems. However, shifts from up- to downwelling flow conditions in the HZ could jeopardise this capacity. Using laboratory mesocosms and high-resolution fibre-optic distributed temperature sensing, we explored the combined effects of five different increased surface water temperature treatments (from 15 to 27 degrees C at 3 degrees C intervals) and the direction of water exchange on the ability of Gammarus pulex (Crustacea: Amphipoda: Gammaridae) to migrate into the HZ as a response to warming. We determined the survival rates of this ubiquitous hyporheic dweller and its rates of consumption of alder (Alnus glutinosa; Betulaceae) leaf litter in the HZ. Results showed that at increasing surface water temperature, leaf-litter breakdown was observed at a greater depth in the sediments under downwelling flow conditions, that is, G.pulex migrated deeper into the HZ compared with upwelling conditions, resulting in greater survival rates (6411 vs. 44 +/- 10%). However, under both upwelling and downwelling conditions, we found evidence for potential use of the hyporheic zone as a thermal refuge for G.pulex. Below sediment depths of 25cm, temperatures remained low (<22 degrees C) even when surface waters were at 27 degrees C, so temperatures deep in the hyporheic zone never exceeded critical thermal thresholds for G.pulex. This study provides evidence that alterations to the direction of groundwater-surface water exchange can alter the capacity of the HZ to provide a refuge for benthic invertebrates, thereby affecting the resilience of river communities to warming under climate change.",WILEY,100,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,13.0,FS2VW,"Folegot, Silvia; Krause, Stefan; Mons, Raphael; Hannah, David M.; Datry, Thibault",6.0,6.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.13049,"Folegot, S (corresponding author), Univ Birmingham, Sch Geog Earth & Environm Sci, Birmingham, W Midlands, England.",EXTREME CLIMATIC EVENTS; LONG-TERM CHANGES; GAMMARUS-PULEX; LEAF-LITTER; ASELLUS-AQUATICUS; COMMUNITY COMPOSITION; RISING TEMPERATURE; LOTIC DISTURBANCE; RHONE RIVER; STREAM,SXF356@student.bham.ac.uk,"Hannah, David M./0000-0003-1714-1240; Krause, Stefan/0000-0003-2521-2248","Hannah, David M./B-9221-2015",,1365-2427,"European Climate Knowledge and Innovation Community (EIT, Climate KIC) fellowship; Leverhulme Trust International Network GrantLeverhulme Trust [IN-2013-042]","European Climate Knowledge and Innovation Community (EIT, Climate KIC) fellowship ""A risk assessment framework for quantifying drought impacts on thermal and water quality extremes""; Leverhulme Trust International Network Grant, Grant/Award Number: IN-2013-042",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000414160500136,79,3,"Marmonier, P; Maazouzi, C; Baran, N; Blanchet, S; Ritter, A; Saplairoles, M; Dole-Olivier, MJ; Galassi, DMP; Eme, D; Doledec, S; Piscart, C",J,English,Ecology-based evaluation of groundwater ecosystems under intensive agriculture: A combination of community analysis and sentinel exposure,2018.0,Environmental Sciences & Ecology,613,0048-9697,,FEB 1,1353,1366,Groundwater ecosystems; Crustaceans; Stygobite; Sentinel organisms,"[Marmonier, Pierre; Maazouzi, Chafik; Dole-Olivier, Marie-Jose; Eme, David; Doledec, Sylvain; Piscart, Christophe] Univ Lyon 1, CNRS, LEHNA, UMR 5023, 43 Blvd 11 Novembre 1918, F-69622 Villeurbanne, France; [Baran, Nicole] BRGM French Geol Survey, 3 Ave Claude Guillemin,BP 6009, F-45060 Orleans 2, France; [Blanchet, Simon; Ritter, Amy] CNRS, Stn Ecol Expt, UMR 5321, F-09200 Moulis, France; [Blanchet, Simon] Univ Paul Sabatier, CNRS, ENFA, UMR5174,EDB,Lab Evolut & Diversite Biol, 118 Route Narbonne, F-31062 Toulouse 4, France; [Saplairoles, Maritxu] BRGM French Geol Survey, 3 Rue Marie Curie,BP 49, F-31527 Ramonville St Agne, France; [Galassi, Diana M. P.] Univ Aquila, Dept Life Hlth & Environm Sci, I-67100 Laquila, Italy; [Eme, David] Massey Univ, Inst Nat & Math Sci, New Zealand Inst Adv Studies, Albany Campus,Private Bag 102 904, Auckland 0745, New Zealand; [Piscart, Christophe] CNRS, UMR ECOBIO 6553, Campus Beaulieu,Batiment 14A,263 Ave Gen Leclerc, F-35042 Rennes, France","Ecological criteria are needed for a comprehensive evaluation of groundwater ecosystem health by including biological components with the physical and chemical properties that are already required by European directives. Two methodological approaches to assess the ecological status of groundwater ecosystems were combined in two alluvial plains (the Ariege and Hers Rivers, southwestern France) varying in agriculture intensity (from grassland to crop rotation including maize and sunflower, and to maize monoculture). In the first approach, the composition of invertebrate assemblages (only obligate-groundwater crustaceans, i.e. stygobionts) sampled in 28 wells differing in their land use contexts was analysed. Abundance, species richness, and assemblage composition significantly changed with agricultural land use or urbanization around the wells. In the second approach, we tested an in situ exposure of sentinel organisms to quantify their response to the environmental pressures. The epigean and native amphipod species Gammarus cf. orinos was used as the sentinel species. Amphipods (30 individuals in each of 10 wells) were exposed for one week to the in situ conditions at two seasons with contrasted concentrations of pollutants. The Ecophysiological Index (EPI) synthetizing the survival rates and energetic storage decreased in wells with low oxygen and high nitrate concentrations, but only during the highest contamination period. Atrazine-related compounds negatively impacted sentinel health whatever the season. The combination of these two approaches may have major applications for orientating groundwater ecosystem management. (C) 2017 Elsevier B.V. All rights reserved.",ELSEVIER,105,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,14.0,FL3XT,"Marmonier, Pierre; Maazouzi, Chafik; Baran, Nicole; Blanchet, Simon; Ritter, Amy; Saplairoles, Maritxu; Dole-Olivier, Marie-Jose; Galassi, Diana M. P.; Eme, David; Doledec, Sylvain; Piscart, Christophe",8.0,8.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2017.09.191,"Marmonier, P (corresponding author), Univ Lyon 1, CNRS, LEHNA, UMR 5023, 43 Blvd 11 Novembre 1918, F-69622 Villeurbanne, France.",GAMMARUS-FOSSARUM CRUSTACEA; SITU FEEDING ASSAY; IN-SITU; WATER-QUALITY; METABOLIC RESPONSES; ASELLUS-AQUATICUS; ALLUVIAL AQUIFER; UNSATURATED ZONE; SURFACE WATERS; SEVERE HYPOXIA,pierre.marmonier@univ-lyon1.fr,"Blanchet, Simon/0000-0002-3843-589X; piscart, christophe/0000-0002-4054-4542; BARAN, Nicole/0000-0002-1904-8560; Galassi, Diana M.P./0000-0002-6448-2710","Piscart, Christophe/AAD-8973-2019; Blanchet, Simon/AAA-5871-2019; piscart, christophe/K-4981-2019; BARAN, Nicole/AAM-4411-2020; Galassi, Diana M.P./N-1674-2015",28973847.0,1879-1026,Adour-Garonne Water Agency; European Union (FEDER)European Commission; BRGM(the French Geological Survey) [PDR11MPY01],"This work, carried out within the framework of the ELISE project, was funded by the Adour-Garonne Water Agency, the European Union (FEDER) and the BRGM(the French Geological Survey) (PDR11MPY01). We thank the Long Term Ecological Research Zone Atelier Bassin du Rhone (LTER ZABR) for fruitful interdisciplinary discussions over the past three years. This work has been partly done by a research unit (USR 2936) that is part of the ""Laboratoire d'Excellence (LABEX)"" entitled TULIP (ANR -10-LABX-41).",,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000415692400021,34,3,"Gonzalez-Bergonzoni, I; Kristensen, PB; Baattrup-Pedersen, A; Kristensen, EA; Alnoee, AB; Riis, T",J,English,Riparian forest modifies fuelling sources for stream food webs but not food-chain length in lowland streams of Denmark,2018.0,Marine & Freshwater Biology,805,0018-8158,1,JAN,291,310,Resource subsidy; Allochthonous detritus; Stable isotopes; Bayesian mixing models; Trophic position; Carbon subsidies,"[Gonzalez-Bergonzoni, I.; Baattrup-Pedersen, A.; Alnoee, A. B.] Aarhus Univ, Dept Biosci, Vejlsovej 25, DK-8600 Silkeborg, Denmark; [Gonzalez-Bergonzoni, I.] Inst Invest Biol Clemente Estable, Lab Etol Ecol & Evoluc, Montevideo, Uruguay; [Gonzalez-Bergonzoni, I.] Univ Republica, Fac Ciencias, Dept Ecol & Evoluc, Igua 4225, Montevideo 11400, Uruguay; [Kristensen, P. B.; Alnoee, A. B.; Riis, T.] Aarhus Univ, Dept Biosci, Ole Worms Alle,Bldg 1135, DK-8000 Aarhus, Denmark; [Kristensen, E. A.] EnviDan, Vejlsovej 23, DK-8600 Silkeborg, Denmark","Several studies have shown that the origin of carbon fuelling food webs in streams depends on riparian cover type. In forested stream sites allochthonous resources fuel food webs, whereas autochthonous resources support biomass in grassland (open-canopy) stream sites. However, some studies suggest that autochthonous carbon (of highest quality) is preferentially assimilated regardless of riparian cover and that the food-chain length (FCL) may be larger in grassland than in forested sites. We used stable isotopes of carbon and nitrogen in adjacent grassland and forested reaches to compare the contribution of autochthonous vs. allochthonous resources to the biomass of the whole macroinvertebrate assemblage and to the most abundant taxa. Moreover, we compared the FCL between forested and grassland sites by estimating the trophic position of brown trout, Salmo trutta. Autochthonous support to macroinvertebrate biomass was higher in grassland than in forested sites, often changing from a dominantly autochthonous to an allochthonous-generated biomass from grassland to forested. This held true for the whole macroinvertebrate assemblage and for specific species. FCL remained similar between reach types. Our study suggests that autochthonous resources are assimilated to a higher extent when their availability increases with canopy openness but allochthonous carbon sustain macroinvertebrate biomass in forested reaches.",SPRINGER,88,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,20.0,FN0TI,"Gonzalez-Bergonzoni, I.; Kristensen, P. B.; Baattrup-Pedersen, A.; Kristensen, E. A.; Alnoee, A. B.; Riis, T.",7.0,7.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-017-3313-1,"Gonzalez-Bergonzoni, I (corresponding author), Univ Republica, Fac Ciencias, Dept Ecol & Evoluc, Igua 4225, Montevideo 11400, Uruguay.",TROUT SALMO-TRUTTA; STABLE-ISOTOPE; TROPHIC STRUCTURE; ECOSYSTEM SIZE; BROWN TROUT; ASELLUS-AQUATICUS; FEEDING ECOLOGY; GAMMARUS-PULEX; ENERGY-FLOW; DELTA N-15,ivg@fcien.edu.uy,"Baattrup-Pedersen, Annette/0000-0002-3118-344X; Riis, Tenna/0000-0003-2501-4444","Baattrup-Pedersen, Annette/AAZ-9968-2020; Riis, Tenna/K-8346-2013; Riis, Tenna/AAE-4115-2020",,1573-5117,"Danish Natural Science Research CouncilDanish Natural Science Research Council [272-09-0012]; Carlsberg FoundationCarlsberg Foundation [2013_01_0258]; European UnionEuropean Commission [244121, 603378]; SNI (Agencia Nacional de Investigacion e Innovacion, ANII, Uruguay)","The authors are grateful for financial support from The Danish Natural Science Research Council (T. Riis Grant #272-09-0012), the Carlsberg Foundation (T. Riis Grant #2013_01_0258) and the European Union 7th Framework projects REFRESH under Contract No. 244121 and MARS under Contract No. 603378 (A. Baattrup-Pedersen). I. Gonzalez-Bergonzoni received support from SNI (Agencia Nacional de Investigacion e Innovacion, ANII, Uruguay).",,,,,,,,,,,,,,,,,,,,,,,,
Article,NANOTOXICOLOGY,2021-04-13,WOS:000423562000006,32,4,"Ekvall, MT; Hedberg, J; Wallinder, IO; Hansson, LA; Cedervall, T",J,English,Long-term effects of tungsten carbide (WC) nanoparticles in pelagic and benthic aquatic ecosystems,2018.0,Science & Technology - Other Topics; Toxicology,12,1743-5390,1,,79,89,Tungsten carbide; nanoparticles; Daphnia magna; Asellus aquaticus; nanotoxicology,"[Ekvall, Mikael T.; Cedervall, Tommy] Lund Univ, Dept Biochem & Struct Biol, Ctr Mol Prot Sci, Lund, Sweden; [Hedberg, Jonas; Wallinder, Inger Odnevall] KTH Royal Inst Technol, Div Surface & Corros Sci, Dept Chem, Stockholm, Sweden; [Ekvall, Mikael T.; Hansson, Lars-Anders] Lund Univ, Dept Biol, Aquat Ecol, Lund, Sweden","As the production and usage of nanomaterials are increasing so are the concerns related to the release of the material into nature. Tungsten carbide (WC) is widely used for its hard metal properties, although its use, in for instance tyre studs, may result in nano-sized particles ending up in nature. Here, we evaluate the potential long-term exposure effects of WC nanoparticles on a pelagic (Daphnia magna) and a benthic (Asellus aquaticus) organism. No long-term effects were observed in the benthic system with respect to population dynamics or ecosystem services. However, long-term exposure of D. magna resulted in increased time to first reproduction and, if the particles were resuspended, strong effects on survival and reproductive output. Hence, the considerable differences in acute vs. long-term exposure studies revealed here emphasize the need for more long-term studies if we are to understand the effects of nanoparticles in natural systems.",TAYLOR & FRANCIS LTD,30,"2-4 PARK SQUARE, MILTON PARK, ABINGDON OR14 4RN, OXON, ENGLAND",ABINGDON,11.0,FU0SZ,"Ekvall, Mikael T.; Hedberg, Jonas; Wallinder, Inger Odnevall; Hansson, Lars-Anders; Cedervall, Tommy",8.0,8.0,Nanoscience & Nanotechnology; Toxicology,NANOTOXICOLOGY,Nanotoxicology,10.1080/17435390.2017.1421274,"Ekvall, MT (corresponding author), Lund Univ, Dept Biochem & Struct Biol, Ctr Mol Prot Sci, Lund, Sweden.",DIEL VERTICAL MIGRATION; DAPHNIA-MAGNA; WATER; TOXICITY; PARTICLES; ZOOPLANKTON; ENVIRONMENT; SYSTEMS,mikael.ekvall@biochemistry.lu.se,"Odnevall Wallinder, Inger/0000-0003-2206-0082; /0000-0003-2100-8864; Hansson, Lars-Anders/0000-0002-3035-1317","Hedberg, Jonas/H-4226-2019; Wallinder, Inger Odnevall/Q-6875-2017",29334298.0,1743-5404,Mistra; Centre for Animal Movement Research (CAnMove) by a Linnaeus grant from the Swedish Research Council [349-2007-8690]; Lund University; Swedish Research CouncilSwedish Research CouncilEuropean Commission [2016-03552],"This work is performed within the framework of the Mistra Environmental Nanosafety program. Financial support from Mistra is greatly acknowledged. This work also received support from the Centre for Animal Movement Research (CAnMove) financed by a Linnaeus grant (349-2007-8690) from the Swedish Research Council and Lund University, and from the Swedish Research Council (VR to LAH; 2016-03552).",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000411897700084,45,0,"Wieczorek, MV; Bakanov, N; Bilancia, D; Szocs, E; Stehle, S; Bundschuh, M; Schulz, R",J,English,Structural and functional effects of a short-term pyrethroid pulse exposure on invertebrates in outdoor stream mesocosms,2018.0,Environmental Sciences & Ecology,610,0048-9697,,JAN 1,810,819,Functional endpoint; Aquatic guidance document; Community; Drift; Emergence,"[Wieczorek, Matthias V.; Bakanov, Nikita; Bilancia, Daniel; Szoecs, Eduard; Stehle, Sebastian; Schulz, Ralf] Univ Koblenz Landau, Inst Environm Sci, Fortstr 7, D-70829 Landau, Germany; [Bundschuh, Mirco] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Lennart Hjelms Vag 9, S-75007 Uppsala, Sweden","Agricultural land-use frequently results in short pulse exposures of insecticides such as pyrethroids in river systems, adversely affecting local invertebrate communities. In order to assess insecticide-induced effects, stream mesocosms are used within higher tier aquatic risk assessment. Regulatory acceptable concentrations (RACs) derived from those studies are often higher compared with tier 1 RACs. Hence, the present mesocosm study evaluates this aspect using a pulse exposure scenario typical for streams and the pyrethroid insecticide etofenprox. A 6-h pulse exposure with measured concentrations of 0.04, 0.3 and 5.3 mu g L-1 etofenprox was used. We considered abundance, drift and emergence of invertebrates as structural endpoints and the in situ-measured feeding rates of the isopod Asellus aquaticus as functional endpoint. Most prominent effects were visible at 5.3 mu g L-1 etofenprox which caused adverse effects of up to 100% at the individual and population level, as well as community structure alterations. Transient effects were observed for invertebrate drift (effect duration <= 24 h) and for the invertebrate community (9 days after exposure) at 0.3 mu g L-1 etofenprox. Furthermore, 0.04 mu g L-1 etofenprox affected the abundance of the mayfly Cloeon simile (decrease by 66%) and the feeding rate of A. aquaticus (decrease by 44%). Thus, implications for the functional endpoint leaf litter breakdown in heterotrophic ecosystems may be expected. A hypothetical RAC derived from the present mesocosm study (0.004 mu g L-1) is in line with the official tier 1 RAC (0.0044 mu g L-1) and thus shows that the present mesocosm study did not result in a higher RAC. (C) 2017 Elsevier B.V. All rights reserved.",ELSEVIER,61,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,FI3VI,"Wieczorek, Matthias V.; Bakanov, Nikita; Bilancia, Daniel; Szoecs, Eduard; Stehle, Sebastian; Bundschuh, Mirco; Schulz, Ralf",14.0,13.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2017.08.048,"Wieczorek, MV (corresponding author), Univ Koblenz Landau, Inst Environm Sci, Fortstr 7, D-70829 Landau, Germany.",MACROINVERTEBRATE COMMUNITY RESPONSE; PLANT-PROTECTION PRODUCTS; SURFACE WATERS; POND MESOCOSMS; HYDROCARBON MIXTURE; AQUATIC ORGANISMS; INSECTICIDE; PESTICIDES; MITIGATION; GAMMARUS,wieczorekm@uni-landau.de,"Bundschuh, Mirco/0000-0003-4876-220X; Schulz, Ralf/0000-0002-6348-6971; Schulz, Ralf/0000-0002-6348-6971; Bakanov, Nikita/0000-0002-2065-3485","Bundschuh, Mirco/H-4559-2014; Schulz, Ralf/G-3674-2011; Schulz, Ralf/ABI-4526-2020",28826119.0,1879-1026,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BMC EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000417601800002,20,1,"Perez-Moreno, JL; Balazs, G; Wilkins, B; Herczeg, G; Bracken-Grissom, HD",J,English,The role of isolation on contrasting phylogeographic patterns in two cave crustaceans,2017.0,Evolutionary Biology; Genetics & Heredity,17,1471-2148,,DEC 7,,,Adaptation; Biospeleology; Exaptation; Evolution; Phylogenetics; Subterranean; Troglomorphy,"[Perez-Moreno, Jorge L.; Wilkins, Blake; Bracken-Grissom, Heather D.] Florida Int Univ, Dept Biol Sci, Biscayne Bay Campus,3000 NE 151 St, North Miami, FL 33181 USA; [Balazs, Gergely; Herczeg, Gabor] Eotvos Lorand Univ, Dept Systemat Zool & Ecol, Pazmany Peter Setany 1-C, H-1117 Budapest, Hungary","Background: The underlying mechanisms and processes that prompt the colonisation of extreme environments, such as caves, constitute major research themes of evolutionary biology and biospeleology. The special adaptations required to survive in subterranean environments (low food availability, hypoxic waters, permanent darkness), and the geographical isolation of caves, nominate cave biodiversity as ideal subjects to answer long-standing questions concerning the interplay amongst adaptation, biogeography, and evolution. The present project aims to examine the phylogeographic patterns exhibited by two sympatric species of surface and cave-dwelling peracarid crustaceans (Asellus aquaticus and Niphargus hrabei), and in doing so elucidate the possible roles of isolation and exaptation in the colonisation and successful adaptation to the cave environment. Results: Specimens of both species were sampled from freshwater hypogean (cave) and epigean (surface) habitats in Hungary, and additional data from neighbouring countries were sourced from Genbank. Sequencing of mitochondrial and nuclear loci revealed, through haplotype network reconstruction (TCS) and phylogenetic inference, the genetic structure, phylogeographic patterns, and divergence-time estimates of A. aquaticus and N. hrabei surface and cave populations. Contrasting phylogeographic patterns were found between species, with A. aquaticus showing strong genetic differentiation between cave and surface populations and N. hrabei lacking any evidence of genetic structure mediated by the cave environment. Furthermore, N. hrabei populations show very low levels of genetic differentiation throughout their range, which suggests the possibility of recent expansion events over the last few thousand years. Conclusions: Isolation by cave environment, rather than distance, is likely to drive the genetic structuring observed between immediately adjacent cave and surface populations of A. aquaticus, a predominantly surface species with only moderate exaptations to subterranean life. For N. hrabei, in which populations exhibit a fully 'cave-adapted' (troglomorphic) phenotype, the lack of genetic structure suggests that subterranean environments do not pose a dispersal barrier for this surface-cave species.",BMC,77,"CAMPUS, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,13.0,FP4QP,"Perez-Moreno, Jorge L.; Balazs, Gergely; Wilkins, Blake; Herczeg, Gabor; Bracken-Grissom, Heather D.",10.0,10.0,Evolutionary Biology; Genetics & Heredity,BMC EVOL BIOL,BMC Evol. Biol.,10.1186/s12862-017-1094-9,"Perez-Moreno, JL (corresponding author), Florida Int Univ, Dept Biol Sci, Biscayne Bay Campus,3000 NE 151 St, North Miami, FL 33181 USA.",ASELLUS-AQUATICUS CRUSTACEA; NESTED CLADISTIC-ANALYSIS; HAPLOTYPE RECONSTRUCTION; GENETIC DIFFERENTIATION; DEMOGRAPHIC HISTORY; EVOLUTION; POPULATIONS; DIVERGENCE; COLEOPTERA; DIVERSITY,jpere645@fiu.edu,"Herczeg, Gabor/0000-0003-0441-342X","Herczeg, Gabor/AAF-9978-2020",29216829.0,,"Cave Research Foundation; Crustacean Society Scholarship in Graduate Studies; National Science FoundationNational Science Foundation (NSF) [1701835]; Hungarian Scientific Research FundOrszagos Tudomanyos Kutatasi Alapprogramok (OTKA) [K-105517]; Hungarian Ministry of Human Capacities [UNKP-17-3]; National Research, Development and Innovation Fund forinternational cooperation [SNN 125627]","J.P.M. was supported by the Philip M. Smith Graduate Research Grant for Cave and Karst Research from the Cave Research Foundation and The Crustacean Society Scholarship in Graduate Studies. This work was partially funded by the National Science Foundation (Doctoral Dissertation Improvement Grant #1701835) awarded to J.P.M and H.B.G. G.B. and G.H. were supported by the Hungarian Scientific Research Fund (#K-105517), the Hungarian Ministry of Human Capacities (#UNKP-17-3), and by the National Research, Development and Innovation Fund forinternational cooperation (#SNN 125627).","DOAJ Gold, Green Published",,247,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000414881000041,40,2,"De Castro-Catala, N; Munoz, I; Riera, JL; Ford, AT",J,English,Evidence of low dose effects of the antidepressant fluoxetine and the fungicide prochloraz on the behavior of the keystone freshwater invertebrate Gammarus pulex,2017.0,Environmental Sciences & Ecology,231,0269-7491,,DEC,406,414,Gammarus pulex; Direct effects; Indirect effects; Swimming velocity; Feeding rate,"[De Castro-Catala, N.; Munoz, I.; Riera, J. L.] Univ Barcelona, Dept Biol Evolut Ecol & Ciencies Ambientals, Av Diagonal 643, E-08028 Barcelona, Spain; [Ford, A. T.] Univ Portsmouth, Inst Marine Sci, Sch Biol Sci, Ferry Rd, Portsmouth P04 9LY, Hants, England","In recent years, behavior-related endpoints have been proposed as rapid and reliable ecotoxicological tools for risk assessment. In particular, the use of detritivores to test the toxicity of pollutants through feeding is currently becoming a well-known method. Experiments combining feeding with other behavioral endpoints can provide relevant information about direct and indirect toxicological effects of chemicals. We carried out a feeding experiment with the shredder Gammanis pulex in order to detect indirect (through leaf conditioning) and direct effects (through water exposure) of two pollutants at environmentally relevant concentrations: the fungicide prochloraz (6 mu g/L) and the antidepressant fluoxetine (100 ng/L). Prochloraz inhibited fungal growth on leaves, but it did not affect either the microbial breakdown rates or the C:N ratio of the leaves. Individuals of G. pulex that were fed with treated leaves presented lower consumption rates, not only those fed with prochloraz-treated leaves, but also those fed with fluoxetine-treated leaves, and those fed with the mixture-treated leaves. Mixed-effects models revealed that the swimming velocity of the amphipods after the experiment was modulated by the exposure to fluoxetine,and also by the exposure to prochloraz. We demonstrate that both the antidepressant and the fungicide may cause significant sublethal effects at low concentrations. The combination of behavioral endpoints together with the application of mixed models provided a useful tool for early detection of the effects of toxicity mixtures in freshwater ecosystems. (C) 2017 The Authors. Published by Elsevier Ltd.",ELSEVIER SCI LTD,116,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,9.0,FM3CD,"De Castro-Catala, N.; Munoz, I.; Riera, J. L.; Ford, A. T.",20.0,19.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/j.envpol.2017.07.088,"De Castro-Catala, N (corresponding author), Univ Barcelona, Dept Biol Evolut Ecol & Ciencies Ambientals, Av Diagonal 643, E-08028 Barcelona, Spain.",DECOMPOSER-DETRITIVORE SYSTEM; SEROTONIN REUPTAKE INHIBITORS; ENVIRONMENTALLY-RELEVANT CONCENTRATIONS; SEWAGE-TREATMENT PLANTS; RISK-ASSESSMENT; ASELLUS-AQUATICUS; SURFACE WATERS; DAPHNIA-MAGNA; PESTICIDE EXPOSURE; FEEDING ASSAY,ndecastro@ub.edu,"Ford, Alex/0000-0001-5202-546X; Munoz, Isabel/0000-0001-8110-9435; De Castro-Catala, Nuria/0000-0003-2351-6408","Ford, Alex/C-3522-2008; Munoz, Isabel/L-9414-2014",28822331.0,1873-6424,EU Seventh Programme through the Globaqua project [603629]; University of Barcelona; EU Interreg program - Peptide Research Network of Excellence (PeReNE),"The present work was funded by the EU Seventh Programme through the Globaqua project (grant agreement No 603629). We want to thank all those who assisted us in the field and helped us to obtain data: Neil Fuller, Meritxell Abril, Pablo Rodriguez, Patricia Rodrigo and Olga Jauregui (CCIT-UB). Nuria De Castro-Catala holds a predoctoral grant from the University of Barcelona. Alex Ford is supported by the EU Interreg program - Peptide Research Network of Excellence (PeReNE).","Green Published, Other Gold",,,,,1,,,,,,,,,,,,,,,,,,
Article,ZOOLOGICAL JOURNAL OF THE LINNEAN SOCIETY,2021-04-13,WOS:000416368700001,16,1,"Copilas-Ciocianu, D; Fiser, C; Borza, P; Balazs, G; Angyal, D; Petrusek, A",J,English,Low intraspecific genetic divergence and weak niche differentiation despite wide ranges and extensive sympatry in two epigean Niphargus species (Crustacea: Amphipoda),2017.0,Zoology,181,0024-4082,3,NOV,485,499,Co-occurrence; COI; dispersal; functional traits; ITS; Niphargus hrabei; N. valachicus; range size; taxonomy; zoogeography,"[Copilas-Ciocianu, Denis; Petrusek, Adam] Charles Univ Prague, Dept Ecol, Fac Sci, Vinicna 7, CR-12844 Prague, Czech Republic; [Fiser, Cene] Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, SI-1000 Ljubljana, Slovenia; [Borza, Peter] Danube Res Inst, MTA Ctr Ecol Res, Karolina Ut 29-31, H-1113 Budapest, Hungary; [Balazs, Gergely] Eotvos Lorand Univ, Dept Systemat Zool & Ecol, Pazmany Peter Setany 1-C, H-1117 Budapest, Hungary; [Angyal, Dorottya] Hungarian Nat Hist Museum, Dept Zool, Baross 13, H-1088 Budapest, Hungary","The amphipod genus Niphargus comprises hundreds of eyeless and depigmented species with narrow ranges in Western Palaearctic subterranean freshwaters. Niphargus hrabei and N. valachicus, two morphologically and ecologically similar species, are atypical due to their epigean lifestyle and large ranges. Given their wide and largely sympatric distributions, we explored their potential ecological niche overlap by comparing morphological functional traits, patterns of co-occurrence and habitat selection, and tested for cryptic diversity by examining variation of mitochondrial and nuclear markers in selected populations. Mitochondrial sequences and the presence of shared nuclear alleles among individuals collected along the study area did not support the existence of cryptic lineages; two other Niphargus species described in the past from Hungary seem to be their younger synonyms. Except for body size, both species were morphologically similar and seem only weakly differentiated ecologically. Though smaller in size, N. hrabei is ecologically more tolerant, while N. valachicus might be a superior competitor due to its larger size. Despite large-scale sympatry, co-occurrence of both species was rare. Their present distributions may result from a dynamic relationship between dispersal ability and competitive strength. These widespread and euryoecious Niphargus species demonstrate that the genus may be successful not only in the subterranean realm but also in various surface waters.",OXFORD UNIV PRESS,90,"GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND",OXFORD,15.0,FN9OQ,"Copilas-Ciocianu, Denis; Fiser, Cene; Borza, Peter; Balazs, Gergely; Angyal, Dorottya; Petrusek, Adam",11.0,11.0,Zoology,ZOOL J LINN SOC-LOND,Zool. J. Linn. Soc.,10.1093/zoolinnean/zlw031,"Copilas-Ciocianu, D (corresponding author), Charles Univ Prague, Dept Ecol, Fac Sci, Vinicna 7, CR-12844 Prague, Czech Republic.",CRYPTIC DIVERSITY; ASELLUS-AQUATICUS; WATER; PHYLOGEOGRAPHY; COEXISTENCE; INSIGHTS; DISCRIMINATION; DISTRIBUTIONS; PERSPECTIVES; MALACOSTRACA,denis.copilas@yahoo.com,"Petrusek, Adam/0000-0001-5150-4370; Copilas-Ciocianu, Denis/0000-0002-6374-2365","Petrusek, Adam/A-3510-2008; Copilas-Ciocianu, Denis/F-1956-2011",,1096-3642,"Charles University in Prague [GAUK 1398214, SVV 260198]; Slovenian Research AgencySlovenian Research Agency - Slovenia [P1-0184]","We are grateful to Marius G. Berchi (Babes-Bolyai University, Cluj-Napoca, Romania) for his invaluable help during the fieldwork, Dmitry A. Sidorov (Institute of Biology and Soil Science, Vladivostok, Russia) for his kind help with finding localities of N. valachicus in Dedju (1980) and providing useful literature, Murat Sezgin (University of Sinop, Turkey) for providing N. valachicus specimens from Turkey and to all the people and organizations that shared their data with us. We thank Jean-Francois Flot for his comments on the manuscript and invaluable assistance with analyses of ITS data, and an anonymous reviewer for providing additional constructive remarks. DCC and AP were financially supported by the Charles University in Prague (projects GAUK 1398214 and SVV 260198). CF was partially supported by the Slovenian Research Agency (Program P1-0184).",Green Accepted,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000410768100005,11,0,"Iyengar, EV; Schwartz, CI; Davidson, AT",J,English,"Long-term maintenance requirements of the riparian isopod, Lirceus sp.",2017.0,Marine & Freshwater Biology,802,0018-8158,1,NOV,53,69,Stream; Freshwater crustaceans; Animal husbandry; Rearing conditions,"[Iyengar, Erika V.; Schwartz, Chad I.; Davidson, Allison T.] Muhlenberg Coll, 2400 Chew St, Allentown, PA 18104 USA","Riparian isopods possess many traits that make them ideal candidates for a wide range of ecological and evolutionary studies, but they are under-utilized because long-term maintenance under laboratory conditions has been largely unsuccessful. We explored a variety of experimental conditions to determine those necessary to maintain captive populations. Our studies demonstrated that starting colonies with water from the natal stream, filtering the water in a way that causes agitation at the surface of the water, maintaining colonies in full-spectrum light at room temperature or colder, lining the bottom of containers with a coarse benthos, and providing a leaf pack that contains Norway maple leaves are important criteria for successful maintenance of individuals of Lirceus sp. colonies for periods of over 6 weeks in the laboratory. Water changes do not require addition of water from the natal stream, whether the containers are glass or plastic is inconsequential, aeration does not need to be high-powered, and refrigeration of colonies is not necessary for this species of riparian isopod. We expect identifying the minimum husbandry needs will facilitate research using these organisms.",SPRINGER,36,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,17.0,FG9OG,"Iyengar, Erika V.; Schwartz, Chad I.; Davidson, Allison T.",0.0,0.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-017-3239-7,"Iyengar, EV (corresponding author), Muhlenberg Coll, 2400 Chew St, Allentown, PA 18104 USA.",STREAM-DWELLING ISOPOD; MATE GUARDING BEHAVIOR; ASELLUS-AQUATICUS; FEMALE RESISTANCE; ENERGETIC COSTS; FONTINALIS RAF; 2 POPULATIONS; BROWN TROUT; FOOD; LINNAEUS,iyengar@muhlenberg.edu,,,,1573-5117,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000411763600016,39,0,"Joachim, S; Roussel, H; Bonzom, JM; Thybaud, E; Mebane, CA; Van den Brink, P; Gauthier, L",J,English,A LONG-TERM COPPER EXPOSURE IN A FRESHWATER ECOSYSTEM USING LOTIC MESOCOSMS: INVERTEBRATE COMMUNITY RESPONSES,2017.0,Environmental Sciences & Ecology; Toxicology,36,0730-7268,10,OCT,2698,2714,Zooplankton; Macroinvertebrates; Emerging insects; Copper; Mesocosms; Tolerance; Recovery,"[Joachim, Sandrine; Roussel, Helene; Bonzom, Jean-Marc] INERIS, Vitro & Vivo Unit, Parc Technol ALATA, Verneuil En Halatte, France; [Roussel, Helene; Gauthier, Laury] Paul Sabatier Univ, Lab ECOLAB, UMR 5245, Toulouse, France; [Thybaud, Eric] INERIS, Hazard & Impact Living Organisms Unit, Parc Technol ALATA, Verneuil En Halatte, France; [Mebane, Christopher A.] US Geol Survey, Boise, ID USA; [Van den Brink, Paul] Wageningen Univ, Dept Aquat Ecol & Water Qual Management, Wageningen, Netherlands","A lotic mesocosm study was carried out in 20-m-long channels, under continuous, environmentally realistic concentrations of copper (Cu) in low, medium, and high exposures (nominally 0, 5, 25, and 75 mu gL(-1); average effective concentrations <0.5, 4, 20, and 57 mu gL(-1) respectively) for 18 mo. Total abundance, taxa richness, and community structure of zooplankton, macroinvertebrates, and emerging insects were severely affected at Cu treatment levels of 25 and 75 mu gL(-1). Some taxa were sensitive to Cu, including gastropods such as Lymnaea spp. and Physa sp., crustaceans such as Chydorus sphaericus, Gammarus pulex, and Asellus aquaticus, rotifers such as Mytilina sp. and Trichocerca sp., leeches such as Erpobdella sp., and the emergence of dipteran insects such as Chironomini. Other taxa appeared to be tolerant or favored by indirect effects, as in Chironimidae larvae, the emergence of Orthocladiinae, and the zooplankter Vorticella sp., which increased in the 25 and 75 mu gL(-1) treatments. After approximately 8 mo of Cu exposure, the macroinvertebrate community in the high treatment was decimated to the point that few organisms could be detected, with moderate effects in the medium treatment, and very slight effects in the low-Cu treatment. Subsequently, most taxa in the high-Cu exposure began a gradual and partial recovery. By the end of the study at 18 mo, macroinvertebrate taxa richness was similar to control richness, although overall abundances remained lower than controls. After 18 mo of copper exposure, a no-observed-effect concentration at the community level for consumers was set at 5 mu gL(-1) (4 mu gL(-1) as average effective concentration), and a lowest-observed-effect concentration at 25 mu gL(-1)(20 mu gL(-1) as average effective concentration). (C) 2017 SETAC",WILEY,76,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,17.0,FI2IZ,"Joachim, Sandrine; Roussel, Helene; Bonzom, Jean-Marc; Thybaud, Eric; Mebane, Christopher A.; Van den Brink, Paul; Gauthier, Laury",6.0,6.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.3822,"Joachim, S (corresponding author), INERIS, Vitro & Vivo Unit, Parc Technol ALATA, Verneuil En Halatte, France.",AQUATIC INSECTS; DAPHNIA-MAGNA; POPULATION RESPONSES; RELATIVE SENSITIVITY; CHRONIC TOXICITY; ZOOPLANKTON; STRESS; TOLERANCE; CHIRONOMIDAE; MICROCOSMS,sandrine.joachim@ineris.fr,"THYBAUD, Eric/0000-0002-4489-294X; van den brink, Paul/0000-0002-7241-4347; Joachim, Sandrine/0000-0001-7383-0097","THYBAUD, Eric/R-5121-2018; van den brink, Paul/AAT-7144-2020",28558138.0,1552-8618,French Ministry of Ecology and Sustainable Development (BRCD) [011111],"This research project was funded by the French Ministry of Ecology and Sustainable Development (BRCD, 011111). No authors have conflicts of interest to report. The authors are greatly indebted to P. Baudoin, E. Guinard, E. Martin, and S. Lamothe from INERIS for technical assistance and to F. Azemar from LEH for helpful comments on zooplankton. We are also very grateful to the following students: S. Borghi, F. Catel, C. Achin, J. Robert, A. Marque, and J. Saillard. We thank T. Schmidt and 3 anonymous reviewers for their constructive criticisms.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000411763600031,39,3,"Van Ginneken, M; Blust, R; Bervoets, L",J,English,"HOW LETHAL CONCENTRATION CHANGES OVER TIME: TOXICITY OF CADMIUM, COPPER, AND LEAD TO THE FRESHWATER ISOPOD ASELLUS AQUATICUS",2017.0,Environmental Sciences & Ecology; Toxicology,36,0730-7268,10,OCT,2849,2854,Aquatic invertebrates; Environmental toxicology; Speciation; Trace metals; Incipient lethal concentration,"[Van Ginneken, Marjolein; Blust, Ronny; Bervoets, Lieven] Univ Antwerp, Dept Biol Syst Physiol & Ecotoxicol Res SPHERE, Antwerp, Belgium","Metal pollution is a serious threat to environmental health. While the aquatic isopod Asellus aquaticus L. (Isopoda) is an important decomposer of freshwater ecosystems, very little research has reported its long-term or incipient lethal concentrations for metals. Moreover, the lethal concentrations at a certain percentage (LCxs) that can be found in the literature are often based on unmeasured concentrations, which could lead to a severe underestimation of the actual toxicity. In the present exploratory study, the 1-, 4-, 7-, and 14-d LC10, LC20, and LC50 values of copper, cadmium, and lead for adult A. aquaticus were determined. The LCx values were calculated using the nominal concentrations, the effective concentrations, and the free ion activities. Incipient lethal values were determined as well. In general, surprisingly lower lethal concentrations were found than in other studies. Furthermore, the present study shows that lethal concentrations based on free ion activities were generally much lower than nominal and effective concentrations. Although almost all LC values were higher than the environmental quality standards (EQS), the Cu 14-d LC10 and several (incipient) Pb LC10 and LC20 values, all calculated with free ion activities, were lower than the EQS. We conclude that lethal or effective concentrations based on free ion activities provide a more realistic view, which is vital for environmental policy making. (C) 2017 SETAC",WILEY,46,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,6.0,FI2IZ,"Van Ginneken, Marjolein; Blust, Ronny; Bervoets, Lieven",5.0,5.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.3847,"Van Ginneken, M (corresponding author), Univ Antwerp, Dept Biol Syst Physiol & Ecotoxicol Res SPHERE, Antwerp, Belgium.",BIOTIC LIGAND MODEL; HEAVY-METALS; FEEDING-BEHAVIOR; L CRUSTACEA; ZINC; INVERTEBRATES; SENSITIVITY; EXPOSURE; CALCIUM; QUALITY,Marjolein.VanGinneken@uantwerpen.be,,,28474786.0,1552-8618,Research Foundation Flanders (FWO)FWO,"We thank S. Joosen for performing the metal analyses, as well as the anonymous reviewers for their constructive comments. M. Van Ginneken is funded by a doctoral grant from the Research Foundation Flanders (FWO). The authors state they have no conflicts of interest.",Green Accepted,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000411763600030,37,1,"Finnegan, MC; Baxter, LR; Maul, JD; Hanson, ML; Hoekstra, PF",J,English,"COMPREHENSIVE CHARACTERIZATION OF THE ACUTE AND CHRONIC TOXICITY OF THE NEONICOTINOID INSECTICIDE THIAMETHOXAM TO A SUITE OF AQUATIC PRIMARY PRODUCERS, INVERTEBRATES, AND FISH",2017.0,Environmental Sciences & Ecology; Toxicology,36,0730-7268,10,OCT,2838,2848,Insecticide; Aquatic toxicology; Species sensitivity distributions; Neonicotinoid; Thiamethoxam,"[Finnegan, Meaghean C.] Syngenta, Jealotts Hill Int Res Ctr, Bracknell, Berks, England; [Baxter, Leilan R.] Novatox, Guelph, ON, Canada; [Maul, Jonathan D.] Syngenta Crop Protect, Greensboro, NC USA; [Hanson, Mark L.] Univ Manitoba, Dept Environm & Geog, Winnipeg, MB, Canada; [Hoekstra, Paul F.] Syngenta Canada Inc, Guelph, ON, Canada","Thiamethoxam is a neonicotinoid insecticide used widely in agriculture to control a broad spectrum of chewing and sucking insect pests. Recent detection of thiamethoxam in surface waters has raised interest in characterizing the potential impacts of this insecticide to aquatic organisms. We report the results of toxicity testing (acute and chronic) conducted under good laboratory practices for more than 30 freshwater species (insects, molluscs, crustaceans, algae, macrophytes, and fish) and 4 marine species (an alga, a mollusc, a crustacean, and a fish). As would be anticipated for a neonicotinoid, aquatic primary producers and fish were the least sensitive organisms tested, with acute median lethal and effect concentrations (LC50/EC50) observed to be >= 80 mg/L in all cases, which far exceeds surface water exposure concentrations. Tested molluscs, worms, and rotifers were similarly insensitive (EC50 >= 100 mg/L), except for Lumbriculus sp., with an EC50 of 7.7 mg/L. In general, insects were the most sensitive group in the study, with most acute EC50 values < 1 mg/L. However, the crustaceans Asellus aquaticus and Ostracoda exhibited a sensitivity similar to that of insects (acute EC50 < 1 mg/L), and the midge larvae Chaoborus sp. were relatively insensitive compared with other insects (EC50 > 5.5 mg/L). The most sensitive chronic response was for Chironomus riparius, with a 30-d no-observed-effect concentration (NOEC; emergence) of 0.01 mg/L. Observed toxicity to the tested marine organisms was comparable to that of freshwater species. We used the reported data to construct species sensitivity distributions for thiamethoxam, to calculate 5% hazard concentrations (HC5s) for acute data (freshwater invertebrates), and compared these with measured concentrations from relevant North American surface waters. Overall, based on acute toxicity endpoints, the potential acute risk to freshwater organisms was found to be minimal (likelihood of exceeding HC5s < 1%). (C) 2017 The Authors. Environmental Toxicology and Chemistry published by Wiley Periodicals, Inc. on behalf of SETAC.",WILEY,34,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,FI2IZ,"Finnegan, Meaghean C.; Baxter, Leilan R.; Maul, Jonathan D.; Hanson, Mark L.; Hoekstra, Paul F.",29.0,28.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.3846,"Finnegan, MC (corresponding author), Syngenta, Jealotts Hill Int Res Ctr, Bracknell, Berks, England.",SURFACE WATERS; FIPRONIL; ENVIRONMENT; EXPOSURE; STREAMS; RISK; USA,meaghean.finnegan@syngenta.com,,,28493485.0,1552-8618,Syngenta,The present study was funded by Syngenta. L.R. Baxter and M.L. Hanson were compensated for their assistance in assembling this manuscript. We thank 3 anonymous reviewers for their valuable feedback and comments.,Other Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000410094000006,32,3,"Vadher, AN; Leigh, C; Millett, J; Stubbington, R; Wood, PJ",J,English,Vertical movements through subsurface stream sediments by benthic macroinvertebrates during experimental drying are influenced by sediment characteristics and species traits,2017.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,62,0046-5070,10,OCT,1730,1740,active movement; burrowing; intermittent rivers; invertebrates; mesocosm experiments,"[Vadher, Atish N.; Millett, Jonathan; Wood, Paul J.] Loughborough Univ Technol, Ctr Hydrol & Ecosyst Sci, Dept Geog, Loughborough, Leics, England; [Leigh, Catherine] Griffith Univ, Australian Rivers Inst, Nathan, Qld, Australia; [Leigh, Catherine] Griffith Univ, Griffith Sch Environm, Nathan, Qld, Australia; [Stubbington, Rachel] Nottingham Trent Univ, Sch Sci & Technol, Nottingham, England","Streambed drying is becoming more common due to climate change and increasing anthropogenic water resource pressures. Subsurface sediments are a potential refuge for benthic macroinvertebrates during drying events in temporary streams. Sediment characteristics are important controls on the distribution of macroinvertebrates in subsurface habitats, but difficulties making observations impedes quantification of vertical movements. Species traits (e.g. subsurface habitat affinity) also influence vertical movements of macroinvertebrates into the subsurface sediments, but most species-specific responses remain uncharacterised. Transparent artificial mesocosms were used to directly observe the vertical movements of individuals of three aquatic insect nymphs and two crustaceans. Mixtures of three types of transparent sediment of varying particle size were combined to produce six treatments with differing interstitial pore volumes and, hence, differing subsurface porosity. Macroinvertebrate vertical movements were measured during incremental reductions in water level from 5cm above to 20cm below the sediment surface. These species comprised a variety of trait categories including feeding group, species affinity to temporary streams and subsurface habitats. Active and passive vertical movements were determined by conducting experiments with both live individuals and their cadavers. Sediment treatment influenced the vertical movements of individuals as reducing subsurface porosity decreased vertical movements for most species. Vertical movement into subsurface sediments in response to water level reduction was the result of active, not passive, movements for all species. Species identity influenced the vertical movements made by individuals. Nemoura cambrica had the highest affinity for temporary streams and subsurface habitats and its vertical movements were unaffected by sediment treatment, generally reaching depths between 20 and 25cm. Most individuals of species with a weaker subsurface affinity (i.e. the benthic grazer Heptagenia sulphurea and the filter-feeder Hydropsyche siltalai) became stranded as water levels were reduced in all sediment treatments. Vertical movements of Gammarus pulex and Asellus aquaticus were restricted primarily by pore volume, these taxa becoming stranded most commonly in sediments with smaller interstitial volumes. Our results highlight the need for the development and implementation of river management strategies that increase streambed porosity, allowing macroinvertebrates to access to the saturated subsurface habitat during stream drying.",WILEY,70,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,FG3QP,"Vadher, Atish N.; Leigh, Catherine; Millett, Jonathan; Stubbington, Rachel; Wood, Paul J.",17.0,17.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.12983,"Vadher, AN (corresponding author), Loughborough Univ Technol, Ctr Hydrol & Ecosyst Sci, Dept Geog, Loughborough, Leics, England.",HYPORHEIC ZONE; INVERTEBRATE COMMUNITIES; TEMPORARY STREAMS; HEADWATER STREAMS; FLOW INTERMITTENCE; ASSEMBLAGE COMPOSITION; SUPRASEASONAL DROUGHT; INTERSTITIAL HABITAT; ALLUVIAL RIVER; DESERT STREAM,a.vadher@lboro.ac.uk,"Millett, Jonathan/0000-0003-4701-3071; Stubbington, Rachel/0000-0001-8475-5109; Leigh, Catherine/0000-0003-4186-1678","Millett, Jonathan/D-4651-2009; Stubbington, Rachel/ABI-3913-2020; Leigh, Catherine/B-8868-2009",,1365-2427,Loughborough University,Loughborough University,Green Accepted,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000408316900028,45,3,"Van den Brink, PJ; Klein, SL; Rico, A",J,English,"INTERACTION BETWEEN STRESS INDUCED BY COMPETITION, PREDATION, AND AN INSECTICIDE ON THE RESPONSE OF AQUATIC INVERTEBRATES",2017.0,Environmental Sciences & Ecology; Toxicology,36,0730-7268,9,SEP,2485,2492,Chlorpyrifos; Ecological interaction; Population-level effect; Pesticide; Ecotoxicology,"[Van den Brink, Paul J.; Klein, Sylvan L.] Wageningen Univ, Dept Aquat Ecol & Water Qual Management, Wageningen Univ & Res Ctr, Wageningen, Netherlands; [Van den Brink, Paul J.] Wageningen Univ & Res Ctr, Alterra, Wageningen, Netherlands; [Rico, Andreu] Univ Alcala De Henares, IMDEA Water Inst, Sci & Technol Campus, Madrid, Spain","The present study investigated the effects of species interactions like competition and (intraguild) predation on the sensitivity of aquatic organisms to the insecticide chlorpyrifos. In the first experiment, combined effects of chlorpyrifos and different levels of intraspecific and interspecific interaction were assessed on Gammarus pulex survival using Asellus aquaticus as an interacting species. Intraspecific and interspecific interactions increased the time to extinction of G. pulex up to a factor of 2, most likely because of the cannibalistic nature of G. pulex and its intraguild predation on A. aquaticus under stress conditions. In the second experiment, combined effects of chlorpyrifos and intraspecific and interspecific interaction were assessed on Daphnia pulex abundance using Brachionus calyciflorus as a competing species and Chaoborus sp. larvae as a predator. Intraspecific and interspecific interactions significantly affected the D. pulex population structure, but they did not influence the total population size. Predation decimated D. pulex abundance; however, interacting effects of predation and chlorpyrifos exposure were less noticeable at high exposure concentrations because of the reduced predatory efficiency of Chaoborus sp. larvae. The present study shows that species interactions do not always increase the vulnerability of aquatic populations to chemical stress and that some interactions (e.g., cannibalism and intraguild predation) or reduced predator grazing pressure can alleviate competition and predation stress on population-level insecticide effects under food-limiting conditions. (C) 2017 SETAC",WILEY,26,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,8.0,FE6JX,"Van den Brink, Paul J.; Klein, Sylvan L.; Rico, Andreu",4.0,4.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.3788,"Van den Brink, PJ (corresponding author), Wageningen Univ, Dept Aquat Ecol & Water Qual Management, Wageningen Univ & Res Ctr, Wageningen, Netherlands.; Van den Brink, PJ (corresponding author), Wageningen Univ & Res Ctr, Alterra, Wageningen, Netherlands.",DAPHNIA-MAGNA; INTERSPECIFIC INTERACTIONS; CHLORPYRIFOS; POPULATIONS; SENSITIVITY; RECOVERY; TOXICANT; CARBENDAZIM; TOXICITY; DYNAMICS,paul.vandenbrink@wur.nl,"van den brink, Paul/0000-0002-7241-4347; Rico, Andreu/0000-0002-1820-4218","van den brink, Paul/AAT-7144-2020; Rico, Andreu/G-1102-2016",28295548.0,1552-8618,Long Range Initiative of the European Chemical Industry Council [LRI-ECO19],The present study was conducted as part of the ChimERA project. The ChimERA project is financed by the Long Range Initiative of the European Chemical Industry Council (www.cefic-lri.org; project code LRI-ECO19).,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER,2021-04-13,WOS:000406681700066,22,0,"Arvola, L; Rask, M; Forsius, M; Ala-Opas, P; Keskitalo, J; Kulo, K; Kurkilahti, M; Lehtovaara, A; Sairanen, S; Salo, S; Saloranta, T; Verta, M; Vesala, S",J,English,Food Web Responses to Artificial Mixing in a Small Boreal Lake,2017.0,Environmental Sciences & Ecology; Water Resources,9,2073-4441,7,JUL,,,lakes; climate change; global warming; thermocline manipulation ecological responses; ecological forecasting; ecosystem services; humic lake; food web management,"[Arvola, Lauri; Ala-Opas, Pasi; Keskitalo, Jorma; Kulo, Katja; Lehtovaara, Anja; Sairanen, Samuli] Univ Helsinki, Lammi Biol Stn, FI-16900 Lammi, Finland; [Rask, Martti; Kulo, Katja; Kurkilahti, Mika; Sairanen, Samuli; Vesala, Sami] Nat Resources Inst Finland Luke, FI-40500 Jyvaskyla, Finland; [Forsius, Martin; Salo, Simo; Verta, Matti] Finnish Environm Inst SYKE, FI-00250 Helsinki, Finland; [Saloranta, Tuomo] Norwegian Water Resources & Energy Directorate NV, N-0368 Oslo, Norway","In order to simulate food web responses of small boreal lakes to changes in thermal stratification due to global warming, a 4 year whole-lake manipulation experiment was performed. Within that time, period lake mixing was intensified artificially during two successive summers. Complementary data from a nearby lake of similar size and basic water chemistry were used as a reference. Phytoplankton biomass and chlorophyll a did not respond to the greater mixing depth but an increase was observed in the proportional abundance of diatoms, and the proportional abundance of cryptophytes also increased immediately after the onset of mixing. Obligate anoxic green sulphur bacteria vanished at the onset of mixing but gradually recovered after re-establishment of hypolimnetic anoxic conditions. No major effect on crustacean zooplankton was found, but their diversity increased in the metalimnion. During the mixing, the density of rotifers declined but protozoan density increased in the hypolimnion. Littoral benthic invertebrate density increased during the mixing due to Ephemeroptera, Asellus aquaticus and Chironomidae, whereas the density of Chaoborus larvae declined during mixing and lower densities were still recorded one year after the treatment. No structural changes in fish community were found although gillnet catches increased after the onset of the study. The early growth of perch (Perca fluviatilis) increased compared to the years before the mixing and in comparison to the reference lake, suggesting improved food availability in the experimental lake. Although several food web responses to the greater mixing depth were found, their persistence and ecological significance were strongly dependent on the extent of the disturbance. To better understand the impacts of wind stress on small lakes, long term whole-lake experiments are needed.",MDPI AG,72,"ST ALBAN-ANLAGE 66, CH-4052 BASEL, SWITZERLAND",BASEL,21.0,FC2PY,"Arvola, Lauri; Rask, Martti; Forsius, Martin; Ala-Opas, Pasi; Keskitalo, Jorma; Kulo, Katja; Kurkilahti, Mika; Lehtovaara, Anja; Sairanen, Samuli; Salo, Simo; Saloranta, Tuomo; Verta, Matti; Vesala, Sami",1.0,1.0,Environmental Sciences; Water Resources,WATER-SUI,Water,10.3390/w9070515,"Arvola, L (corresponding author), Univ Helsinki, Lammi Biol Stn, FI-16900 Lammi, Finland.",ROACH RUTILUS-RUTILUS; PERCA-FLUVIATILIS L; RANDOMIZED INTERVENTION ANALYSIS; STRATIFIED HUMIC LAKE; SOUTHERN FINLAND; EXPERIMENTAL THERMOCLINE; GYMNOCEPHALUS-CERNUA; PLANKTON COMMUNITY; DAPHNIA-LONGISPINA; WATER TEMPERATURE,lauri.arvola@helsinki.fi; martti.rask@luke.fi; martin.forsius@ymparisto.fi; pasi.ala-opas@gmail.com; jorma.keskitalo@helsinki.fi; katja.kulo@luke.fi; mika.kurkilahti@luke.fi; anja.lehtovaara@gmail.com; samuli.sairanen@gmail.com; simo.salo@gmail.com; tus@nve.no; matti.verta@gmail.com; sami.vesala@luke.fi,,,,,"EU-project EUROLIMPACS [GOCE386 CT-2003-505540]; Academy of FinlandAcademy of FinlandEuropean Commission [127922]; Lammi Biological Station, University of Helsinki; Finnish Game and Fisheries Research Institute","This work was supported by the EU-project EUROLIMPACS [GOCE386 CT-2003-505540], the PRO-DOC project of the Academy of Finland [127922], Lammi Biological Station, University of Helsinki and Finnish Game and Fisheries Research Institute. We thank Erkki Saarijarvi for the mixing equipment, Roger I. Jones for the English corrections, and Riitta Ilola and Jaakko Vainionpaa for the chemical analyses.","DOAJ Gold, Green Published",,515,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000403021500004,78,2,"Crenier, C; Arce-Funck, J; Bec, A; Billoir, E; Perriere, F; Leflaive, J; Guerold, F; Felten, V; Danger, M",J,English,Minor food sources can play a major role in secondary production in detritus-based ecosystems,2017.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,62,0046-5070,7,JUL,1155,1167,benthic algae; Crustacea; detritivorous invertebrates; fatty acids; trophic ecology,"[Crenier, Clement; Arce-Funck, Julio; Billoir, Elise; Guerold, Francois; Felten, Vincent; Danger, Michael] Univ Lorraine, LIEC, UMR 7360, Metz, France; [Bec, Alexandre; Perriere, Fanny] Univ Blaise Pascal, Clermont Univ, LMGE, BP 10448, F-63000 Clermont Ferrand, France; [Bec, Alexandre; Perriere, Fanny] CNRS, UMR 6023, LMGE, F-63173 Clermont Ferrand, France; [Leflaive, Josephine] Univ Toulouse, CNRS, EcoLab, INPT,UPS, Toulouse, France; [Danger, Michael] CNRS, UMR 7360, LIEC, Metz, France; [Danger, Michael] LTER Zone Atelier Moselle, LIEC, UMR 7360, Metz, France","In many ecosystems, detritus is the dominant source of energy and the driver of ecosystem functioning. In particular, in forested headwater streams, allochthonous detritus (e.g. leaf litter, dead wood) constitute the main energy source for detritivores and living primary producers contribute marginally to ecosystem metabolism and energy flows. We hypothesised that a low consumption of benthic diatoms, a high-quality resource, could be of major importance for the growth of detritivores. In particular, these resources might represent an essential source of polyunsaturated fatty acids (PUFAs). In a microcosm experiment, three food resources were manipulated: alder (Alnus glutinosa: Betulaceae) leaf litter, fungal mycelium and a common benthic diatom. They were offered to juveniles of Gammarus fossarum (Crustacea: Amphipoda) as food resources, either alone or in combination, with each resource type being enclosed in agarose pellets. Juveniles were fed for 5weeks in controlled conditions. Survival, feeding and growth rates were monitored. The fatty acids content of food resources and gammarids were also quantified. Our results showed that detritus alone permits survival, but not the significant growth of detritivores. The presence of diatoms in food resources was necessary to ensure a significantly positive mass growth of detritivores over the 5-week experiment. More importantly, detritivores that did not receive algae in their food were generally unable to maintain their PUFA levels when compared to juveniles collected in the field. Gut-content analysis of field-collected G. fossarum showed that low amounts of benthic algae were always visible, indicating that most individuals fed at least for a small part on benthic algae. These minor, but high quality, food sources might therefore be essential for ensuring the growth and survival of detritivores. Our results clearly highlight the need to consider the functional importance of such minor food sources.",WILEY,65,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,13.0,EX1YA,"Crenier, Clement; Arce-Funck, Julio; Bec, Alexandre; Billoir, Elise; Perriere, Fanny; Leflaive, Josephine; Guerold, Francois; Felten, Vincent; Danger, Michael",31.0,31.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.12933,"Danger, M (corresponding author), Univ Lorraine, LIEC, UMR 7360, Metz, France.",FATTY-ACID-COMPOSITION; GAMMARUS-PSEUDOLIMNAEUS AMPHIPODA; RESOURCE STOICHIOMETRY; STREAM INVERTEBRATES; ASELLUS-AQUATICUS; LEAF-LITTER; FUNGI; DIET; DETRITIVORE; CONSUMERS,michael.danger@univ-lorraine.fr,"Leflaive, Josephine/0000-0003-3605-349X; FELTEN, Vincent/0000-0003-2601-7225; DANGER, Michael/0000-0002-9874-4942; Bec, Alexandre/0000-0003-4353-3766","Leflaive, Josephine/F-2075-2018",,1365-2427,ICARE EC2CO; ANR Functional StreamFrench National Research Agency (ANR) [ANR-14-CE01-0009-01]; ANR MultistressFrench National Research Agency (ANR) [ANR-13-BSV7-0004-01],"ICARE EC2CO; ANR Functional Stream, Grant/Award Number: ANR-14-CE01-0009-01; ANR Multistress, Grant/Award Number: ANR-13-BSV7-0004-01",,,,,,,,,,,,,,,,,,,,,,,,
Article,PLOS ONE,2021-04-13,WOS:000401314000024,16,0,"Jemec, A; Skufca, D; Prevorcnik, S; Fiser, Z; Zidar, P",J,English,Comparative study of acetylcholinesterase and glutathione S-transferase activities of closely related cave and surface Asellus aquaticus (Isopoda: Crustacea),2017.0,Science & Technology - Other Topics,12,1932-6203,5,MAY 9,,,,"[Jemec, Anita; Skufca, David; Prevorcnik, Simona; Fiser, Ziga; Zidar, Primoz] Univ Ljubljana, Biotech Fac, Dept Biol, Ljubljana, Slovenia","The freshwater isopod crustacean Asellus aquaticus has recently been developed as an emerging invertebrate cave model for studying evolutionary and developmental biology. Mostly morphological and genetic differences between cave and surface A. aquaticus populations have been described up to now, while scarce data are available on other aspects, including physiology. The purpose of this study was to advance our understanding of the physiological differences between cave A. aquaticus and its surface-dwelling counterparts. We sampled two surface populations from the surface section of the sinking Pivka River (central Slovenia, Europe), i.e. locality Pivka Polje, and locality Planina Polje, and one cave population from the subterranean section of the sinking Pivka River, i.e. locality Planina Cave. Animals were sampled in spring, summer and autumn. We measured the activities of acetylcholinesterase (AChE) and glutathione S-transferase (GST) in individuals snap-frozen in the field immediately after collection. Acetylcholinesterase is likely related to animals' locomotor activity, while GST activity is related to the metabolic activity of an organism. Our study shows significantly lower AChE and GST activities in the cave population in comparison to both surface A. aquaticus populations. This confirms the assumption that cave A. aquaticus have lower locomotor and metabolic activity than surface A. aquaticus in their respective natural environments. In surface A. aquaticus populations, seasonal fluctuations in GST activity were observed, while these were less pronounced in individuals from the more stable cave environment. On the other hand, AChE activity was generally season-independent in all populations. To our knowledge, this is the first study of its kind conducted in A. aquaticus. Our results show that among closely related cave and surface A. aquaticus populations also physiological differences are present besides the morphological and genetic. These findings contribute to a better understanding of the biology of A. aquaticus and cave crustaceans in general.",PUBLIC LIBRARY SCIENCE,69,"1160 BATTERY STREET, STE 100, SAN FRANCISCO, CA 94111 USA",SAN FRANCISCO,14.0,EU8UM,"Jemec, Anita; Skufca, David; Prevorcnik, Simona; Fiser, Ziga; Zidar, Primoz",6.0,7.0,Multidisciplinary Sciences,PLOS ONE,PLoS One,10.1371/journal.pone.0176746,"Jemec, A (corresponding author), Univ Ljubljana, Biotech Fac, Dept Biol, Ljubljana, Slovenia.",OXYGEN-CONSUMPTION; GAMMARUS-FOSSARUM; HYPOGEAN POPULATIONS; EPIGEAN CRUSTACEANS; PORCELLIO-SCABER; OXIDATIVE STRESS; LIFE-HISTORY; BIOMARKERS; RESPONSES; AMPHIPODA,anita.jemec@bf.uni-lj.si,"Jemec Kokalj, Anita/0000-0003-3143-4461; Fiser, Ziga/0000-0003-4576-5173; Skufca, David/0000-0002-1832-7840","Jemec Kokalj, Anita/F-9206-2019",28486514.0,,"Slovenian Research Agency, through Research program ""Integrative zoology and speleobiology"" [P1-0184]","Research presented in this paper was supported by the Slovenian Research Agency, through Research program ""Integrative zoology and speleobiology (P1-0184)"". The funder had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.","DOAJ Gold, Green Published",,e0176746,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC TOXICOLOGY,2021-04-13,WOS:000401386100022,44,4,"Dawoud, M; Bundschuh, M; Goedkoop, W; McKie, BG",J,English,Interactive effects of an insecticide and a fungicide on different organism groups and ecosystem functioning in a stream detrital food web,2017.0,Marine & Freshwater Biology; Toxicology,186,0166-445X,,MAY,215,221,Ecosystem processes; Invertebrates; Fungi; Microbes; Multi-stressor interactions; Non-target organisms; Pesticides; PICT,"[Dawoud, Mohab; Bundschuh, Mirco; Goedkoop, Willem; McKie, Brendan G.] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, POB 7050, S-75007 Uppsala, Sweden; [Dawoud, Mohab] Low Emiss Capac Bldg Project, 53 Misr Helwan Elzerayea Rd,Loloat Elmaadi Tower, Cairo, Egypt","Freshwater ecosystems are often affected by cocktails of multiple pesticides targeting different organism groups. Prediction and evaluation of the ecosystem-level effects of these mixtures is complicated by the potential not only for interactions among the pesticides themselves, but also for the pesticides to alter biotic interactions across trophic levels. In a stream microcosm experiment, we investigated the effects of two pesticides targeting two organism groups (the insecticide lindane and fungicide azoxystrobin) on the functioning of a model stream detrital food web consisting of a detritivore (Ispoda: Asellus aquaticus) and microbes (an assemblage of fungal hyphomycetes) consuming leaf litter. We assessed how these pesticides interacted with the presence and absence of the detritivore to affect three indicators of ecosystem functioning - leaf decomposition, fungal biomass, fungal sporulation - as well as detritivore mortality. Leaf decomposition rates were more strongly impacted by the fungicide than the insecticide, reflecting especially negative effects on leaf processing by detritivores. This result most like reflects reduced fungal biomass and increased detritivore mortality under the fungicide treatment. Fungal sporulation was elevated by exposure to both the insecticide and fungicide, possibly representing a stress-induced increase in investment in propagule dispersal. Stressor interactions were apparent in the impacts of the combined pesticide treatment on fungal sporulation and detritivore mortality, which were reduced and elevated relative to the single stressor treatments, respectively. These results demonstrate the potential of trophic and multiple stressor interactions to modulate the ecosystem-level impacts of chemicals, highlighting important challenges in predicting, understanding and evaluating the impacts of multiple chemical stressors on more complex food webs in situ. (C) 2017 Elsevier B.V. All rights reserved.",ELSEVIER SCIENCE BV,62,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,7.0,EU9UV,"Dawoud, Mohab; Bundschuh, Mirco; Goedkoop, Willem; McKie, Brendan G.",8.0,8.0,Marine & Freshwater Biology; Toxicology,AQUAT TOXICOL,Aquat. Toxicol.,10.1016/j.aquatox.2017.03.008,"McKie, BG (corresponding author), Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, POB 7050, S-75007 Uppsala, Sweden.",COMMUNITY STRUCTURE; LAND-USE; DIVERSITY; FIELD; BIODIVERSITY; PESTICIDES; BREAKDOWN; RICHNESS; TOXICITY; INVERTEBRATES,Brendan.Mckie@slu.se,"Bundschuh, Mirco/0000-0003-4876-220X; Dawoud, Mohab/0000-0002-0770-1331","Bundschuh, Mirco/H-4559-2014",28324829.0,1879-1514,"FORMASSwedish Research Council Formas [216-2004-1971, 2014-886]","Mark Peterson prepared the fungicide stock solutions, and ergosterol analyses were run by Margareta Zetherstrom. Funding was provided by FORMAS grants to WG (216-2004-1971) and BGM (DESTRESS, 2014-886), with additional material support from the Centre for Chemical Pesticides at the Swedish University of Agricultural Sciences.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000399261400035,39,3,"Zimmermann, S; Wolff, C; Sures, B",J,English,"Toxicity of platinum, palladium and rhodium to Daphnia magna in single and binary metal exposure experiments",2017.0,Environmental Sciences & Ecology,224,0269-7491,,MAY,368,376,Platinum group elements; Aquatic organisms; Mixed metal toxicity; Toxic unit approach; Daphnia magna,"[Zimmermann, Sonja; Wolff, Carolina; Sures, Bernd] Univ Duisburg Essen, Aquat Ecol, Univ Str 2, D-45141 Essen, Germany; [Wolff, Carolina] Univ Duisburg Essen, Ctr Water & Environm Res CWE, Univ Str 2, D-45141 Essen, Germany; [Wolff, Carolina] BASF SA, Av Das Nacoes Unidas,14-171,14 Andar, BR-04794000 Sao Paulo, SP, Brazil","Mainly due to automobile traffic, but also due to other sources, the platinum group elements (PGE) platinum (Pt), palladium (Pd) and rhodium (Rh) are introduced into aquatic biotopes where they accumulate in sediments of lakes and rivers. However, the toxicity of these noble metals to aquatic organisms is not well understood and especially toxicity studies under standardized condition are lacking. Thus, the toxicity of Pt, Pd and Rh to Daphnia magna was tested in single metal exposure experiments according to OECD guideline 202. Immobility and lethality was recorded after 24 h and 48 h of exposure and EC50 and LC50, respectively, were determined. As the nominal exposure concentration of Pd differed significantly from the quantified concentration, the control of the real exposure concentration by chemical analysis is mandatory, especially for Pd. The toxicity decreased in the order Pd > Pt >> Rh with e.g. LC50(48 h) values of 14 mu g/L for Pd, 157 mu g/L for Pt and 56,800 mu g/L. for Rh. The exposure period had a clear effect on the toxicity of Pt, Pd and Rh. For Pt and Rh the endpoint immobility was more sensitive than the endpoint lethality whereas Pd toxicity was similar for both endpoints. The Hill slopes, which are a measure for the steepness of the concentration-response curves, showed no significant discrepancies between the different metals. The binary metal exposure to Pt and Pd revealed a more-than-additive, i.e. a synergistic toxicity using the toxic unit approach. The present study is a start to understand the toxicity of interacting PGE. The modes of action behind the synergistic effect are unclear. (C) 2017 Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,57,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,9.0,ES1AX,"Zimmermann, Sonja; Wolff, Carolina; Sures, Bernd",19.0,19.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/j.envpol.2017.02.016,"Zimmermann, S (corresponding author), Univ Duisburg Essen, Aquat Ecol, Univ Str 2, D-45141 Essen, Germany.",MUSSEL DREISSENA-POLYMORPHA; SNAIL MARISA CORNUARIETIS; ISOPOD ASELLUS-AQUATICUS; ZEBRAFISH DANIO-RERIO; ANGUILLA-ANGUILLA; ROAD DUST; BIOACCUMULATION; WATER; RH; PD,sonja.zimmermann@uni-due.de,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013",28222978.0,1873-6424,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000397076000038,57,2,"Plahuta, M; Tisler, T; Toman, MJ; Pintar, A",J,English,"Toxic and endocrine disrupting effects of wastewater treatment plant influents and effluents on a freshwater isopod Asellus aquaticus (Isopoda, Crustacea)",2017.0,Environmental Sciences & Ecology,174,0045-6535,,MAY,342,353,Wastewater; Asellus aquaticus; Toxicity; Endocrine disruption; Molting,"[Plahuta, Maja; Tisler, Tatjana; Pintar, Albin] Natl Inst Chem, Lab Environm Sci & Engn, Hajdrihova 19, SI-1001 Ljubljana, Slovenia; [Toman, Mihael Joef] Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, SI-1000 Ljubljana, Slovenia","In the present study a biological ""in vivo"" assay, with freshwater isopod Asellus aquaticus, was used to define and evaluate the potential impact of the wastewater treatment plant (WWTP) wastewaters on local wildlife. Samples of both untreated and mechanically and biologically treated WWTP wastewater, were tested in the presence and absence of the formulated sediment for their lethal and sublethal effects. Chronic exposures to wastewater samples caused concentration dependent reduced locomotion, body pigmentation and molting frequency in exposed organisms. The observed effects indicate the overall toxicity and endocrine disruption of the wastewater samples. In contrast stimulations of the feeding rate and growth rate of the test organisms during the chronic exposure to sublethal levels of wastewater samples were observed, indicating an improvement in nutritional quality of the wastewater. The most sensitive exposure endpoint was molting frequency of tested organisms, which indicated the presence of estrogenically active endocrine disrupting compounds (EDCs). Raw wastewater caused up to 42% molting frequency reduction of exposed A. aquaticus when exposed to five times diluted untreated wastewater sample, while undiluted treated wastewater caused a 61% molting frequency reduction. The presence of estrogenically active compounds in the wastewater was confirmed with the yeast estrogen screen assay (YES test), which assigned the highest estrogenic activity to a mechanically and biologically treated wastewater sample, and lower estrogenic activity to all other tested samples. The importance of presence of the formulated sediment was determined, as it lessened the effects of all WWTP wastewater samples in all observed exposures. (C) 2017 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,63,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,12.0,EP0KK,"Plahuta, Maja; Tisler, Tatjana; Toman, Mihael Joef; Pintar, Albin",12.0,11.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2017.01.137,"Plahuta, M (corresponding author), Natl Inst Chem, Lab Environm Sci & Engn, Hajdrihova 19, SI-1001 Ljubljana, Slovenia.",PERSONAL CARE PRODUCTS; GAMMARUS-PULEX L; ESTROGENIC ACTIVITY; FIDDLER-CRAB; GROWTH; PHARMACEUTICALS; MACROINVERTEBRATES; CONTAMINATION; XENOBIOTICS; POPULATION,maja.plahuta@ki.si; tatjana.tisler@ki.si; mihaeljozef.toman@bf.uni-lj.si; albin.pintar@ki.si,,,28183060.0,1879-1298,"European UnionEuropean Commission; European Social FundEuropean Social Fund (ESF); Republic of Slovenia, Ministry for Education, Science and Sport; Ministry of Education, Science and Sport of the Republic of Slovenia through Research program [P2-0150]","This article is a result of doctoral research, in part financed by the European Union, European Social Fund and the Republic of Slovenia, Ministry for Education, Science and Sport in the framework of the Operational programme for human resources development for the period 2007-2013. The authors gratefully acknowledge the financial support of the Ministry of Education, Science and Sport of the Republic of Slovenia through Research program No. P2-0150. We thank Dr. Marjeta Stra2ar, Dorn2ale-Kamnik Wastewater Treatment Plant, Slovenia, for providing the wastewater samples and chemical analyses, Dr. Ester Heath, Department of Environmental Sciences, Jozef Stefan Institute, Ljubljana, Slovenia, for E2 and EE2 analyses, and Dr. Marin Senila, INCDO-INOE 2000, Research Institute for Analytical Instrumentation, ICIA Subsidiary, Cluj-Napoca, Romania, for conducting the ICP-MS elemental analyses.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000398190000026,58,2,"Bostrom, ML; Ugge, G; Jonsson, JA; Berglund, O",J,English,"BIOACCUMULATION AND TROPHODYNAMICS OF THE ANTIDEPRESSANTS SERTRALINE AND FLUOXETINE IN LABORATORY-CONSTRUCTED, 3-LEVEL AQUATIC FOOD CHAINS",2017.0,Environmental Sciences & Ecology; Toxicology,36,0730-7268,4,APR,1029,1037,Aquatic food chain; Bioaccumulation; Bioconcentration; Biomagnification; Ionizable pharmaceuticals; Selective serotonin reuptake inhibitor,"[Bostrom, Marja L.; Ugge, Gustaf; Berglund, Olof] Lund Univ, Dept Biol, Aquat Ecol, Lund, Sweden; [Jonsson, Jan Ake] Lund Univ, Dept Chem, Ctr Anal & Synth, Lund, Sweden","Although reports of pharmaceutical bioconcentration in aquatic organisms are increasing, less is known about trophic transfer in aquatic food webs. The bioaccumulation and trophodynamics of sertraline and fluoxetine, 2 selective serotonin reuptake inhibitors (SSRIs) frequently detected in aquatic environments, were tested by exposing constructed aquatic food chains to SSRIs under controlled laboratory conditions. Both of these ionizable, weak base pharmaceuticals showed lower bioaccumulation factors (BAFs) with increasing trophic level (i.e., no biomagnifications) in 2 3-level food chains (Acer platanoides, fed to Asellus aquaticus, in turn fed to Notonecta glauca or Pungitius pungitius). Mean sertraline BAFs in A. platanoides, A. aquaticus, N. glauca, and P. pungitus were 2200L/kg, 360L/kg, 26L/kg, and 49L/kg, respectively, and mean fluoxetine BAFs 1300L/kg, 110L/kg, 11L/kg, and 41L/kg, respectively. The weak influence of diet was further demonstrated by measured BAFs being equal to or lower than measured bioconcentration factors (BCFs). Organism lipid content was not positively correlated with BAFs, suggesting that other processes are driving interspecific differences in SSRI bioaccumulation. The empirically derived parameter values were introduced into a proposed bioaccumulation model, and a poor correlation was found between modeled and empirical BAFs (predicted r(2)=-0.63). In conclusion, the apparent lack of biomagnification of these ionizable pharmaceuticals suggests that environmental concern should not necessarily focus only on higher trophic levels, but also on species showing high BCFs at any trophic level. (C) 2016 SETAC",WILEY,51,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,EQ6KK,"Bostrom, Marja L.; Ugge, Gustaf; Jonsson, Jan Ake; Berglund, Olof",12.0,12.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.3637,"Bostrom, ML (corresponding author), Lund Univ, Dept Biol, Aquat Ecol, Lund, Sweden.",ORGANIC-CHEMICALS; TROPHIC TRANSFER; WASTE-WATER; FISH; PHARMACEUTICALS; MODEL; EXPOSURE; BIOCONCENTRATION; ACCUMULATION; DEPURATION,marja.bostrom@biol.lu.se,"Ugge, Gustaf M.O. Ekelund/0000-0002-2418-1163","Ugge, Gustaf M.O. Ekelund/L-6630-2018",27696515.0,1552-8618,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OCEANOLOGICAL AND HYDROBIOLOGICAL STUDIES,2021-04-13,WOS:000395999000010,26,1,"Rau, MA; Plavan, G; Strungaru, SA; Nicoara, M; Rodriguez-Lozano, P; Mihu-Pintilie, A; Ureche, D; Klimaszyk, P",J,English,"The impact of amur sleeper (Perccottus glenii Dybowsky, 1877) on the riverine ecosystem: food selectivity of amur sleeper in a recently colonized river",2017.0,Marine & Freshwater Biology; Oceanography,46,1730-413X,1,MAR,96,107,diet; feeding mode; Siret River; Perccottus glenii; invasive species,,"The presented study aimed at comprehensive assessment of the Perccottus glenii (Amur sleeper) impact on the aquatic ecosystem. Our objective was to analyze the diet, the characteristics of the prey and the feeding behavior of the Amur sleeper. Fish (349 individuals) were captured by electrofishing in autumn 2012. To estimate the dietary importance of each prey category, we calculated the percentage or proportion of each food item and its frequency of occurrence. The Costello graphical method was applied to describe the feeding strategy and prey importance. A total number of 55 taxa of benthic macroinvertebrates were identified, amounting to a total of 2448 individuals. The digestive tract was empty in 48 individuals of the Amur sleeper. The most frequent prey items of the Amur sleeper were Asellus aquaticus L., Baetis spp., the Chironomidae family which was represented by 22 taxa identified to the genus and species levels, Corixa spp. and Physa acuta Drap. Depending on the frequency of prey items, two categories of size classes with specific diet compositions in the Amur sleeper populations were determined. Feeding strategy, cluster indicators of the size classes and traits of macroinvertebrates were the main aspects covered by our study of the Amur sleeper feeding behavior.",WALTER DE GRUYTER GMBH,47,"GENTHINER STRASSE 13, D-10785 BERLIN, GERMANY",BERLIN,12.0,EN4TE,"Rau, Marius Andrei; Plavan, Gabriel; Strungaru, Stefan Adrian; Nicoara, Mircea; Rodriguez-Lozano, Pablo; Mihu-Pintilie, Alin; Ureche, Dorel; Klimaszyk, Piotr",4.0,4.0,Marine & Freshwater Biology; Oceanography,OCEANOL HYDROBIOL ST,Oceanol. Hydrobiol. Stud.,10.1515/ohs-2017-0010,,FEEDING ECOLOGY; CHINESE SLEEPER; DANUBE RIVER; ROUND GOBY; 1ST RECORD; FISH; ODONTOBUTIDAE; HABITAT; PREY; POPULATIONS,pklim@amu.edu.pl,"Mihu-Pintilie, Alin/0000-0002-1686-9558; Mihu-Pintilie, Alin/0000-0002-1686-9558; Strungaru, Stefan-Adrian/0000-0001-7958-4923; Rodriguez-Lozano, Pablo/0000-0002-5130-8107; Klimaszyk, Piotr/0000-0003-2847-1106; Plavan, Gabriel Ionut/0000-0002-1194-1768","Mircea, Nicoara/J-3886-2019; Rodriguez-Lozano, Pablo/AAA-8873-2020; Plavan, Gabriel-Ionut/H-9147-2019; Mihu-Pintilie, Alin/I-5906-2017; Mihu-Pintilie, Alin/M-5238-2019",,1897-3191,European Social Fund within the Sectorial Operational Program Human Resources Development;  [POSDRU/159/1.5/S/133652],"This work was supported by the strategic grant POSDRU/159/1.5/S/133652, co-financed by the European Social Fund within the Sectorial Operational Program Human Resources Development 2007-2013.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ZOOLOGICA SCRIPTA,2021-04-13,WOS:000395084200006,15,1,"Panova, M; Nygren, A; Jonsson, PR; Leidenberger, S",J,English,A molecular phylogeny of the north-east Atlantic species of the genus Idotea (Isopoda) with focus on the Baltic Sea,2017.0,Evolutionary Biology; Zoology,46,0300-3256,2,MAR,188,199,,"[Leidenberger, Sonja] Swedish Univ Agr Sci, Swedish Species Informat Ctr Art Databanken, Backlosavagen 10, SE-75007 Uppsala, Sweden; [Panova, Marina; Jonsson, Per R.] Univ Gothenburg, Dept Marine Sci Tjarno, SE-45296 Stromstad, Sweden; [Nygren, Arne] Maritime Museum & Aquarium, Karl Johansgatan 1-3, SE-41459 Gothenburg, Sweden","Today, the marine isopods of the genus Idotea Fabricius, 1798 consist of 26 accepted species. Most species can be found in the Northern Hemisphere. While some species have a cosmopolitan distribution, others are endemic to a few coastlines. In the Baltic Sea, Idotea species have a key role as important meso-grazers. Only three species can be found in this brackish environment, I.balthica, I.chelipes and I.granulosa, while nine species are described from the whole European coast. The goal of the present study was to reconstruct the phylogeny of the genus Idotea and to test whether the Baltic low-salinity tolerant species represent a single lineage within the genus. The phylogeny of north-east Atlantic Idotea species was investigated based on a fragment of the nuclear gene 28S and the mitochondrial gene COI for eight Idotea species. The phylogenetic reconstructions showed that the genus Idotea might not be monophyletic. Neither I.linearis nor I.urotoma did belong to the separated and well-supported Idotea clade of I.balthica, I.chelipes, I.emarginata, I.granulosa, I.metallica and I.pelagica. The three Idotea species found in the Baltic belonged to different lineages, with estimated COI-based divergence time older than 7 Myr. This suggests that the tolerance to low salinity has likely evolved in the genus Idotea more than once.",WILEY,86,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,12.0,EM1NL,"Panova, Marina; Nygren, Arne; Jonsson, Per R.; Leidenberger, Sonja",3.0,3.0,Evolutionary Biology; Zoology,ZOOL SCR,Zool. Scr.,10.1111/zsc.12200,"Leidenberger, S (corresponding author), Swedish Univ Agr Sci, Swedish Species Informat Ctr Art Databanken, Backlosavagen 10, SE-75007 Uppsala, Sweden.",ASELLUS-AQUATICUS; BALTHICA ISOPODA; CRUSTACEA; POPULATIONS; DNA; PHYLOGEOGRAPHY; METALLICA; ECOLOGY; REARRANGEMENTS; MORPHOLOGY,marina.panova@marine.gu.se; arne.nygren@kultur.goteborg.se; per.jonsson@marine.gu.se; Sonja.Leidenberger@slu.se,"Panova, Marina/0000-0002-4147-6473; Jonsson, Per/0000-0002-1793-5473","Panova, Marina/V-3533-2019",,1463-6409,Linnaeus Centre for Marine Evolutionary Biology at the University of Gothenburg; Linnaeus grant from the Swedish Research Council VR; Linnaeus grant from the Swedish Research Council FormasSwedish Research Council Formas,"This study was partly financed within the Linnaeus Centre for Marine Evolutionary Biology at the University of Gothenburg (http://www.cemeb.science.gu.se/) and supported by a Linnaeus grant from the Swedish Research Councils VR and Formas. Many thanks go to Prof. H.-D. Franke, Dr. F. Pleijel and E. Gustafsson for the assistance to collect Idotea material for this study. We also want to thank F. Mittermayer for some help with the laboratory work and Dr. S. Bostrom for the help with the loan of the Pentidotea and I. urotoma material from the Swedish Museum of Natural History, Stockholm, Sweden. Finally, we thank two anonymous reviewers for their helpful comments on the manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Article,PEERJ,2021-04-13,WOS:000396902100010,22,3,"Grabowski, M; Mamos, T; Bacela-Spychalska, K; Rewicz, T; Wattier, RA",J,English,Neogene paleogeography provides context for understanding the origin and spatial distribution of cryptic diversity in a widespread Balkan freshwater amphipod,2017.0,Science & Technology - Other Topics,5,2167-8359,,FEB 28,,,Ancient lakes; Gammarids; Phylogeography; Bayesian analysis; Balkan peninsula,"[Grabowski, Michal; Mamos, Tomasz; Bacela-Spychalska, Karolina] Univ Lodz, Dept Invertebrate Zool & Hydrobiol, PL-90131 Lodz, Poland; [Rewicz, Tomasz] Univ Lodz, Lab Microscop Imaging & Specialized Biol Tech, PL-90131 Lodz, Poland; [Wattier, Remi A.] Univ Bourgogne Franche Comte, CNRS, Lab Biogeosci, UMR 6282, Dijon, France","Background.The Balkans area major worldwide biodiversity and endemism hotspot Among the freshwater biota, amphipods are known for their high cryptic diversity. However, little is known about the temporal and paleogeographic aspects of their evolutionary history. We used paleogeography as a framework for understanding the onset of diversification in Gammarus roeselii; (1) we hypothesised that, given the high number of isolated waterbodies in the Balkans, the species is characterised by high level of cryptic diversity, even on a local scale; (2) the long geological history of the region might promote pre -Pleistocene divergence between lineages; (3) given that G. roeselii thrives both in lakes and rivers, its evolutionary history could be linked to the Balkan Neogene paleolake system; (4) we inspected whether the Pleistocene decline of hydrological networks could have any impact on the diversification of G. roeselii. Material and Methods. DNA was extracted from 177 individuals collected from 26 sites all over Balkans. All individuals were amplified for ca. 650 by long fragment of the mtDNA cytochrorn e oxidase subunit I (COI). After defining molecular operational taxonomic units (MOTU) based on COI, 50 individuals were amplified for ca. 900 bp long fragment of the nuclear 28S rDNA. Molecular diversity, divergence, differentiation and historical demography based on COI sequences were estimated for each MOTU. The relative frequency, geographic distribution and molecular divergence between COI haplotypes were presented as a median -joining network. COI was used also to reconstruct time -calibrated phylogeny with Bayesian inference. Probabilities of ancestors' occurrence in riverine or lacustrine habitats, as well their possible geographic locations, were estimated with the Bayesian method. A Neighbour Joining tree was constructed to illustrate the phylogenetic relationships between 28SrDNA haplotypes. Results. We revealed that G. roeselii includes at least 13 cryptic species or molecular operational taxonomic units (MOTUs), mostly of Miocene origin. A substantial Pleistocene diversification within-MOTUs was observed in several cases. We evidenced secondary contacts between very divergent MOTUs and introgression of nDNA. The Miocene ancestors could live in either lacustrine or riverine habitats yet their presumed geographic localisations overlapped with those of the Neogene lakes. Several extant riverine populations had Pleistocene lacustrine ancestors. Discussion. Neogene divergence of lineages resulting in substantial cryptic diversity may be a common phenomenon in extant freshwater benthic crustaceans occupying areas that were not glaciated during the Pleistocene. Evolution of G. roeselii could be associated with gradual deterioration of the paleolakes. The within-MOTU diversification might be driven by fragmentation of river systems during the Pleistocene. Extant ancient lakes could serve as local microrefugia during that time.",PEERJ INC,123,"341-345 OLD ST, THIRD FLR, LONDON, EC1V 9LL, ENGLAND",LONDON,38.0,EO7WZ,"Grabowski, Michal; Mamos, Tomasz; Bacela-Spychalska, Karolina; Rewicz, Tomasz; Wattier, Remi A.",35.0,32.0,Multidisciplinary Sciences,PEERJ,PeerJ,10.7717/peerj.3016,"Grabowski, M (corresponding author), Univ Lodz, Dept Invertebrate Zool & Hydrobiol, PL-90131 Lodz, Poland.",ASIA CRUSTACEA-AMPHIPODA; SPECIES DELIMITATION; INTEGRATIVE TAXONOMY; GENETIC DIVERSITY; GREEK POPULATIONS; ASELLUS-AQUATICUS; ADJACENT REGIONS; GAMMARUS-PULEX; LAKE SYSTEMS; NORTH-AFRICA,michalg@biol.uni.lodz.pl,"Grabowski, Michal/0000-0002-4551-3454; Mamos, Tomasz/0000-0002-0524-3015; Rewicz, Tomasz/0000-0002-2085-4973; Bacela-Spychalska, Karolina/0000-0003-4498-5107; Mamos, Tomasz/0000-0002-0524-3015","Grabowski, Michal/K-1016-2012; Mamos, Tomasz/E-4529-2015; Rewicz, Tomasz/H-5332-2018; Bacela-Spychalska, Karolina/E-4234-2015; Mamos, Tomasz/AAU-9303-2020",28265503.0,,"internal funds of the University of Lodz; Polish Ministry of Science and EducationMinistry of Science and Higher Education, Poland [N N303 579439]","The sampling was performed during the Amphi-Balkan Expeditions II-V organised by the senior author and financed partially from the internal funds of the University of Lodz. This study was financially supported by the Polish Ministry of Science and Education, grant number N N303 579439. The sampling was performed during the Amphi-Balkan Expeditions II-V organised by the senior author and financed partially from the internal funds of the University of Lodz. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.","DOAJ Gold, Green Published",,e3016,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000390964700022,29,1,"Fuller, N; Smith, JT; Nagorskaya, LL; Gudkov, DI; Ford, AT",J,English,Does Chernobyl-derived radiation impact the developmental stability of Asellus aquaticus 30 years on?,2017.0,Environmental Sciences & Ecology,576,0048-9697,,JAN 15,242,250,Chernobyl; Radioactivity; Fluctuating asymmetry; Aquatic invertebrate,"[Fuller, Neil; Ford, Alex T.] Univ Portsmouth, Sch Biol Sci, Inst Marine Sci, Ferry Rd, Portsmouth PO4 9LY, Hants, England; [Smith, Jim T.] Univ Portsmouth, Sch Earth & Environm Sci, Burnaby Bldg,Burnaby Rd, Portsmouth PO1 3QL, Hants, England; [Gudkov, Dmitri I.] Inst Hydrobiol, Dept Freshwater Radioecol, Geroyev Stalingrada Ave 12, UA-04210 Kiev, Ukraine; [Nagorskaya, Liubov L.] Natl Acad Sci Belarus, Appl Sci Ctr Bioresources, 27 Acad Skaya Str, Minsk 220072, BELARUS","Effects of long-term, environmentally relevant doses of radiation on biota remain unclear due to a lack of studies following chronic exposure in contaminated environments. The 1986 Chernobyl accident dispersed vast amounts of radioactivity into the environment which persists to date. Despite three decades of research, impacts of the incident on non-human organisms continues to be contested within the scientific literature. The present study assessed the impact of chronic radiation exposure from Chernobyl on the developmental stability of the model aquatic isopod, Asellus aquaticus using fluctuating asymmetry (FA) as an indicator. Fluctuating asymmetry, defined as random deviations from the expected perfect bilateral symmetry of an organism, has gained prominence as an indicator of developmental stability in ecotoxicology. Organisms were collected from six lakes along a gradient of radionuclide contamination in Belarus and the Ukraine. Calculated total dose rates ranged from 0.06-27.1 mu Gy/h. Fluctuating asymmetry was assessed in four meristic and one metrical trait. Significant differences in levels of pooled asymmetry were recorded between sample sites independent of sex and specific trait measured. However, there was no correlation of asymmetry with radiation doses, suggesting that differences in asymmetry were not attributed to radionuclide contamination and were driven by elevated asymmetry at a single site. No correlation between FA and measured environmental parameters suggested a biotic factor driving observed FA differences. This study appears to be the first to record no evident increase in developmental stability of biota from the Chernobyl region. These findings will aid in understanding the response of organisms to chronic pollutant exposure and the long term effects of large scale nuclear incidents such as Chernobyl and Fukushima. (C) 2016 The Authors. Published by Elsevier B.V.",ELSEVIER,77,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,9.0,EG3SJ,"Fuller, Neil; Smith, Jim T.; Nagorskaya, Liubov L.; Gudkov, Dmitri I.; Ford, Alex T.",16.0,15.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2016.10.097,"Ford, AT (corresponding author), Univ Portsmouth, Sch Biol Sci, Inst Marine Sci, Ferry Rd, Portsmouth PO4 9LY, Hants, England.",FLUCTUATING ASYMMETRY; WOLBACHIA INFECTION; SEXUAL-DIMORPHISM; POPULATIONS; ADAPTATION; WILDLIFE; STRESS; INSTABILITY; DEFORMITIES; ACCLIMATION,alex.ford@portac.uk,"Ford, Alex/0000-0001-5202-546X; Gudkov, Dmitri/0000-0002-5304-7414; Fuller, Neil/0000-0001-9486-6654","Ford, Alex/C-3522-2008; Gudkov, Dmitri/D-1111-2017",27788439.0,1879-1026,"Radioactive Waste Management Ltd.; NERC grantUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/L000393/1]; Environment Agency; Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/L000318/1, NE/L000393/1] Funding Source: researchfish","The authors greatly appreciate the comments made by two anonymous referees. This work was completed as part of the TREE (Transfer-Exposure-Effects) consortium under the RATE programme (Radioactivity and the Environment), funded by the Environment Agency and Radioactive Waste Management Ltd. N.F was supported by a NERC grant (NE/L000393/1) awarded to A.T.F and J.T.S.","Green Published, Other Gold",,,,,,,,,,,,,,,,,,,,,,,
Article,UKRAINIAN JOURNAL OF ECOLOGY,2021-04-13,WOS:000419834300064,4,0,"Marin, IN",J,English,"The invaders as natural biondicators using the example invasive amphipod Gmelinoides fasciatus (Stebbing, 1899) in the Moscow River Basin: the suggestion of G. lacustris/G. fasciatus bioindication pair",2017.0,Life Sciences & Biomedicine - Other Topics,7,2520-2138,4,,457,461,invasion; amphipods; anthropogenic pollution; bioindication; river Moskva; Moscow,"[Marin, I. N.] RAS, AN Severtzov Inst Ecol & Evolut, Moscow, Russia; [Marin, I. N.] Altai State Univ, Barnaul, Russia","The article presents data on the study of the diversity of crustacean communities in the Moscow-river basin. Two most common are two species of amphipods, invasive species Gmelinodes fasciatus and the native species Gammarus lacustris, were detected and studies during the study. However, the number of one of the most important bioindicator species of crustaceans, Asellus aquaticus found in our samples is insufficient for quantitative conclusions. At the same time, population of G. fasciatus can be characterized as stable at all studied stations and the species can be used as bioindicator of the natural condition of the river flowing within the Moscow City. The species seems to be significantly less sensitive to environment conditions and especially anthropogenic pollution than the native amphipod species G. lacustris and can successfully replace A. aquaticus as bioindicator species in the area where the latter species is absent. Thus, a new bioindicator pair Gammarus lacustris / Gmelinoides fasciatus is suggested for using in estimation water pollution In European part of the Russian Federation and adjacent areas.",ALEX MATSYURA PRESS,35,"ALTAI STATE UNIV, VUL LENINA, 20, MELITOPOL, 72312, UKRAINE",MELITOPOL,5.0,FS5KR,"Marin, I. N.",0.0,0.0,Biology,UKR J ECOL,Ukr. J. Ecol.,10.15421/2017_142,"Marin, IN (corresponding author), RAS, AN Severtzov Inst Ecol & Evolut, Moscow, Russia.; Marin, IN (corresponding author), Altai State Univ, Barnaul, Russia.",ERPOBDELLA-OCTOCULATA HIRUDINEA; LIFE-HISTORY VARIATION; ASELLUS-AQUATICUS; GAMMARUS-PULEX; CRUSTACEA; MICRUROPODIDAE; INVERTEBRATES; GAMMAROIDEA; POPULATION; ADAPTATION,coralliodecapoda@mail.ru,,,,,Russian Foundation of Basic ResearchRussian Foundation for Basic Research (RFBR) [15-34-70053_mol_a_mos],"This study was supported by the Russian Foundation of Basic Research with the grant 15-34-70053_mol_a_mos ""The study of the status of populations of freshwater crustaceans in the basin of rivers Moskva and Yauza as one of the factors of monitoring the state of the environment"".",DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,BRAIN BEHAVIOR AND EVOLUTION,2021-04-13,WOS:000401216800004,12,2,"Strauss, J; Stritih, N",J,English,Neuronal Regression of Internal Leg Vibroreceptor Organs in a Cave-Dwelling Insect (Orthoptera: Rhaphidophoridae: Dolichopoda araneiformis),2017.0,Behavioral Sciences; Neurosciences & Neurology; Zoology,89,0006-8977,2,,104,116,Insect; Neuroanatomy; Cave cricket; Chordotonal organ; Mechanoreceptor; Sensory evolution; Neuronal innervation; Troglomorphism; Troglobite,"[Strauss, Johannes] Justus Liebig Univ Giessen, AG Integrat Sensory Physiol, Inst Anim Physiol, Heinrich Buff Ring 26, DE-35392 Giessen, Germany; [Stritih, Natasa] Natl Inst Biol, Dept Organisms & Ecosyst Res, Ljubljana, Slovenia","Animals' adaptations to cave habitats generally include elaboration of extraoptic senses, and in insects the receptor structures located on the legs are supposed to become more prominent in response to constant darkness. The receptors for detecting substrate vibrations are often highly sensitive scolopidial sensilla localized within the legs or the body. For troglobitic insects the evolutionary changes in vibroreceptor organs have not been studied. Since rock is an extremely unfavorable medium for vibration transmission, selection on vibration receptors may be weakened in caves, and these sensory organs may undergo regressive evolution. We investigated the anatomy of the most elaborate internal vibration detection system in orthopteroid insects, the scolopidial subgenual organ complex in the cave cricket Dolichopoda araneiformis (Orthoptera: Ensifera: Rhaphidophoridae). This is a suitable model species which shows high levels of adaptation to cave life in terms of both phenotypic and life cycle characteristics. We compared our data with data on the anatomy and physiology of the subgenual organ complex from the related troglophilic species Troglophilus neglectus. In D. araneiformis, the subgenual organ complex contains three scolopidial organs: the subgenual organ, the intermediate organ, and the accessory organ. The presence of individual organs and their innervation pattern are identical to those found in T. neglectus, while the subgenual organ and the accessory organ of D. araneiformis contain about 50% fewer scolopidial sensilla than in T. neglectus. This suggests neuronal regression of these organs in D. araneiformis, which may reflect a relaxed selection pressure for vibration detection in caves. At the same time, a high level of overall neuroanatomical conservation of the intermediate organ in this species suggests persistence of the selection pressure maintaining this particular organ. While regressive evolution of chordotonal organs has been documented for insect auditory organs, this study shows for the first time that internal vibroreceptors can also be affected. (C) 2017 S. Karger AG, Basel",KARGER,86,"ALLSCHWILERSTRASSE 10, CH-4009 BASEL, SWITZERLAND",BASEL,13.0,EU7LR,"Strauss, Johannes; Stritih, Natasa",3.0,3.0,Behavioral Sciences; Neurosciences; Zoology,BRAIN BEHAV EVOLUT,Brain Behav. Evol.,10.1159/000462957,"Strauss, J (corresponding author), Justus Liebig Univ Giessen, AG Integrat Sensory Physiol, Inst Anim Physiol, Heinrich Buff Ring 26, DE-35392 Giessen, Germany.",CRICKET TROGLOPHILUS-NEGLECTUS; COMPLEX TIBIAL ORGAN; ASELLUS-AQUATICUS; FUNCTIONAL-MORPHOLOGY; SENSORY NEUROANATOMY; AUDITORY RECEPTORS; MITOCHONDRIAL-DNA; ACCESSORY-ORGAN; TYMPANAL EARS; LIFE-CYCLE,,,"Peljhan, Natasa Stritih/M-5369-2019",28407636.0,1421-9743,"Young Investigator Grant from the Justus-Liebig-Universitat Giessen; Slovenian Ministry of Education, Science, and Sport [P1-0255]","We thank Reinhard Lakes-Harlan (Giessen, Germany) for support of this study. J.S. was supported by a Young Investigator Grant from the Justus-Liebig-Universitat Giessen. The work of N.S. was financially supported by the research program P1-0255(B) of the Slovenian Ministry of Education, Science, and Sport. We thank two anonymous reviewers for their constructive comments which improved this paper.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGICAL QUESTIONS,2021-04-13,WOS:000427126500009,0,0,"Mimier, D; Godzich, M; Zbikowski, J",J,English,Macrozoobenthos structure in a temperate acid oligotrophic lake,2017.0,Environmental Sciences & Ecology,27,1644-7298,,,97,107,,"[Mimier, Daria; Godzich, Magdalena; Zbikowski, Janusz] Nicolaus Copernicus Univ, Fac Biol & Environm Protect, Dept Hydrobiol, Lwowska 1, PL-87100 Torun, Poland","The aim of the paper was to evaluate the structure of macrozoobenthos in acid, oligotrophic Jasne Lake. The basic abiotic parameters of water and bottom sediments were also studied. The samples were taken on five dates: 25.11.1997 and 13.05., 01.07., 07.08. and 21.10. in 1998. The sampling sites were located in four clearly different zones of the lake bottom at depths: 5 m, 10 m, 15 m and 19 m. The water transparency was very high (11 m) and water pH was extremely low (4.3). The oxygenation of the water near bottom was quite good up to a depth of 10 m. Generally both the water content (75.9%-96.1%) and organic matter content (17.5%-76.5%) in the bottom sediments were relatively high and increased with the depth. The taxonomic composition of the macrozoobenthos was similar to that of other acid water bodies, i.e. common, ubiquitous taxa dominated. Its species richness, diversity, and the density decreased as the depth increased but it is worth noting that the zone colonized by diverse and abundant macrozoobenthos extends to a depth of at least 10 m. The dominant group of benthic fauna at a depth of 5 m were Chironomidae larvae (almost 80% of the total macrozoobenthos density). At this station Ceratopogonidae and Sialis sp. larvae were also relatively numerous. In turn, at depths of 10 m and 15 m Asellus aquaticus (Isopoda) (43% and 57%, respectively) and Trichoptera larvae (37% and 21%, respectively) dominated. Among the chironomids Pseudochironomus sp. and Chironomus sp. larvae prevailed. The only taxa characteristic of acidic waters were Stylodrilus heringianus (Oligochaeta) and Ablabesmyia monilis (Chironomidae).",WYDAWNICTWO UNIWERSYTETU MIKOLAJA KOPERNIKA,49,"UL. GAGARINA 39, TORUN, 87-100, POLAND",TORUN,11.0,FY8PF,"Mimier, Daria; Godzich, Magdalena; Zbikowski, Janusz",2.0,2.0,Ecology,ECOL QUEST,Ecol. Quest.,10.12775/EQ.2017.031,"Zbikowski, J (corresponding author), Nicolaus Copernicus Univ, Fac Biol & Environm Protect, Dept Hydrobiol, Lwowska 1, PL-87100 Torun, Poland.",,jzbikow@umk.pl,"Zbikowski, Janusz/0000-0002-1190-9821","Zbikowski, Janusz/F-2498-2016",,2083-5469,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000387504700016,60,5,"Gardestrom, J; Ermold, M; Goedkoop, W; McKie, BG",J,English,Disturbance history influences stressor impacts: effects of a fungicide and nutrients on microbial diversity and litter decomposition,2016.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,61,0046-5070,12,DEC,2171,2184,agricultural intensification; aquatic fungi; functional redundancy; pollution-induced community tolerance; stressor interactions,"[Gardestrom, Johanna; Ermold, Matti; Goedkoop, Willem; McKie, Brendan G.] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, POB 7050, SE-75007 Uppsala, Sweden; [Gardestrom, Johanna] Umea Univ, Dept Ecol & Environm Sci, Umea, Sweden; [Ermold, Matti] Stockholm Univ, Dept Phys Geog & Quaternary Geol, Stockholm, Sweden","Streams draining agricultural catchments are severely degraded by multiple stressors, including nutrient enrichment and pesticides. The understanding of how such stressors interact to alter ecosystem structure and function, and how responses of biota reflect their longer-term disturbance history, remains limited. We conducted a multifactorial stream microcosm experiment to investigate how elevated nutrients and a fungicide (azoxystrobin) interact to affect multiple variables associated with leaf decomposition: the biomass, sporulation rate and diversity of aquatic hyphomycete decomposers, litter decomposition rates and detritivore growth. We further manipulated decomposer species composition by using three distinct fungal assemblages drawn from streams with contrasting histories of agricultural disturbance: a forest stream, a mixed land-use stream subject to nutrient enrichment but little pesticide use, and an agricultural stream subjected to both intensive nutrient and pesticide use. We also varied the presence of the detritivorous isopod Asellus aquaticus. The fungicide azoxystrobin reduced both biomass and diversity of aquatic hyphomycetes and growth of A.aquaticus, and had negative knock-on effects on leaf decomposition and fungal sporulation. These impacts further varied with nutrient concentration. Impacts of the fungicide differed markedly among the three fungal assemblages. The agricultural assemblages were dominated by tolerant species and showed some capacity for maintaining processes under pesticide exposure, whereas diversity and functioning were strongly suppressed in the forest stream assemblage, which was dominated by stress-intolerant species. Pesticides, in interaction with other agricultural stressors, can impact microbial diversity and key ecosystem processes underlying the delivery of ecosystem services from streams. The extent of such impacts vary according to the longer-term disturbance history of the biota, and might be most acute when agricultural activity expands into previously uncultivated catchments, as is currently occurring in many regions of the world.",WILEY-BLACKWELL,48,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,14.0,EB6OS,"Gardestrom, Johanna; Ermold, Matti; Goedkoop, Willem; McKie, Brendan G.",21.0,20.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.12698,"McKie, BG (corresponding author), Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, POB 7050, SE-75007 Uppsala, Sweden.",LEAF-LITTER; ASELLUS-AQUATICUS; INVERTEBRATE COMMUNITIES; ANTHROPOGENIC STRESS; AGRICULTURAL STREAMS; GAMMARUS-PULEX; PESTICIDES; BREAKDOWN; POLLUTION; RESPONSES,brendan.mckie@slu.se,,,,1365-2427,FORMAS grant [216-2004-1971],"We are grateful for the freely given advice of Mark Gessner during design of this study, and further invaluable guidance from Mark, Doris Hohmann and Eric Chauvet in the identification of the fungal spores. Laboratory assistance during the experiment was provided by David Englund, Marit Peterson prepared the fungicide stock solutions and ergosterol analyses were run by Margareta Zetherstrom. The manuscript benefited greatly from the insightful comments of Mirco Bundschuh, Dolly Jorgenson, Micael Jonsson and two anonymous referees, and the expert editing of Mark Gessner and David Strayer many thanks to all. Funding was provided by a FORMAS grant to WG (216-2004-1971), with additional material support from the Centre for Chemical Pesticides at the Swedish University of Agricultural Sciences.",,,,,,,,,,,,SI,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000386402200015,57,3,"Maazouzi, C; Coureau, C; Piscart, C; Saplairoles, M; Baran, N; Marmonier, P",J,English,"Individual and joint toxicity of the herbicide S-metolachlor and a metabolite, deethylatrazine on aquatic crustaceans: Difference between ecological groups",2016.0,Environmental Sciences & Ecology,165,0045-6535,,DEC,118,125,Aquatic toxicity; Groundwater; Surface water; Herbicides mixture; Metabolites,"[Maazouzi, C.; Piscart, C.; Marmonier, P.] Univ Lyon 1, ENTPE, CNRS, Ecol Hydrosyst Nat & Anthropises UMR5023, 43 Blvd 11 Novembre 1918, F-69622 Villeurbanne, France; [Coureau, C.; Baran, N.] Bur Rech Geol & Minieres, 3 Ave Claude Guillemin,BP 6009, F-45060 Orleans 2, France; [Saplairoles, M.] Bur Rech Geol & Minieres, 3 Rue Marie Curie,BP 49, F-31527 Ramonville St Agne, France; [Piscart, C.] Univ Rennes 1, CNRS, UMR Ecobio 6553, CS 74205, 263 Ave Gen Leclerc, F-35042 Rennes, France","We studied the individual and joint acute toxicity of S-metolachlor (SMOC) and deethylatrazine (DEA - a metabolite of atrazine) on different non-target freshwater crustaceans. We used animals from different ecological groups: two amphipods from surface running water (Gammarus pulex and Gammarus cf. orinos), an isopod from surface stagnant water (Asellus aquaticus) and an amphipod living in groundwater (Niphargus rhenorhodanensis). Organisms were exposed to different levels of SMOC and DEA, alone or in binary mixture. Temperature effect on SMOC toxicity was assessed by exposing G. pulex and N. rhenorhodanensis to SMOC at 11 degrees C and 15 degrees C. Studying mortality as the biological endpoint, N. rhenorhodanensis was more resistant than surface water species towards SMOC and DEA. Among surface water species, G. pulex was the most sensitive while Gammarus cf. orinos and A. aquaticus showed similar responses to both compounds. Temperature increase did not change SMOC toxicity but modify the shape and steepness of the dose-response curve. We used a Model Deviation Ratio (MDR) approach to evaluate the predictability of Concentration Addition (CA) and Independent Action (IA) models to mixture toxicity. Results indicated either an additive or an antagonistic or a synergistic interaction depending on the concentrations combination and the test species. Our finding conclusively show the suitability of CA and IA in predicting mixture toxicities but results should be interpreted with caution according to ecological group of exposed species in risk assessment procedures. (C) 2016 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,54,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,8.0,EA2DE,"Maazouzi, C.; Coureau, C.; Piscart, C.; Saplairoles, M.; Baran, N.; Marmonier, P.",19.0,15.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2016.09.030,"Maazouzi, C (corresponding author), Univ Lyon 1, ENTPE, CNRS, Ecol Hydrosyst Nat & Anthropises UMR5023, 43 Blvd 11 Novembre 1918, F-69622 Villeurbanne, France.",EMERGING ORGANIC CONTAMINANTS; DISSIMILARLY ACTING CHEMICALS; COMPLEX-MIXTURES; RISK-ASSESSMENT; GROUNDWATER; WATER; PESTICIDES; RESPONSES; SURFACE; ALGAE,chafik.maazouzi@univ-lyon1.fr,"BARAN, Nicole/0000-0002-1904-8560; piscart, christophe/0000-0002-4054-4542; ","BARAN, Nicole/AAM-4411-2020; piscart, christophe/K-4981-2019; Piscart, Christophe/AAD-8973-2019; Maazouzi, Chafik/A-8275-2010",27643657.0,1879-1298,Adour-Garonne Water Agency; European Union (FEDER)European Commission; BRGM,"This work, carried out within the framework of the ELISE project, was funded by the Adour-Garonne Water Agency, the European Union (FEDER) and BRGM.",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000383930400100,13,0,"Feckler, A; Goedkoop, W; Zubrod, JP; Schulz, R; Bundschuh, M",J,English,Exposure pathway-dependent effects of the fungicide epoxiconazole on a decomposer-detritivore system,2016.0,Environmental Sciences & Ecology,571,0048-9697,,NOV 15,992,1000,Asellus aquaticus; Biofilm; Fatty acid composition; Food quality; Leaf litter breakdown; Shredder,"[Feckler, Alexander; Goedkoop, Willem; Bundschuh, Mirco] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Box 7050, S-75007 Uppsala, Sweden; [Zubrod, Jochen P.; Schulz, Ralf; Bundschuh, Mirco] Univ Koblenz Landau, Inst Environm Sci, D-76829 Landau, Germany","Shredders play a central role in the breakdown of leaf material in aquatic systems. These organisms and the ecological function they provide may, however, be affected by chemical stressors either as a consequence of direct waterborne exposure or through alterations in food-quality (indirect pathway). To unravel the biological relevance of these effect pathways, we applied a 2 x 2-factorial test design. Leaf material was microbially colonized for 10 days in absence or presence of the fungicide epoxiconazole (15 mu g/L) and subsequently fed to the shredder Asellus aquaticus under exposure to epoxiconazole (15 mu g/L) or in fungicide-free medium over a 28-day period (n = 40). Both effect pathways caused alterations in asselids' food processing, physiological fitness, and growth, although not always statistically significantly: assimilation either increased or remained at a similar level relative to the control suggesting compensatory behavior of A. aquaticus to cope with the enhanced energy demand for detoxification processes and decreased nutritional quality of the food. The latter was driven by lowered microbial biomasses and the altered composition of fatty acids associated with the leaf material. Even with increased assimilation, direct and indirect effects caused decreases in the growth and lipid (fatty acid) content of A. aquaticus with relative effect sizes between 10 and 40%. Moreover, the concentrations of two essential polyunsaturated fatty acids (i.e., arachidonic acid and eicosapentaenoic acid) were non-significantly reduced (up to similar to 15%) in asselids. This effect was, however, independent of the exposure pathway. Although waterborne effects were generally stronger than the diet-related effects, results suggest impaired functioning of A. aquaticus via both effect pathways. (C) 2016 Elsevier B.V. All rights reserved.",ELSEVIER,67,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,9.0,DW8UG,"Feckler, Alexander; Goedkoop, Willem; Zubrod, Jochen P.; Schulz, Ralf; Bundschuh, Mirco",15.0,15.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2016.07.088,"Feckler, A (corresponding author), Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Box 7050, S-75007 Uppsala, Sweden.",LEAF-LITTER DECOMPOSITION; ASELLUS-AQUATICUS; MICROBIAL COMMUNITIES; FATTY-ACIDS; GAMMARUS-PULEX; FOOD SELECTION; DIET; TEBUCONAZOLE; PESTICIDES; TOXICITY,alexander.feckler@slu.se,"Schulz, Ralf/0000-0002-6348-6971; Schulz, Ralf/0000-0002-6348-6971; Bundschuh, Mirco/0000-0003-4876-220X","Zubrod, Jochen P/P-2748-2016; Schulz, Ralf/G-3674-2011; Schulz, Ralf/ABI-4526-2020; Bundschuh, Mirco/H-4559-2014",27450951.0,1879-1026,"Fix-Stiftung; Carl Tryggers Stiftelse for Vetenskaplig Forskning, Stockholm [CTS 13:72]; German Research Foundation (DFG)German Research Foundation (DFG) [SCHU2271/14-1]; LandauRussian Academy of Sciences","The authors thank Therese Burgi for the LC-MS analyses and Jana Pickova for her help during the FA analyses. Femke van Beersum and Simon Luderwald are acknowledged for laboratory assistance. We are grateful to Rebecca Bundschuh and the USDA Natural Resources Conservation Service for providing the drawings and photographs used to draft the graphical abstract as well as Fig. 1. At last, grateful acknowledgement goes to Brian Huser for his valuable comments during the peer review stage of this manuscript. The Fix-Stiftung, Landau, the Carl Tryggers Stiftelse for Vetenskaplig Forskning, Stockholm (grant no: CTS 13:72), the German Research Foundation (DFG; SCHU2271/14-1), as well as the Department of Aquatic Sciences and Assessment supported this project.",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENTIFIC REPORTS,2021-04-13,WOS:000385823200002,29,0,"Vonk, JA; van Kuijk, BF; van Beusekom, M; Hunting, ER; Kraak, MHS",J,English,The significance of linoleic acid in food sources for detritivorous benthic invertebrates,2016.0,Science & Technology - Other Topics,6,2045-2322,,OCT 21,,,,"[Vonk, J. Arie; van Kuijk, Bernd F.; van Beusekom, Mick; Kraak, Michiel H. S.] Univ Amsterdam, IBED, Dept Aquat Environm Ecol, Sciencepk 904, NL-1098 XH Amsterdam, Netherlands; [Hunting, Ellard R.] Leiden Univ, Inst Environm Sci CML, POB 9518, NL-2300 RA Leiden, Netherlands","Chemical composition of organic matter (OM) is a key driver for detritus consumption by macroinvertebrates and polyunsaturated fatty acid (PUFA) content is considered a candidate indicator of food palatability. Since traditionally used complex natural OM covaries in many quality attributes, it remains uncertain whether benthic invertebrates developed an actual preference for PUFA-rich food. Therefore we aimed to test the influence of the PUFA linoleic acid on OM consumption by aquatic macroinvertebrates using standardized surrogate substrates (decomposition and consumption tablet, DECOTAB) with added linoleic acid (PUFA) in comparison to consumption of DECOTAB containing only cellulose (Standard) or ground macrophytes (Plant). In microcosms, we observed a higher consumption rate of PUFA DECOTAB in comparison to Standard DECOTAB in two functionally distinct invertebrate species (Lumbriculus variegatus and Asellus aquaticus). This effect appeared to be overruled in the field due to unknown sources of natural variation. Although we observed higher consumption rates in species-rich ditches compared to species-poor ditches, consumption rates were comparable for all three types of DECOTAB deployed. Upon reduced food quality and palatability, results presented here hint that PUFA like linoleic acid may be a key OM attribute driving the performance of benthic macroinvertebrates and inherent functioning of aquatic ecosystems.",NATURE PUBLISHING GROUP,48,"MACMILLAN BUILDING, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,7.0,DZ4IZ,"Vonk, J. Arie; van Kuijk, Bernd F.; van Beusekom, Mick; Hunting, Ellard R.; Kraak, Michiel H. S.",8.0,8.0,Multidisciplinary Sciences,SCI REP-UK,Sci Rep,10.1038/srep35785,"Vonk, JA (corresponding author), Univ Amsterdam, IBED, Dept Aquat Environm Ecol, Sciencepk 904, NL-1098 XH Amsterdam, Netherlands.",POLYUNSATURATED FATTY-ACIDS; FRESH-WATER; LITTER QUALITY; LEAF-LITTER; DECOMPOSITION; GROWTH; DYNAMICS; DETRITUS; COMMUNITIES; DIVERSITY,j.a.vonk@uva.nl,"Vonk, Jan Arie/0000-0002-8803-1148; Hunting, Ellard/0000-0002-8794-3452","Vonk, Jan Arie/B-1105-2009",27767068.0,,,,"DOAJ Gold, Green Published",,35785,,,,,,,,,,,,,,,,,,,,,
Article,ECOHYDROLOGY,2021-04-13,WOS:000390021700013,8,1,"Konec, M; Delic, T; Trontelj, P",J,English,DNA barcoding sheds light on hidden subterranean boundary between Adriatic and Danubian drainage basins,2016.0,Environmental Sciences & Ecology; Water Resources,9,1936-0584,7,OCT,1304,1312,karst hydrology; cave; Asellus aquaticus; Asellus kosswigi; species delimitation; phylogeography; groundwater tracing,"[Konec, Marjeta; Delic, Teo; Trontelj, Peter] Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, SI-1000 Ljubljana, Slovenia; [Trontelj, Peter] Humboldt Univ, Museum Nat Kunde, Leibniz Inst Evolut & Biodiversitatsforsch, Invalidenstr 43, D-10115 Berlin, Germany","In principle, the distribution of freshwater fauna follows the extent of drainage basins, but various historical and concurrent factors weaken this correspondence. Subterranean karstic drainages can be particularly baffling as their boundaries are decoupled from the surface relief and change with the level of the karstic groundwater. We explored how the distribution and genetic structure of cave fauna correlate to data obtained by conventional groundwater tracers in the Danubian-Adriatic divide in the classical Karst between Postojna and Trieste. Here, waters from the Pivka Polje drain to either basin, depending on the water level. This ambiguity is reflected by the distribution of several aquatic cave species that disperse from one drainage to the other. However, using DNA barcoding methods, we found a clear-cut separation between the closely related subterranean aquatic isopods Asellus aquaticus on the Danubian and Asellus kosswigi on the Adriatic side. The boundary between them agrees with the established hydrology at normal water levels. Further phylogeographic and demographic analyses suggest that the superficial concurrent correspondence has a deeper historical component. We inferred that the Adriatic species did not reach its present boundary by recent range dispersal, but rather has remained there as relict from Pleistocene times. Today, dispersal from the lower part of the Adriatic (Reka River) drainage is impossible because of the large altitudinal difference within. These results demonstrate that biological and particularly genetic groundwater tracing have the advantage of being sensitive to both historical and contemporary groundwater connectivity. Copyright (C) 2016 John Wiley & Sons, Ltd.",WILEY,47,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,EF0NF,"Konec, Marjeta; Delic, Teo; Trontelj, Peter",6.0,4.0,Ecology; Environmental Sciences; Water Resources,ECOHYDROLOGY,Ecohydrology,10.1002/eco.1727,"Trontelj, P (corresponding author), Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, SI-1000 Ljubljana, Slovenia.",CAVE SHRIMP TROGLOCARIS; FRESH-WATER FISHES; CRYPTIC DIVERSITY; PHYLOGEOGRAPHY; GROUNDWATER; CRUSTACEA; CONSERVATION; BIODIVERSITY; BIOGEOGRAPHY; ISOPODA,peter.trontelj@bf.uni-lj.si,,,,1936-0592,Slovenian Research AgencySlovenian Research Agency - Slovenia [P1-0184],"We are thankful to Simona Prevorcnik and Cene Fiser for identifying collected specimens, to Ziga Fiser for permitting the use of his photographs of A. aquaticus, and to three anonymous reviewers for their helpful comments. The work was supported by the Slovenian Research Agency through Research Program P1-0184.",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000378206300020,106,2,"Rowett, CJ; Hutchinson, TH; Comber, SDW",J,English,"The impact of natural and anthropogenic Dissolved Organic Carbon (DOC), and pH on the toxicity of triclosan to the crustacean Gammarus pulex (L.)",2016.0,Environmental Sciences & Ecology,565,0048-9697,,SEP 15,222,231,Triclosan; Effluent; pH; TOXICITY; bioavailability; Dissolved Organic Carbon,"[Rowett, Christopher J.; Comber, Sean D. W.] Univ Plymouth, Sch Geog Earth & Environm Sci, Plymouth PL4 8AA, Devon, England; [Hutchinson, Thomas H.] Univ Plymouth, Sch Biol Sci, Plymouth PL4 8AA, Devon, England","Regulatory ecotoxicology testing rarely accounts for the influence of natural water chemistry on the bioavailability and toxicity of a chemical. Therefore, this study identifies whether key omissions in relation to Dissolved Organic Carbon (DOC) and pH have an impact on measured effect concentrations (EC). Laboratory ecotoxicology tests were undertaken for the widely used antimicrobial compound triclosan, using adult Gammarus pulex (L.), a wild-type amphipod using synthetic fresh water, humic acid solutions and wastewater treatment works effluent. The toxicity of triclosan was tested at two different pHs of 7.3 and 8.4, with and without the addition of DOC and 24 and 48 hour EC values with calculated 95% confidence intervals calculated. Toxicity tests undertaken at a pH above triclosan's pKa and in the presents of humic acid and effluent, containing 11 and 16 mg L-1 mean DOC concentrations respectively, resulted in significantly decreased triclosan toxicity. This was most likely a result of varying triclosan speciation and complexation due to triclosan's pKa and high hydrophobicity controlling its bioavailability. The mean 48 hour EC50 values varied between 0.75 +/- 0.45 and 1.93 +/- 0.12 mg L-1 depending on conditions. These results suggest that standard ecotoxicology tests can cause inaccurate estimations of triclosan's bioavailability and subsequent toxicity in natural aquatic environments. These results highlight the need for further consideration regarding the role that water chemistry has on the toxicity of organic contaminants and how ambient environmental conditions are incorporated into the standard setting and consenting processes in the future. (C) 2016 Elsevier B.V. All rights reserved.",ELSEVIER SCIENCE BV,53,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,DP0UV,"Rowett, Christopher J.; Hutchinson, Thomas H.; Comber, Sean D. W.",29.0,28.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2016.04.170,"Comber, SDW (corresponding author), Univ Plymouth, Sch Geog Earth & Environm Sci, Plymouth PL4 8AA, Devon, England.",PERSONAL CARE PRODUCTS; WASTE-WATER CONTAMINANTS; TREATMENT PLANTS; PSEUDOKIRCHNERIELLA-SUBCAPITATA; ASELLUS-AQUATICUS; IN-SITU; PHARMACEUTICALS; AMPHIPOD; ENVIRONMENT; ACID,sean.comber@plymouth.ac.uk,,,27173840.0,1879-1026,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY,2021-04-13,WOS:000380670400006,45,1,"Augusiak, J; Van den Brink, PJ",J,English,The influence of insecticide exposure and environmental stimuli on the movement behaviour and dispersal of a freshwater isopod,2016.0,Environmental Sciences & Ecology; Toxicology,25,0963-9292,7,SEP,1338,1352,Locomotion; Dispersal; Automated video tracking; Aquatic macroinvertebrates,"[Augusiak, Jacqueline; Van den Brink, Paul J.] Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands; [Van den Brink, Paul J.] Univ Wageningen & Res Ctr, Alterra, POB 47, NL-6700 AA Wageningen, Netherlands","Behaviour links physiological function with ecological processes and can be very sensitive towards environmental stimuli and chemical exposure. As such, behavioural indicators of toxicity are well suited for assessing impacts of pesticides at sublethal concentrations found in the environment. Recent developments in video-tracking technologies offer the possibility of quantifying behavioural patterns, particularly locomotion, which in general has not been studied and understood very well for aquatic macroinvertebrates to date. In this study, we aim to determine the potential effects of exposure to two neurotoxic pesticides with different modes of action at different concentrations (chlorpyrifos and imidacloprid) on the locomotion behaviour of the water louse Asellus aquaticus. We compare the effects of the different exposure regimes on the behaviour of Asellus with the effects that the presence of food and shelter exhibit to estimate the ecological relevance of behavioural changes. We found that sublethal pesticide exposure reduced dispersal distances compared to controls, whereby exposure to chlorpyrifos affected not only animal activity but also step lengths while imidacloprid only slightly affected step lengths. The presence of natural cues such as food or shelter induced only minor changes in behaviour, which hardly translated to changes in dispersal potential. These findings illustrate that behaviour can serve as a sensitive endpoint in toxicity assessments. However, under natural conditions, depending on the exposure concentration, the actual impacts might be outweighed by environmental conditions that an organism is subjected to. It is, therefore, of importance that the assessment of toxicity on behaviour is done under relevant environmental conditions.",SPRINGER,81,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,15.0,DS3GF,"Augusiak, Jacqueline; Van den Brink, Paul J.",2.0,2.0,Ecology; Environmental Sciences; Toxicology,ECOTOXICOLOGY,Ecotoxicology,10.1007/s10646-016-1686-y,"Augusiak, J (corresponding author), Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands.",BRACHIONUS-CALYCIFLORUS ROTIFER; SWIMMING SPEED ALTERATION; GAMMARUS-PULEX CRUSTACEA; LOCOMOTOR BEHAVIOR; CHRONIC TOXICITY; RESPONSES; LARVAE; STRESS; MACROINVERTEBRATES; CYPERMETHRIN,jacqueline.augusiak@wur.nl,"van den brink, Paul/0000-0002-7241-4347","van den brink, Paul/AAT-7144-2020",27307165.0,1573-3017,European Union (CREAM) [PITN-GA-2009-238148],"We thank Ivo Roessink and Theo Brock for their support in the realisation of the lab experiments. For assistance with R scripts, we thank Andrea Kolzsch. Furthermore, we would like to thank two anonymous reviewers for their valuable comments on a previous version of this manuscript that helped to greatly improve it. This work was financially supported by the European Union under the 7th Framework Programme (Project acronym CREAM, Contract Number PITN-GA-2009-238148).","Green Published, Other Gold",,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONAL JOURNAL OF SPELEOLOGY,2021-04-13,WOS:000383778600005,21,0,"Perez-Moreno, JL; Iliffe, TM; Bracken-Grissom, HD",J,English,Life in the Underworld: Anchialine cave biology in the era of speleogenomics,2016.0,Geology,45,0392-6672,2,MAY,149,170,biospeleology; crustacea; evolution; genomics; phylogeography,"[Perez-Moreno, Jorge L.; Bracken-Grissom, Heather D.] Florida Int Univ, Dept Biol Sci, Biscayne Bay Campus, North Miami, FL 33181 USA; [Iliffe, Thomas M.] Texas A&M Univ, Dept Marine Biol, Galveston, TX 77553 USA","Anchialine caves contain haline bodies of water with underground connections to the ocean and limited exposure to open air. Despite being found on islands and peninsular coastlines around the world, the isolation of anchialine systems has facilitated the evolution of high levels of endemism among their inhabitants. The unique characteristics of anchialine caves and of their predominantly crustacean biodiversity nominate them as particularly interesting study subjects for evolutionary biology. However, there is presently a distinct scarcity of modern molecular methods being employed in the study of anchialine cave ecosystems. The use of current and emerging molecular techniques, e.g., next-generation sequencing (NGS), bestows an exceptional opportunity to answer a variety of long-standing questions pertaining to the realms of speciation, biogeography, population genetics, and evolution, as well as the emergence of extraordinary morphological and physiological adaptations to these unique environments. The integration of NGS methodologies with traditional taxonomic and ecological methods will help elucidate the unique characteristics and evolutionary history of anchialine cave fauna, and thus the significance of their conservation in face of current and future anthropogenic threats. Here we review previous contributions to our understanding of anchialine biodiversity and evolution, and discuss the potential of ""speleogenomic"" methods for future research in these threatened systems.",SOCIETA SPELEOLOGICA ITALIANA,288,"VIA ZAMBONI 67, BOLOGNA, 40126, ITALY",BOLOGNA,22.0,DW6RM,"Perez-Moreno, Jorge L.; Iliffe, Thomas M.; Bracken-Grissom, Heather D.",19.0,19.0,"Geology; Geosciences, Multidisciplinary",INT J SPELEOL,Int. J. Speleol.,10.5038/1827-806X.45.2.1954,"Perez-Moreno, JL (corresponding author), Florida Int Univ, Dept Biol Sci, Biscayne Bay Campus, North Miami, FL 33181 USA.",ASELLUS-AQUATICUS CRUSTACEA; GREAT EXUMA ISLAND; PHYLOGENETIC-RELATIONSHIPS; REMIPEDIA CRUSTACEA; YUCATAN PENINSULA; CRYPTIC DIVERSITY; GENE-EXPRESSION; RNA-SEQ; POSTEMBRYONIC DEVELOPMENT; ENRICHMENT STRATEGIES,jorge.perezmoreno@fiu.edu,"Illife, Thomas/0000-0002-4342-5960; Perez-Moreno, Jorge Luis/0000-0002-6969-2928","Illife, Thomas/R-2252-2017",,1827-806X,Gulf of Mexico Research Initiative; National Science FoundationNational Science Foundation (NSF); NOAANational Oceanic Atmospheric Admin (NOAA) - USA; National Geographic SocietyNational Geographic Society,"We would like to thank Dr. Jose Maria Eirin-Lopez and Dr. Kalai Mathee (Florida International University) for their valuable comments during the preparation of this manuscript. We are also grateful to Joseph Song-Lopez, Jill Heinerth, and Tamara Thomsen for their diagrams and photographs of anchialine systems. This research was made possible in part by a grant from The Gulf of Mexico Research Initiative. Iliffe's anchialine cave research has been supported by grants from the National Science Foundation, NOAA, and National Geographic Society, among others. This is contribution #3 of the Marine Education and Research Center of the Institute for Water and the Environment at Florida International University.",DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER SCIENCE,2021-04-13,WOS:000370993800025,81,2,"Cook, AR; Hoellein, TJ",J,English,Environmental drivers of leaf breakdown in an urban watershed,2016.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,35,2161-9549,1,MAR,311,323,urban stream; leaf litter; amphipods; isopods,"[Cook, Ashley R.; Hoellein, Timothy J.] Loyola Univ, Dept Biol, 1032 West Sheridan Rd, Chicago, IL 60660 USA","Leaf-litter breakdown is an important ecosystem process in urban streams, but urbanization may have complicated effects on breakdown rates. Low abundance of macroinvertebrate shredders may slow breakdown, but rates may increase if high nutrient concentrations stimulate microbial decomposers or if flooding enhances leaf fragmentation. We measured the relative importance of multiple environmental drivers on breakdown of eastern cottonwood (Populus deltoides) leaves at 5 sites in the urbanized North Branch of the Chicago River watershed. Few specialized macroinvertebrate shredders were present, but generalist macroinvertebrates, including isopods (Asellus aquaticus) and amphipods (Gammarus sp.) were abundant at all sites. We tested macroinvertebrate effects on breakdown rate in large- and small-mesh bags. We measured discharge, nutrient concentrations, benthic macroinvertebrate community composition, and subwatershed land use at each site. Leaf breakdown differed significantly among sites and between mesh types. Discharge and isopod abundance were positively related to breakdown rates, whereas nutrient concentrations were unrelated to breakdown rates. Abundances of isopods and amphipods were significantly higher in litter bags than in benthic samples. We conducted follow-up experiments in artificial streams to measure the separate effects of water velocity and isopods on leaf breakdown based on conditions from field sites. Increasing water velocity from 0.02 (control) to 0.07 m/s (high velocity) increased leaf breakdown by 33%, and adding isopods (density = 1034 individuals/m(2)) increased leaf breakdown by 40%. Measuring environmental controls on leaf breakdown throughout urban watersheds is critical to the use of breakdown rates as an assessment tool for urban stream ecosystems. Our study provides input data for models of stream ecosystem function at urban sites and informs management approaches for urban streams at the watershed scale.",UNIV CHICAGO PRESS,71,"1427 E 60TH ST, CHICAGO, IL 60637-2954 USA",CHICAGO,13.0,DE9XS,"Cook, Ashley R.; Hoellein, Timothy J.",15.0,14.0,Ecology; Marine & Freshwater Biology,FRESHW SCI,Freshw. Sci.,10.1086/685086,"Hoellein, TJ (corresponding author), Loyola Univ, Dept Biol, 1032 West Sheridan Rd, Chicago, IL 60660 USA.",LITTER DECOMPOSITION; ORGANIC-MATTER; MICROBIAL ACTIVITY; STREAM; FUNGI; DETRITUS; INVERTEBRATES; SHREDDERS; DYNAMICS; RATES,ashrcook9@gmail.com; thoellein@luc.edu,,,,2161-9565,Loyola University Chicago Graduate School; National Science FoundationNational Science Foundation (NSF) [DEB 1427007],"We thank Loyola University Chicago Graduate School for funding this research and Cook County Forest Preserve for permitting. We appreciate the comments of John Kelly and Martin Berg on an early draft, and thank David Treering for geographical information system support. We thank Michael Hassett, Kayla Turek, Amanda McCormick, Abby Jacobs, Craig Stevens, Michelle Crisp, Melaney Dunne, Ricardo Magallon, Matthew Girard, and Joseph Gasior for field and laboratory assistance. We thank Loyola University Research Opportunities Program for supporting undergraduate student participation. We acknowledge National Science Foundation sponsorship of the 3rd Symposium on Urban Stream Ecosystems (DEB 1427007) for this special issue. We thank Guest Editor Christopher Walsh and 3 anonymous referees for insightful and constructive comments on the manuscript",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENTIFIC REPORTS,2021-04-13,WOS:000370475500001,27,0,"Hunting, ER; Vonk, JA; Musters, CJM; Kraak, MHS; Vijver, MG",J,English,Effects of agricultural practices on organic matter degradation in ditches,2016.0,Science & Technology - Other Topics,6,2045-2322,,FEB 19,,,,"[Hunting, Ellard R.; Musters, C. J. M.; Vijver, Martina G.] Leiden Univ, Inst Environm Sci CML, Leiden, Netherlands; [Vonk, J. Arie; Kraak, Michiel H. S.] Univ Amsterdam, Inst Biodivers & Ecosyst Dynam IBED AEE, Amsterdam, Netherlands","Agricultural practices can result in differences in organic matter (OM) and agricultural chemical inputs in adjacent ditches, but its indirect effects on OM composition and its inherent consequences for ecosystem functioning remain uncertain. This study determined the effect of agricultural practices (dairy farm grasslands and hyacinth bulb fields) on OM degradation by microorganisms and invertebrates with a consumption and food preference experiment in the field and in the laboratory using natural OM collected from the field. Freshly cut grass and hyacinths were also offered to control for OM composition and large- and small mesh-sizes were used to distinguish microbial decomposition and invertebrate consumption. Results show that OM decomposition by microorganisms and consumption by invertebrates was similar throughout the study area, but that OM collected from ditches adjacent grasslands and freshly cut grass and hyacinths were preferred over OM collected from ditches adjacent to a hyacinth bulb field. In the case of OM collected from ditches adjacent hyacinth bulb fields, both microbial decomposition and invertebrate consumption were strongly retarded, likely resulting from sorption and accumulation of pesticides. This outcome illustrates that differences in agricultural practices can, in addition to direct detrimental effects on aquatic organisms, indirectly alter the functioning of adjacent aquatic ecosystems.",NATURE PUBLISHING GROUP,57,"MACMILLAN BUILDING, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,9.0,DE2RV,"Hunting, Ellard R.; Vonk, J. Arie; Musters, C. J. M.; Kraak, Michiel H. S.; Vijver, Martina G.",15.0,14.0,Multidisciplinary Sciences,SCI REP-UK,Sci Rep,10.1038/srep21474,"Hunting, ER (corresponding author), Leiden Univ, Inst Environm Sci CML, Leiden, Netherlands.",LEAF-LITTER BREAKDOWN; ECHINOGAMMARUS-MERIDIONALIS; LAND-USE; BENTHIC INVERTEBRATES; BEHAVIORAL-RESPONSES; ASELLUS-AQUATICUS; DAPHNIA-MAGNA; DECOMPOSITION; STREAMS; COPPER,E.R.Hunting@cml.leidenuniv.nl,"Vonk, Jan Arie/0000-0002-8803-1148; Musters, C.J.M./0000-0003-1321-6786; Vijver, Martina/0000-0003-2999-1605; Hunting, Ellard/0000-0002-8794-3452","Musters, Cornelis/K-7828-2013; Vonk, Jan Arie/B-1105-2009",26892243.0,,NWO-VIDINetherlands Organization for Scientific Research (NWO) [864.13.010],"The authors express their gratitude toward Erik Gentenaar, Ard van Dienst, Tony Wilkes for practical assistance, Laura van Rooijen for practical assistance and useful discussions, Steve Davies for providing pesticide-free plant material and Bram Kroese (EIS) for assistance in invertebrate-taxonomy. Martina G. Vijver was funded by NWO-VIDI 864.13.010.","DOAJ Gold, Green Published",,21474,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY RESEARCH,2021-04-13,WOS:000370868600009,35,2,"Emde, S; Kochmann, J; Kuhn, T; Dorge, DD; Plath, M; Miesen, FW; Klimpel, S",J,English,"Cooling water of power plant creates ""hot spots"" for tropical fishes and parasites",2016.0,Parasitology,115,0932-0113,1,JAN,85,98,Thermal alteration; Invasive species; Tropical fish; Camallanus cotti; Amatitlania nigrofasciata; Acanthocephalus anguillae,"[Emde, Sebastian; Kochmann, Judith; Kuhn, Thomas; Doerge, Dorian D.; Klimpel, Sven] Goethe Univ Frankfurt, Senckenberg Gesell Nat Forsch, Senckenberg Biodivers & Climate Res Ctr, Inst Ecol Evolut & Divers, Max von Laue Str 13, D-60438 Frankfurt, Germany; [Plath, Martin] Northwest A&F Univ, Coll Anim Sci & Technol, Yangling 712100, Peoples R China; [Miesen, Friedrich W.] Zool Forsch Museum Alexander Koenig, Sekt Ichthyol, Adenauerallee 160, D-53113 Bonn, Germany","Thermally altered water bodies can function as ""hot spots"" where non-native species are establishing self-sustaining populations beyond their tropical and subtropical native regions. Whereas many tropical fish species have been found in these habitats, the introduction of non-native parasites often remains undetected. Here, n=77 convict cichlids (Amatitlania nigrofasciata) were sampled by electro-fishing at two sites from a thermally altered stream in Germany and examined for parasite fauna and feeding ecology. Stomach content analysis suggests an opportunistic feeding strategy of A. nigrofasciata: while plant material dominated the diet at the warm water inlet (similar to 30 degrees C), relative contributions of insects, plants, and crustaceans were balanced 3 km downstream (similar to 27 degrees C). The most abundant non-native parasite species was the tropical nematode Camallanus cotti with P=11.90 % and P=80.00 % at the inlet and further downstream, respectively. Additionally, nematode larvae of Anguillicoloides crassus and one specimen of the subtropical species Bothriocephalus acheilognathi were isolated. A. nigrofasciata was also highly infected with the native parasite Acanthocephalus anguillae, which could be linked to high numbers of the parasite's intermediate host Asellus aquaticus. The aim of this study was to highlight the risk and consequences of the release and establishment of ornamental fish species for the introduction and spread of non-indigenous metazoan parasites using the convict cichlid as a model species. Furthermore, the spread of non-native parasites into adjacent fish communities needs to be addressed in the future as first evidence of Camallanus cotti in native fish species was also found.",SPRINGER,91,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,14.0,DE8EM,"Emde, Sebastian; Kochmann, Judith; Kuhn, Thomas; Doerge, Dorian D.; Plath, Martin; Miesen, Friedrich W.; Klimpel, Sven",15.0,15.0,Parasitology,PARASITOL RES,Parasitol. Res.,10.1007/s00436-015-4724-4,"Emde, S (corresponding author), Goethe Univ Frankfurt, Senckenberg Gesell Nat Forsch, Senckenberg Biodivers & Climate Res Ctr, Inst Ecol Evolut & Divers, Max von Laue Str 13, D-60438 Frankfurt, Germany.",ACANTHOCEPHALUS-ANGUILLAE ACANTHOCEPHALA; TAPEWORM BOTHRIOCEPHALUS-ACHEILOGNATHI; ASELLUS-AQUATICUS CRUSTACEA; CAMALLANUS-COTTI FUJITA; CICHLASOMA-NIGROFASCIATUM; HELMINTH-PARASITES; EUROPEAN EELS; 1927 NEMATODA; LIFE-HISTORY; CRASSUS,sebastian.emde@senckenberg.de,"Kochmann, Judith/0000-0001-6312-7859","Kochmann, Judith/AAG-3574-2021",26374537.0,1432-1955,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000368074900011,50,2,"Green, KK; Eroukhmanoff, F; Harris, S; Pettersson, LB; Svensson, EI",J,English,Rapid changes in genetic architecture of behavioural syndromes following colonization of a novel environment,2016.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,29,1010-061X,1,JAN,144,152,animal personality; Asellus aquaticus; boldness; correlational selection; ecotype; G-matrix; heritability; predation,"[Green, K. Karlsson; Eroukhmanoff, F.; Harris, S.; Pettersson, L. B.; Svensson, E. I.] Lund Univ, Dept Biol, Lund, Sweden; Swedish Univ Agr Sci, Dept Plant Protect Biol, Alnarp, Sweden; Univ Oslo, Dept Biosciences, CEES, Blindern, Oslo, Norway; Grabov 28, Dalby, Gothenburg, Sweden","Behavioural syndromes, that is correlated behaviours, may be a result from adaptive correlational selection, but in a new environmental setting, the trait correlation might act as an evolutionary constraint. However, knowledge about the quantitative genetic basis of behavioural syndromes, and the stability and evolvability of genetic correlations under different ecological conditions, is limited. We investigated the quantitative genetic basis of correlated behaviours in the freshwater isopod Asellus aquaticus. In some Swedish lakes, A.aquaticus has recently colonized a novel habitat and diverged into two ecotypes, presumably due to habitat-specific selection from predation. Using a common garden approach and animal model analyses, we estimated quantitative genetic parameters for behavioural traits and compared the genetic architecture between the ecotypes. We report that the genetic covariance structure of the behavioural traits has been altered in the novel ecotype, demonstrating divergence in behavioural correlations. Thus, our study confirms that genetic correlations behind behaviours can change rapidly in response to novel selective environments.",WILEY,57,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,DA8RX,"Green, K. Karlsson; Eroukhmanoff, F.; Harris, S.; Pettersson, L. B.; Svensson, E. I.",7.0,7.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/jeb.12769,"Green, KK (corresponding author), Swedish Univ Agr Sci, Dept Plant Protect Biol, POB 102, SE-23053 Alnarp, Sweden.",G-MATRIX; CORRELATIONAL SELECTION; ECOTYPE DIVERGENCE; PERSONALITY; EVOLUTION; INTEGRATION; STABILITY; ISOPOD; EVOLVABILITY; POPULATION,kristina.karlsson.green@slu.se,"Pettersson, Lars/0000-0001-5745-508X; Svensson, Erik/0000-0001-9006-016X","Pettersson, Lars/AAX-3948-2020; Svensson, Erik/E-8324-2010",26427029.0,1420-9101,"Swedish Research CouncilSwedish Research CouncilEuropean Commission; Oscar & Lilli Lamms Stiftelse; Swedish Environmental Protection Agency; Marie Sklodowska Curie Actions, project INCA [600398]","We are grateful to Sita Ollek, Thomas Bourdier and Bjorn Gunnarsson for their field and laboratory assistance. Shawn Kuchta and two anonymous reviewers gave valuable comments to a previous draft of this study. This study was financially supported by the Swedish Research Council (to E.I.S., L.B.P. and K.K.G.), by Oscar & Lilli Lamms Stiftelse (to E.I.S.), by the Swedish Environmental Protection Agency (to L.B.P.) and by Marie Sklodowska Curie Actions, project INCA 600398 (to K.K.G.). The authors declare no conflict of interest.",,,,,,,,,,,,,,,,,,,,,,,,
Article,BEHAVIOUR,2021-04-13,WOS:000382245200004,25,0,"Kopp, DA; Bierbower, SM; Murphy, AD; Mormann, K; Sparkes, TC",J,English,Parasite-related modification of mating behaviour and refuge use in the aquatic isopod Caecidotea intermedius: neurological correlates,2016.0,Behavioral Sciences; Zoology,153,0005-7959,8,,947,961,Acanthocephalus dirus; behaviour modification; serotonin; dopamine,"[Kopp, Darin A.; Murphy, Alexandrea D.; Mormann, Kimberly; Sparkes, Timothy C.] Depaul Univ, Dept Biol Sci, Chicago, IL 60604 USA; [Bierbower, Sonya M.] Univ Kentucky, Dept Biol, Lexington, KY 40506 USA; [Bierbower, Sonya M.] William Paterson Univ, Dept Biol, Wayne, NJ 07470 USA; [Murphy, Alexandrea D.] United Way Metropolitan Chicago, Chicago, IL 60604 USA; [Mormann, Kimberly] Univ Chicago, Inst Mol Engn, Chicago, IL 60637 USA; [Mormann, Kimberly] Univ Chicago, Div Phys Sci, Chicago, IL 60637 USA; [Kopp, Darin A.] Arizona State Univ, Sch Life Sci, Tempe, AZ 85281 USA","The acanthocephalan Acanthocephalus dirus is a trophically transmitted parasite that infects freshwater isopods as intermediate hosts and fish as definitive hosts. Using a laboratory-based experiment, we examined if parasite infection was associated with changes in mating behaviour, refuge use and neurochemical levels of infected isopods (Caecidotea intermedius). Infected isopods were less likely to engage in mating behaviour and more likely to be located in the open than uninfected isopods. Infected isopods also contained lower levels of serotonin (5-HT) and dopamine (DA) and had a greater mass of neural tissue (CNS) than uninfected isopods. We propose that the parasite-related changes in mating behaviour and refuge use may be modulated by the serotonergic and dopaminergic systems. We also suggest that the parasites could potentially be modulating these behavioural changes by exploiting the neural-immune system of the hosts through their neuroinflammatory responses.",BRILL ACADEMIC PUBLISHERS,65,"PLANTIJNSTRAAT 2, P O BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,15.0,DU5IK,"Kopp, Darin A.; Bierbower, Sonya M.; Murphy, Alexandrea D.; Mormann, Kimberly; Sparkes, Timothy C.",5.0,5.0,Behavioral Sciences; Zoology,BEHAVIOUR,Behaviour,10.1163/1568539X-00003379,"Sparkes, TC (corresponding author), Depaul Univ, Dept Biol Sci, Chicago, IL 60604 USA.",BRAIN SEROTONERGIC ACTIVITY; STREAM-DWELLING ISOPOD; FRESH-WATER ISOPODS; HOST MANIPULATION; ACANTHOCEPHALUS-DIRUS; PAIRING SUCCESS; POMPHORHYNCHUS-LAEVIS; ASELLUS-AQUATICUS; FEMALE RESISTANCE; CRUSTACEA,tsparkes@depaul.edu,,,,1568-539X,Sigma Xi; Illinois Louis-Stokes Alliance for Minority Participation (National Science Foundation); Undergraduate Research Assistantship Program; Undergraduate Summer Research Program; University Research Council; Faculty Summer Research Grant (DePaul University),"Funding was provided by a Grant-in-Aid of Research (Sigma Xi), the Illinois Louis-Stokes Alliance for Minority Participation (National Science Foundation), the Undergraduate Research Assistantship Program, the Undergraduate Summer Research Program, the University Research Council, and a Faculty Summer Research Grant (DePaul University). Robin Cooper (University of Kentucky) and Eric Norstrom (DePaul University) provided technical insights and Melissa Benemerito, Armando Jay Dela Cruz, Brian Grewe and Amit Raj provided assistance with data collection. The manuscript was improved significantly by comments from two anonymous reviewers.",,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY,2021-04-13,WOS:000367633100016,43,0,"Becker, J; Ortmann, C; Wetzel, MA; Koop, JHE",J,English,"Metabolic activity and behavior of the invasive amphipod Dikerogammarus villosus and two common Central European gammarid species (Gammarus fossarum, Gammarus roeselii): Low metabolic rates may favor the invader",2016.0,Biochemistry & Molecular Biology; Physiology; Zoology,191,1095-6433,,JAN,119,126,Dikerogammarus villosus; Gammarus fossarum; Gammarus roeselii; Glycogen; Heat production; Invasive species; Metabolic rate; Locomotor activity; Triglyceride,"[Becker, Jochen; Wetzel, Markus A.; Koop, Jochen H. E.] Univ Koblenz Landau, Inst Integrated Nat Sci, Dept Biol, D-56070 Koblenz, Germany; [Becker, Jochen; Wetzel, Markus A.; Koop, Jochen H. E.] Fed Inst Hydrol, Dept Anim Ecol, D-56068 Koblenz, Germany; [Ortmann, Christian] TA Instruments, D-65760 Eschborn, Germany","The Ponto-Caspian amphipod Dikerogammarus villosus is one of the most successful invaders in Central European rivers. Contrary to studies on its ecology, ecophysiological studies comparing the species' physiological traits are scarce. In this context, in particular the metabolic activity of the invasive species has rarely been considered and, moreover, the few existing studies on this species report strongly deviating results. The purpose of this study was to assess the metabolic activity and behavior of D. villosus and other common European amphipod species (Gammarus fossarum, Gammarus roeselii) in relation to temperatures covering the thermal regime of the invaded habitats. Based on direct calorimetric measurements of metabolic heat dissipation at three temperature levels (5 degrees C, 15 degrees C and 25 degrees C), we found the routine metabolic rate of D. villosus to be significantly lower than that of the other studied gammarid species at the medium temperature level. The estimated resting metabolic rate indicated a similar trend. At 5 degrees C and 25 degrees C, both routine and resting metabolic rate did not differ between species. Compared to G. fossarum and G. roeselii, D. villosus exhibited lower locomotor activity at the low and medium temperatures (5 degrees C and 15 degrees C). In contrast, its locomotor activity increased at the high experimental temperature (25 degrees C). G. fossarum and G. roeselii were apparently more active than D. villosus at all studied temperatures. We conclude that D. villosus has both physiological and behavioral adaptations that lead to a reduction in metabolic energy expenditure, which is assumed to be beneficial and might contribute to its invasive success. (c) 2015 Elsevier Inc. All rights reserved.",ELSEVIER SCIENCE INC,60,"STE 800, 230 PARK AVE, NEW YORK, NY 10169 USA",NEW YORK,8.0,DA2NN,"Becker, Jochen; Ortmann, Christian; Wetzel, Markus A.; Koop, Jochen H. E.",10.0,10.0,Biochemistry & Molecular Biology; Physiology; Zoology,COMP BIOCHEM PHYS A,Comp. Biochem. Physiol. A-Mol. Integr. Physiol.,10.1016/j.cbpa.2015.10.015,"Becker, J (corresponding author), Univ Koblenz Landau, Inst Integrated Nat Sci, Dept Biol, Univ Str 1, D-56070 Koblenz, Germany.",FATTY-ACID-COMPOSITION; LONG-TERM STARVATION; LIFE-HISTORY TRAITS; OXYGEN-CONSUMPTION; ASELLUS-AQUATICUS; ENERGY RESERVES; TIGRINUS SEXTON; WATER; RESPONSES; TEMPERATURE,jochenbecker@uni-koblenz.de,,,26478193.0,1531-4332,"Deutsche ForschungsgemeinschaftGerman Research Foundation (DFG) [KO 2133/2, WI 3592/1-1]; Federal Ministry of Transport and Digital Infrastructure (BMVI, Germany); Konrad-Adenauer-Stiftung (KAS)","We appreciate the help of E. Wackermann and M. Gotten during the laboratory experiments. The authors thank one anonymous reviewer as well as C. Winkelmann, M. Normant and S. Worischka for their helpful comments on a previous draft of the manuscript We also acknowledge the help of Kenneth Gildner in language editing. Parts of this study were financially supported by the Deutsche Forschungsgemeinschaft (Grants: KO 2133/2, WI 3592/1-1), and further support was provided by the research program 'KLIWAS' of the Federal Ministry of Transport and Digital Infrastructure (BMVI, Germany). J.B. gratefully appreciates the financial support of the Konrad-Adenauer-Stiftung (KAS).",,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000361191100018,116,1,"Van Ginneken, M; De Jonge, M; Bervoets, L; Blust, R",J,English,"Uptake and toxicity of Cd, Cu and Pb mixtures in the isopod Asellus aquaticus from waterborne exposure",2015.0,Environmental Sciences & Ecology,537,0048-9697,,DEC 15,170,179,Metal mixtures; Uptake rates; Bioaccumulation; Growth; Mortality,"[Van Ginneken, M.; De Jonge, M.; Bervoets, L.; Blust, R.] Univ Antwerp, Dept Biol Syst Physiol & Ecotoxicol Res SPHERE, B-2020 Antwerp, Belgium","The present study evaluated interactions of waterborne Cd, Cu and Pb mixtures on metal uptake rates in the isopod Asellus aquaticus and related this to mixture effects on toxicity. Secondly, it was assessed whether observed mixture effects were better related to isopod body concentrations compared to exposure concentrations. Isopods were exposed for 10 days to single, binary and tertiary mixtures including five different concentrations of Cd (0.107 to 277 mu g L-1), Cu (3.35 to 2117 mu g L-1) and Pb (0.782 to 443 mu g L-1). Mortality was assessed every day while isopod body concentrations, growth (biomass) and energy reserves (glycogen, lipid and protein reserves) were assessed at the end of the experiment. Synergistic interactions of combined Cd and Pb exposure on Cd and Pb uptake as well as on growth rates and mortality rates were observed. Mixture effects of combined Cd and Pb exposure on toxicity endpoints were directly related to increased Cd uptake in the Cd + Pb treatment. No mixture interactions of Cu on Cd or Pb uptake (and vice versa), nor on toxicity endpoints were observed. All toxicity endpoints were related to body concentrations. However, mixture effects disappeared when growth and mortality rates were expressed on body concentrations instead of exposure concentrations. By combining information of mixture effects on metal uptake with mixture toxicity data, the present study provides more insight in the way metal mixtures interfere with aquatic organisms and how they can induce toxic effects. (C) 2015 Elsevier B.V. All rights reserved.",ELSEVIER SCIENCE BV,55,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,CR2WI,"Van Ginneken, M.; De Jonge, M.; Bervoets, L.; Blust, R.",16.0,16.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2015.07.153,"Van Ginneken, M (corresponding author), Univ Antwerp, Dept Biol Syst Physiol & Ecotoxicol Res SPHERE, Groenenborgerlaan 171, B-2020 Antwerp, Belgium.",BIOTIC LIGAND MODEL; METAL MIXTURES; CARCINUS-MAENAS; ORGANIC-MATTER; DAPHNIA-MAGNA; CADMIUM; BIOACCUMULATION; COPPER; ZN; CALCIUM,marjolein.vanginneken@uantwerpen.be,,,26282750.0,1879-1026,Research Foundation Flanders (FWO)FWO [12B12113N],We would like to thank Francesc Perarnau Bayo and Mohamed Karem for their assistance in the lab. Steven Joosen is acknowledged for performing the metal analyses. Marjolein Van Ginneken is funded by a doctoral grant from the Research Foundation Flanders (FWO). Maarten De Jonge is funded by a post-doctoral grant (FWO) (Grant nr. 12B12113N).,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THERMAL BIOLOGY,2021-04-13,WOS:000366775500009,61,3,"Hoefnagel, KN; Verberk, WCEP",J,English,Is the temperature-size rule mediated by oxygen in aquatic ectotherms?,2015.0,Life Sciences & Biomedicine - Other Topics; Zoology,54,0306-4565,,DEC,56,65,Asellus aquaticus; Oxygen limitation; Hypoxia; Growth; Maturity; Von Bertalanffy growth function,"[Hoefnagel, K. Natan; Verberk, Wilco C. E. P.] Radboud Univ Nijmegen, Inst Water & Wetland Res, Dept Anim Ecol & Ecophysiol, NL-6525 AJ Nijmegen, Netherlands","Temperature is an important environmental factor that influences key traits like body size, growth rate and maturity. Ectotherms reared under high temperatures usually show faster growth, but reach a smaller final size, a phenomenon known as the temperature-size rule (TSR). Oxygen may become a limiting resource at high temperatures, when demand for oxygen is high, especially in water as oxygen uptake is far more challenging under water than in air. Therefore, in aquatic ectotherms, the TSR might very well be mediated by temperature effects on oxygen availability and oxygen demand. To distinguish between the direct effects of temperature and oxygen mediated effects, growth rate and final size were measured in the aquatic ectotherm Asellus aquaticus (Linnaeus, 1758) reared under different temperature and oxygen conditions in a factorial design. Growth could be best described by a modified Von Bertalanffy growth function. Both temperature and oxygen affected age at maturity and growth. Growth responses to temperature were dependent on oxygen conditions (interactive effect of temperature and oxygen). Only under hypoxic conditions, when oxygen was mast limiting, did we find a classic TSR. Moreover, when comparing treatments differing in temperature, but where the balance between oxygen demand and supply was similar, high temperature increased both growth rate and final size. Thus effects of oxygen may resolve the life-history puzzle of the TSR in aquatic ectotherms. (C) 2014 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,48,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,10.0,CZ0DO,"Hoefnagel, K. Natan; Verberk, Wilco C. E. P.",39.0,38.0,Biology; Zoology,J THERM BIOL,J. Therm. Biol.,10.1016/j.jtherbio.2014.12.003,"Hoefnagel, KN (corresponding author), Radboud Univ Nijmegen, Inst Water & Wetland Res, Dept Anim Ecol & Ecophysiol, POB 9010,6500 GL,Heyendaelseweg 135, NL-6525 AJ Nijmegen, Netherlands.",ASELLUS-AQUATICUS; LIFE-HISTORY; BODY-SIZE; GROWTH-CURVES; ISOPODA; POPULATION; CRUSTACEA; ECOLOGY; PUZZLE,n.hoefnagel@science.ru.nl; wilco@aquaticecology.nl,"Verberk, Wilco/0000-0002-0691-583X","Verberk, Wilco/E-6337-2011",26615727.0,,European Research CouncilEuropean Research Council (ERC)European Commission; Journal of Thermal Biology,"The authors thank Marij Orbons and Jasper Bunschoten for logistic support and Henk Siepel, Marjolein Bruijning and two anonymous reviewers for helpful comments on an earlier version of the manuscript. Heidrun Huber is thanked for advice on statistical analyses. We also thank the technical staff of the Faculty of Science of the Radboud University for manufacturing laboratory equipment. John Terblanche and Johannes Overgaard are thanked for organizing an excellent session at the 2014 Society for Experimental Biology meeting in Manchester, UK, where this research was first presented. W.C.E.P.V. acknowledges support from the European Research Council (Marie-Curie Fellowship FP7-PEOPLE-2012-CIG) and from Journal of Thermal Biology to attend the 2014 SEB meeting.",,,,,,,,,,,,SI,,,,,,,,,,,,
Article,PLOS ONE,2021-04-13,WOS:000362962300103,23,0,"Stahl, BA; Gross, JB; Speiser, DI; Oakley, TH; Patel, NH; Gould, DB; Protas, ME",J,English,"A Transcriptomic Analysis of Cave, Surface, and Hybrid Isopod Crustaceans of the Species Asellus aquaticus",2015.0,Science & Technology - Other Topics,10,1932-6203,10,OCT 13,,,,"[Stahl, Bethany A.; Gross, Joshua B.] Univ Cincinnati, Dept Biol Sci, Cincinnati, OH USA; [Stahl, Bethany A.] Florida Atlantic Univ, Dept Biol Sci, Jupiter, FL 33458 USA; [Speiser, Daniel I.] Univ S Carolina, Dept Biol Sci, Columbia, SC 29208 USA; [Oakley, Todd H.] Univ Calif Santa Barbara, Dept Ecol Evolut & Marine Biol, Santa Barbara, CA 93106 USA; [Patel, Nipam H.] Univ Calif Berkeley, Dept Mol & Cell Biol, Berkeley, CA 94720 USA; [Patel, Nipam H.] Univ Calif Berkeley, Dept Integrat Biol, Berkeley, CA 94720 USA; [Gould, Douglas B.] UCSF Sch Med, Inst Human Genet, Dept Ophthalmol, San Francisco, CA USA; [Gould, Douglas B.] UCSF Sch Med, Inst Human Genet, Dept Anat, San Francisco, CA USA; [Protas, Meredith E.] Dominican Univ Calif, Dept Nat Sci & Math, San Rafael, CA 94901 USA","Cave animals, compared to surface-dwelling relatives, tend to have reduced eyes and pigment, longer appendages, and enhanced mechanosensory structures. Pressing questions include how certain cave-related traits are gained and lost, and if they originate through the same or different genetic programs in independent lineages. An excellent system for exploring these questions is the isopod, Asellus aquaticus. This species includes multiple cave and surface populations that have numerous morphological differences between them. A key feature is that hybrids between cave and surface individuals are viable, which enables genetic crosses and linkage analyses. Here, we advance this system by analyzing single animal transcriptomes of Asellus aquaticus. We use high throughput sequencing of nonnormalized cDNA derived from the head of a surface-dwelling male, the head of a cavedwelling male, the head of a hybrid male (produced by crossing a surface individual with a cave individual), and a pooled sample of surface embryos and hatchlings. Assembling reads from surface and cave head RNA pools yielded an integrated transcriptome comprised of 23,984 contigs. Using this integrated assembly as a reference transcriptome, we aligned reads from surface-, cave- and hybrid-head tissue and pooled surface embryos and hatchlings. Our approach identified 742 SNPs and placed four new candidate genes to an existing linkage map for A. aquaticus. In addition, we examined SNPs for allele-specific expression differences in the hybrid individual. All of these resources will facilitate identification of genes and associated changes responsible for cave adaptation in A. aquaticus and, in concert with analyses of other species, will inform our understanding of the evolutionary processes accompanying adaptation to the subterranean environment.",PUBLIC LIBRARY SCIENCE,41,"1160 BATTERY STREET, STE 100, SAN FRANCISCO, CA 94111 USA",SAN FRANCISCO,14.0,CT6ZJ,"Stahl, Bethany A.; Gross, Joshua B.; Speiser, Daniel I.; Oakley, Todd H.; Patel, Nipam H.; Gould, Douglas B.; Protas, Meredith E.",14.0,14.0,Multidisciplinary Sciences,PLOS ONE,PLoS One,10.1371/journal.pone.0140484,"Protas, ME (corresponding author), Dominican Univ Calif, Dept Nat Sci & Math, San Rafael, CA 94901 USA.",DROSOPHILA-MELANOGASTER; ASTYANAX CAVEFISH; GENE-EXPRESSION; RNA-SEQ; EVOLUTION; GENOME; MODEL; EYE; PIGMENTATION; INVOLVEMENT,meredith.protas@dominican.edu,"Oakley, Todd/0000-0002-4478-915X; Patel, Nipam/0000-0003-4328-654X; Speiser, Daniel/0000-0001-6662-3583",,26462237.0,,"National Science FoundationNational Science Foundation (NSF) [IOS-1045257, DEB-1146337, DEB-1354831, DEB-1457630]",This work was funded by National Science Foundation grants IOS-1045257 and DEB-1146337 to THO and DEB-1354831 to THO and DIS. This work was supported in part by a grant from the National Science Foundation to JBG (DEB-1457630).,"DOAJ Gold, Green Published",,e0140484,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:000359029000005,54,1,"Del Arco, AI; Parra, G; Rico, A; Van den Brink, PJ",J,English,Effects of intra- and interspecific competition on the sensitivity of aquatic macroinvertebrates to carbendazim,2015.0,Environmental Sciences & Ecology; Toxicology,120,0147-6513,,OCT,27,34,Competition; Pesticides; Population ecotoxicology; Ecological risk assessment; Carbendazim,"[Del Arco, Ana Isabel; Parra, Gema] Univ Jaen, Dept Plant Biol Anim Biol & Ecol, Jaen 23071, Spain; [Rico, Andreu; Van den Brink, Paul J.] Univ Wageningen & Res Ctr, Alterra, NL-6700 AA Wageningen, Netherlands; [Van den Brink, Paul J.] Univ Wageningen & Res Ctr, Wageningen Univ, Dept Aquat Ecol & Water Qual Management, NL-6700 AA Wageningen, Netherlands","The Ecological Risk Assessment of pesticides and other potentially toxic chemicals is generally based on toxicity data obtained from single-species laboratory experiments. In the field, however, contaminant effects are ubiquitously co-occurring with ecological interactions such as species competition and predation, which might influence the sensitivity of the individuals exposed to toxicants. The present experimental study investigated how intra- and interspecific competition influence the response of sensitive aquatic organisms to a pesticide. For this, the effects of the fungicide carbendazim were assessed on the mortality and growth of the snail Bithynia tentaculata and the crustacean Gammarus pulex under different levels of intraspecific and interspecific competition for a food resource. Interspecific competition was created by adding individuals of Radix peregra and Asellus aquaticus, respectively. The interaction of competition and carbendazim exposure significantly influenced B. tentaculata growth, however, combined effects on survival and immobility were considered transient and were less easily demonstrated. Positive influence of competition on G. pulex survival was observed under low-medium carbendazim concentrations and under medium-high density pressures, being partly related to cannibalistic and predation compensatory mechanisms, enhanced under food limiting conditions. This study shows that intra- and interspecific competition pressure may influence the response of sensitive aquatic organisms in a more complex way (positive, non-significant and negative effects were observed) than just increasing the sensitivity of the studied species, as has generally been hypothesized. (C) 2015 Elsevier Inc. All rights reserved.",ACADEMIC PRESS INC ELSEVIER SCIENCE,25,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,8.0,CO3AQ,"Del Arco, Ana Isabel; Parra, Gema; Rico, Andreu; Van den Brink, Paul J.",8.0,8.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1016/j.ecoenv.2015.05.001,"Del Arco, AI (corresponding author), Univ Jaen, Dept Plant Biol Anim Biol & Ecol, B3-078 Campus Lagunillas S-N, Jaen 23071, Spain.",POPULATIONS; PESTICIDES; RESPONSES; TOXICITY; SURVIVAL; TOXICANT; FUNGICIDES; DYNAMICS,aarco@ujaen.es,"Anguita, Gema Parra/0000-0002-4519-4799; Rico, Andreu/0000-0002-1820-4218; Parra, Gema/0000-0002-4519-4799; van den brink, Paul/0000-0002-7241-4347; del Arco Ochoa, Ana Isabel/0000-0002-5690-4979","Anguita, Gema Parra/N-7191-2019; Rico, Andreu/G-1102-2016; Parra, Gema/G-4796-2010; van den brink, Paul/AAT-7144-2020",26024811.0,1090-2414,Long Range Initiative of CEFIC; Jaen University,"The authors thank John Beijer, Marie-Claire Boerwinkel and Ivo Roessink for providing useful advices, and Carry van Mameren and Steven Crum for performing the chemical analysis. The Chimera project is financed by the Long Range Initiative of CEFIC (www.cefic-Iri.org; project code: LRI-ECO). The authors would also like to thank Jaen University for its financial support for a research stay of Ana Isabel Del Arco Ochoa at Wageningen University.",,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGIA,2021-04-13,WOS:000363054400007,14,1,"Dumnicka, E; Galas, J; Karlikowska, J; Sznober, N",J,English,Temporary co-existence of aquatic and terrestrial invertebrates in shallow periodically flooded and frozen cave,2015.0,Life Sciences & Biomedicine - Other Topics,70,0006-3088,9,SEP,1201,1209,Krakow - Wielun Upland; Asellus aquaticus; parietal fauna; troglophile invertebrates,"[Dumnicka, Elzbieta; Karlikowska, Joanna] Jan Dlugosz Univ Czestochowa, Inst Chem Environm Protect & Biotechnol, PL-42200 Czestochowa, Poland; [Galas, Joanna] Polish Acad Sci, Inst Nat Conservat, PL-31120 Krakow, Poland; [Sznober, Norbert] Univ Silesia, Fac Earth Sci, PL-41200 Sosnowiec, Poland","The effect of specific microclimatic conditions and temporary flooding on terrestrial and aquatic invertebrate community composition as well as on parietal fauna was investigated in a cave located on the Krakow-Wielun Upland. Studies of the fauna started after partial water retreat from the cave. Microclimate conditions and water chemistry parameters were also investigated. Due to the cave geometry and its size, temperatures recorded during summer were relatively high, whereas almost all its parts were frozen in winter. Temporary cave flooding promoted reproducing populations of Asellus aquaticus, Pseudocandona sarsi and copepods (Diacyclops bicuspidatus, Megacyclops viridis). Completely depigmented (including eyes), slightly, as well as fully pigmented individuals of A. aquaticus were found. Some dipterans started to reproduce in the flooded cave but drying stopped their development. Some taxa typical for terrestrial habitats (Collembola and Acari) and for parietal fauna (spider Meta menardi, moth Triphosa dubitata, dipterans from families Helomyzidae and Mycethophilidae) were not observed. Moreover, cave freezing significantly diminished the number of Culicidae, Oniscus sp., gastropods and Nesticus cellulanus wintering in the cave. The recolonization process was possible due to the cave location at the shallow subsurface and multiple entrances. The diversity of terrestrial invertebrates in the cave is very low as the effect of periodical flooding and freezing.",SPRINGER,35,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,9.0,CT8GZ,"Dumnicka, Elzbieta; Galas, Joanna; Karlikowska, Joanna; Sznober, Norbert",4.0,3.0,Biology,BIOLOGIA,Biologia,10.1515/biolog-2015-0142,"Dumnicka, E (corresponding author), Jan Dlugosz Univ Czestochowa, Inst Chem Environm Protect & Biotechnol, Al Armii Krajowej 13-15, PL-42200 Czestochowa, Poland.",,dumnicka@iop.krakow.pl,,,,1336-9563,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000359779000003,71,2,"Cornut, J; Ferreira, V; Goncalves, AL; Chauvet, E; Canhoto, C",J,English,Fungal alteration of the elemental composition of leaf litter affects shredder feeding activity,2015.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,60,0046-5070,9,SEP,1755,1771,ecosystem functioning; fungal community composition; leaf litter stoichiometry; Schizopelex festiva; species identity,"[Cornut, Julien; Chauvet, Eric] Univ Toulouse, INP, UPS, EcoLab Lab Ecol Fonct & Environm, Toulouse, France; [Cornut, Julien; Chauvet, Eric] EcoLab, CNRS, Toulouse, France; [Cornut, Julien; Ferreira, Veronica] Univ Coimbra, Dept Life Sci, MARE Marine & Environm Sci Ctr, Coimbra, Portugal; [Goncalves, Ana Lucia; Canhoto, Cristina] Univ Coimbra, Dept Life Sci, Ctr Funct Ecol, Coimbra, Portugal","Leaf litter from riparian vegetation provides the main source of matter and energy for food webs of small forest streams. Shredding macroinvertebrates mostly feed on this litter when it hasbeen colonised and conditioned by microorganisms, especially by aquatic hyphomycetes. Since shredders feed selectively, they must make foraging decisions based on the physical and chemicalcharacteristics of the food resource, which can change depending on the identity of fungal species. Here, we addressed the effect of changes in fungal assemblage structure on the elemental composition of oak (Quercus robur) leaf litter and how variation in litter quality affects the feeding of a stream shredder. Leaf discs were incubated in microcosms for 2weeks, inoculated with various fungal assemblages comprised of three species each, and offered to a shredder (Schizopelex festiva, Trichoptera: Sericostomatidae) as food. This shredder ate more leaves with a high mycelial biomass, which depended on fungal assemblage composition. Leaf litter conditioned by different fungal assemblages resulted in different litter N and P concentrations. Mycelial biomass was positively related to litter P concentration, with the lowest and highest P concentrations differing by 40% at most, but not to litter N concentration, even though the lowest and highest N concentrations differed by as much as 35%. The caddisfly larvae ate more leaves with a low C/P ratio. These findings suggest a key role of litter P concentration in eliciting fungal conditioning effects on shredder-mediated litter decomposition.",WILEY,93,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,17.0,CP3KY,"Cornut, Julien; Ferreira, Veronica; Goncalves, Ana Lucia; Chauvet, Eric; Canhoto, Cristina",23.0,22.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.12606,"Cornut, J (corresponding author), Univ Lorraine, Lab Interdisciplinaire Environm Continentaux, UMR 7360, Campus Bridoux Rue Gen Delestraint, F-57070 Metz, France.",GAMMARUS-PULEX; STOICHIOMETRIC CONSTRAINTS; ASELLUS-AQUATICUS; PHOSPHORUS LIMITATION; NUTRIENT LIMITATION; WATER TEMPERATURE; FATTY-ACIDS; DECOMPOSITION; GROWTH; DIVERSITY,julien.cornut@univ-lorraine.fr,"Chauvet, Eric/0000-0001-8676-392X; Canhoto, Cristina/0000-0003-3343-8757; Ferreira, Veronica/0000-0001-7688-2626; Goncalves, Ana Lucia/0000-0003-3693-9792","Chauvet, Eric/F-7644-2011; Canhoto, Cristina/M-4211-2014; Ferreira, Veronica/I-6457-2013; Goncalves, Ana Lucia/L-8412-2014",,1365-2427,"Portuguese Foundation for Science and Technology (FCT)Portuguese Foundation for Science and Technology [SFRH/BPD/34368/2006, SFRH/BPD/76482/2011, SFRH/BD/47089/2008, SFRH/BPD/94820/2013]; National Center for Scientific Research (CNRS)Centre National de la Recherche Scientifique (CNRS); Portugal and France from French Ministry of Foreign and European Affairs [PHC 22808 TB]","This work was completed at IMAR-CMA, Department of Life Sciences, University of Coimbra with funding by the Portuguese Foundation for Science and Technology (FCT) to VF (References SFRH/BPD/34368/2006, SFRH/BPD/76482/2011, programme POPH/FSE) and to ALG (Reference SFRH/BD/47089/2008, SFRH/BPD/94820/2013), and by the National Center for Scientific Research (CNRS) to JC, as well as by the Pessoa exchange programme between Portugal and France (PHC 22808 TB) from the French Ministry of Foreign and European Affairs. We are grateful to Michael Danger, Manuel A.S. Gracca and Mark Gessner whose comments led to significant improvements of the manuscript, and Elsa Rodrigues, Cristina Docal and Ana Virginia Lirio for their expert technical assistance. Comments provided by three anonymous referees on an early version of the manuscript were most appreciated.",,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000359779000008,56,1,"Sworobowicz, L; Grabowski, M; Mamos, T; Burzynski, A; Kilikowska, A; Sell, J; Wysocka, A",J,English,Revisiting the phylogeography of Asellus aquaticus in Europe: insights into cryptic diversity and spatiotemporal diversification,2015.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,60,0046-5070,9,SEP,1824,1840,cryptic species; DNA barcodes; Isopoda; molecular clock; molecular markers,"[Sworobowicz, Lidia; Kilikowska, Adrianna; Sell, Jerzy; Wysocka, Anna] Univ Gdansk, Dept Genet, PL-80308 Gdansk, Poland; [Grabowski, Michal; Mamos, Tomasz] Univ Lodz, Dept Invertebrate Zool & Hydrobiol, PL-90131 Lodz, Poland; [Burzynski, Artur] Polish Acad Sci, Inst Oceanol, Dept Genet & Marine Biotechnol, Sopot, Poland; [Burzynski, Artur] Pomeranian Univ Slupsk, Inst Biol & Environm Protect, Slupsk, Poland","Pleistocene glaciations affected the present-day distribution and genetic diversity of animal species in Europe. Deep genetic subdivisions observed in European populations of the widespread freshwater isopod morphospecies, Asellus aquaticus, suggest the presence of putative cryptic species. We used the DNA barcodes of the cytochrome c oxidase subunit 1 (COI) gene combined with distance- and tree-based methods of species delimitation as a rapid tool for assessing the number of distinct operational taxonomic units (OTUs) representing potential cryptic species. The spatial and demographic aspect of A.aquaticus distribution was also analysed. We generated a tentative temporal framework for diversification within the morphospecies provided by the molecular clock approach. Altogether, our study included 603 COI sequences from 147 populations from all over Europe and Asia Minor, including the already published data deposited in GenBank. The mtDNA-based phylogenetic and OTU delimitation pattern was assessed with results of the nuclear data set analysis including the sequence data derived from this study and those previously submitted in GenBank. In total, 16 haplotypes of 28S rDNA were used representing all COI-based OTUs and 53 localities. Our results show that A.aquaticus is a conglomerate of genetically distinct COIOTUs. One of the OTUs seems to correspond to the nominative subspecies of A.aquaticus aquaticus, recently redescribed from Sweden, and another with the recently described A.kosswigi. Most of the OTUs are probably of pre-Pleistocene origin and have narrow ranges in southern Europe. A recent expansion, in both demographic and spatial terms, was revealed in one OTU, which is widely distributed in Europe and represents A.aquaticus aquaticus. This may be explained by the post-glacial recolonisation processes. According to our data, this OTU probably emerged and initially diversified in the west Balkans in the Middle/Late Pliocene with several lineages surviving and diversifying through the Pleistocene glaciations and expanding during the interglacials. In some cases, our 28S data support the COI-based OTUs and provide ample evidence for the existence of distinct OTUs, especially in mountainous and karst areas. However, other COIOTUs are not reciprocally monophyletic with respect to nuclear marker. This phylogenetic pattern can be interpreted predominantly as a result of incomplete sorting of nuclear lineages, potentially indicating an ongoing speciation process, but also as an effect of introgression resulting from secondary contact of formerly peripatric or allopatric mitochondrial lineages.",WILEY,91,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,17.0,CP3KY,"Sworobowicz, Lidia; Grabowski, Michal; Mamos, Tomasz; Burzynski, Artur; Kilikowska, Adrianna; Sell, Jerzy; Wysocka, Anna",22.0,21.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.12613,"Wysocka, A (corresponding author), Univ Gdansk, Dept Genet, Wita Stwosza 59, PL-80308 Gdansk, Poland.",GENETIC DIVERSITY; DNA BARCODES; SPECIES DELIMITATION; AMPHIPOD GENUS; CRUSTACEA; GAMMARUS; MITOCHONDRIAL; COMPLEX; COLONIZATION; POPULATIONS,anna.wysocka@biol.ug.edu.pl,"Sworobowicz, Lidia/0000-0003-3266-1471; Mamos, Tomasz/0000-0002-0524-3015; Mamos, Tomasz/0000-0002-0524-3015; Burzynski, Artur/0000-0002-0185-197X; Grabowski, Michal/0000-0002-4551-3454; Kilikowska, Adrianna/0000-0002-5726-618X; Wysocka, Anna/0000-0003-1218-7311","Sworobowicz, Lidia/D-1923-2019; Mamos, Tomasz/AAU-9303-2020; Mamos, Tomasz/E-4529-2015; Burzynski, Artur/J-7048-2012; Grabowski, Michal/K-1016-2012",,1365-2427,"Polish Ministry of Science and Higher EducationMinistry of Science and Higher Education, Poland [N303 581839, N N303 579439]; PL-Grid Infrastructure","We wish to thank the following people who provided us with material used in this study: Nadezhda Berezina (Russian Academy of Sciences, Russia), Denis Copilas-Ciocianu (Charles University of Prague, Czech Republic), Mikhail Daniyelia (Finland), Jose Manuel Guerra-Garcia (University of Seville, Spain), Kamil Hupalo, Radomir Jaskula, Michal Rachalewski, Tomasz Rewicz (University of Lodz, Poland), Murat Sezgin (Sinop University, Turkey) and Rudi Verovnik (University of Ljubljana, Slovenia). We are also grateful to Rudi Verovnik for sharing the data sets used in his earlier publications on Asellus and for friendly encouragement to study the subject. We thank Tomasz Burzynski for help with copy editing. This study was supported by the Polish Ministry of Science and Higher Education (N303 581839 and N N303 579439) and, partly, by PL-Grid Infrastructure.",,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000354194600006,93,2,"Worthington, TA; Shaw, PJ; Daffern, JR; Langford, TEL",J,English,The effects of a thermal discharge on the macroinvertebrate community of a large British river: implications for climate change,2015.0,Marine & Freshwater Biology,753,0018-8158,1,JUL,81,95,Climate change; Macroinvertebrates; Community composition; Thermal pollution; Taxonomic richness,"[Worthington, T. A.] Oklahoma State Univ, Oklahoma Cooperat Fish & Wildlife Res Unit, Stillwater, OK 74078 USA; [Worthington, T. A.; Shaw, P. J.; Langford, T. E. L.] Univ Southampton, Fac Engn & Environm, Southampton SO17 1BJ, Hants, England; [Worthington, T. A.] Univ Maryland, Dept Biol, College Pk, MD 20742 USA","Anthropogenic changes to the temperature regimes of rivers, whether through thermal pollution, removal of shade, or climate change, could affect community stability and cause phenological changes in aquatic species. This study examines the impact of a thermal discharge from a power station on the diversity and composition of the aquatic macroinvertebrate community in the River Severn, UK. Daily temperatures up to 2 km downstream of the thermal discharge averaged 4.5A degrees C above ambient. Abundance and taxon richness metrics were reduced at a site approximately 0.5 km downstream of the power station outfall, but were largely unaffected at a second site about 2 km downstream. The majority of the macroinvertebrate taxa observed were recorded at both control and heated sites, suggesting species were below their thermal tolerance threshold or had developed adaptations to survive increased temperatures. However, indicator species analysis suggests certain taxa were associated with particular sites; abundances of Musculium lacustre, Simulium reptans, and Orthocladiinae were greater at the unheated control site, whereas more pollution-tolerant species such Asellus aquaticus and Erpobdella octoculata were more common in the thermally impacted reaches. Overall, the results provide an indication of potential species and community response to future warming under climate change scenarios.",SPRINGER,93,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,15.0,CH7DA,"Worthington, T. A.; Shaw, P. J.; Daffern, J. R.; Langford, T. E. L.",16.0,16.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-015-2197-1,"Worthington, TA (corresponding author), Oklahoma State Univ, Oklahoma Cooperat Fish & Wildlife Res Unit, Stillwater, OK 74078 USA.",FRESH-WATER BIODIVERSITY; STREAM MACROINVERTEBRATES; INSECT EMERGENCE; AQUATIC INSECTS; SPECIES TRAITS; COOLING-WATER; TEMPERATURE; EPHEMEROPTERA; PLECOPTERA; TRICHOPTERA,thomas.worthington@okstate.edu,"Worthington, Thomas/0000-0002-8138-9075; Worthington, Thomas A/0000-0002-8138-9075; Shaw, Peter/0000-0003-0925-5010","Worthington, Thomas/N-5121-2015; Worthington, Thomas A/H-2025-2019",,1573-5117,Esmee Fairbairn Foundation [091737],The research was funded by the Esmee Fairbairn Foundation (Grant Number: 091737). The authors wish to thank Dr. R. J. Aston and Dr. D. J. A. Brown for much assistance in the field and the referees for constructive and pertinent comments and suggestions.,Green Accepted,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:000354501500009,51,0,"Plahuta, M; Tisler, T; Pintar, A; Toman, MJ",J,English,Adverse effects of bisphenol A on water louse (Asellus aquaticus),2015.0,Environmental Sciences & Ecology; Toxicology,117,0147-6513,,JUL,81,88,Asellus aquaticus; Bisphenol A; Aqueous uptake; Dietary uptake; Endocrine disrupting effects,"[Plahuta, Maja; Tisler, Tatjana; Pintar, Albin] Natl Inst Chem, Lab Environm Sci & Engn, SI-1001 Ljubljana, Slovenia; [Toman, Mihael Jozef] Univ Ljubljana, Biotech Fac, Dept Biol, SI-1000 Ljubljana, Slovenia","Experiments were performed to study the effects of short and long-term exposure to bisphenol A (BPA) on a freshwater crustacean isopod Asellus aquaticus (L.). Two life stages of isopods were exposed to a range of BPA concentrations, from aqueous and two dietary sources, in the form of with BPA spiked conditioned alder leaf (Alnus glutinosa) discs, or spiked formulated sediment, to determine the relative importance of each source of exposure on the uptake of this contaminant. Several lethal and sublethal endpoints were evaluated in this study to measure the potential effects of BPA on A. aquaticus, including mortality, growth and feeding rate inhibition, mobility inhibition, de-pigmentation and molting disturbances. They signify a correlation to BPA levels and a difference in BPA uptake efficiency from different uptake sources. Results of acute exposure to BPA show a greater sensitivity of test systems using juvenile specimens with a 96 h LC50 of 8.6 mg L-1 BPA in water medium and a 96 h LC50 of 13.5 mg L-1 BPA in sediment. In comparison, adult isopods show a 96 h LC50 of 25.1 mg L-1 BPA in water medium and a 96 h LC50 of 65.1 mg L-1 BPA in sediment. Observed endpoints of chronic exposures suggest the alder leave discs to be the most efficient uptake source of BPA, in contrast to uptake from water or heterogeneous sediment. Significant (p < 0.05) growth inhibition, with a 21 d NOEC of 0.5/2.5 mg L-1 (for juvenile/adult organisms), and feeding rate inhibition, with a 21 d NOEC of 0.5/1.0 mg L-1 (for juvenile/adult organisms), were proven to be the most sensitive toxicity endpoints. An even more sensitive effect turned out to be molting frequency, which was significantly reduced; a 21d NOEC was 1.0 mg L-1 of BPA for adult organisms and an even lower 21d NOEC of 0.05 mi L-1 of BPA for juveniles. The observed endpoints are recorded at very low, non-toxic exposure concentrations, indicating that BPA acts as an endocrine disrupting compound, as well as a toxic substance. We also determined the importance of the direct dietary Uptake of the pollutants, significant for juveniles as well as adult animals. (C) 2015 Elsevier Inc. All rights reserved.",ACADEMIC PRESS INC ELSEVIER SCIENCE,49,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,8.0,CI1JW,"Plahuta, Maja; Tisler, Tatjana; Pintar, Albin; Toman, Mihael Jozef",14.0,12.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1016/J.ecoenv.2015.03.031,"Plahuta, M (corresponding author), Natl Inst Chem, Lab Environm Sci & Engn, Hajdrihova 19, SI-1001 Ljubljana, Slovenia.",GAMMARUS-PULEX; FIDDLER-CRAB; TOXICITY; EXPOSURE; GROWTH; 17-ALPHA-ETHINYLESTRADIOL; BIOACCUMULATION; REPRODUCTION; TEMPERATURE; CRUSTACEANS,maja.plahuta@ki.si; tatjana.tisler@ki.si; albin.pintar@ki.si; mihaeljozef.toman@bf.uni-lj.si,,,25841063.0,1090-2414,"European Union, European Social FundEuropean Social Fund (ESF); Republic of Slovenia, Ministry for Education, Science and Sport; Ministry of Education, Science and Sport of the Republic of Slovenia [P2-0150]","This article is a result of doctoral research, in part financed by the European Union, European Social Fund and the Republic of Slovenia, Ministry for Education, Science and Sport in the framework of the Operational program for human resources development for the period 2007-2013. The authors gratefully acknowledge the financial support of the Ministry of Education, Science and Sport of the Republic of Slovenia through Research program No. P2-0150.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGY AND EVOLUTION,2021-04-13,WOS:000354209300002,53,1,"Augusiak, J; Van den Brink, PJ",J,English,Studying the movement behavior of benthic macroinvertebrates with automated video tracking,2015.0,Environmental Sciences & Ecology; Evolutionary Biology,5,2045-7758,8,APR,1563,1575,Aquatic macroinvertebrates; crustaceans; dispersal; locomotion; marking,"[Augusiak, Jacqueline; Van den Brink, Paul J.] Wageningen Univ, Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, NL-6700 AA Wageningen, Netherlands; [Van den Brink, Paul J.] Univ Wageningen & Res Ctr, Alterra, NL-6700 AA Wageningen, Netherlands","Quantifying and understanding movement is critical for a wide range of questions in basic and applied ecology. Movement ecology is also fostered by technological advances that allow automated tracking for a wide range of animal species. However, for aquatic macroinvertebrates, such detailed methods do not yet exist. We developed a video tracking method for two different species of benthic macroinvertebrates, the crawling isopod Asellus aquaticus and the swimming fresh water amphipod Gammarus pulex. We tested the effects of different light sources and marking techniques on their movement behavior to establish the possibilities and limitations of the experimental protocol and to ensure that the basic handling of test specimens would not bias conclusions drawn from movement path analyses. To demonstrate the versatility of our method, we studied the influence of varying population densities on different movement parameters related to resting behavior, directionality, and step lengths. We found that our method allows studying species with different modes of dispersal and under different conditions. For example, we found that gammarids spend more time moving at higher population densities, while asellids rest more under similar conditions. At the same time, in response to higher densities, gammarids mostly decreased average step lengths, whereas asellids did not. Gammarids, however, were also more sensitive to general handling and marking than asellids. Our protocol for marking and video tracking can be easily adopted for other species of aquatic macroinvertebrates or testing conditions, for example, presence or absence of food sources, shelter, or predator cues. Nevertheless, limitations with regard to the marking protocol, material, and a species' physical build need to be considered and tested before a wider application, particularly for swimming species. Data obtained with this approach can deepen the understanding of population dynamics on larger spatial scales and of the effects of different management strategies on a species' dispersal potential.",WILEY,46,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,13.0,CH7IL,"Augusiak, Jacqueline; Van den Brink, Paul J.",10.0,9.0,Ecology; Evolutionary Biology,ECOL EVOL,Ecol. Evol.,10.1002/ece3.1425,"Augusiak, J (corresponding author), Wageningen Univ, Dept Aquat Ecol & Water Qual Management, POB 47, NL-6700 AA Wageningen, Netherlands.",LABORATORY EXPERIMENTS; DISPERSAL; LEVY; INVERTEBRATES; LIGHT,jacqueline.augusiak@wur.nl,"van den brink, Paul/0000-0002-7241-4347","van den brink, Paul/AAT-7144-2020",25937901.0,,European Union under the 7th Framework Programme project acronym CREAM [PITN-GA- 2009-238148],This work was financially supported by the European Union under the 7th Framework Programme project acronym CREAM contract number PITN-GA- 2009-238148.,"DOAJ Gold, Green Published",,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000353295200011,29,0,"Konec, M; Prevorcnik, S; Sarbu, SM; Verovnik, R; Trontelj, P",J,English,"Parallels between two geographically and ecologically disparate cave invasions by the same species, Asellus aquaticus (Isopoda, Crustacea)",2015.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,28,1010-061X,4,APR,864,875,adaptation; divergence; microsatellites; morphometric traits; parallel evolution; population structure; subterranean; troglomorphy,"[Konec, M.; Prevorcnik, S.; Verovnik, R.; Trontelj, P.] Univ Ljubljana, Biotech Fac, Dept Biol, Ljubljana 1000, Slovenia; [Sarbu, S. M.] Grp Explorari Subacvatice & Speol, Bucharest, Romania; [Trontelj, P.] Humboldt Univ, Museum Nat Kunde, Leibniz Inst Evolut & Biodiversitatsforsch, D-10099 Berlin, Germany","Caves are long-known examples of evolutionary replications where similar morphologies (troglomorphies) evolve independently as the result of strong natural selection of the extreme environment. Recently, this paradigm has been challenged based on observations that troglomorphies are inconsistent across taxa and different subterranean habitats. We investigated the degree of replicated phenotypic change in two independent cave invasions by the freshwater isopod Asellus aquaticus; the first in a sulphidic aquifer in Romania, the second in a sinking river in the Dinaric Karst in Slovenia. Both ancestral surface populations still live alongside the subterranean ones. Phylogenetic analyses show independence of the two colonization events, and microsatellite analysis shows no evidence of ongoing genetic exchange between surface and subterranean ecomorphs. The overall morphology has changed dramatically at both sites (50 of 62 morphometric traits). The amount of phenotypic change did not reflect differences in genetic diversity between the two ancestral populations. Multivariate analyses revealed divergent evolution in caves, not parallel or convergent as predicted by the current paradigm. Still, 18 traits changed in a parallel fashion, including eye and pigment loss and antennal elongation. These changes might be a consequence of darkness as the only common ecological feature, because Romanian caves are chemoautotrophic and rich in food, whereas Slovenian caves are not. Overall, these results show that morphologically alike surface populations can diverge after invading different subterranean habitats, and that only about one-third of all changing traits behave as troglomorphies in the traditional sense.",WILEY,58,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,12.0,CG4YJ,"Konec, M.; Prevorcnik, S.; Sarbu, S. M.; Verovnik, R.; Trontelj, P.",25.0,23.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/jeb.12610,"Trontelj, P (corresponding author), Univ Ljubljana, Biotech Fac, Dept Biol, Jamnikarjeva 101, Ljubljana 1000, Slovenia.",MEXICAN BLIND CAVEFISH; POPULATION-STRUCTURE; SURFACE-POPULATIONS; GENETIC-DIVERGENCE; CONVERGENCE; ASELLIDAE; SOFTWARE; PHYLOGEOGRAPHY; INDIVIDUALS; CONTINGENCY,peter.trontelj@bf.uni-lj.si,,,25728816.0,1420-9101,"Slovenian Research AgencySlovenian Research Agency - Slovenia [1000-09-310036, P1-0184]","This research was supported by the Slovenian Research Agency as part of the first author's PhD project through contract no. 1000-09-310036, and through Research Program P1-0184. We would like to thank Mihai Baciu, Gregor Bracko, Traian Brad, Teo Delic, Cene Fiser, Ziga Fiser, Spela Goricki, Jure Jugovic, Ajda Moskric, Dumitru Pegulescu, Boris Sket, Maja Zagmajster and Valerija Zaksek for providing samples and helping with field work. We are grateful to Maja Jelencic and Tomaz Skrbinsek for help with microsatellites, and Cene Fiser, Maja Zagmajster and Valerija Zaksek for comments on an earlier version of the manuscript. David Culver and two anonymous reviewers provided further valuable comments and constructive criticisms.",Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF BIOTECHNOLOGY,2021-04-13,WOS:000352153800006,35,0,"Mayer, M; Keller, A; Szewzyk, U; Warnecke, HJ",J,English,On the way to identify microorganisms in drinking water distribution networks via DNA analysis of the gut content of freshwater isopods,2015.0,Biotechnology & Applied Microbiology,201,0168-1656,,MAR 27,54,59,Drinking water; Biocenosis; Biofilms; Freshwater isopods; DNA sequencing,"[Mayer, Michael] Univ Paderborn, Fac Sci, Phys, Paderborn, Germany; [Keller, Adrian; Warnecke, Hans-Joachim] Univ Paderborn, Fac Sci Tech & Macromol Chem, Paderborn, Germany; [Szewzyk, Ulrich] Berlin Univ Technol, Environm Microbiol, Berlin, Germany","Pure drinking water is the basis for a healthy society. In Germany the drinking water regulations demand for analysis of water via detection of certain microbiological parameters by cultivation only. However, not all prokaryotes can be detected by these standard methods. How to gain more and better information about the bacteria present in drinking water and its distribution systems? The biofilms in drinking water distribution systems are built by bacteria and therefore represent a valuable source of information about the species present. Unfortunately, these biofilms are badly accessible. We thus exploited the circumstance that a lot of metazoans graze the biofilms, so that the content of their guts partly reflects the respective biofilm biocenosis. Therefore, we collected omnivorous isopods, prepared their guts and examined and characterized their contents based on 16S und 18S rDNA analysis. These molecularbiological investigations provide a profound basis for the characterization of the biocenosis and thereby biologically assess the drinking water ecosystems. Combined with a thorough identification of the species and the knowledge of their habitats, this approach can provide useful indications for the assessment of drinking-water quality and the early detection of problems in the distribution system. (C) 2015 Elsevier B.V. All rights reserved.",ELSEVIER,45,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,6.0,CE9HC,"Mayer, Michael; Keller, Adrian; Szewzyk, Ulrich; Warnecke, Hans-Joachim",2.0,2.0,Biotechnology & Applied Microbiology,J BIOTECHNOL,J. Biotechnol.,10.1016/j.jbiotec.2014.12.022,"Warnecke, HJ (corresponding author), Univ Paderborn, Fac Sci Tech & Macromol Chem, Paderborn, Germany.",SP NOV.; ASELLUS-AQUATICUS; SOIL SAMPLES; BACTERIA; SEDIMENT,h.j.warnecke@upb.de,"Keller, Adrian/0000-0001-7139-3110","Keller, Adrian/N-7750-2016",25558805.0,1873-4863,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC ECOLOGY,2021-04-13,WOS:000350394600006,41,1,"Schmidlin, L; von Fumetti, S; Nagel, P",J,English,Temperature effects on the feeding and electron transport system (ETS) activity of Gammarus fossarum,2015.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,49,1386-2588,1,MAR,71,80,Thermal stress; Amphipod; Metabolism; Respiratory chain; Global change,"[Schmidlin, Lara; von Fumetti, Stefanie; Nagel, Peter] Univ Basel, Dept Environm Sci, Biogeog Res Grp, CH-4056 Basel, Switzerland","The effects of an increase in water temperature as a direct consequence of global change on organisms living in springs and spring brooks have rarely been studied in laboratory experiments. In this study, experiments were conducted to test the response of Gammarus fossarum Koch, 1836, as an abundant representative of the European spring fauna, to changing water temperatures. The aim was to find out experimentally how G. fossarum reacts to varying and increasing water temperatures. The experiments were conducted in flow channels with spring water. In each flow channel, G. fossarum were placed in boxes with a flow-through system for 4 weeks. Two analytical methods were applied: the feeding activity of the amphipods was quantified in order to determine the reaction of G. fossarum on the level of the organism and the respiratory electron transport system (ETS) assay was conducted in order to determine changes in the test organisms on the cellular level. The results show that the feeding activity of G. fossarum increased with increasing water temperature, up to an optimum, indicating an increase in their metabolic activity. The ETS activity does not show significant differences at the different temperatures tested. A possible explanation for this is the ability of the organisms to adapt quickly to the changed environmental circumstances.",SPRINGER,55,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,10.0,CC5JJ,"Schmidlin, Lara; von Fumetti, Stefanie; Nagel, Peter",13.0,13.0,Ecology; Limnology; Marine & Freshwater Biology,AQUAT ECOL,Aquat. Ecol.,10.1007/s10452-015-9505-8,"Schmidlin, L (corresponding author), Univ Basel, Dept Environm Sci, Biogeog Res Grp, St Johanns Vorstadt 10, CH-4056 Basel, Switzerland.",CLIMATE-CHANGE; OXYGEN-CONSUMPTION; THERMAL TOLERANCE; ASELLUS-AQUATICUS; RESPIRATION RATE; PULEX CRUSTACEA; WATER-QUALITY; BIODIVERSITY; AMPHIPODA; GROWTH,lara.schmidlin@unibas.ch,,,,1573-5125,Janggen-Pohn-Stiftung,"Financial support was provided by the Janggen-Pohn-Stiftung. T. Simcic kindly introduced us to the ETS assay. C. Clarke proof-read the manuscript. I. Rothele conducted a few experiments testing for differences between the sexes of the gammarids and their ETS activity. Thanks are owing to four anonymous reviewers who made valuable comments on the manuscript. Thanks are also owing to further numerous people, especially to the first author's family for valuable technical support and discussion.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY,2021-04-13,WOS:000349334000018,45,2,"Schmidlin, L; von Fumetti, S; Nagel, P",J,English,Effects of increased temperatures on Gammarus fossarum under the influence of copper sulphate,2015.0,Environmental Sciences & Ecology; Toxicology,24,0963-9292,2,MAR,433,444,Thermal stress; Amphipod; Copper sulphate; Feeding activity; Electron transport system (ETS),"[Schmidlin, Lara; von Fumetti, Stefanie; Nagel, Peter] Univ Basel, Dept Environm Sci, Biogeog Res Grp, CH-4056 Basel, Switzerland","The specialised fauna of freshwater springs will have to cope with a possible temperature rise owing to Global Change. It is affected additionally by contamination of the water with xenobiotics from human activities in the surrounding landscape. We assessed the combined effects of temperature increase and exposure to toxins in laboratory experiments by using copper sulphate as a model substance and Gammarus fossarum Koch, 1835, as the model organism. This amphipod is a common representative of the European spring fauna and copper ions are widespread contaminants, mainly from agricultural practice. The experiments were conducted in boxes placed in flow channels and the water temperatures were varied. The gammarids were fed with conditioned beech leaf discs. The feeding activity of the amphipods was quantified on the level of the organism; and the respiratory electron transport system (ETS) assay was conducted in order to determine changes on the cellular level in the test organisms. The results show that the feeding activity increased slightly with higher water temperature. The sub-lethal copper dose had no significant effect other than a trend towards lower feeding activity. The ETS activity was significantly higher at the higher water temperatures, and the copper ions significantly lowered the ETS activity of the organisms. The combination of the two methods was useful when testing for combined effects of environmental changes and pollutants on a species. From the results one can reasonably infer a higher risk of adverse effects with increase in water temperature and exposure to a particular heavy metal.",SPRINGER,76,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,12.0,CB0RI,"Schmidlin, Lara; von Fumetti, Stefanie; Nagel, Peter",7.0,7.0,Ecology; Environmental Sciences; Toxicology,ECOTOXICOLOGY,Ecotoxicology,10.1007/s10646-014-1392-6,"Schmidlin, L (corresponding author), Univ Basel, Dept Environm Sci, Biogeog Res Grp, St Johanns Vorstadt 10, CH-4056 Basel, Switzerland.",SYSTEM ETS ACTIVITY; SITU FEEDING ASSAY; ASELLUS-AQUATICUS; CLIMATE-CHANGE; IN-SITU; OXYGEN-CONSUMPTION; ROESELI CRUSTACEA; RESPIRATION RATE; PULEX CRUSTACEA; WATER-QUALITY,lara.schmidlin@unibas.ch,,,25424351.0,1573-3017,Janggen-Pohn-Stiftung,"The Janggen-Pohn-Stiftung supported the PhD project by partially financing the main author. T. Simcic kindly introduced us to the ETS method. C. Clarke proof-read the manuscript. Thanks are owing to five anonymous reviewers, who made valuable comments on the manuscript. Thanks are also owing to further numerous people, especially to the first author's family for valuable technical support and discussions.",,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ANIMAL ECOLOGY,2021-04-13,WOS:000349968700013,72,2,"Paterson, RA; Dick, JTA; Pritchard, DW; Ennis, M; Hatcher, MJ; Dunn, AM",J,English,Predicting invasive species impacts: a community module functional response approach reveals context dependencies,2015.0,Environmental Sciences & Ecology; Zoology,84,0021-8790,2,MAR,453,463,Gammarus; indirect effect; non-native; parasitism; predator cue; predator-prey; interaction,"[Paterson, Rachel A.; Dick, Jaimie T. A.; Ennis, Marilyn] Queens Univ Belfast, Sch Biol Sci, Inst Global Food Secur, Belfast, Antrim, North Ireland; [Paterson, Rachel A.; Hatcher, Melanie J.; Dunn, Alison M.] Univ Leeds, Sch Biol, Leeds, W Yorkshire, England; [Pritchard, Daniel W.] Queens Univ Belfast, Sch Planning Architecture & Civil Engn, Belfast, Antrim, North Ireland; [Hatcher, Melanie J.] Univ Bristol, Sch Biol Sci, Bristol, Avon, England","1. Predatory functional responses play integral roles in predator-prey dynamics, and their assessment promises greater understanding and prediction of the predatory impacts of invasive species. Other interspecific interactions, however, such as parasitism and higher-order predation, have the potential to modify predator-prey interactions and thus the predictive capability of the comparative functional response approach. We used a four-species community module (higher-order predator; focal native or invasive predators; parasites of focal predators; native prey) to compare the predatory functional responses of native Gammarus duebeni celticus and invasive Gammarus pulex amphipods towards three invertebrate prey species (Asellus aquaticus, Simulium spp., Baetis rhodani), thus, quantifying the context dependencies of parasitism and a higher-order fish predator on these functional responses. Our functional response experiments demonstrated that the invasive amphipod had a higher predatory impact (lower handling time) on two of three prey species, which reflects patterns of impact observed in the field. The community module also revealed that parasitism had context-dependent influences, for one prey species, with the potential to further reduce the predatory impact of the invasive amphipod or increase the predatory impact of the native amphipod in the presence of a higher-order fish predator. Partial consumption of prey was similar for both predators and occurred increasingly in the order A.aquaticus, Simulium spp. and B.rhodani. This was associated with increasing prey densities, but showed no context dependencies with parasitism or higher-order fish predator. This study supports the applicability of comparative functional responses as a tool to predict and assess invasive species impacts incorporating multiple context dependencies.",WILEY,65,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,CB9RB,"Paterson, Rachel A.; Dick, Jaimie T. A.; Pritchard, Daniel W.; Ennis, Marilyn; Hatcher, Melanie J.; Dunn, Alison M.",53.0,53.0,Ecology; Zoology,J ANIM ECOL,J. Anim. Ecol.,10.1111/1365-2656.12292,"Paterson, RA (corresponding author), Queens Univ Belfast, Sch Biol Sci, Inst Global Food Secur, Belfast, Antrim, North Ireland.",GAMMARUS-PULEX CRUSTACEA; FORAGING BEHAVIOR; PREDATOR; AMPHIPOD; COCCINELLIDAE; REPLACEMENT; PREFERENCE; DENSITY; HISTORY; ACARINA,rachelpatersonnz@gmail.com,"Paterson, Rachel/0000-0003-0773-0447; Dunn, Alison/0000-0002-4855-1077; Pritchard, Daniel/0000-0001-8335-5971",,25265905.0,1365-2656,Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/G015201/1]; Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/G01521X/1] Funding Source: researchfish,"We thank G. Riddell, A. Kelly and the Functional Response Lab Group (QUB), M. Bunke (Leeds), and A. Keys and F. Mitchell (Ballinderry Fish Hatchery) for technical assistance. The manuscript was greatly improved by the comments from three anonymous referees. Financial support was provided by a Natural Environment Research Council grant (NE/G015201/1).","Other Gold, Green Accepted, Green Published",,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000348186600019,93,2,"Gergs, R; Rothhaupt, KO",J,English,"Invasive species as driving factors for the structure of benthic communities in Lake Constance, Germany",2015.0,Marine & Freshwater Biology,746,0018-8158,1,MAR,245,254,Zebra mussel; Dreissena; Dikerogammarus; Distance-based redundancy analyses; Macroinvertebrates; Non-indigenous,"[Gergs, Rene] Univ Koblenz Landau, Inst Environm Sci, D-76829 Landau, Germany; [Gergs, Rene; Rothhaupt, Karl-Otto] Univ Konstanz, Limnol Inst, D-78467 Constance, Germany","The composition of benthic macroinvertebrate communities is influenced by a variety of factors, including the introduction of invasive species. However, only few analyses of factors influencing benthic community structure exist, especially those including invasive species. Our aim was to examine the importance of biotic factors on spatial and temporal variations in the benthic community within one system (Lake Constance, Germany). We examined the dependence of benthic community structure on invasive species by non-metric multidimensional scaling and distance-based redundancy analysis based on Bray-Curtis similarities. The three significant biotic factors explained 40% of the community variability. The mayfly Centroptilum luteolum and the snail Potamopyrgus antipodarum were positively associated with the amount of Chara, whereas some caddisfly taxa and Chironomidae were positively associated with the density of Dreissena polymorpha, which is a pattern most likely caused by their different habitat preferences. Several benthic taxa especially indigenous gammarids and Asellus aquaticus tended to decline with increased densities of the invasive amphipod Dikerogammarus villosus. Furthermore, density of D. villosus explained 26% of the benthic variability, demonstrating the strong impact of this species. Overall, our study demonstrates the large impact of invasive species on the composition of benthic macroinvertebrates.",SPRINGER,58,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,10.0,AZ4JF,"Gergs, Rene; Rothhaupt, Karl-Otto",18.0,18.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-014-1931-4,"Gergs, R (corresponding author), Univ Konstanz, Limnol Inst, D-78467 Constance, Germany.",INVADER DIKEROGAMMARUS-VILLOSUS; NATIVE GAMMARUS-PULEX; LIFE-HISTORY TRAITS; MACROINVERTEBRATE COMMUNITIES; DREISSENA-POLYMORPHA; ZEBRA MUSSELS; KILLER SHRIMP; REDUNDANCY ANALYSIS; PREDATORY IMPACT; LITTORAL-ZONE,gergs@uni-landau.de,"Sahm, Rene/0000-0001-8806-265X","Sahm, Rene/B-6962-2012",,1573-5117,German Research Foundation within the collaborative research centre Littoral of Lake Constance [SFB 454],We thank the scientific diving group of the Limnological Institute of the University of Konstanz for cooperation in field sampling. We further thank Thomas Horvath and Sebastian Stehle for comments on earlier versions of the manuscript. Christoph Berron contributed to identifying and counting macroinvertebrates from benthos samples. This study was supported by the German Research Foundation within the collaborative research centre SFB 454 Littoral of Lake Constance.,,,,,,,,,,,,,,,,,,,,,,,,
Article,ANNALES DE LIMNOLOGIE-INTERNATIONAL JOURNAL OF LIMNOLOGY,2021-04-13,WOS:000353666800009,39,0,"Karadi-Kovacs, K; Selmeczy, GB; Padisak, J; Schmera, D",J,English,"Food, substrate or both? Decomposition of reed leaves (Phragmites australis) by aquatic macro invertebrates in a large shallow lake (Lake Balaton, Hungary)",2015.0,Marine & Freshwater Biology,51,0003-4088,1,,79,88,Lake Balaton; leaf bag; leaf decay; macroinvertebrates; substrate,"[Karadi-Kovacs, Kata; Selmeczy, Geza Balazs; Padisak, Judit] Univ Pannonia, Dept Limnol, H-8200 Veszprem, Hungary; [Karadi-Kovacs, Kata] APEM Ltd, Cardiff Off, Llantrisant CF72 8XL, Wales; [Padisak, Judit] MTA PE Limnoecol Res Grp, H-8200 Veszprem, Hungary; [Schmera, Denes] Univ Basel, Sect Conservat Biol, Dept Environm Sci, CH-4056 Basel, Switzerland; [Schmera, Denes] Hungarian Acad Sci, Balaton Limnol Inst, Ctr Ecol Res, H-8237 Tihany, Hungary","The aim of this study was to investigate the use and decomposition of reed leaves (Phragmites australis) by aquatic macroinvertebrates in a lake environment (Lake Balaton, Hungary). Natural and artificial leaves were exposed to separate the use of leaves as substrate and as food at different vertical positions. Although we recorded a low density of macroinvertebrates, mixed-effect models showed that natural leaves were colonized by a higher number of taxa and individuals than artificial leaves. Moreover, indicator species analysis identified two detritivorous species (Dikerogammarus villosus and Asellus aquaticus) as indicators of natural leaves. The obtained results suggest that macroinvertebrates use the leaves of reed not only as substrate but also as food. Leaf decay experiment showed that macroinvertebrates contribute to 87.5% of the total leaf litter decay. Leaf bags positioned at the surface were found to host less individuals but the decay rate was faster. The vertical position did not have an impact on the number of taxa or taxa composition. According to these results, macroinvertebrates represent an important component of detritus-based food webs in reed-vegetated littoral areas of the lake.",EDP SCIENCES S A,59,"17, AVE DU HOGGAR, PA COURTABOEUF, BP 112, F-91944 LES ULIS CEDEX A, FRANCE",LES ULIS CEDEX A,10.0,CG9UY,"Karadi-Kovacs, Kata; Selmeczy, Geza Balazs; Padisak, Judit; Schmera, Denes",3.0,3.0,Limnology,ANN LIMNOL-INT J LIM,Ann. Limnol.-Int. J. Limnol.,10.1051/limn/2015002,"Karadi-Kovacs, K (corresponding author), Univ Pannonia, Dept Limnol, Egyet Str 10, H-8200 Veszprem, Hungary.",LITTER DECOMPOSITION; ECOLOGICAL STATUS; LEAF-LITTER; PHYTOPLANKTON; ASSEMBLAGES; STREAM; ASSOCIATIONS,kovacskata29@gmail.com,"Padisak, Judit/0000-0001-8285-2896; Schmera, Denes/0000-0003-1248-8413","Padisak, Judit/B-4514-2008; Schmera, Denes/B-1617-2010",,2100-000X,OTKAOrszagos Tudomanyos Kutatasi Alapprogramok (OTKA) [K104279],This research was supported by the OTKA K104279. We thank Jennifer Pinnion for correcting the English of the manuscript and Katalin Mikos for her support in the field work.,"Bronze, Green Accepted",,,,,,,,,,,,,,,,,,,,,,,
Article,BEHAVIOUR,2021-04-13,WOS:000348029300003,34,0,"Spivey, KL; Chapman, TL; Schmitz, AL; Bast, DE; Smith, ALB; Gall, BG",J,English,"The alarm cue obstruction hypothesis: isopods respond to alarm cues, but do not respond to dietary chemical cues from predatory bluegill",2015.0,Behavioral Sciences; Zoology,152,0005-7959,2,,167,179,antipredator; trade-off; alarm cues; kairomones; dietary cues,"[Spivey, Kari L.; Chapman, Trevor L.; Schmitz, Alexandra L.; Bast, Derek E.; Smith, Amelia L. B.; Gall, Brian G.] Hanover Coll, Dept Biol, Hanover, IN 47243 USA","Predator avoidance behaviours occur when prey detect a predator but the predator has not yet detected and identified prey. These defences are critical because they prevent predation at the earliest possible stages when prey have the best chance of escape. We tested for predator avoidance behaviours in an aquatic macroinvertebrate (Caecidotea intermedius; order Isopoda) in a series of three experiments. The first experiment attempted to determine if isopods possess alarm cues by exposing them to stimuli from macerated conspecifics. We then exposed isopods to kairomones from non-predatory tadpoles (Rana catesbiana) and predatory fish (Lepomis macrochirus) that had been fed a benign diet. Finally, we exposed isopods to kairomones of predatory fish that had been fed a diet exclusively of isopods. We found that isopods did not respond to any kairomone cues or dietary cues from any potential predator, but did reduce activity in response to alarm cues. These results suggest that isopods exhibit predator avoidance responses toward chemical cues in a limited setting (they do not respond unless the information suggests an attack has occurred in the immediate past) or that bluegill have the ability to modify or mask the alarm cues from their prey.",BRILL ACADEMIC PUBLISHERS,38,"PLANTIJNSTRAAT 2, P O BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,13.0,AZ1XU,"Spivey, Kari L.; Chapman, Trevor L.; Schmitz, Alexandra L.; Bast, Derek E.; Smith, Amelia L. B.; Gall, Brian G.",7.0,7.0,Behavioral Sciences; Zoology,BEHAVIOUR,Behaviour,10.1163/1568539X-00003237,"Gall, BG (corresponding author), Hanover Coll, Dept Biol, Hanover, IN 47243 USA.",ANTIPREDATOR BEHAVIOR; ASELLUS-AQUATICUS; GAMMARUS-PULEX; HABITAT USE; PREY; AVOIDANCE; RISK; FISH; MECHANISMS; DANGER,gall@hanover.edu,,,,1568-539X,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PLANT BIOLOGY,2021-04-13,WOS:000347799100011,31,2,"Lahive, E; O'Halloran, J; Jansen, MAK",J,English,A marriage of convenience; a simple food chain comprised of Lemna minor (L.) and Gammarus pulex (L.) to study the dietary transfer of zinc,2015.0,Plant Sciences,17,1435-8603,,JAN,75,81,Dietary transfer; Gammarus sp; Lemna sp; trophic interactions; zinc,"[Lahive, E.; O'Halloran, J.; Jansen, M. A. K.] Natl Univ Ireland Univ Coll Cork, Sch Biol Earth & Environm Sci, Cork, Ireland","Macrophytes contribute significantly to the cycling of metals in aquatic systems, through accumulation during growth and release during herbivory or decomposition. Accumulation of high levels of metals has been extensively documented in Lemnaceae (duckweeds). However, the degree of trophic transfer of metals from Lemnaceae to secondary consumers remains poorly understood. This study demonstrates that zinc accumulated in Lemna minor is bioavailable to the herbivore consumer Gammarus pulex. Overall, the higher the zinc content of L.minor, the more zinc accumulated in G.pulex. Accumulation in G.pulex was such that mortality occurred when they were fed high zinc-containing L.minor. Yet, the percentage of consumed zinc retained by G.pulex actually decreased with higher zinc concentrations in L.minor. We hypothesise that this decrease reflects internal zinc metabolism, including a shift from soluble to covalently bound zinc in high zinc-containing L.minor. Consistently, relatively more zinc is lost through depuration when G.pulex is fed L.minor with high zinc content. The developed Lemna-Gammarus system is simple, easily manipulated, and sensitive enough for changes in plant zinc metabolism to be reflected in metal accumulation by the herbivore, and therefore suitable to study ecologically relevant metal cycling in aquatic ecosystems.",WILEY,53,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,7.0,AY8JE,"Lahive, E.; O'Halloran, J.; Jansen, M. A. K.",13.0,13.0,Plant Sciences,PLANT BIOLOGY,Plant Biol.,10.1111/plb.12179,"Jansen, MAK (corresponding author), Natl Univ Ireland Univ Coll Cork, Sch Biol Earth & Environm Sci, Cork, Ireland.",HEAVY-METALS; ASELLUS-AQUATICUS; WASTE-WATER; GROWTH; TOXICITY; DUCKWEED; GIBBA; ACCUMULATION; PLANTS; SENSITIVITY,m.jansen@ucc.ie,"Jansen, Marcel/0000-0003-2014-5859",,24731282.0,1438-8677,"IRCSET (Irish Research Council for Science, Engineering and Technology)Irish Research Council for Science, Engineering and Technology; WoB","This work was funded by IRCSET (Irish Research Council for Science, Engineering and Technology). The authors gratefully acknowledge the assistance of Ms. N. Casey and Dr. P. Kiely (Biochemistry Department, University College Cork) with liquid scintillation measurements, and two anonymous reviewers for very thorough reading of the manuscript. MAKJ acknowledges support from WoB.",,,,,,,1.0,,,,,SI,,,,,,,,,,,,
Article,GLOBAL CHANGE BIOLOGY,2021-04-13,WOS:000346698100035,150,2,"Perkins, DM; Bailey, RA; Dossena, M; Gamfeldt, L; Reiss, J; Trimmer, M; Woodward, G",J,English,Higher biodiversity is required to sustain multiple ecosystem processes across temperature regimes,2015.0,Biodiversity & Conservation; Environmental Sciences & Ecology,21,1354-1013,1,JAN,396,406,ecosystem functioning; environmental warming; functional redundancy; multifunctionality; species richness,"[Perkins, Daniel M.; Woodward, Guy] Univ London Imperial Coll Sci Technol & Med, Dept Life Sci, Ascot SL5 7PY, Berks, England; [Bailey, R. A.] Queen Mary Univ London, Sch Math Sci, London E1 4NS, England; [Bailey, R. A.] Univ St Andrews, Sch Math & Stat, St Andrews KY16 9SS, Fife, Scotland; [Dossena, Matteo; Trimmer, Mark] Queen Mary Univ London, Sch Biol & Chem Sci, London E1 4NS, England; [Gamfeldt, Lars] Univ Gothenburg, Dept Biol & Environm Sci, SE-40530 Gothenburg, Sweden; [Reiss, Julia] Univ Roehampton, Dept Life Sci, Whitelands Coll, London SW15 4JD, England","Biodiversity loss is occurring rapidly worldwide, yet it is uncertain whether few or many species are required to sustain ecosystem functioning in the face of environmental change. The importance of biodiversity might be enhanced when multiple ecosystem processes (termed multifunctionality) and environmental contexts are considered, yet no studies have quantified this explicitly to date. We measured five key processes and their combined multifunctionality at three temperatures (5, 10 and 15 degrees C) in freshwater aquaria containing different animal assemblages (1-4 benthic macroinvertebrate species). For single processes, biodiversity effects were weak and were best predicted by additive-based models, i.e. polyculture performances represented the sum of their monoculture parts. There were, however, significant effects of biodiversity on multifunctionality at the low and the high (but not the intermediate) temperature. Variation in the contribution of species to processes across temperatures meant that greater biodiversity was required to sustain multifunctionality across different temperatures than was the case for single processes. This suggests that previous studies might have underestimated the importance of biodiversity in sustaining ecosystem functioning in a changing environment.",WILEY-BLACKWELL,48,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,AX1HJ,"Perkins, Daniel M.; Bailey, R. A.; Dossena, Matteo; Gamfeldt, Lars; Reiss, Julia; Trimmer, Mark; Woodward, Guy",42.0,38.0,Biodiversity Conservation; Ecology; Environmental Sciences,GLOBAL CHANGE BIOL,Glob. Change Biol.,10.1111/gcb.12688,"Perkins, DM (corresponding author), Univ London Imperial Coll Sci Technol & Med, Dept Life Sci, Silwood Pk Campus, Ascot SL5 7PY, Berks, England.",FRESH-WATER MICROCOSMS; SPECIES RICHNESS; ASELLUS-AQUATICUS; GAMMARUS-PULEX; DIVERSITY; MULTIFUNCTIONALITY; SERVICES; FACILITATION; COMMUNITIES; IMPACTS,d.perkins@imperial.ac.uk; guy.woodward@imperial.ac.uk,"Perkins, Daniel/0000-0003-0866-4816",,25131335.0,1365-2486,Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/D013305/1]; Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/J015288/1] Funding Source: researchfish,This study is a contribution from the Imperial College Grand Challenges in Ecosystems and the Environment initiative. We thank the Natural Environment Research Council for financial support awarded to G. W. (Grant reference: NE/D013305/1) that funded D. M. P.'s research. We also thank Paul Giller and Michael Chadwick for their comments on an earlier draft and two anonymous referees whose comments greatly helped to improve the manuscript.,"Green Published, Other Gold",,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER SCIENCE,2021-04-13,WOS:000344922000015,215,10,"Machler, E; Deiner, K; Steinmann, P; Altermatt, F",J,English,Utility of environmental DNA for monitoring rare and indicator macroinvertebrate species,2014.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,33,2161-9549,4,DEC,1174,1183,eDNA; kicknet sampling; lotic systems; cytochrome oxidase I; water quality assessment; EPT; Amphipoda,"[Maechler, Elvira; Deiner, Kristy; Altermatt, Florian] Eawag, Swiss Fed Inst Aquat Sci & Technol, Dept Aquat Ecol, CH-8600 Dubendorf, Switzerland; [Steinmann, Patrick] Amt Abfall Wasser Energie & Luft AWEL, CH-8090 Zurich, Switzerland","Accurate knowledge of the distribution of rare, indicator, or invasive species is required for conservation and management decisions. However, species monitoring done with conventional methods may have limitations, such as being laborious in terms of cost and time, and often requires invasive sampling of specimens. Environmental DNA (eDNA) has been identified as a molecular tool that could overcome these limitations, particularly in aquatic systems. Detection of rare and invasive amphibians and fish in lake and river systems has been effective, but few studies have targeted macroinvertebrates in aquatic systems. We expanded eDNA techniques to a broad taxonomic array of macroinvertebrate species in river and lake systems. We were able to detect 5 of 6 species (Ancylus fluviatilis, Asellus aquaticus, Baetis buceratus, Crangonyx pseudogracilis, and Gammarus pulex) with an eDNA method in parallel to the conventional kicknet-sampling method commonly applied in aquatic habitats. Our eDNA method showed medium to very high consistency with the data from kicknet-sampling and was able to detect both indicator and nonnative macroinvertebrates. Furthermore, our primers detected target DNA in concentrations down to 10(-5) ng/mu L of total extracted tissue DNA in the absence of background eDNA in the reaction. We demonstrate that an eDNA surveillance method based on standard PCR can deliver biomonitoring data across a wide taxonomic range of macroinvertebrate species (Gastropoda, Isopoda, Ephemeroptera, and Amphipoda) in riverine habitats and may offer the possibility to deliver data on a more refined time scale than conventional methods when focusing on single or few target species. Such information based on nondestructive sampling may allow rapid management decisions and actions.",UNIV CHICAGO PRESS,48,"1427 E 60TH ST, CHICAGO, IL 60637-2954 USA",CHICAGO,10.0,AT4PH,"Maechler, Elvira; Deiner, Kristy; Steinmann, Patrick; Altermatt, Florian",98.0,90.0,Ecology; Marine & Freshwater Biology,FRESHW SCI,Freshw. Sci.,10.1086/678128,"Machler, E (corresponding author), Eawag, Swiss Fed Inst Aquat Sci & Technol, Dept Aquat Ecol, Uberlandstr 133, CH-8600 Dubendorf, Switzerland.",BIODIVERSITY; SAMPLES; OCCUPANCY; DIVERSITY; ABUNDANCE,elvira.maechler@eawag.ch; kristy.deiner@eawag.ch; patrick.steinmann@bd.zh.ch; florian.altermatt@eawag.ch,"Deiner, Kristy/0000-0001-9755-3223; Altermatt, Florian/0000-0002-4831-6958",,,2161-9565,Swiss National Science FoundationSwiss National Science Foundation (SNSF)European Commission [31003A_135622]; Eawag discretionary funds,"We thank Christoph Vorburger, Jos Kielgast, and an anonymous referee for discussions and helpful comments on the manuscript. We also thank Rosi Siber for generous help with Fig. 1. Data analyzed in this paper were generated in collaboration with the Genetic Diversity Centre (GDC), ETH Zurich. Funding is from the Swiss National Science Foundation Grant 31003A_135622 (to FA) and Eawag discretionary funds (to KD).",Green Published,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000342758300013,64,1,"Goncalves, AL; Chauvet, E; Barlocher, F; Graca, MAS; Canhoto, C",J,English,Top-down and bottom-up control of litter decomposers in streams,2014.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,59,0046-5070,10,OCT,2172,2182,consumption; diversity; fungi; shredders; species identity,"[Goncalves, Ana Lucia; Graca, Manuel A. S.; Canhoto, Cristina] Univ Coimbra, IMAR CMA, Dept Life Sci, P-3001401 Coimbra, Portugal; [Chauvet, Eric] Univ Toulouse, INP, UPS, EcoLab Lab Ecol Fonct & Environm, Toulouse, France; [Baerlocher, Felix] CNRS, EcoLab, Toulouse, France; [Baerlocher, Felix] Mt Allison Univ, Dept Biol, Sackville, NB E0A 3C0, Canada","Detritivores preferentially consume certain aquatic hyphomycete species while rejecting others. Fungal identity may therefore be a crucial factor determining stream food-web structure and complexity and extend the impact of microbial diversity to effects up through the food web. In this study, we examined if shredder feeding is affected by the identity of fungi on leaves (bottom-up effects) and if preferences of shredders for particular fungi affect the composition of fungal assemblages (top-down effects). Oak leaf discs were conditioned in microcosms with six individual fungal species previously reported as highly palatable (P), unpalatable/rejected (R) and intermediate (I). Additionally, three microcosms were inoculated with three mixtures of four fungal species, each consisting of a different subset of the six species. Colonised discs were offered to three detritivores with different feeding strategies: Proasellus sp. (Isopoda), Echinogammarus meridionalis (Amphipoda) and Schizopelex festiva (Trichoptera). When offered leaves colonised by single fungal species, consumption rates by E. meridionalis and S. festiva were higher on I, followed by P and, finally, R species. Consumption rates by Proasellus sp. were similar across fungal treatments. Consumption rates by the three invertebrates were also similar across all fungal multispecies treatments, suggesting that invertebrate preferences for, or rejection of, a given fungal species may be masked when it grows in proximity to other fungi. Composition and structure of fungal communities were not significantly affected by the feeding of any of the three invertebrates. Our results suggest that certain combinations of fungal and detritivore species result in unpredictable bottom-up and top-down effects in stream food webs.",WILEY-BLACKWELL,50,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,AQ4IO,"Goncalves, Ana Lucia; Chauvet, Eric; Baerlocher, Felix; Graca, Manuel A. S.; Canhoto, Cristina",25.0,25.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.12420,"Goncalves, AL (corresponding author), Univ Coimbra, IMAR Marine & Environm Res Ctr IMAR CMA, Dept Life Sci, POB 3046, P-3001401 Coimbra, Portugal.",LEAF-LITTER; GAMMARUS-PSEUDOLIMNAEUS; FEEDING PREFERENCES; ASELLUS-AQUATICUS; FUNGI; LEAVES; DIVERSITY; BIOMASS; GROWTH; PALATABILITY,aga@ci.uc.pt,"Chauvet, Eric/0000-0001-8676-392X; Graca, Manuel A.S./0000-0002-7303-9382; Baerlocher, Felix/0000-0003-2404-625X; Goncalves, Ana Lucia/0000-0003-3693-9792; Canhoto, Cristina/0000-0003-3343-8757; Graca, Manuel/0000-0002-6470-8919","Chauvet, Eric/F-7644-2011; Graca, Manuel A.S./A-5785-2013; Baerlocher, Felix/C-1307-2011; Goncalves, Ana Lucia/L-8412-2014; Canhoto, Cristina/M-4211-2014",,1365-2427,"NSERC CanadaNatural Sciences and Engineering Research Council of Canada (NSERC); Portuguese Science and Technology FoundationPortuguese Foundation for Science and Technology [SFRH/BD/47089/2008]; European Regional Development Fund (ERDF) through the COMPETE - Operational Factors of Competitiveness Program (POFC-COMPETE); FCT - Foundation for Science and TechnologyPortuguese Foundation for Science and Technology [PTDC/CLI/67180/2006, FCOMP-01-0124-FEDER-007112]; French Ministry of Foreign and European Affairs. [PHC 22808 TB]","We thank Ana Virginia Lirio for the assistance in the field and laboratory experience, and Ivan Grimmett with help in molecular techniques in Mount Allison University (supported by an NSERC Canada grant to FB). Financial support by the Portuguese Science and Technology Foundation (reference SFRH/BD/47089/2008) to ALG is gratefully acknowledged. This study was supported by the European Regional Development Fund (ERDF) through the COMPETE - Operational Factors of Competitiveness Program (POFC-COMPETE) and national funds through FCT - Foundation for Science and Technology, under the project 'Predicting the effect of global warming on stream ecosystems' (FCT Ref: PTDC/CLI/67180/2006; COMPETE Ref: FCOMP-01-0124-FEDER-007112) and by the Pessoa exchange programme between Portugal and France (PHC 22808 TB) from the French Ministry of Foreign and European Affairs.","Green Published, Green Accepted",,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER SCIENCE,2021-04-13,WOS:000340580700012,54,0,"Cothran, RD; Stoler, AB; Relyea, RA",J,English,Leaves and litterbugs: how litter quality affects amphipod life-history and sexually selected traits,2014.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,33,2161-9549,3,SEP,812,819,allochthonous input; Hyalella; phenotypic plasticity; resource quality; resource subsidy; ecological stoichiometry,"[Cothran, Rickey D.; Stoler, Aaron B.; Relyea, Rick A.] Univ Pittsburgh, Dept Biol Sci, Pittsburgh, PA 15260 USA; [Cothran, Rickey D.; Stoler, Aaron B.; Relyea, Rick A.] Univ Pittsburgh, Pymatuning Lab Ecol, Pittsburgh, PA 15260 USA","Resources that cross ecosystem boundaries (subsidies) are common in nature, but we have little knowledge of how such resources affect individual traits and, consequently, ecological interactions. In wetlands, leaf litter is an important resource subsidy that regulates ecological processes including the production of consumer biomass. However, litter quality is highly variable and depends on local plant species diversity. Many aquatic consumers are highly nutrient limited, so differences in nutrients and other chemical components in litter are likely to affect numerous individual traits of consumers including life-history and sexually selected traits. We tested whether the species of tree leaf litter consumed by freshwater amphipods affected survival, growth, and development of sexually selected traits. Amphipods had higher survival, attained larger body sizes, and had larger male sexual traits when reared on litter that was relatively nutritious and low in plant secondary and structural compounds. Such widespread trait changes suggest that changing forest composition could have substantial effects on wetland ecology and the evolution of sexual traits over ecological time scales.",UNIV CHICAGO PRESS,69,"1427 E 60TH ST, CHICAGO, IL 60637-2954 USA",CHICAGO,8.0,AN4TF,"Cothran, Rickey D.; Stoler, Aaron B.; Relyea, Rick A.",9.0,8.0,Ecology; Marine & Freshwater Biology,FRESHW SCI,Freshw. Sci.,10.1086/677214,"Cothran, RD (corresponding author), Southwestern Oklahoma State Univ, Dept Biol Sci, 100 Campus Dr, Weatherford, OK 73096 USA.",PHOSPHORUS-CONTENT; CONDITION DEPENDENCE; SECONDARY COMPOUNDS; ASELLUS-AQUATICUS; GAMMARUS-PULEX; LEAF; STREAM; CARBON; NITROGEN; DYNAMICS,rdcothran@gmail.com; abstoler@gmail.com; relyea@pitt.edu,,,,2161-9565,National Science FoundationNational Science Foundation (NSF) [DEB 11-19430],"We thank S. Estrada for measuring amphipods. This research was supported by a National Science Foundation grant awarded to RAR (DEB 11-19430). We thank Associate Editor Manuel Graca, Pamela Silver, and 4 anonymous referees for constructive comments that improved the manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000339774200024,39,0,"Ieromina, O; Peijnenburg, WJGM; de Snoo, GR; Vijver, MG",J,English,"Population responses of Daphnia magna, Chydorus sphaericus and Asellus aquaticus in pesticide contaminated ditches around bulb fields",2014.0,Environmental Sciences & Ecology,192,0269-7491,,SEP,196,203,Macroinvertebrates; Ditch system; Pesticides mixtures; Abiotic factors; In situ bioassays,"[Ieromina, O.; Peijnenburg, W. J. G. M.; de Snoo, G. R.; Vijver, M. G.] Leiden Univ Conservat Biol, Inst Environm Sci, NL-2300 RA Leiden, Netherlands; [Peijnenburg, W. J. G. M.] Natl Inst Publ Hlth & Environm, NL-3720 BA Bilthoven, Netherlands","The goal of this study was to investigate the effects of ambient concentrations of pesticides combined with abiotic factors on the key aquatic species Daphnia magna, Chydorus sphaericus and Asellus aquaticus by means of 21 days field exposure experiments. In situ bioassays were deployed in ditches around flower bulb fields during spring and autumn 2011-2012. The results showed that phosphate was the most variable parameter followed by pesticides expressed as toxic units, as the main factors explaining differences between sites. Variation in reproduction and growth of cladoceran D. magna was largely explained by nutrients, whereas dissolved oxygen contributed mostly to variations in reproduction of C sphaericus. Dissolved organic carbon contributed to variations in growth of the detrivore A. aquaticus. It is concluded that abiotic stressors rather than pesticides contributed significantly to the performance of aquatic invertebrates. (C) 2014 Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,35,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,8.0,AM3SX,"Ieromina, O.; Peijnenburg, W. J. G. M.; de Snoo, G. R.; Vijver, M. G.",10.0,10.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/j.envpol.2014.05.020,"Ieromina, O (corresponding author), Leiden Univ Conservat Biol, Inst Environm Sci, POB 9518, NL-2300 RA Leiden, Netherlands.",LIMITATION; EXPOSURE; BIOASSAY; DRIFT,ieromina@cml.leidenuniv.nl,"peijnenburg, willie/0000-0003-2958-9149; Ieromina, Oleksandra/0000-0002-3501-1362","Peijnenburg, Willie J.G.M/E-1120-2014",24967699.0,1873-6424,Environmental Chemoinformatics (ECO) [238701]; Marie Curie ITN-EU,"The authors are grateful to Water Board Rijnland for active discussions of experimental results and water system functioning in the research area. O. Ieromina is supported by the Environmental Chemoinformatics (ECO) project 238701, Marie Curie ITN-EU Framework. The authors thank Eric Gertenaar for assistance in the field work and Marja Wouterse for providing D. magna and C sphaericus culture animals and DOC measurements.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000337784500010,32,0,"Focks, A; Luttik, R; Zorn, M; Brock, T; Roex, E; Van der Linden, T; Van den Brink, PJ",J,English,A SIMULATION STUDY ON EFFECTS OF EXPOSURE TO A COMBINATION OF PESTICIDES USED IN AN ORCHARD AND TUBER CROP ON THE RECOVERY TIME OF A VULNERABLE AQUATIC INVERTEBRATE,2014.0,Environmental Sciences & Ecology; Toxicology,33,0730-7268,7,JUL,1489,1498,Pesticide combinations; Individual-based modeling; Ecological risk assessment; Recovery,"[Focks, Andreas; Brock, Theo; Van den Brink, Paul J.] Univ Wageningen & Res Ctr, Alterra, Wageningen, Netherlands; [Focks, Andreas; Van den Brink, Paul J.] Wageningen Univ, Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, Wageningen, Netherlands; [Luttik, Robert; Van der Linden, Ton] Natl Inst Publ Hlth & Environm, NL-3720 BA Bilthoven, Netherlands; [Zorn, Mathilde] Board Authorisat Plant Protect Prod & Biocides, Wageningen, Netherlands; [Roex, Erwin] Deltares, Utrecht, Netherlands","The aim of the present study was to assess whether population effects and recovery times increase when a population of a vulnerable aquatic invertebrate is exposed to concentrations of 1 or multiple pesticides. The 2 sets of pesticide combinations tested are typical for orchard and tuber crops in The Netherlands. Exposure concentrations were predicted using the FOCUS step 3 modeling framework and the Dutch drainage ditch scenario. Recovery times were assessed using the MASTEP population model. We simulated the population dynamics and pesticide effects in a Monte Carlo style by using median effective concentration values drawn from an arthropod species sensitivity distribution. In the tuber scenario, exposure to l-cyhalothrin resulted in long-term effects, whereas exposure to the co-occurring compound fluazinam hardly resulted in (additional) effects. In the orchard scenario, 3 pesticides resulted in large effects just after exposure, but pulse exposures to these compounds did not coincide. The probabilities of effects for the single compounds added up for the combination; in contrast, the recovery times were not higher for the combination compared to those associated with exposure to the individual compounds. The conclusion from the present study's simulations is that exposure to the evaluated pesticide packages may lead to increased mortality probabilities and effect sizes of the combination, but does not lead to longer recovery times for populations with synchronized reproduction than when exposed to the individual compounds. (C) 2013 SETAC",WILEY,44,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,AJ6FD,"Focks, Andreas; Luttik, Robert; Zorn, Mathilde; Brock, Theo; Roex, Erwin; Van der Linden, Ton; Van den Brink, Paul J.",12.0,12.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.2502,"Focks, A (corresponding author), Univ Wageningen & Res Ctr, Alterra, Wageningen, Netherlands.",ASELLUS-AQUATICUS; RISK-ASSESSMENT; GAMMARUS-PULEX; LIFE-HISTORY; SENSITIVITY; POPULATIONS; ECOSYSTEMS; TOXICITY; DYNAMICS; TRAITS,andreas.focks@wur.nl,"Focks, Andreas/0000-0002-9031-0808; van den brink, Paul/0000-0002-7241-4347; ","Focks, Andreas/O-1186-2015; van den brink, Paul/AAT-7144-2020; van den Brink, Paul J/E-8315-2013",24375456.0,1552-8618,"Dutch Ministry of Economic AffairsMinistry of Economic Affairs, Netherlands; Dutch Ministry of Infrastructure and the Environment",The present research was supported financially by the Dutch Ministry of Economic Affairs and the Dutch Ministry of Infrastructure and the Environment.,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGY,2021-04-13,WOS:000337218500010,125,3,"Lau, DCP; Sundh, I; Vrede, T; Pickova, J; Goedkoop, W",J,English,Autochthonous resources are the main driver of consumer production in dystrophic boreal lakes,2014.0,Environmental Sciences & Ecology,95,0012-9658,6,JUN,1506,1519,algae; aquatic food webs; fatty acids; fish; invertebrates; IsoSource; SIAR; stable isotopes; trophic transfer,"[Lau, Danny C. P.; Vrede, Tobias; Goedkoop, Willem] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, S-75007 Uppsala, Sweden; [Sundh, Ingvar] Swedish Univ Agr Sci, Dept Microbiol, S-75007 Uppsala, Sweden; [Pickova, Jana] Swedish Univ Agr Sci, Dept Food Sci, S-75007 Uppsala, Sweden","Dystrophic lakes are widespread in temperate regions and intimately interact with surrounding terrestrial ecosystems in energy and nutrient dynamics, yet the relative importance of autochthonous and allochthonous resources to consumer production in dystrophic lakes remains controversial. We argue that allochthonous organic matter quantitatively dominates over photosynthetic autotrophs in dystrophic lakes, but that autotrophs are higher in diet quality and more important for consumers as they contain essential polyunsaturated fatty acids (PUFA). In a field study, we tested the hypotheses that (1) autochthonous primary production is the main driver for consumer production, despite being limited by light availability and low nutrient supplies, and greater supply of allochthonous carbon, (2) the relative contribution of autotrophs to consumers is directly related to their tissue PUFA concentrations, and (3) methane-oxidizing bacteria (MOB) provide an energy alternative for consumers. Pelagic and benthic consumer taxa representing different trophic levels were sampled from five dystrophic lakes: isopod Asellus aquaticus, megalopteran Sialis lutaria, dipteran Chaoborus flavicans, and perch Perca fluviatilis. Based on carbon and nitrogen stable isotopes, the relative contributions of autochthonous (biofilms and seston) and allochthonous (coarse particulate and dissolved organic matter) resources and MOB to these taxa were 47-79%, 9-44% and 7-12% respectively. Results from fatty acid (FA) analyses show that the relative omega 3-FA and PUFA concentrations increased with trophic level (Asellus < Sialis and Chaoborus < Perca). Also, eicosapentaenoic-acid (EPA), omega 3-FA and PUFA concentrations increased with the autochthonous contribution in consumers, i.e., a 47-79% biofilm and/or seston diet resulted in tissue EPA of 4.2-18.4, omega 3 FAs of 11.6-37.0 and PUFA of 21.6-61.0 mg/g dry mass. The results indicate that consumers in dystrophic lakes predominantly rely on energy from autotrophs and that their PUFA concentrations are dependent on the relative contribution of these autochthonous resources. The limited energy support from MOB suggests they are not negligible and are potentially an integral part of the food webs. Our findings show that autochthonous resources are the main driver of secondary production even in dystrophic lakes and offer new insights into the functioning of these ecosystems.",WILEY,61,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,14.0,AI9AQ,"Lau, Danny C. P.; Sundh, Ingvar; Vrede, Tobias; Pickova, Jana; Goedkoop, Willem",33.0,33.0,Ecology,ECOLOGY,Ecology,10.1890/13-1141.1,"Lau, DCP (corresponding author), Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, S-75007 Uppsala, Sweden.",FATTY-ACIDS; STABLE-ISOTOPES; FOOD WEBS; TERRESTRIAL SUPPORT; CULTURAL EUTROPHICATION; BENTHIC INVERTEBRATES; PRIMARY PRODUCERS; BIOGENIC METHANE; CARBON; ZOOPLANKTON,danny.lau@slu.se,"Vrede, Tobias/0000-0001-8235-9890; Lau, Danny/0000-0002-3246-7508; Vrede, Tobias/0000-0001-8235-9890; pickova, jana/0000-0002-3406-3435","Vrede, Tobias/AAC-6469-2019; Lau, Danny/D-4457-2013; Vrede, Tobias/C-1956-2015",25039216.0,1939-9170,Swedish Research Council FormasSwedish Research CouncilSwedish Research Council Formas [217-2006-596]; Swedish Environmental Protection Agency,"We thank David Bastviken, Erik Goedkoop, Anna Lundqvist, Elisabeth Mullner, and Mikael Ostlund for help with sample collection and/or FA analysis. Lake-water chemistry data were obtained from the national environmental monitoring programs funded by the Swedish Environmental Protection Agency. This research was partly supported by a grant from the Swedish Research Council Formas to T. Vrede and W. Goedkoop (Dnr 217-2006-596).",,,,,,,,,,,,,,,,,,,,,,,,
Article,FOOD BIOPHYSICS,2021-04-13,WOS:000336369500006,64,1,"Kaya, M; Baran, T; Mentes, A; Asaroglu, M; Sezen, G; Tozak, KO",J,English,Extraction and Characterization of alpha-Chitin and Chitosan from Six Different Aquatic Invertebrates,2014.0,Food Science & Technology,9,1557-1858,2,JUN,145,157,Nanofibre; Chitin; Chitosan; Biomaterial; Aquatic insect,"[Kaya, Murat] Aksaray Univ, Fac Sci & Letters, Dept Biotechnol & Mol Biol, TR-68100 Aksaray, Turkey; [Kaya, Murat; Baran, Talat; Mentes, Ayfer; Tozak, Kabil Ozcan] Aksaray Univ, Sci & Technol Applicat & Res Ctr, TR-68100 Aksaray, Turkey; [Baran, Talat; Mentes, Ayfer; Tozak, Kabil Ozcan] Aksaray Univ, Fac Sci & Letters, Dept Chem, Aksaray, Turkey; [Asaroglu, Muammer] Minist Hlth, TR-06100 Ankara, Turkey; [Sezen, Goksal] Harran Univ, Fac Sci Literature, Dept Biol, Sanliurfa, Turkey","Chitin and chitosan were extracted from six different aquatic invertebrate species. Species dry weights varied between 5 % and 20 % chitin, and the chitosan productivity of these chitins varied between 66 % and 74 %. Chitin and chitosan structures were characterized by FTIR, TGA, XRD, and SEM. FTIR results showed that the chitins obtained from the organisms were observed in alpha form. Chitin thermal stabilities were in the order Ranatra linearis > Anax imperator > Hydrophilus piceus > Notonecta glauca > Agabus bipustulatus > Asellus aquaticus, and chitosan thermal stabilities in the order N. glauca > A. bipustulatus > A. imperator > R. linearis > H. piceus > A. aquaticus. The crystalline index values of chitins varied between 76.4 % and 90.6 %. Their surface morphology was examined by SEM, revealing nanofibre structures. These six aquatic invertebrate species with characterized chitin and chitosan structures may be used as alternative chitin and chitosan sources for various technological purposes.",SPRINGER,35,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,13.0,AH8FA,"Kaya, Murat; Baran, Talat; Mentes, Ayfer; Asaroglu, Muammer; Sezen, Goksal; Tozak, Kabil Ozcan",79.0,79.0,Food Science & Technology,FOOD BIOPHYS,Food Biophys.,10.1007/s11483-013-9327-y,"Kaya, M (corresponding author), Aksaray Univ, Fac Sci & Letters, Dept Biotechnol & Mol Biol, TR-68100 Aksaray, Turkey.",PHYSICOCHEMICAL CHARACTERIZATION; SHIITAKE STIPES; DERIVATIVES; MUSHROOMS; SHELLS,muratkaya3806@gmail.com,"Mentes, Ayfer/0000-0003-3946-4075; Sezen, Goksal/0000-0001-9054-851X; Kaya, Murat/0000-0001-6954-2703; BARAN, TALAT/0000-0003-0206-3841","Mentes, Ayfer/F-8710-2011; Sezen, Goksal/ABF-4518-2020; Kaya, Murat/AAA-7668-2020",,1557-1866,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGICAL MODELLING,2021-04-13,WOS:000335628400010,92,1,"Focks, A; ter Horst, M; van den Berg, E; Baveco, H; van den Brink, PJ",J,English,Integrating chemical fate and population-level effect models for pesticides at landscape scale: New options for risk assessment,2014.0,Environmental Sciences & Ecology,280,0304-3800,,MAY 24,102,116,Aquatic macroinvertebrates; Spatially explicit; Individual-based model; Landscape scale; Environmental risk assessment,"[Focks, Andreas; van den Brink, Paul J.] Wageningen UR, Aquat Ecol & Water Qual Management Grp, NL-6700 AA Wageningen, Netherlands; [Focks, Andreas; ter Horst, Mechteld; van den Berg, Erik; Baveco, Hans; van den Brink, Paul J.] Wageningen UR, Alterra, NL-6700 AA Wageningen, Netherlands","Any attempt to introduce more ecological realism into ecological risk assessment of chemicals faces the major challenge of integrating different aspects of the chemicals and species of concern, for example, spatial scales of emissions, chemical exposure patterns in space and time, and population dynamics and dispersal in heterogeneous landscapes. Although these aspects are not considered in current risk assessment schemes, risk assessors and managers are expressing increasing interest in learning more about both the exposure to and the effects of chemicals at landscape level. In this study, we combined the CASCADE-TOXSWA fate model, which predicts the fate of pesticides in an interconnected system of water bodies with variable hydrological characteristics, with the MASTEP mechanistic effect model, which simulates population dynamics and effects of pesticides on aquatic species at the scale of individual water bodies. To this end, we extrapolated MASTEP to the scale of realistic landscapes and linked it to dynamic exposure patterns. We explored the effects of an insecticide on the water louse Asellus aquaticus for a typical Dutch landscape covering an area of about 10 km(2) containing 137 water bodies (drainage ditches) with a total length of about 65 km and different degrees of connectivity. Pesticide treatments used in potato crop were assumed to result in a spray-drift input of 5% (non-mitigated) and 1% (mitigated) of the amount of pesticide applied into parts of the water body network. These treatments resulted in highly variable exposure patterns both in space and time. The effects of the pesticide on the species were investigated by comparing two scenarios with low and high individual-level sensitivity. We found that downstream transport of the pesticide led to exposure of water bodies that did not receive direct spray-drift input, even though this particular pesticide was assumed to dissipate rapidly from water. The observed differences in population-level effects and recovery patterns ranged from no observable effects in the low spray-drift and low sensitivity scenario to severe reduction of abundances in the high spray-drift and high sensitivity scenario. These results illustrate the sensitivity of our modelling approach, but also show the need for precise calculations of pesticide inputs and model parameterisation. Our study demonstrates the potential of coupled fate-and-effect to explore realistic scenarios at the scale of heterogeneous landscapes. Such scenarios could include the application of multiple pesticides to one or more crop types. Spatial realism of the landscape represented in the model ensures realistic consideration of population growth and dispersal as the two main recovery mechanisms. Future options for the landscape-scale fate-and-effect simulation approach include exploring the effects of mitigation measures on the risk estimates at landscape scale and hence represent a step towards risk management. (C) 2013 Elsevier B.V. All rights reserved.",ELSEVIER,48,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,15.0,AG7WB,"Focks, Andreas; ter Horst, Mechteld; van den Berg, Erik; Baveco, Hans; van den Brink, Paul J.",38.0,32.0,Ecology,ECOL MODEL,Ecol. Model.,10.1016/j.ecolmodel.2013.09.023,"Focks, A (corresponding author), Wageningen UR, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands.",ASELLUS-AQUATICUS L; POTENTIAL APPLICATION; LAMBDA-CYHALOTHRIN; LIFE-HISTORY; GROWTH; FIELD; INVERTEBRATES; BIODIVERSITY; SENSITIVITY; DYNAMICS,andreas.focks@wur.nl; mechteld.terhorst@wur.nl; erik.vandenberg@wur.nl; hans.baveco@wur.nl; paul.vandenbrink@wur.nl,"van den brink, Paul/0000-0002-7241-4347; Focks, Andreas/0000-0002-9031-0808","van den Brink, Paul J/E-8315-2013; van den brink, Paul/AAT-7144-2020; Focks, Andreas/O-1186-2015",,1872-7026,European UnionEuropean Commission [PITN-GA-2009-238148]; Alterra Vernieuwingsimpulse [523-9602],"This study was financially supported by the European Union under the 7th Framework Programme (project acronym CREAM, contract number PITN-GA-2009-238148) and by the Alterra Vernieuwingsimpulse 2012, project number 523-9602). The authors would like to thank several colleagues from the CREAM project for fruitful discussions, and Kristina Raab for language edition. Our thanks also go to two anonymous reviewers for many useful suggestions that helped to improve the manuscript.",,,,,,,,,,,,SI,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000331335000023,90,0,"Agatz, A; Ashauer, R; Brown, CD",J,English,Imidacloprid perturbs feeding of Gammarus pulex at environmentally relevant concentrations,2014.0,Environmental Sciences & Ecology; Toxicology,33,0730-7268,3,MAR,648,653,Leaf litter breakdown; Aquatic invertebrate; Behavioral toxicology; Sublethal effect; Pesticide,"[Agatz, Annika; Ashauer, Roman; Brown, Colin D.] Univ York, Dept Environm, York YO10 5DD, N Yorkshire, England; [Agatz, Annika] Food & Environm Res Agcy, York, N Yorkshire, England; [Ashauer, Roman] Swiss Fed Inst Aquat Sci & Technol, Dubendorf, Switzerland","Changes in food uptake by detritivorous macroinvertebrates could disrupt the ecosystem service of leaf litter breakdown, necessitating the study of shredding under anthropogenic influences. The impact of the neonicotinoid insecticide imidacloprid on the feeding rate of individual Gammarus pulex was measured at a daily resolution both during and after a 4-d exposure period. The authors found that imidacloprid inhibits feeding of G. pulex during exposure at concentrations >= 30 mu g/L and that there was no recovery in feeding on transfer into clean media for 3 d. Exposure to imidacloprid at concentrations >= 0.81 mu g/L and <= 9.0 mu g/L resulted in increased feeding after exposure even though there was no significant effect on feeding during the exposure itself. Comparison with the literature shows that concentrations found to influence feeding lie within the range of estimated and measured environmental concentrations. Additionally, effects on feeding rate were observed at concentrations 2 orders of magnitude lower than those causing mortality. The lethal concentration for 50% of test organisms after 4 d of exposure (270 mu g/L, literature data) and the effect concentration for a reduction in feeding by 50% (5.34 mu g/L) were used for this comparison. The present study discusses the potential that effects on feeding may evoke effects at the population level or disturb leaf litter breakdown in the environment. Environ Toxicol Chem 2014;33:648-653. (c) 2013 SETAC",WILEY,49,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,6.0,AA8HA,"Agatz, Annika; Ashauer, Roman; Brown, Colin D.",34.0,31.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.2480,"Agatz, A (corresponding author), Univ York, Dept Environm, York YO10 5DD, N Yorkshire, England.",SHORT-TERM EXPOSURE; ASELLUS-AQUATICUS; BIOACCUMULATION KINETICS; PHYSIOLOGICAL STATUS; RISK ASSESSMENT; DAPHNIA-MAGNA; IN-SITU; WATER; TOXICITY; GROWTH,Annika.Agatz@york.ac.uk,"Ashauer, Roman/0000-0002-9579-8793","Ashauer, Roman/E-6640-2010",24375767.0,1552-8618,European Union under the 7th Framework Programme (project CREAM) [PITN-GA-2009-238148],"This research was financially supported by the European Union under the 7th Framework Programme (project CREAM, contract PITN-GA-2009-238148).",,,,,,,,,,,,,,,,,,,,,,,,
Article,ZOOTAXA,2021-04-13,WOS:000331805200002,11,0,"Pellegrini, TG; Ferreira, RL",J,English,"Ultrastructural analysis and polymorphisms in Coarazuphium caatinga (Coleoptera: Carabidae: Zuphiini), a new Brazilian troglobitic beetle",2014.0,Zoology,3765,1175-5326,6,FEB 21,526,540,eyes; coloration variability; ground beetle; caves; hypogeous; sensilla,"[Pellegrini, Thais Giovannini] Univ Fed Lavras, PPG Ecol Aplicada, BR-37200000 Lavras, MG, Brazil; [Ferreira, Rodrigo Lopes] Univ Fed Lavras, Dept Biol, Setor Zool, Lab Ecol Subterranea, BR-37200000 Lavras, MG, Brazil","Coarazuphium caatinga sp. n. occurs in limestone caves located in Campo Formoso municipality, in the Brazilian Caatinga (Bahia, Brazil). The new species is close to C. formoso although they are morphologically distinct by the elytra sinuosity, which is more pronounced in C. caatinga; the aedeagus is more tapered at the tip in this last species. Important traits found in C. caatinga are the variable size presented by the eyes, and the remarkable variability of body pigmentation among specimens; both traits do not seem to be correlated. Coarazuphium Gnaspini, P., Vanin, S. A. & Godoy, N. M., 1998, species exhibit advanced troglomorphic characters in comparison to other Brazilian cave beetles, as are increased extraoptic sensory structures, presence of particular sensilla, and sensory and gustatory receptors. These characters are not detected under routine microscopy and thus require ultrastructural methods for their study.",MAGNOLIA PRESS,24,"PO BOX 41383, AUCKLAND, ST LUKES 1030, NEW ZEALAND",AUCKLAND,15.0,AB5BZ,"Pellegrini, Thais Giovannini; Ferreira, Rodrigo Lopes",8.0,6.0,Zoology,ZOOTAXA,Zootaxa,10.11646/zootaxa.3765.6.2,"Pellegrini, TG (corresponding author), Univ Fed Lavras, PPG Ecol Aplicada, BR-37200000 Lavras, MG, Brazil.",ASELLUS-AQUATICUS CRUSTACEA; NEBOTI ESPANOL; POPULATIONS; ISOPODA,thais.g.pellegrini@gmail.com; drops@dbi.ulla.br,"Ferreira, RL/0000-0003-3288-4405; ","Ferreira, RL/L-8419-2014; Pellegrini, Thais/AAV-4798-2020",24870919.0,1175-5334,Conselho Nacional de Pesquisa (CNPq)National Council for Scientific and Technological Development (CNPq) [477712/2006-1]; CNPqNational Council for Scientific and Technological Development (CNPq) [301061/2011-4],"The authors are thankful to Marconi Sousa Silva and Erika Linzi Taylor for the collection of the material. We are also grateful to Dr. Paulo Rebelles Reis (EPAMIG-CTSM/EcoCentro Lavras) for use of the phase contrast microscope. We thank Dr. Eduardo Alves (Laboratorio de Microscopia-Departamento de Fitopatologia-UFLA) for the use of the scanning microscope. Dr. Julio Louzada (Laboratorio de Ecologia e Conservacao de Invertebrados-Departamento de Biologia-UFLA) for the use of microscope Primo Star (ZEISS) and image capture and CAPES-Edital Pro-equipamento 2010, for self-assembly equipment. We also thanks Daniela Bena, for her helpfull contributions, specially on the description and drawings on female genitalia. Funding was provided by the Conselho Nacional de Pesquisa (CNPq), process no 477712/2006-1, and to R. L. F. (CNPq grant nr. 301061/2011-4). Finally we thank Dr. Jose Serrano for the suggestions, Vicente M. Ortuno and Martin Baehr for their valuable comments and improvements to the manuscript, and Ross Thomas for English editing and review.",,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY,2021-04-13,WOS:000329947800008,92,0,"Foucreau, N; Cottin, D; Piscart, C; Hervant, F",J,English,Physiological and metabolic responses to rising temperature in Gammarus pulex (Crustacea) populations living under continental or Mediterranean climates,2014.0,Biochemistry & Molecular Biology; Physiology; Zoology,168,1095-6433,,FEB,69,75,Adaptation; Amphipod; Ecophysiology; Freshwater ecosystem; Metabolism; Rising temperatures; Thermal stress,"[Foucreau, N.; Cottin, D.; Piscart, C.; Hervant, F.] Univ Lyon 1, ENTPE, CNRS, UMR Ecol Hydrosyst Nat & Anthropises 5023, F-69622 Villeurbanne, France; [Cottin, D.] Museum Natl Hist Nat, UMR CNRS 7208, IRD 207, UPMC, F-75231 Paris 05, France","Latitudinal thermal gradients offer the possibility of comparing the current performance of populations of a single species living in contrasting thermal conditions. The Rhone River Valley (France) presents a 5 degrees C thermal gradient corresponding to the increase in temperature predicted by climatic models (IPCC, 2007). We studied the thermal tolerance to rising temperature (from 15 to 30 degrees C) of five populations of the key species Gammarus pulex living either in the North (i.e. the cold part) or in the South (i.e. the warm part) of the river Valley. Individuals were acclimated at 18, 21, 24, 27 or 30 degrees C during 10 days. After this period, we here measured experimentally the populations' survival, ventilatory rate, oxygen consumption, and glycogen and triglyceride contents. Southern populations have a higher survival rate and higher oxygen consumption at higher temperatures (27 and 30 degrees C) in comparison with northern populations. Southern individuals also presented a hyperventilation, and higher energy stores compared to northern individuals whatever the acclimation temperature considered. In a global change context, the rising temperatures during the next decades may differently impair the metabolism and the survival of populations of G. pulex from different geographical origins. These differences in ecophysiological responses of organisms must be taken into account to predict the consequences of climate change. (C) 2013 Elsevier Inc All rights reserved.",ELSEVIER SCIENCE INC,40,"STE 800, 230 PARK AVE, NEW YORK, NY 10169 USA",NEW YORK,7.0,293CA,"Foucreau, N.; Cottin, D.; Piscart, C.; Hervant, F.",30.0,28.0,Biochemistry & Molecular Biology; Physiology; Zoology,COMP BIOCHEM PHYS A,Comp. Biochem. Physiol. A-Mol. Integr. Physiol.,10.1016/j.cbpa.2013.11.006,"Foucreau, N (corresponding author), Univ Lyon 1, ENTPE, CNRS, UMR Ecol Hydrosyst Nat & Anthropises 5023, 6 Rue Raphael Dubois, F-69622 Villeurbanne, France.",LONG-TERM STARVATION; RESPIRATORY RESPONSES; ASELLUS-AQUATICUS; ENERGY RESERVES; SEVERE HYPOXIA; WATER; TOLERANCE; BIODIVERSITY; CONSUMPTION; AMPHIPODS,natacha.foucreau@univ-lyon1.fr,"piscart, christophe/0000-0002-4054-4542; ","piscart, christophe/K-4981-2019; Piscart, Christophe/AAD-8973-2019",24269560.0,1531-4332,national research agency for funds (program Wetchange of the National Research Agency - Agence Nationale de la Recherche - ANR)French National Research Agency (ANR) [ANR-09-CEP-006-01],"We would like to thank warmly S. Dalmais, M. Genevois and K. Ferrand (Universite de Lyon) for their participation in field samples and acquisition of data. We are also grateful to the national research agency for funds (program Wetchange ANR-09-CEP-006-01 of the National Research Agency - Agence Nationale de la Recherche - ANR).",,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000329370800011,120,0,"Dodd, JA; Dick, JTA; Alexander, ME; MacNeil, C; Dunn, AM; Aldridge, DC",J,English,"Predicting the ecological impacts of a new freshwater invader: functional responses and prey selectivity of the 'killer shrimp', Dikerogammarus villosus, compared to the native Gammarus pulex",2014.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,59,0046-5070,2,FEB,337,352,community ecology; functional response; invasion; macroinvertebrate; predation,"[Dodd, Jennifer A.; Dick, Jaimie T. A.] Queens Univ Belfast, Sch Biol Sci, Inst Global Food Secur, Belfast, Antrim, North Ireland; [Dodd, Jennifer A.; Aldridge, David C.] Univ Cambridge, Dept Zool, Aquat Ecol Grp, Cambridge, England; [Alexander, Mhairi E.] Univ Stellenbosch, Dept Bot & Zool, Ctr Invas Biol, Matieland, South Africa; [MacNeil, Calum] Isle Man Govt, Dept Environm Food & Agr, St Johns, Man, England; [Dunn, Alison M.] Univ Leeds, Sch Biol, Leeds, W Yorkshire, England","1. The ability to predict the likely ecological impacts of invasive species in fresh waters is a pressing research requirement. Whilst comparisons of species traits and considerations of invasion history have some efficacy in this respect, we require robust methods that can compare the effects of native and invasive species. Here, we utilise comparative functional responses and prey selectivity experiments to understand and predict the ecological impact of an invader as compared to a native. 2. We compared the predatory functional responses of an emerging invasive species in Europe, the killer shrimp', Dikerogammarus villosus, and an analogous native species, Gammarus pulex, towards three representative prey species: Asellus aquaticus, Daphnia magna and Chironomus sp. Furthermore, as ecological impact may be greater for invasive species with more indiscriminate feeding habits, we compared the selectivity for the three prey types between the invasive and native species. 3. In both the presence and absence of experimental habitats, large D.villosus, and those matched for body size with G.pulex, generally showed higher (Type II) functional responses than G.pulex, with the invasive species exhibiting higher maximum feeding rates. Further, D.villosus exhibited significantly more indiscriminate prey selection compared with G.pulex, a trait that became more evident as the invader increased in size. Differences in functional responses and prey selectivity were prey species specific, with higher to lower predicted impacts in the order A.aquaticus, D.magna and Chironomus sp. This is in accord with the impact of this invasive species on macroinvertebrates in the field. 4. We thus provide understanding of the known ecological impact of D.villosus and discuss the utility of the phenomenological use of comparative functional responses and resource use as a tool through which the potential ecological impacts of invasive species may be identified.",WILEY,85,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,16.0,285CM,"Dodd, Jennifer A.; Dick, Jaimie T. A.; Alexander, Mhairi E.; MacNeil, Calum; Dunn, Alison M.; Aldridge, David C.",50.0,49.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.12268,"Dodd, JA (corresponding author), Univ Glasgow, Scottish Ctr Ecol & Nat Environm, Glasgow G63 0AW, Lanark, Scotland.",BIOLOGICAL INVASIONS; PREDATORY IMPACT; LIFE-HISTORY; AMPHIPOD; BIODIVERSITY; POPULATION; CONSEQUENCES; PARASITOIDS; FRAMEWORK; CRUSTACEA,jennifer.dodd@glasgow.ac.uk,"Dodd, Jennifer/0000-0002-0166-5720; Dunn, Alison/0000-0002-4855-1077; Aldridge, David/0000-0001-9067-8592",,,1365-2427,Esmee Fairbairn Foundation; Salmon and Trout Association; Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/G01521X/1]; Leverhulme TrustLeverhulme Trust; Riverfly Partnership; Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/G015201/1] Funding Source: researchfish,"We thank the Esmee Fairbairn Foundation, the Salmon and Trout Association, the Natural Environment Research Council (NE/G01521X/1), the Leverhulme Trust and the Riverfly Partnership for funding. We also thank Anglian Water for access to reservoir sites.","Green Accepted, Other Gold, Green Published",,,,,,,,,,,,,,,,,,,,,,,
Article,EKOLOJI,2021-04-13,WOS:000341557900002,36,2,"Kaya, H; Akbulut, M; Selvi, K; Ileri, B; Duysak, M",J,English,"Heavy Metal Accumulation, Biomarker Responses and Sensitivity to Oxidative Stress in Isopoda Asellus aquaticus from Saricay Creek (Canakkale-Turkey)",2014.0,Environmental Sciences & Ecology,23,1300-1361,91,,8,15,Asellus aquaticus; Biomarkers; Saricay Creek; Water pollution,"[Kaya, Hasan; Akbulut, Mehmet] Canakkale Onsekiz Mart Univ, Marine Sci & Technol Fac, TR-17100 Canakkale, Turkey; [Selvi, Kahraman] Canakkale Onsekiz Mart Univ, Yenice Tech Vocat Coll, TR-17550 Canakkale, Turkey; [Ileri, Burcu] Canakkale Onsekiz Mart Univ, Dept Environm Engn, TR-17100 Canakkale, Turkey; [Duysak, Muge] Canakkale Onsekiz Mart Univ, Nat & Appl Sci Inst, TR-17100 Canakkale, Turkey","In this study, the possible oxidative stress that water pollution may cause to Asellus aquaticus is evaluated using the physico-chemical parameters, the heavy metal concentration in the water, and organism and biochemical responses in the living organisms being combined together. For this purpose, the A. aquaticus samples are collected by choosing three stations along the Saricay Creek, some of whose regions are exposed to domestic and industrial pollution. Sampling stations are chosen from regions that are interpreted as polluted or clean according to the heavy metal content and physico-chemical parameters where the A. aquaticus individuals live. After the determination of species is performed, the heavy metal (Cu, Fe, Cd, Pb, and Zn) and biomarker (Na+/K+-ATPase, Glutathione, and TBARS) analyzes were made. According to the water quality analysis, S3 was the most polluted station, S2 was a moderately polluted station, and Si was determined as a clean station. A considerable increase in the amount of glutathione (GSH) was detected in the S2 and S3 stations in parallel with the increase of pollution. However, there were no statistical differences in the TBARS levels as an indicator of lipid peroxidation and Na+/K+-ATPase enzyme activity. The significant increase (three-fold) of the GSH levels in the polluted areas indicates that water pollution causes oxidative stress in the A. aquaticus species. These results show that ecological, physico-chemical, and biochemical parameters can be used together to identify and evaluate the water pollution in rivers that are exposed to pollution.",FOUNDATION ENVIRONMENTAL PROTECTION & RESEARCH-FEPR,39,"MURESELPASA BULVARI 1265 SOKAK 10-10, H MEVLUT SUSUZLU IS MERKESI, PK 63, BASMANE KONAK-IZMIR, 35230, TURKEY",BASMANE KONAK-IZMIR,8.0,AO7UK,"Kaya, Hasan; Akbulut, Mehmet; Selvi, Kahraman; Ileri, Burcu; Duysak, Muge",5.0,5.0,Ecology,EKOLOJI,Ekoloji,10.5053/ekoloji.2014.912,"Kaya, H (corresponding author), Canakkale Onsekiz Mart Univ, Marine Sci & Technol Fac, TR-17100 Canakkale, Turkey.",GLUTATHIONE-S-TRANSFERASE; CARP CYPRINUS-CARPIO; FRESH-WATER BIVALVES; LIPID-PEROXIDATION; UNIO-TUMIDUS; TOXICITY; GILL; MUSSEL; ATPASE; MECHANISMS,hasankaya@comu.edu.tr,"Selvi, Kahraman/0000-0002-6974-4441","Selvi, Kahraman/AAY-8130-2020",,,Canakkale Onsekiz Mart University Scientific Foundation (BAP)Canakkale Onsekiz Mart University [2013/51],This study was supported by the Canakkale Onsekiz Mart University Scientific Foundation (BAP) (Project No: 2013/51).,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH,2021-04-13,WOS:000329243700029,60,0,"Charles, J; Crini, G; Degiorgi, F; Sancey, B; Morin-Crini, N; Badot, PM",J,English,Unexpected toxic interactions in the freshwater amphipod Gammarus pulex (L.) exposed to binary copper and nickel mixtures,2014.0,Environmental Sciences & Ecology,21,0944-1344,2,JAN,1099,1111,Joint toxicity; Copper; Nickel; Gammarus pulex; Industrial wastewater,"[Charles, Jeremie; Crini, Gregorio; Degiorgi, Francois; Sancey, Bertrand; Morin-Crini, Nadia; Badot, Pierre-Marie] Univ Franche Comte, UMR CNRS USC INRA Chronoenvironm 6249, F-25030 Besancon, France","To document the toxicity of copper and nickel in binary mixtures, freshwater amphipods Gammarus pulex were exposed to the metals given independently or as mixtures. Toxicity to Cu alone was relatively high: 96-h LC10 and LC50 were found at 91 and 196 mu g L-1, respectively. Toxicity to Ni alone was very low, with 96-h LC10 and LC50 of 44,900 and 79,200 mu g L-1, respectively. Mixture toxicities were calculated from single toxicity data using conventional models. Modeled toxicity was then compared with the measured toxicity of the binary mixture. Two kinds of mixtures were tested. Type I mixtures were designed as combinations of Cu and Ni given at the same effect concentrations, when taken independently, to identify possible interactions between copper and nickel. In type II mixtures, Cu concentrations varied from 0 to 600 mu g L-1 while the nickel concentration was kept constant at 500 mu g L-1 to mimic conditions of industrial wastewater discharges. Ni and Cu showed synergic effects in type I mixtures while type II mixtures revealed antagonistic effects. Low doses of Ni reduced Cu toxicity towards G. pulex. These results show that even for simple binary mixtures of contaminants with known chemistry and toxicity, unexpected interactions between the contaminants may occur. This reduces the reliability of conventional additivity models.",SPRINGER HEIDELBERG,100,"TIERGARTENSTRASSE 17, D-69121 HEIDELBERG, GERMANY",HEIDELBERG,13.0,283KA,"Charles, Jeremie; Crini, Gregorio; Degiorgi, Francois; Sancey, Bertrand; Morin-Crini, Nadia; Badot, Pierre-Marie",22.0,21.0,Environmental Sciences,ENVIRON SCI POLLUT R,Environ. Sci. Pollut. Res.,10.1007/s11356-013-1978-1,"Badot, PM (corresponding author), Univ Franche Comte, UMR CNRS USC INRA Chronoenvironm 6249, Pl Leclerc, F-25030 Besancon, France.",ASELLUS-AQUATICUS L; CRUSTACEA-AMPHIPODA; BEHAVIORAL-RESPONSES; CADMIUM TOXICITY; WASTE-WATER; METAL-IONS; SENSITIVITY; METALLOTHIONEIN; MECHANISMS; CHEMICALS,Pierre-Marie.Badot@univ-fcomte.fr,"Lucie, Sancey/0000-0002-0084-3775; CRINI, Gregorio/0000-0003-2540-6851","Lucie, Sancey/H-5914-2016",23872894.0,1614-7499,Agence de l'Eau Rhone-Mediterranee-Corse; Conseil Regional de Franche-ComteRegion Bourgogne-Franche-Comte,"The authors thank the Agence de l'Eau Rhone-Mediterranee-Corse (Project METALDEX, ""development of Bioadsorbents for Metal Removal"") for financial support. J. Charles is indebted to Conseil Regional de Franche-Comte for Ph.D. fellowship. The authors also thank Dr. Peter Winterton (University of Toulouse, France) for critical reading of the manuscript and Dr. Victor Frossard for his help in statistical analysis.",,,,,,,,,,,,,,,,,,,,,,,,
Review,JOURNAL OF TRACE ELEMENTS IN MEDICINE AND BIOLOGY,2021-04-13,WOS:000339534900001,60,3,"Pawlak, J; Lodyga-Chrucinska, E; Chrustowicz, J",J,English,Fate of platinum metals in the environment,2014.0,Biochemistry & Molecular Biology; Endocrinology & Metabolism,28,0946-672X,3,,247,254,PGEs; Platinum group elements,"[Pawlak, Justyna; Lodyga-Chruscinska, Elzbieta; Chrustowicz, Jakub] Lodz Univ Technol, Fac Biotechnol & Food Sci, PL-90924 Lodz, Poland","For many years now automotive exhaust catalysts have been used to reduce the significant amounts of harmful chemical substances generated by car engines, such as carbon monoxide, nitrogen oxides, and aromatic hydrocarbons. Although they considerably decrease environmental contamination with the above-mentioned compounds, it is known that catalysts contribute to the environmental load of platinum metals (essential components of catalysts), which are released with exhaust fumes. Contamination with platinum metals stems mainly from automotive exhaust converters, but other major sources also exist. Since platinum group elements (PGEs): platinum (Pt), palladium (Pd), rhodium (Rh), ruthenium (Ru) and iridium (Ir) seem to spread in the environment and accumulate in living organisms, they may pose a threat to animals and humans. This paper discusses the modes and forms of PGE emission as well as their impact on the environment and living organisms. (C) 2014 Elsevier GmbH. All rights reserved.","ELSEVIER GMBH, URBAN & FISCHER VERLAG",77,"OFFICE JENA, P O BOX 100537, 07705 JENA, GERMANY",JENA,8.0,AM0KQ,"Pawlak, Justyna; Lodyga-Chruscinska, Elzbieta; Chrustowicz, Jakub",48.0,48.0,Biochemistry & Molecular Biology; Endocrinology & Metabolism,J TRACE ELEM MED BIO,J. Trace Elem. Med. Biol.,10.1016/j.jtemb.2014.03.005,"Pawlak, J (corresponding author), Lodz Univ Technol, Fac Biotechnol & Food Sci, Ul Stefanowskiego 4-10, PL-90924 Lodz, Poland.",TRAFFIC-RELATED PLATINUM; AUTOMOBILE CATALYTIC-CONVERTERS; GROUP ELEMENTS PGE; ATOMIC-ABSORPTION-SPECTROMETRY; OCCURRING COMPLEXING AGENTS; ISOPOD ASELLUS-AQUATICUS; ROAD DUST; PARATENUISENTIS-AMBIGUUS; EXHAUST CATALYSTS; AIRBORNE PLATINUM,juustyna.pawlak@o2.pl,"Lodyga-Chruscinska, Elzbieta/0000-0003-3123-2413","Lodyga-Chruscinska, Elzbieta/G-9493-2011",24809664.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:000325819700015,26,0,"Harris, S; Green, KK; Pettersson, LB",J,English,Predator faunas past and present: quantifying the influence of waterborne cues in divergent ecotypes of the isopod Asellus aquaticus,2013.0,Environmental Sciences & Ecology,173,0029-8549,3,NOV,791,799,Aeshna spp.; Antipredator behaviour; Chemical communication; Learning; Perca fluviatilis,"[Harris, Sanna; Green, Kristina Karlsson; Pettersson, Lars B.] Lund Univ, Dept Biol, S-22362 Lund, Sweden","Waterborne chemical cues are an important source of information for many aquatic organisms, in particular when assessing the current risk of predation. The ability to use chemical cues to detect and respond to potential predators before an actual encounter can improve prey chances of survival. We investigated predator recognition and the impact of chemical cues on predator avoidance in the freshwater isopod Asellus aquaticus. This isopod has recently colonised a novel habitat and diverged into two distinct ecotypes, which encounter different predator communities. Using laboratory-based choice experiments, we have quantified behavioural responses to chemical cues from predators typical of the two predator communities (larval dragonflies in the ancestral habitat, perch in the newly colonised habitat) in wild-caught and lab-reared Asellus of the two ecotypes. Individuals with prior experience of predators showed strong predator avoidance to cues from both predator types. Both ecotypes showed similar antipredator responses, but sexes differed in terms of threat-sensitive responses with males avoiding areas containing predator cues to a larger extent than females. Overall, chemical cues from fish elicited stronger predator avoidance than cues from larval dragonflies. Our results indicate that in these isopods, prior exposure to predators is needed to develop antipredator behaviour based on waterborne cues. Furthermore, the results emphasise the need to analyse predator avoidance in relation to waterborne cues in a sex-specific context, because of potential differences between males and females in terms of vulnerability and life history strategies.",SPRINGER,59,"ONE NEW YORK PLAZA, SUITE 4600, NEW YORK, NY, UNITED STATES",NEW YORK,9.0,236SO,"Harris, Sanna; Green, Kristina Karlsson; Pettersson, Lars B.",5.0,5.0,Ecology,OECOLOGIA,Oecologia,10.1007/s00442-013-2667-y,"Green, KK (corresponding author), Univ Helsinki, Dept Biosci, Metapopulat Res Grp, POB 65, FIN-00014 Helsinki, Finland.",CHEMICAL ALARM CUES; TEMPORAL VARIATION; HABITAT USE; RISK; RECOGNITION; FISH; BEHAVIOR; AVOIDANCE; STIMULI; SIZE,kristina.karlsson@biol.lu.se,"Pettersson, Lars/0000-0001-5745-508X","Pettersson, Lars/AAX-3948-2020",23636460.0,1432-1939,Swedish Research CouncilSwedish Research CouncilEuropean Commission; Swedish EPA,We are grateful to Henrik G. Smith for statistical advice and two anonymous referees for constructive comments on a previous draft of this manuscript. This study was financially supported by the Swedish Research Council and the Swedish EPA to L. B. P.,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:000325039400018,51,1,"Dedourge-Geffard, O; Charron, L; Hofbauer, C; Gaillet, V; Palais, F; Lacaze, E; Geffard, A; Geffard, O",J,English,Temporal patterns of digestive enzyme activities and feeding rate in gammarids (Gammarus fossarum) exposed to inland polluted waters,2013.0,Environmental Sciences & Ecology; Toxicology,97,0147-6513,,NOV 1,139,146,Energy metabolism; Caging; Temporal variations; Invertebrate; Metal contamination,"[Dedourge-Geffard, O.; Charron, L.; Hofbauer, C.; Gaillet, V.; Palais, F.; Geffard, A.] Univ Reims, Interact Anim Environm EA 4689, UFR SEN, F-51687 Reims 2, France; [Lacaze, E.; Geffard, O.] IRSTEA Lyon, Lab Ecotoxicol, Unite Rech Milieux Aquat Ecol & Pollut MAEP, F-69626 Villeurbanne, France","The aim of this study was to use digestive enzyme activities in Gammarus fossarum as biomarkers during active biomonitoring. Standardised gammarids were transplanted for 7 days to five sites in the Riou Mort watershed contaminated by polymetallic pollution. This experiment was conducted on seven different dates from February 2009 to June 2010. Feeding rates were tracked, along with amylase, cellulase and trypsin activities. We found that feeding rate and digestive capacity were reduced in the most polluted site, ""Joany,"" in comparison with the reference site ""Up.Lot"". The results suggested that trypsin was more sensitive than the other two carbohydrases. In the four other sites, seasonal differences were observed during the 2 yr but no clear pattern can be established. This study highlights the ability of G. fossarum to demonstrate environmental disturbances and suggests the use of a caging process in certain seasons. Caging organisms and feeding ad libitum is advantageous, as it reduces inter-individual variability and removes dependence on the native food fluctuations. However, confounding factors other than temperature were present, and the interpretation of digestive enzyme activities is complex. (C) 2013 Elsevier Inc. All rights reserved.",ACADEMIC PRESS INC ELSEVIER SCIENCE,71,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,8.0,226MC,"Dedourge-Geffard, O.; Charron, L.; Hofbauer, C.; Gaillet, V.; Palais, F.; Lacaze, E.; Geffard, A.; Geffard, O.",12.0,12.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1016/j.ecoenv.2013.07.016,"Dedourge-Geffard, O (corresponding author), Univ Reims, Interact Anim Environm EA 4689, UFR SEN, Moulin Housse,BP 1039, F-51687 Reims 2, France.",TRANSPLANTED ZEBRA MUSSELS; HEAVY-METAL POLLUTION; DAPHNIA-MAGNA; IN-SITU; METALLOTHIONEIN RESPONSE; CORBICULA-FLUMINEA; CRYSTALLINE STYLE; ASELLUS-AQUATICUS; SEASONAL-CHANGES; PULEX,odile.dedourge@univ-reims.fr,"Geffard, olivier/0000-0001-7760-4644; Geffard, Alain/0000-0001-9236-2890; Dedourge-Geffard, Odile/0000-0001-6308-2080",,23932430.0,1090-2414,"National Research Project ANRFrench National Research Agency (ANR) [08-CES-014 RESYST, 2011 CESA 021 02]",This study was supported by the National Research Project ANR 08-CES-014 RESYST and ANR 2011 CESA 021 02. The authors sincerely thank Elsevier for the English revision.,,,,,,,,,,,,,,,,,,,,,,,,
Article,LIMNOLOGICA,2021-04-13,WOS:000323016300013,147,0,"Rotvit, L; Jacobsen, D",J,English,Temperature increase and respiratory performance of macroinvertebrates with different tolerances to organic pollution,2013.0,Marine & Freshwater Biology,43,0075-9511,6,NOV,510,515,Stream macrofauna; Oxy-regulatory capacity; Temperature-dependence; Eco-physiological trait; Bio-assessment,"[Rotvit, Lennie; Jacobsen, Dean] Univ Copenhagen, Dept Biol, Freshwater Biol Lab, DK-3400 Hillerod, Denmark","Respiration rates (mg O-2 g(-1) AFDW h(-1)) of Leuctra hippopus, Sericostoma personatum, Helodes minuta, Gammarus pulex and Asellus aquaticus were studied across an oxygen gradient at 2.8 and 6.3 degrees C, corresponding to an expected 3.5 degrees C increase in Danish winter stream temperature. Species were selected from the Danish Stream Fauna Index (DSFI), representing an expected hierarchy of tolerance towards water quality degradation. We expected that low-ranking, tolerant species (i.e. indicators of bad water quality) would have the capacity to regulate their oxygen uptake relatively independently of oxygen availability (oxy-regulators) and high-ranking, sensitive species (i.e. indicators of good water quality) would be less able to do so (oxy-conformers). For all species respiration rate was higher (although non-significantly) at 6.3 degrees C. The species' oxy-regulatory capacity did not consistently reflect their DSFI ranking. As expected, and in accordance with its DSFI ranking, A. aquaticus had the highest oxy-regulatory capacity with the ability to regulate O-2 uptake until an oxygen saturation of only 20%, which did not change with increasing temperature, emphasizing the robustness of A. aquaticus towards changes in the environment. S. personatum, H. minuta and G. pulex revealed no oxy-regulatory capacity. In contrast, the plecopteran L hipp opus did display an unexpected oxy-regulatory capacity. Though an increase in temperature changed L hippopus' capacity to oxy-regulate (the critical limit increased from 32.5 to 43.5% oxygen), respiration rates did not change significantly in spite of the temperature increase. This result contradicts the general belief that stoneflies, because of their affinity to well oxygenated habitats, are conformers. Our findings call for further studies on the respiratory conformer-regulator concept and its role as an eco-physiological trait for bio-assessment. (C) 2013 Elsevier GmbH. All rights reserved.",ELSEVIER GMBH,35,"HACKERBRUCKE 6, 80335 MUNICH, GERMANY",MUNICH,6.0,199SR,"Rotvit, Lennie; Jacobsen, Dean",11.0,10.0,Limnology,LIMNOLOGICA,Limnologica,10.1016/j.limno.2013.04.003,"Jacobsen, D (corresponding author), Univ Copenhagen, Dept Biol, Freshwater Biol Lab, Helsingorgade 51, DK-3400 Hillerod, Denmark.",OXY-REGULATORY CAPACITY; GAMMARUS CRUSTACEA; DIPTERA; STREAMS; TRENDS,djacobsen@bio.ku.dk,"Jacobsen, Dean/0000-0001-5137-297X","Jacobsen, Dean/K-4920-2014",,1873-5851,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,AMBIO,2021-04-13,WOS:000323734700005,13,0,"Arslan, N",J,English,Invisible Face of Boron Pollution in Fluvial Ecosystem: The Level in the Tissues of Sentinel and Nectonic Organisms,2013.0,Engineering; Environmental Sciences & Ecology,42,0044-7447,6,OCT,715,723,Boron pollution; Orhaneli and Emet streams,"Eskisehir Osmangazi Univ, Sci & Art Fac, Dept Biol, Eskisehir, Turkey","Turkey is the largest producer of borate products in the world. Among four largest boron mines in Turkey two of them are located in basins of Orhaneli and Emet Streams. In this study, boron levels in abiotic (water-sediment) and some biotic elements (sentinel organisms; Asellus aquaticus, Gammarus pulex, Chironomus tentans, Limnodrilus hoffmeisteri and nektonic organism; Squalius cii) of Orhaneli and Emet Streams were investigated and their ranks among the food chain were demonstrated. Since Orhaneli and Emet Streams confluence to form MustafakemalpaAYa Brook which feeds Uluabat Lake which is one of the most important Ramsar fields of the world, Boron levels in those two streams have importance in terms of both continuances of aquatic systems. Present study results have shown that boron levels in water of both streams are much higher (vary between 8.64 and 16.73 mg L-1) than not only Turkish Standard but also limits determined by WHO, US EPA, and NAS. Boron levels determined in sediments of two streams vary between 18.05 and 36.7 mg kg(-1). The highest boron level in the biotic elements was determined in liver of Squalius cii (34.64 mg kg(-1)), it is followed by Limnodrilus hoffmeisteri (2.84 mg kg(-1)), Chironomus tentans (2.11 mg kg(-1)), and Gammarus pulex (1.98 mg kg(-1)).",SPRINGER,41,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,9.0,209DP,"Arslan, Naime",6.0,6.0,"Engineering, Environmental; Environmental Sciences",AMBIO,Ambio,10.1007/s13280-013-0383-9,"Arslan, N (corresponding author), Eskisehir Osmangazi Univ, Sci & Art Fac, Dept Biol, Eskisehir, Turkey.",MACROINVERTEBRATES; WATERS; METALS; RIVER; AREA,oligo2009@gmail.com,,,23729295.0,1654-7209,,,Green Published,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000322425300018,49,1,"Hunting, ER; Mulder, C; Kraak, MHS; Breure, AM; Admiraal, W",J,English,Effects of copper on invertebrate-sediment interactions,2013.0,Environmental Sciences & Ecology,180,0269-7491,,SEP,131,135,Copper; Bioturbation; Decomposition; Ecosystem functioning; Sediment; Invertebrates,"[Hunting, E. R.; Kraak, M. H. S.; Admiraal, W.] Univ Amsterdam, Inst Biodivers & Ecosyst Dynam IBED AEE, NL-1098 XH Amsterdam, Netherlands; [Mulder, C.; Breure, A. M.] Natl Inst Publ Hlth & Environm RIVM, NL-3720 BA Bilthoven, Netherlands; [Breure, A. M.] Radboud Univ Nijmegen, Inst Water & Wetland Res, Dept Environm Sci, NL-6525 AJ Nijmegen, Netherlands","Toxicants potentially decouple links between biodiversity and ecosystem processes. This study aimed to evaluate how toxicants affect invertebrate bioturbation and decomposition. Effects of copper on functionally distinct macrofaunal species (Asellus aquaticus and Tubifex spp.), decomposition (release of dissolved organic carbon, DOC) and Average Metabolic Response (AMR) and Community Metabolic Diversity (CMD) of bacteria were determined in 5-day microcosm experiments. Bioturbation was assessed as sediment redox potential (Eh) profiles. Concentration response curves of the functional parameters DOC, and the faunal mediated AMR and CMD in the presence of Tubifex spp. depended on Tubifex spp. survival, i.e. similar EC50 values for both endpoints. In contrast, functional parameters in the presence of A. aquaticus were more sensitive than survival. Sediment Eh-profiles showed that reduced decomposition was caused by reduced sediment reworking by A. aquaticus at sub-lethal copper concentrations. These observations hint at a decoupling of invertebrate community structure and ecosystem functioning upon stress. (C) 2013 Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,36,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,5.0,191PO,"Hunting, E. R.; Mulder, C.; Kraak, M. H. S.; Breure, A. M.; Admiraal, W.",21.0,19.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/j.envpol.2013.05.027,"Hunting, ER (corresponding author), Univ Amsterdam, Inst Biodivers & Ecosyst Dynam IBED AEE, Sci Pk 904, NL-1098 XH Amsterdam, Netherlands.",FRESH-WATER; ECHINOGAMMARUS-MERIDIONALIS; BIOGEOCHEMICAL PROCESSES; BEHAVIORAL-RESPONSES; MARINE; BIOTURBATION; DECOMPOSITION; BREAKDOWN; DYNAMICS; DETRITUS,E.R.Hunting@uva.nl,"Mulder, Christian/0000-0001-5735-6989; Hunting, Ellard/0000-0002-8794-3452; Breure, Anton M/0000-0003-2930-0675","Breure, Anton M/C-3987-2011; Mulder, Christian/N-4726-2015",23747821.0,1873-6424,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGICAL ENGINEERING,2021-04-13,WOS:000323156700014,83,2,"Marmonier, P; Maazouzi, C; Foulquier, A; Navel, S; Francois, C; Hervant, F; Mermillod-Blondin, F; Vieney, A; Barraud, S; Togola, A; Piscart, C",J,English,The use of crustaceans as sentinel organisms to evaluate groundwater ecological quality,2013.0,Environmental Sciences & Ecology; Engineering,57,0925-8574,,AUG,118,132,Groundwater evaluation; Gammarus; Niphargus; Glycogen; Triglycerides,"[Marmonier, Pierre; Maazouzi, Chafik; Foulquier, Arnaud; Navel, Simon; Francois, Clementine; Hervant, Frederic; Mermillod-Blondin, Florian; Vieney, Antonin; Piscart, Christophe] Univ Lyon 1, UMR CNRS Lab Ecol Hydrosyst Nat & Anthropises 502, F-69622 Villeurbanne, France; [Barraud, Sylvie] INSA Lyon, Lab Genie Civil & Ingn Environm, F-69621 Villeurbanne, France; [Togola, Anne] Bur Rech Geol & Minieres, Lab Div, F-45060 Orleans, France","Criteria for the evaluation of groundwater quality are essentially based on the physical and chemical characteristics of the water, but biological and ecological indicators are needed to estimate groundwater ecosystem disturbance correctly. Such ecological evaluations may use communities (of micro-or macro-organisms) as disturbance indicators, but the density and diversity of groundwater fauna can be too low to permit effective evaluation. In these cases, the use of sentinels (i.e., caged organisms in situ) may complement physical and chemical indicators in the assessment of subterranean ecosystems. We tested the use of aquatic crustaceans (Amphipoda and Isopoda) as sentinel organisms by caging and exposing them in piezometers. In a first step, four species were tested in six piezometers located in the east Lyon aquifer, located upstream and downstream of three urban storm-water infiltration basins. In a second step, we used two species: the epigean Amphipoda Gammarus pulex for a short-duration exposure (one week) and the stygobite Niphargus rhenorhodanensis for a long-duration exposure (one month). Sentinels were tested in four infiltration basins, using upstream (control) and downstream (impacted) piezometers, on three occasions in 2010 and 2011 and in the laboratory using three types of water with increasing pollution. Infiltration of storm water induced a decrease in dissolved oxygen (DO) and an increase in dissolved organic carbon (DOC) between control and impacted piezometers. We therefore proposed a Water-Quality Index (WQI) based on the ratio of DO to DOC concentrations in groundwater. We measured the survival rates and the levels of body stores (glycogen and triglyceride) at the end of the exposure period. The survival rates of both species, when significantly different, were lower in impacted than in control piezometers, but body-store levels did not change with location. We propose an Ecophysiological Index (EPI) that combines the survival rate and the state of body stores. The EPI of sentinels at the end of each exposure period was negatively correlated with DOC concentrations and positively correlated with WQI for both species; this measure was also positively correlated with DO concentrations for N. rhenorhodanensis. Short-term exposure (i.e., one week) of an epigean species (such as G. pulex) may be used to assess acute toxic disturbance, while a longer exposure (i.e., one month) of a stygobite organism (here N. rhenorhodanensis) may be used to assess diffuse organic pollution and for a global evaluation of groundwater ecological quality if the appropriate ecophysiological indicators are used to estimate stress during exposure. (C) 2013 Elsevier B. V. All rights reserved.",ELSEVIER,91,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,15.0,201QD,"Marmonier, Pierre; Maazouzi, Chafik; Foulquier, Arnaud; Navel, Simon; Francois, Clementine; Hervant, Frederic; Mermillod-Blondin, Florian; Vieney, Antonin; Barraud, Sylvie; Togola, Anne; Piscart, Christophe",26.0,26.0,"Ecology; Engineering, Environmental; Environmental Sciences",ECOL ENG,Ecol. Eng.,10.1016/j.ecoleng.2013.04.009,"Marmonier, P (corresponding author), Univ Lyon 1, UMR CNRS Lab Ecol Hydrosyst Nat & Anthropises 502, 43 Blvd 11 Novembre 1918, F-69622 Villeurbanne, France.",GAMMARUS-FOSSARUM CRUSTACEA; LONG-TERM STARVATION; SITU FEEDING ASSAY; STORMWATER INFILTRATION; WATER-QUALITY; METABOLIC-RESPONSES; SEVERE HYPOXIA; RESPIRATORY RESPONSES; SUBSEQUENT RECOVERY; ASELLUS-AQUATICUS,pierre.marmonier@univ-lyon1.fr,"Mermillod-Blondin, Florian/0000-0001-5685-2892; piscart, christophe/0000-0002-4054-4542; Togola, Anne/0000-0002-5393-1533; Foulquier, Arnaud/0000-0002-8308-5841; Francois, Clementine M/0000-0001-7781-8781","Mermillod-Blondin, Florian/AAF-3491-2020; Piscart, Christophe/AAD-8973-2019; piscart, christophe/K-4981-2019; Togola, Anne/H-4853-2012; Maazouzi, Chafik/A-8275-2010; Foulquier, Arnaud/L-8818-2015",,1872-6992,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,LIMNOLOGY AND OCEANOGRAPHY,2021-04-13,WOS:000322514600001,39,0,"Lau, DCP; Goedkoop, W; Vrede, T",J,English,Cross-ecosystem differences in lipid composition and growth limitation of a benthic generalist consumer,2013.0,Marine & Freshwater Biology; Oceanography,58,0024-3590,4,JUL,1149,1164,,"[Lau, Danny C. P.; Goedkoop, Willem; Vrede, Tobias] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Uppsala, Sweden","In a field study, we analyzed the fatty acid (FA) composition of the benthic generalist Asellus aquaticus collected from boreal lakes, ponds, and streams across gradients in ambient nutrient levels. In laboratory feeding experiments, we tested the diet-quality and seasonal effects on somatic growth and FAs of spring-and autumn-collected Asellus that were fed four different diets containing increasing concentrations of polyunsaturated FAs (PUFA): conditioned leaf litter, algal flakes, mixed litter and algal flakes (Mixed), or Mixed plus fish-food flakes. Ambient nutrients were strong determinants of FA variation of field Asellus, explaining > 44% in total. The ratios of eicosapentaenoic acid (EPA) to total FAs, EPA: omega 3, and omega 3 : omega 6 of Asellus increased up to four times with increasing trophic state and decreasing humic matter content, likely because dietary omega 3 FAs were more prevalent in benthic habitats of eutrophic than of oligotrophic systems. In the feeding trials, growth of Asellus collected in both seasons was markedly lower on leaf litter than on higher PUFA diets. However, autumn-collected Asellus fed a Mixed or Mixed+fish-food diet grew 3-10 times faster, but retained < 50% EPA and PUFA than spring counterparts. Asellus optimized PUFA accumulation in spring but somatic growth in autumn. Our field survey suggests ambient nutrient concentrations modify dietary PUFA supply from basal resources, while laboratory studies show that growth response and PUFA accumulation of Asellus differ between seasons, likely due to its season-specific physiological status and diet quality. An increase in nutrients will release benthic consumers from growth limitation and favor more efficient trophic transfer.",WILEY,34,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,16.0,192VJ,"Lau, Danny C. P.; Goedkoop, Willem; Vrede, Tobias",21.0,21.0,Limnology; Oceanography,LIMNOL OCEANOGR,Limnol. Oceanogr.,10.4319/lo.2013.58.4.1149,"Lau, DCP (corresponding author), Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Uppsala, Sweden.",FATTY-ACID-COMPOSITION; PRIMARY PRODUCERS; CARBON TRANSFER; ORGANIC-MATTER; FOOD QUANTITY; LAKE ERKEN; DAPHNIA; ZOOPLANKTON; QUALITY; SESTON,danny.lau@slu.se,"Lau, Danny/0000-0002-3246-7508; Vrede, Tobias/0000-0001-8235-9890; Vrede, Tobias/0000-0001-8235-9890","Lau, Danny/D-4457-2013; Vrede, Tobias/AAC-6469-2019; Vrede, Tobias/C-1956-2015",,1939-5590,Swedish Environmental Protection Agency; Swedish Research Council (Formas)Swedish Research CouncilSwedish Research Council Formas [Dnr 217-2006-596],Lake chemistry data of this study were obtained from the national environmental monitoring programs supported by the Swedish Environmental Protection Agency. This research was supported by a grant from the Swedish Research Council (Formas) to TV and WG (Dnr 217-2006-596).,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,PLOS ONE,2021-04-13,WOS:000319961900044,35,0,"Calizza, E; Rossi, L; Costantini, ML",J,English,Predators and Resources Influence Phosphorus Transfer along an Invertebrate Food Web through Changes in Prey Behaviour,2013.0,Science & Technology - Other Topics,8,1932-6203,6,JUN 4,,,,"[Calizza, Edoardo; Rossi, Loreto; Costantini, Maria Letizia] Univ Roma La Sapienza, Dept Environm Biol, Rome, Italy","Predators play a fundamental role in prey trophic behaviour, with indirect consequences for species coexistence and ecosystem functioning. Resource quality and availability also influence prey trophic behaviour, with potential effects on predator-prey dynamics. Although many studies have addressed these topics, little attention has been paid to the combined effects of predators and resources on prey species coexistence and nutrient transfer along food chains, especially in detritus-based systems. To determine the influence of predators and resource quality on the movement and P uptake of detritivores, we carried out a field experiment on the River Kelvin (Scotland) using P-32 to test the hypothesis of reduced prey vagility among resource patches as a strategy to avoid predation. Thirty leaf sacks containing alder leaves and two detritivore prey populations (Asellus aquaticus and Lymnaea peregra) were placed in cages, half of them with two predator species (Dendrocoelum lacteum and Erpobdella octoculata) and the other half without predators. Five alder leaf bags, each individually inoculated with a different fungus strain to simulate a patchy habitat, were placed inside each leaf sack. One bag in each sack was labelled with P-32, in order to assess the proportion of detritivores using it as food and thus their movement among the five resource patches. Three replicates for each labelled fungus and each predation treatment (i.e. with and without predators) were left on the riverbed for 7 days. The presence of predators had negligible effects on the number of detritivores in the leaf bags, but it did reduce the proportion of P-32-labelled detritivores and their P uptake. The most strongly affected species was A. aquaticus, whose vagility, trophic overlap with L. peregra and P uptake were all reduced. The results confirm the importance of bottom-up and top-down forces acting simultaneously to regulate nutrient transfer along food chains in patchy habitats.",PUBLIC LIBRARY SCIENCE,75,"1160 BATTERY STREET, STE 100, SAN FRANCISCO, CA 94111 USA",SAN FRANCISCO,8.0,158IE,"Calizza, Edoardo; Rossi, Loreto; Costantini, Maria Letizia",23.0,23.0,Multidisciplinary Sciences,PLOS ONE,PLoS One,10.1371/journal.pone.0065186,"Rossi, L (corresponding author), Univ Roma La Sapienza, Dept Environm Biol, Rome, Italy.",CHEMICAL STIMULI; BOTTOM-UP; RESPONSES; RISK; POPULATIONS; COEXISTENCE; COMPETITION; MECHANISMS; LANDSCAPE; STABILITY,loreto.rossi@uniroma1.it,"Costantini, Maria Letizia/0000-0001-6242-558X; ROSSI, LORETO/0000-0001-8014-5397; Calizza, Edoardo/0000-0002-9457-4229",,23750242.0,,"National Academy of Lincei; PNRA (Ministero dell'istruzione, dell'universitae della ricerca); Provincia di Latina (Presidenza and Assessorato Ambiente)","Funding for experiment provided by National Academy of Lincei. Funding for numerical analysis provided by PNRA 2010 (Ministero dell'istruzione, dell'universitae della ricerca, http://www.istruzione.it/) and Provincia di Latina (Presidenza and Assessorato Ambiente) 2011. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.","DOAJ Gold, Green Published",,e65186,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000318046300002,41,0,"Klobucar, GIV; Podnar, M; Jelic, M; Franjevic, D; Faller, M; Stambuk, A; Gottstein, S; Simic, V; Maguire, I",J,English,Role of the Dinaric Karst (western Balkans) in shaping the phylogeographic structure of the threatened crayfish Austropotamobius torrentium,2013.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,58,0046-5070,6,JUN,1089,1105,Balkan Peninsula; Dinarides; freshwater crayfish; karst; mitochondrial DNA,"[Klobucar, Goeran I. V.; Jelic, Misel; Franjevic, Damjan; Stambuk, Anamaria; Gottstein, Sanja; Maguire, Ivana] Univ Zagreb, Dept Zool, Fac Sci, Zagreb 10000, Croatia; [Podnar, Martina] Croatian Nat Hist Museum, Dept Zool, Zagreb, Croatia; [Faller, Matej] Singapores Natl Water Agcy PUB, Singapore, Singapore; [Simic, Vladica] Univ Kragujevac, Fac Sci, Kragujevac, Serbia","1.This study examines phylogeography and phylogeny of the threatened stone crayfish, Austropotamobius torrentium, in order to elucidate the role of the Dinaric Karst geology in shaping the evolutionary history and genetic diversity of aquatic fauna in the western Balkans. Mitochondrial 16S rRNA and COI genes were partially sequenced from 188 and 159 crayfish, respectively, sampled from 70 localities. Phylogenetic relationships were reconstructed using four methods of phylogenetic inference. Divergence times between phylogroups were estimated in a Bayesian framework, and their demographic history was examined using neutrality tests and mismatch distribution analysis. 2.Seven geographically localised phylogroups separated by pronounced genetic gaps were found. Five of them have a distribution range within the northern-central Dinaric (NCD) region, while the remaining two include populations from the southern Balkans (SB) and central and south-eastern Europe (CSE). The oldest divergence event separated two NCD lineages from the rest of populations in the Late Miocene or Early Pliocene. Divergences amongst the five NCD phylogroups and SB+CSE occurred in the Pliocene. The most recent split separated SB and CSE phylogroups during the Late Pliocene. For both genes, uncorrected pairwise divergences between most of the phylogroups (4.18.7% for COI and 1.64.8% for 16S rRNA) were of the same range as, or higher than, some of the interspecific distances previously reported for the genus Austropotamobius. 3.Geographically isolated and deeply divergent cryptic monophyletic phylogroups within A.torrentium in the NCD region arose in the course of intensification of Neotectonic movements during the Pliocene and the beginning of the Pleistocene and the development of karstification that has heavily fragmented the palaeohydrography of the area. The results confirm a gradual northsouth expansion of stone crayfish during the pre-Pleistocene that preceded the rapid northward post-glacial re/colonisation of central Europe (CSE phylogroup) through the Danube drainage. 4.Austropotamobius torrentium comprises morphologically cryptic but molecularly distinct taxa. Considering the relatively small geographical areas they inhabit, the NCD phylogroups of stone crayfish should be given the highest conservation priority.",WILEY,86,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,17.0,132CU,"Klobucar, Goeran I. V.; Podnar, Martina; Jelic, Misel; Franjevic, Damjan; Faller, Matej; Stambuk, Anamaria; Gottstein, Sanja; Simic, Vladica; Maguire, Ivana",46.0,44.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/fwb.12110,"Klobucar, GIV (corresponding author), Univ Zagreb, Dept Zool, Fac Sci, Rooseveltov Trg 6, Zagreb 10000, Croatia.",ASELLUS-AQUATICUS CRUSTACEA; FRESH-WATER CRAYFISH; MITOCHONDRIAL-DNA; GENUS AUSTROPOTAMOBIUS; PALLIPES DECAPODA; RANGE EXPANSION; COLONIZATION; EVOLUTION; DIVERSITY; SEQUENCES,gklobuca@zg.biol.pmf.hr,"Franjevic, Damjan/0000-0001-6989-4426; Klobucar, Goran/0000-0002-0838-4593; Stambuk, Anamaria/0000-0002-3177-7694; Jelic, Misel/0000-0003-4119-3948; Klobucar, Goran/0000-0002-7149-682X; Simic, Vladica/0000-0001-6787-9783","Franjevic, Damjan/AAJ-2427-2020; Klobucar, Goran/S-5138-2019; Gottstein, Sanja/K-3822-2014",,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000319708600017,127,8,"Kupryianchyk, D; Noori, A; Rakowska, MI; Grotenhuis, JTC; Koelmans, AA",J,English,Bioturbation and Dissolved Organic Matter Enhance Contaminant Fluxes from Sediment Treated with Powdered and Granular Activated Carbon,2013.0,Engineering; Environmental Sciences & Ecology,47,0013-936X,10,MAY 21,5092,5100,,"[Kupryianchyk, D.; Noori, A.; Koelmans, A. A.] Wageningen Univ, Dept Environm Sci, Aquat Ecol & Water Qual Management Grp, NL-6700 AA Wageningen, Netherlands; [Rakowska, M. I.; Grotenhuis, J. T. C.] Wageningen Univ, Dept Agrotechnol & Food Sci, Subdept Environm Technol, NL-6700 AA Wageningen, Netherlands; [Koelmans, A. A.] Wageningen Imares, NL-1970 AB Ijmuiden, Netherlands","Sediment amendment with activated carbon (AC) is a promising technique for in situ sediment remediation. To date it is not dear whether this technique sufficiently reduces sediment-to-water fluxes of sediment bound hydrophobic organic chemicals (HOCs) in the presence of bioturbators. Here, we report polychlorobiphenyl (PCB) pore water concentrations, fluxes, mass transfer coefficients, and survival data of two benthic species, for four treatments: no AC addition (control), powdered AC addition, granular AC addition and addition and subsequent removal of GAC (sediment stripping). AC addition decreased mass fluxes but increased apparent mass transfer coefficients because of dissolved organic carbon (DOC) facilitated transport across the benthic boundary layer (BBL). In turn, DOC concentrations depended on bioturbator activity which was high for the PAC tolerant species Asellus aquaticus and low for AC sensitive species Lumbriculus variegatus. A dual BBL resistance model combining AC effects on gradients, DOC facilitated transport and biodiffusion was evaluated against the data and showed how the type of resistance differs with treatment and chemical hydrophobicity. Data and simulations illustrate the complex interplay between AC and contaminant toxicity to benthic organisms and how differences in species tolerance affect mass fluxes from sediment to the water column.",AMER CHEMICAL SOC,44,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,9.0,154WY,"Kupryianchyk, D.; Noori, A.; Rakowska, M. I.; Grotenhuis, J. T. C.; Koelmans, A. A.",35.0,32.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/es3040297,"Koelmans, AA (corresponding author), Wageningen Univ, Dept Environm Sci, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands.",POLYCYCLIC AROMATIC-HYDROCARBONS; POLYCHLORINATED-BIPHENYLS; MARINE-SEDIMENTS; SORPTION; WATER; COEFFICIENTS; TRANSPORT; BIOAVAILABILITY; CONSEQUENCES; REMEDIATION,bart.koelmans@wur.nl,"Koelmans, Albert/0000-0001-7176-4356; Kupryianchyk, Darya/0000-0001-9454-214X; Grotenhuis, Tim/0000-0002-1075-3407","Koelmans, Albert A./D-8603-2014",23590290.0,,Dutch Technology Foundation STWTechnologiestichting STW; Alterra; RIVM; Deltares; Boskalis Dolman; Norit; Oostwaardhoeve V.O.F.; De Vries Van de Wiel,"This study was funded by the Dutch Technology Foundation STW. We acknowledge financial support from Alterra, RIVM, Deltares, Boskalis Dolman, Norit, Oostwaardhoeve V.O.F., De Vries & Van de Wiel. We would like to thank OMEGAM Laboratoria (Amsterdam, The Netherlands), Chiel Jonker and Stephan van der Heijden from Bioavailability-lab.com (Utrecht, The Netherlands) for their contributions to the experimental work. Frits Gillissen is gratefully acknowledged for his practical assistance during chemical analysis.",,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER AIR AND SOIL POLLUTION,2021-04-13,WOS:000319161400003,55,4,"Reboleira, ASPS; Abrantes, N; Oromi, P; Goncalves, F",J,English,Acute Toxicity of Copper Sulfate and Potassium Dichromate on Stygobiont Proasellus: General Aspects of Groundwater Ecotoxicology and Future Perspectives,2013.0,Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences; Water Resources,224,0049-6979,5,MAY,,,Contamination; Acute toxicity; Stygobiont; Proasellus; Karst; Portugal,"[Reboleira, Ana Sofia P. S.; Goncalves, Fernando] Univ Aveiro, Dept Biol, P-3810193 Aveiro, Portugal; [Reboleira, Ana Sofia P. S.; Abrantes, Nelson; Goncalves, Fernando] Univ Aveiro, CESAM, P-3810193 Aveiro, Portugal; [Abrantes, Nelson] Univ Aveiro, Dept Environm & Planning, P-3810193 Aveiro, Portugal; [Reboleira, Ana Sofia P. S.; Oromi, Pedro] Univ La Laguna, Dept Biol Anim, San Cristobal la Laguna 38206, Spain","Karst systems harbor large groundwater resources for human consumption and represent an important habitat for rare and unprotected specialized animals, the so-called stygofauna. Due to the highly adapted features towards underground life, together with the geographic isolation provided by the subterranean aquifers, groundwater-dwelling animals may lose the ability to face sudden changes on their ecosystems, and therefore the risk of extinction is remarkably high. A little is known about their sensitiveness, especially linked to contamination pressure in urbanized karst areas. Understanding the impact of contaminants on stygofauna is important for setting groundwater environmental quality and management of karst systems. We have investigated acute toxicity responses in two endemic stygobiont species of the peri-Mediterranean genus Proasellus from two different karst areas and in freshwater standard species Daphnia magna exposed to two contaminants (copper sulfate; potassium dichromate). Groundwater from both sites was characterized in order to depict possible responses resulting from the long-term exposition of organisms to contaminants. Stygobiont Proasellus spp. were remarkably more tolerant than the epigean D. magna. The less groundwater-adapted revealed to be more tolerant to acute exposure to both toxics, suggesting that the degree of adaptation to groundwater life can influence the acute response of Proasellus spp. to pollutants, and that the tolerance to wide environmental conditions could be a key factor in groundwater colonization. This study highlights the worldwide need to use local specimens to infer the effects of pollution in their corresponding karst systems, which is important to define specific environmental quality thresholds for groundwater ecosystems that will certainly contribute for its protection.",SPRINGER INTERNATIONAL PUBLISHING AG,53,"GEWERBESTRASSE 11, CHAM, CH-6330, SWITZERLAND",CHAM,9.0,147IY,"Reboleira, Ana Sofia P. S.; Abrantes, Nelson; Oromi, Pedro; Goncalves, Fernando",15.0,15.0,Environmental Sciences; Meteorology & Atmospheric Sciences; Water Resources,WATER AIR SOIL POLL,Water Air Soil Pollut.,10.1007/s11270-013-1550-0,"Reboleira, ASPS (corresponding author), Univ Aveiro, Dept Biol, Campus Univ Santiago, P-3810193 Aveiro, Portugal.",COXALIS DOLLF CRUSTACEA; ASELLUS-AQUATICUS L; SENSITIVITY; METALS; BIODIVERSITY; POPULATIONS; FAUNA,sreboleira@ua.pt,"Abrantes, Nelson/0000-0003-0241-2896; Goncalves, Fernando J. M./0000-0002-9326-187X; Reboleira, Ana Sofia/0000-0002-4756-7034; Oromi, Pedro/0000-0003-4855-5542","Abrantes, Nelson/C-5331-2009; Goncalves, Fernando J. M./B-8000-2008; Reboleira, Ana Sofia/B-3459-2010",,1573-2932,"Portuguese Foundation for Science and TechnologyPortuguese Foundation for Science and Technology [PTDC/AAC-AMB/114781/2009, SFRH/BD/45744/2008, SFRH/BPD/35665/2007]","The authors acknowledge NEUA for lending the caving equipment, DIR-SPE and P. Robalo for the kind help in the cave-dive sampling and to PNSAC/ICNB for the logistic support in the fieldwork. We also express our gratitude for the taxonomical support to Dr. Florian Malard and Dr. Damia Jaume. The Portuguese Foundation for Science and Technology financed this work within the framework of KARSTRISK project (PTDC/AAC-AMB/114781/2009); ASPSR by means of a PhD grant (SFRH/BD/45744/2008) and NA by means of a post-doc grant (SFRH/BPD/35665/2007). All specimens from the field were collected under the legal permit of Instituto da Conservacao e da Biodiversidade.",,,1550,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,INTEGRATIVE AND COMPARATIVE BIOLOGY,2021-04-13,WOS:000316991401227,6,0,"Protas, ME; Trontelj, P; Patel, NH",J,English,"Multiple mechanisms of eye reduction within a single population of the cave crustacean, Asellus aquaticus",2013.0,Zoology,53,1540-7063,,APR,E173,E173,,"Univ Calif San Francisco, San Francisco, CA 94143 USA; Univ Ljubljana, Ljubljana 61000, Slovenia; Univ Calif Berkeley, Berkeley, CA 94720 USA",,OXFORD UNIV PRESS INC,0,"JOURNALS DEPT, 2001 EVANS RD, CARY, NC 27513 USA",CARY,1.0,117ZG,"Protas, M. E.; Trontelj, P.; Patel, N. H.",0.0,0.0,Zoology,INTEGR COMP BIOL,Integr. Comp. Biol.,,,,ProtasM@vision.ucsf.edu,,,,,,,,Annual Meeting of the Society-for-Integrative-and-Comparative-Biology (SICB),,"JAN 03-07, 2013","San Francisco, CA",,1.0,Soc Integrat & Comparat Biol (SICB),,,,,,,,,,,,,,,,
Article,INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH,2021-04-13,WOS:000316608200008,21,0,"Christensen, SCB; Arvin, E; Nissen, E; Albrechtsen, HJ",J,English,Asellus aquaticus as a Potential Carrier of Escherichia coli and Other Coliform Bacteria into Drinking Water Distribution Systems,2013.0,"Environmental Sciences & Ecology; Public, Environmental & Occupational Health",10,1660-4601,3,MAR,845,855,asellids; fresh water; indicator organisms; invertebrate; microbial; water louse,"[Christensen, Sarah C. B.; Arvin, Erik; Albrechtsen, Hans-Jorgen] Tech Univ Denmark, DTU Environm, DK-2800 Lyngby, Denmark; VCS Denmark, DK-5000 Odense C, Denmark","Individuals of the water louse, Asellus aquaticus, enter drinking water distribution systems in temperate parts of the world, where they establish breeding populations. We analysed populations of surface water A. aquaticus from two ponds for associated faecal indicator bacteria and assessed the risk of A. aquaticus transporting bacteria into distribution systems. Concentrations of up to two E. coli and five total coliforms.mL(-1) were measured in the water and 200 E. coli and > 240 total coliforms.mL(-1) in the sediments of the investigated ponds. Concentrations of A. aquaticus associated bacteria never exceeded three E. coli and six total coliforms.A. aquaticus(-1). During exposure to high concentrations of coliforms, concentrations reached 350 coliforms.A. aquaticus(-1). A. aquaticus associated E. coli were only detected as long as E. coli were present in the water and sediment. The calculated probability of exceeding drinking water guideline values in non-disinfected systems by intrusion of A. aquaticus was low. Only in scenarios with narrow pipes and low flows, did total coliforms exceed guideline values, implying that the probability of detection by routine monitoring is also low. The study expands the knowledge base for evaluating incidents with presence of coliform indicators in drinking water by showing that intruding A. aquaticus were not important carriers of E. coli or other coliform bacteria even when emerging from faecally contaminated waters.",MDPI AG,29,"POSTFACH, CH-4005 BASEL, SWITZERLAND",BASEL,11.0,112QS,"Christensen, Sarah C. B.; Arvin, Erik; Nissen, Erling; Albrechtsen, Hans-Jorgen",2.0,2.0,"Environmental Sciences; Public, Environmental & Occupational Health",INT J ENV RES PUB HE,Int. J. Environ. Res. Public Health,10.3390/ijerph10030845,"Christensen, SCB (corresponding author), Tech Univ Denmark, DTU Environm, Bygningstorvet B115, DK-2800 Lyngby, Denmark.",PUBLIC-HEALTH SIGNIFICANCE; POTABLE WATER; SUPPLY-SYSTEM; ZOOPLANKTON; NEMATODES; GROWTH,scch@env.dtu.dk; erar@env.dtu.dk; en@vandcenter.dk; hana@env.dtu.dk,"Albrechtsen, Hans-Jorgen/0000-0003-3483-7709; Christensen, Sarah Christine Boesgaard/0000-0001-6183-6045; Arvin, Erik/0000-0001-8654-3409","Albrechtsen, Hans-Jorgen/J-1229-2014",23455399.0,,VCS Denmark Ltd.; UrbanWaterTech Graduate School,"We greatly acknowledge VCS Denmark Ltd. and the UrbanWaterTech Graduate School for co-funding the project. Thanks to Lene Crafack, Camilla Lindgreen and Rune Jacobsen for providing data on hibernating A. aquaticus and to Lisbet Brusendorff for graphical work. Knud, Eigil and Alvin are acknowledged for their assistance in the field.","DOAJ Gold, Green Published",,,,,,,,,,,,,,,,,,,,,,,
Article,GLOBAL CHANGE BIOLOGY,2021-04-13,WOS:000314219700009,82,3,"Dehedin, A; Maazouzi, C; Puijalon, S; Marmonier, P; Piscart, C",J,English,The combined effects of water level reduction and an increase in ammonia concentration on organic matter processing by key freshwater shredders in alluvial wetlands,2013.0,Biodiversity & Conservation; Environmental Sciences & Ecology,19,1354-1013,3,MAR,763,774,Asellus aquaticus; feeding activity; Gammarus pulex; Gammarus roeseli; leaf litter breakdown; macrophyte emersion,"[Piscart, Christophe] Univ Lyon 1, ENTPE, Ecol Hydrosyst Nat & Anthropises UMR5023, F-69622 Villeurbanne, France; Univ Lyon 1, CNRS, F-69622 Villeurbanne, France","In a global change context, the intensity and the frequency of drastic low flow periods or drought events will most likely increase to a substantial extent over the coming decades, leading to a modification in the abiotic characteristics of wetlands. This change in environmental parameters may induce severe shifts in plant and animal communities and the functioning of ecosystems. In this study, we experimentally estimated the effect of drought and the accumulation of ammonia (NH3) on the feeding activities of three generalist macroinvertebrates (i.e. Gammarus pulex, Gammarus roeselii and Asellus aquaticus) on three types of organic matter: leaves of Berula erecta growing in submerged conditions, leaves of the same species growing in emerged conditions and dead leaves of Alnus glutinosa. We observed a modification in the biomechanical and stoichiometric characteristics of the plants as a result of the emersion of the aquatic plants. This shift produced a substantial decrease in organic matter recycling by invertebrates and in their associated physiological ability (i.e. the energy stores of the animals) to face conditions associated with environmental change. Moreover, the accumulation of NH3 amplified the negative effect of emersion. This snowball effect on invertebrates may profoundly modify the functioning of ecosystems, particularly in terms of organic matter production/degradation and carbon mineralization.",WILEY,73,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,12.0,080CV,"Dehedin, Arnaud; Maazouzi, Chafik; Puijalon, Sara; Marmonier, Pierre; Piscart, Christophe",20.0,19.0,Biodiversity Conservation; Ecology; Environmental Sciences,GLOBAL CHANGE BIOL,Glob. Change Biol.,10.1111/gcb.12084,"Piscart, C (corresponding author), Univ Lyon 1, ENTPE, Ecol Hydrosyst Nat & Anthropises UMR5023, 6 Rue Raphael Dubois, F-69622 Villeurbanne, France.",GAMMARUS-PULEX L; MECHANICAL-PROPERTIES; UNIONIZED AMMONIA; LEAF-LITTER; PLANT; STREAM; BREAKDOWN; TERRESTRIAL; NITROGEN; ADAPTATIONS,christophe.piscart@univ-lyon1.fr,"piscart, christophe/0000-0002-4054-4542; Puijalon, Sara/0000-0002-1942-7958; ","piscart, christophe/K-4981-2019; Puijalon, Sara/ABA-6520-2020; Piscart, Christophe/AAD-8973-2019",23504834.0,1365-2486,National Research Agency [Agence Nationale de la Recherche (ANR)]French National Research Agency (ANR); Region Rhone-AlpesRegion Auvergne-Rhone-Alpes,"This study was funded by the WETCHANGE project (2010-2012) of the CEP 2009 program of the National Research Agency [Agence Nationale de la Recherche (ANR)], and supported by discussions with G. Bornette within the ZABR network [The French LTER of the Rhone River Basin] and a doctoral research grant from the 'Region Rhone-Alpes'. We thank Felix Vallier for his help in constructing the equipments for biomechanical measurements.",,,,,,,,,,,,,,,,,,,,,,,,
Article,FRONTIERS IN ZOOLOGY,2021-04-13,WOS:000316323000001,23,0,"Bilandzija, H; Morton, B; Podnar, M; Cetkovic, H",J,English,Evolutionary history of relict Congeria (Bivalvia: Dreissenidae): unearthing the subterranean biodiversity of the Dinaric Karst,2013.0,Zoology,10,1742-9994,,FEB 6,,,Dinaric Karst; Subterranean habitats; Cave bivalve; Congeria; Dreissenidae; New species; Ecophenotypic plasticity,"[Bilandzija, Helena; Cetkovic, Helena] Rudjer Boskovic Inst, Div Mol Biol, Zagreb 10000, Croatia; [Bilandzija, Helena] Croatian Biospeleol Soc, Zagreb 10000, Croatia; [Morton, Brian] Nat Hist Museum, Dept Zool, London SW7 5BD, England; [Podnar, Martina] Croatian Nat Hist Museum, Zagreb 10000, Croatia","Background: Patterns of biodiversity in the subterranean realm are typically different from those encountered on the Earth's surface. The Dinaric karst of Croatia, Slovenia and Bosnia and Herzegovina is a global hotspot of subterranean biodiversity. How this was achieved and why this is so remain largely unresolved despite a long tradition of research. To obtain insights into the colonisation of the Dinaric Karst and the effects of the subterranean realm on its inhabitants, we studied the tertiary relict Congeria, a unique cave-dwelling bivalve (Dreissenidae), using a combination of biogeographical, molecular, morphological, and paleontological information. Results: Phylogenetic and molecular clock analyses using both nuclear and mitochondrial markers have shown that the surviving Congeria lineage has actually split into three distinct species, i.e., C. kusceri, C. jalzici sp. nov. and C. mulaomerovici sp. nov., by vicariant processes in the late Miocene and Pliocene. Despite millions of years of independent evolution, analyses have demonstrated a great deal of shell similarity between modern Congeria species, although slight differences in hinge plate structure have enabled the description of the two new species. Ancestral plesiomorphic shell forms seem to have been conserved during the processes of cave colonisation and subsequent lineage isolation. In contrast, shell morphology is divergent within one of the lineages, probably due to microhabitat differences. Conclusions: Following the turbulent evolution of the Dreissenidae during the Tertiary and major radiations in Lake Pannon, species of Congeria went extinct. One lineage survived, however, by adopting a unique life history strategy that suited it to the underground environment. In light of our new data, an alternative scenario for its colonisation of the karst is proposed. The extant Congeria comprises three sister species that, to date, have only been found to live in 15 caves in the Dinaric karst. Inter-specific morphological stasis and intra-specific ecophenotypic plasticity of the congerid shell demonstrate the contrasting ways in which evolution in the underground environments shapes its inhabitants.",BMC,50,"CAMPUS, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,17.0,108UZ,"Bilandzija, Helena; Morton, Brian; Podnar, Martina; Cetkovic, Helena",36.0,27.0,Zoology,FRONT ZOOL,Front. Zool.,10.1186/1742-9994-10-5,"Cetkovic, H (corresponding author), Rudjer Boskovic Inst, Div Mol Biol, Bijenicka 54, Zagreb 10000, Croatia.",ASELLUS-AQUATICUS CRUSTACEA; CAVE SHRIMP TROGLOCARIS; KUSCERI BIVALVIA; CRYPTIC DIVERSITY; WATER; PHYLOGEOGRAPHY; PHYLOGENY; SELECTION; STRATEGY; BALKANS,cetkovic@irb.hr,,,23388548.0,,Croatian MSES grants [098-0982913-2874]; Croatian State Institute for Nature Protection,"This work was funded by Croatian MSES grants 098-0982913-2874 (H. Cetkovic). Part of the fieldwork was financed by the Croatian State Institute for Nature Protection. We are indebted to Branko Jalzic and many members of Croatian Biospeleological Society and other caving clubs in Croatia for their assistance and help with fieldwork. Nikola Tvrtkovic and Markica Vuica are thanked for logistical support. Boris Sket, Peter Trontelj and Valerija Zaksek (University of Ljubljana) are thanked for providing us with part of the Congeria material. We are grateful to Andrej Hudoklin, Martin Ilenic and Boris Sket for enabling the collections in Slovenia. In Bosnia and Herzegovina we benefited from the help of Jasminko Mulaomerovic, Ivo Lucic, the Zelena brda caving club (Trebinje) especially Dubravko Kurtovic, Dejan Jankovic and Miroslav Dokic - Dole as well as Zlatko Grizelj, Zoran Weber and Ivan Bebek who helped us during fieldtrips in western Herzegovina. Abraham bij de Vaate, Waterfauna Hydrobiologisch Adviesbureau, The Netherlands, is thanked for providing specimens of Dreissena rostriformis bugensis. G.E. Dinesen, Technical University, Denmark, and K F. Leung, Environmental Protection Department, Hong Kong SAR Government, Hong Kong, are especially thanked for statistical help. Mirna Imesek and Inga Patarcic are acknowledged for their laboratory help. Darko Baksic gave permission to use and change his Velebit profile figure. William R. Jeffery, Branko Jalzic, Matija Harcet and two anonymous reviewers gave useful comments on earlier versions of this manuscript.","DOAJ Gold, Green Published",,5,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000312978700018,100,0,"Dehedin, A; Piscart, C; Marmonier, P",J,English,Seasonal variations of the effect of temperature on lethal and sublethal toxicities of ammonia for three common freshwater shredders,2013.0,Environmental Sciences & Ecology,90,0045-6535,3,JAN,1016,1022,Global warming; Wetlands; Ecotoxicology; Asellus aquaticus; Gammarus pulex; Gammarus roeseli,"[Dehedin, Arnaud; Piscart, Christophe; Marmonier, Pierre] Univ Lyon 1, ENTPE, CNRS, Ecol Hydrosyst Nat & Anthropises UMR5023, F-69622 Villeurbanne, France","In a context of global change, increases in temperature and in ammonia concentration should strongly affect the crustaceans of wetlands. We experimentally examined, at three different seasons (i.e. winter, spring, and summer), the effect of temperature (12, 18, and 24 degrees C) on the lethal (survival rates) and sublethal (oxygen consumption) toxicity of unionized ammonia (NH3) on the amphipods Gammarus pulex and Gammarus roeselii and the isopod Asellus aquaticus. Our results demonstrate (1) a gradient of increasing tolerance and survival from G. roeselii to G. pulex and A. aquaticus, (2) an increasing toxicity of ammonia with temperature, and (3) a strong seasonal variation of the tolerance to ammonia, with a higher tolerance of individuals in winter than in summer. However, the sub-lethal effect of ammonia on the oxygen consumption rate was species dependant and changed according to temperature or season. Global change and resulting variations in crustacean densities will potentially affect the ecosystem functioning (e.g. organic matter recycling). Crown Copyright (C) 2012 Published by Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,35,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,7.0,063EJ,"Dehedin, Arnaud; Piscart, Christophe; Marmonier, Pierre",22.0,21.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2012.07.055,"Dehedin, A (corresponding author), Univ Lyon 1, ENTPE, CNRS, Ecol Hydrosyst Nat & Anthropises UMR5023, 6 Rue Raphael Dubois, F-69622 Villeurbanne, France.",DIKEROGAMMARUS-VILLOSUS; AGRICULTURAL PRACTICES; ORGANIC POLLUTION; CLIMATE-CHANGE; ASELLUS RATIO; AMPHIPOD; GAMMARUS; CRUSTACEA; STREAMS; INDEX,arnaud.dehedin@univ-lyon1.fr,"piscart, christophe/0000-0002-4054-4542; ","piscart, christophe/K-4981-2019; Piscart, Christophe/AAD-8973-2019",22910696.0,,WETCHANGE Project of CEP Program of National Research Agency [Agence Nationale de la Recherche (ANR)]French National Research Agency (ANR); Region Rhone-AlpesRegion Auvergne-Rhone-Alpes,"This study was funded by the WETCHANGE Project (2010-2012) of the CEP 2009 Program of the National Research Agency [Agence Nationale de la Recherche (ANR)], and supported by discussions with G. Bornette within the ZABR network [The French LTER of the Rhone River Basin] and a doctoral research grant from the ""Region Rhone-Alpes"".",,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGIA,2021-04-13,WOS:000312775600016,32,0,"Dumnicka, E; Galas, J; Jatulewicz, I; Karlikowska, J; Rzonca, B",J,English,From spring sources to springbrook: Changes in environmental characteristics and benthic fauna,2013.0,Life Sciences & Biomedicine - Other Topics,68,0006-3088,1,JAN,142,149,abiotic parameters; benthic fauna; Krakow-Czestochowa Upland,"[Dumnicka, Elzbieta; Galas, Joanna] Polish Acad Sci, Inst Nat Conservat, PL-31120 Krakow, Poland; [Jatulewicz, Igor; Karlikowska, Joanna] Jan Dlugosz Univ Czestochowa, Inst Chem Environm Protect & Biotechnol, PL-42200 Czestochowa, Poland; [Rzonca, Bartlomiej] Jagiellonian Univ, Inst Geog & Spatial Management, PL-30387 Krakow, Poland","Spatial patterns in macroinvertebrate communities and some abiotic factors were examined in three rheocrene springs and their springbrooks (Krakw-CzA (TM) stochowa Upland, southern Poland). The mean discharge of particular springs ranged from 5 to 11 L s(-1), and its annual fluctuations were small. Water temperature was very stable at all sampling sites. In the eucrenon the number of benthic taxa was the smallest (9-14 determined to the family level), but the densities were the highest (approx. 14000 ind. m(-2)). The biggest changes in macroinvertebrate composition were observed in the modified hypocrenon, which is an artificial pond. The lowest number of taxa were found in a natural, short springbrook with a nondiversified bottom substrate. The density of crenophilic taxa (Drusus trifidus, Dugesia gonocephala, Elmidae) diminished along the springbrooks, while the opposite trend was observed for ubiquitous taxa (some Oligochaeta, Asellus aquaticus and Chironomidae). Even in a very short natural springbrook (30 m), Drusus trifidus, the only species of Trichoptera found in the springs discussed here, goes through the entire development cycle. The strongest influence of a big river was observed at the outflow of one of the natural springbrooks, where the highest number of riverine oligochaete species were found. The benthic fauna of the springs studied here differed from that found in other springs in this area - the absence of the typical crenophilic species Bithynella austriaca (Gastropoda) and the presence of Gianus aquedulcis (Oligochaeta) may indicate the autonomy of the spring fauna in the Mstw area, possibly resulting from the postglacial geomorphological formation of this region or differences in habitat conditions.",VERSITA,27,"SOLIPSKA 14A-1, 02-482 WARSAW, POLAND",WARSAW,8.0,060KE,"Dumnicka, Elzbieta; Galas, Joanna; Jatulewicz, Igor; Karlikowska, Joanna; Rzonca, Bartlomiej",9.0,9.0,Biology,BIOLOGIA,Biologia,10.2478/s11756-012-0134-6,"Dumnicka, E (corresponding author), Polish Acad Sci, Inst Nat Conservat, Al A Mickiewicza 33, PL-31120 Krakow, Poland.",UPLAND SOUTHERN POLAND; INVERTEBRATE COMMUNITIES; OLIGOCHAETA; MACROINVERTEBRATES; BIODIVERSITY; PERMANENCE; PATTERNS; FLOW,dumnicka@iop.krakow.pl,"Rzonca, Bartlomiej/0000-0002-8938-1457",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,LIMNOLOGICA,2021-04-13,WOS:000312471000007,65,0,"Herrmann, J",J,English,"Chemical and biological benefits in a stormwater wetland in Kalmar, SE Sweden",2012.0,Marine & Freshwater Biology,42,0075-9511,4,DEC,299,309,Stormwater; Wetland; Pond; Chemistry; Nutrient reduction; Heavy metal; Vegetation; Invertebrates; Sweden,"Linnaeus Univ, Sch Nat Sci, SE-39182 Kalmar, Sweden","A manmade stormwater wetland in Kalmar, SE Sweden, sized 1 ha and receiving water from residential and road areas, was monitored over the first years after inundation with respect to chemistry and biology. Water flow and chemistry was analysed in years 2-4, mainly on a monthly basis, but, in the final year, every second month. This revealed that total nitrogen, according to the Swedish Environmental Quality Criteria (EQC), typically showed moderate or high concentrations, whereas total phosphorous levels were very high or extremely high. Metal (Cd, Cr, Cu, Pb and Zn) concentrations were low or moderate in terms of EQC. Yearly average reduction of nitrogen was 173 kg ha(-1) y(-1), tending to increase over time, and for phosphorous 12.1 kg ha(-1) y(-1), tending to decrease. Vegetation analysis was performed in years 1-4 by noting all species in 27 consecutive zones around the wetland system. This showed that one year after filling with water, the vegetation was already well established with >30 plant species in the entire pond system, and this increased only slightly. After four years, the shoreline vegetation cover had become denser, especially with larger graminoids such as common reed (Phragmites australis) and sea club-rush (Bolboschoenus maritimus), and submersed vegetation almost disappeared. There was a tendency for common species to become more dominant, and for less common species to become rarer. Using sweep net sampling of benthic invertebrates during years 0-2, ca 50 species/higher taxa were observed during the first year, largely because of the appearance of many beetles, especially dytiscids. However, these decreased the following years. Apart from these animals, in the first few months the invertebrate colonisation was dominated by chironomids and corixids, whereas later prominent increases were noticed for the isopod Asellus aquaticus, the snail Physa fontinalis, and the mayfly nymph Cloeon dipterum. The results are discussed in terms of wetland values for biodiversity and nutrient reduction, suggesting that these objectives seem possible to combine in stormwater wetlands. (C) 2012 Elsevier GmbH. All rights reserved.",ELSEVIER GMBH,60,"HACKERBRUCKE 6, 80335 MUNICH, GERMANY",MUNICH,11.0,056EK,"Herrmann, Jan",21.0,19.0,Limnology,LIMNOLOGICA,Limnologica,10.1016/j.limno.2012.07.003,"Herrmann, J (corresponding author), Linnaeus Univ, Sch Nat Sci, SE-39182 Kalmar, Sweden.",MACROPHYTE SPECIES RICHNESS; PONDS; COLONIZATION; RETENTION; MACROINVERTEBRATES; VEGETATION; EMERGENT; LAKE; BIODIVERSITY; COMMUNITIES,jan.herrmann@lnu.se,,,,1873-5851,Kalmar Vatten; Linnaeus University,"Hakan Andersson, Ulf Ohlsson, and Edgar Fernandez at ""Kalmar Vatten"" supported with valuable data and calculations about the catchment area and characteristics, and charged for the water analyses, performed by HS-lab. The study was financed by Kalmar Vatten and Linnaeus University (formerly University of Kalmar).",Bronze,,,,,,,,,,,SI,,,,,,,,,,,,
Article,FRESHWATER SCIENCE,2021-04-13,WOS:000311266300013,56,0,"Kampfraath, AA; Hunting, ER; Mulder, C; Breure, AM; Gessner, MO; Kraak, MHS; Admiraal, W",J,English,DECOTAB: a multipurpose standard substrate to assess effects of litter quality on microbial decomposition and invertebrate consumption,2012.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,31,2161-9549,4,DEC,1156,1162,litter decomposition; cellulose degradation; microorganisms; detritivores; benthos; functional ecosystem assessment; aquatic ecosystem health; methodology; standardization,"[Kampfraath, Andries A.; Hunting, Ellard R.; Kraak, Michiel H. S.; Admiraal, Wim] Univ Amsterdam, Inst Biodivers & Ecosyst Dynam IBED AEE, NL-1098 XH Amsterdam, Netherlands; [Mulder, Christian; Breure, Anton M.] Natl Inst Publ Hlth & Environm RIVM, NL-3720 BA Bilthoven, Netherlands; [Breure, Anton M.] Radboud Univ Nijmegen, Dept Environm Sci, Inst Water & Wetland Res IWWR, NL-6525 AJ Nijmegen, Netherlands; [Gessner, Mark O.] Leibniz Inst Freshwater Ecol & Inland Fisheries I, D-16775 Stechlin, Germany; [Gessner, Mark O.] TU Berlin, Berlin Inst Technol, Dept Ecol, D-10587 Berlin, Germany","Currently available tools for studying plant litter decomposition and invertebrate consumption in aquatic ecosystems have at least 2 major limitations: 1) the difficulty of manipulating litter chemical composition to provide mechanistic insights into attributes of litter quality controlling decomposition rate, and 2) lack of a standardized litter that hampers comparisons of results among studies. These limitations point to a need for a standard litter surrogate with adjustable chemical composition. We propose using a decomposition and consumption tablet (DECOTAB) consisting of cellulose powder embedded in an agar matrix to evaluate decomposition and consumption rates in aquatic environments. We describe the preparation of DECOTABs and demonstrate some applications in laboratory microcosms and outdoor mesocosms. A leaf shredder, the isopod Asellus aquaticus, and a collector-gatherer, the nonbiting midge larva Chironomus riparius, readily consumed DECOTABs, leading to massive mass loss of the tablets within 21 d (similar to 90%). The isopod also consumed DECOTABs amended with extracts of riparian plants and soil to create a chemically complex source of organic matter. Our results highlight the potential utility of DECOTABs to assess invertebrate contributions to organic matter decomposition in aquatic systems. In the absence of invertebrates, exposure of basic and complex DECOTABs to microorganisms resulted in significant mass loss within 21 d (10-25%), and addition of an antibiotic and fungicide suppressed microbial decomposition, suggesting that the tablets are useful for studying microbial processes. Complex tablets decomposed faster than the basic tablets, a result illustrating the importance of chemical composition of organic material for microbial decomposers. DECOTABs are a novel, versatile tool for addressing long-standing questions in aquatic ecology and environmental assessment.",UNIV CHICAGO PRESS,45,"1427 E 60TH ST, CHICAGO, IL 60637-2954 USA",CHICAGO,7.0,039SH,"Kampfraath, Andries A.; Hunting, Ellard R.; Mulder, Christian; Breure, Anton M.; Gessner, Mark O.; Kraak, Michiel H. S.; Admiraal, Wim",28.0,28.0,Ecology; Marine & Freshwater Biology,FRESHW SCI,Freshw. Sci.,10.1899/12-075.1,"Kampfraath, AA (corresponding author), Univ Amsterdam, Inst Biodivers & Ecosyst Dynam IBED AEE, Scipk 904, NL-1098 XH Amsterdam, Netherlands.",ORGANIC-MATTER DYNAMICS; LEAF-LITTER; BREAKDOWN; STREAMS; INDICATORS; METABOLISM; FLOODPLAIN; SEQUENCES; BACTERIA; PLANKTON,d.kampfraath@gmail.com; e.r.hunting@uva.nl; christian.mulder@rivm.nl; ton.breure@rivm.nl; gessner@igb-berlin.de; m.h.s.kraak@uva.nl; w.admiraal@uva.nl,"Mulder, Christian/0000-0001-5735-6989; Hunting, Ellard/0000-0002-8794-3452; Breure, Anton M/0000-0003-2930-0675","Kraak, Michiel/K-6928-2012; Breure, Anton M/C-3987-2011; Mulder, Christian/N-4726-2015",,2161-9565,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000307886000005,37,0,"Matuszak, A; Mortl, M; Quillfeldt, P; Bauer, HG",J,English,Exclosure study on the exploitation of macrophytes by summering and moulting waterbirds at Lower Lake Constance,2012.0,Marine & Freshwater Biology,697,0018-8158,1,NOV,31,44,Waterbird community; Herbivory; Food supply; Wing moult; Exclosure experiment,"[Matuszak, Anja; Quillfeldt, Petra; Bauer, Hans-Guenther] Max Planck Inst Ornithol, D-78315 Radolfzell am Bodensee, Germany; [Moertl, Martin] Univ Konstanz, Limnol Inst, Dept Biol, Constance, Germany","Owing to synchronous moult, most waterbird species are constrained by flightlessness and limited mobility for several weeks. As new feather production is energy demanding, these birds need to choose a safe moulting site with appropriate food supply. Up to 20,000 waterbirds carry out moult at Lake Constance, gathering at sites where they find food close to safe hiding places from predators and human-caused disturbance. In this study, we focused on the food supply at one prominent moulting site, Mettnau Sudbucht, at Lower Lake Constance. We aimed to determine the food items and quantity as well as their utilization by summering and moulting waterbirds. We conducted experiments with exclosure cages which protected macrophytes from bird grazing and compared these sites with unprotected grazed sites. In these experiments, we found that the summering and moulting waterbird community, dominated by Eurasian Coots (Fulica atra Linnaeus), caused a significant decline of the macrophyte biomass at 1.5-m depth (MWL), where they were responsible for a loss of over 40% of the total charophyte biomass. No grazing effect was found at a greater depth (2-m MWL). The available food consisted mostly of Chara spp. with a biomass density of about 350 g m(-2). Animal food items were negligible: Macroinvertebrates, mainly Asellus aquaticus Linnaeus, that were associated with the macrophytes, made up only 2% of total biomass, and were very unevenly distributed.",SPRINGER,66,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,14.0,993UT,"Matuszak, Anja; Moertl, Martin; Quillfeldt, Petra; Bauer, Hans-Guenther",9.0,9.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-012-1168-z,"Matuszak, A (corresponding author), Max Planck Inst Ornithol, Obstberg 1, D-78315 Radolfzell am Bodensee, Germany.",POTAMOGETON-PECTINATUS L.; FLIGHT FEATHER MOLT; SUBMERGED MACROPHYTES; WINTERING WATERBIRDS; WATERFOWL HERBIVORY; EUTROPHIC LAKE; SHALLOW LAKE; BODY-MASS; FISH; VEGETATION,matuszak@orn.mpg.de,"Quillfeldt, Petra/0000-0002-4450-8688","Quillfeldt, Petra/A-9549-2009",,1573-5117,Deutsche Forschungsgemeinschaft (DFG)German Research Foundation (DFG),"We thank K.O. Rothhaupt for chairing the Cooperative Research Centre 454 at Lake Constance and Deutsche Forschungsgemeinschaft (DFG) for funding this CRC. We gratefully acknowledge the assistance of the scientific diving group of the University of Constance: Martin Wolf, John Hesselschwerdt, Stefan Werner, Martin Kohnke and Almut Hanselmann. We also thank the field assistants Gabriele Schafheitle and Andreas Michalik.",,,,,,,,,,,,,,,,,,,,,,,,
Article,WILEY INTERDISCIPLINARY REVIEWS-DEVELOPMENTAL BIOLOGY,2021-04-13,WOS:000321263900003,42,0,"Protas, M; Jeffery, WR",J,English,Evolution and development in cave animals: from fish to crustaceans,2012.0,Developmental Biology,1,1759-7684,6,NOV-DEC,823,845,,"[Protas, Meredith] Univ Calif Berkeley, Dept Integrat Biol, Berkeley, CA 94720 USA","Cave animals are excellent models to study the general principles of evolution as well as the mechanisms of adaptation to a novel environment: the perpetual darkness of caves. In this article, two of the major model systems used to study the evolution and development (evo-devo) of cave animals are described: the teleost fish Astyanax mexicanus and the isopod crustacean Asellus aquaticus. The ways in which these animals match the major attributes expected of an evo-devo cave animal model system are described. For both species, we enumerate the regressive and constructive troglomorphic traits that have evolved during their adaptation to cave life, the developmental and genetic basis of these traits, the possible evolutionary forces responsible for them, and potential new areas in which these model systems could be used for further exploration of the evolution of cave animals. Furthermore, we compare the two model cave animals to investigate the mechanisms of troglomorphic evolution. Finally, we propose a few other cave animal systems that would be suitable for development as additional models to obtain a more comprehensive understanding of the developmental and genetic mechanisms involved in troglomorphic evolution. (c) 2012 Wiley Periodicals, Inc.",WILEY-BLACKWELL,1,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,23.0,175WI,"Protas, Meredith; Jeffery, William R.",72.0,70.0,Developmental Biology,WIRES DEV BIOL,Wiley Interdiscip. Rev.-Dev. Biol.,10.1002/wdev.61,"Protas, M (corresponding author), Univ Calif Berkeley, Dept Integrat Biol, Berkeley, CA 94720 USA.",,meprotas@gmail.com,,,23580903.0,1759-7692,"NEI NIH HHSUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Eye Institute (NEI) [R01 EY014619] Funding Source: Medline; NATIONAL EYE INSTITUTEUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Eye Institute (NEI) [R01EY014619, R01EY014619, R01EY014619, R01EY014619, R01EY014619, R01EY014619, R01EY014619, R01EY014619, R01EY014619, R01EY014619, R01EY014619] Funding Source: NIH RePORTER",,"Green Accepted, Green Published",,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:000309095800036,27,0,"Christensen, SCB; Nissen, E; Arvin, E; Albrechtsen, HJ",J,English,"Influence of Asellus aquaticus on Escherichia coli, Klebsiella pneumoniae, Campylobacter jejuni and naturally occurring heterotrophic bacteria in drinking water",2012.0,Engineering; Environmental Sciences & Ecology; Water Resources,46,0043-1354,16,OCT 15,5279,5286,Colilert (R); Ground water; Inactivation; Indicator organisms; Isopod; Non-chlorinated; Pathogens; Water louse,"[Christensen, Sarah C. B.; Arvin, Erik; Albrechtsen, Hans-Jorgen] Tech Univ Denmark, DTU Environm, DK-2800 Lyngby, Denmark; [Nissen, Erling] VCS Denmark, DK-5000 Odense C, Denmark","Water lice, Asellus aquaticus (isopoda), frequently occur in drinking water distribution systems where they are a nuisance to consumers and water utilities. Whether they are solely an aesthetic problem or also affect the microbial water quality is a matter of interest. We studied the influence of A. aquaticus on microbial water quality in non-chlorinated drinking water in controlled laboratory experiments. Pure cultures of the indicator organisms Escherichia coli and Klebsiella pneumoniae and the pathogen Campylobacter jejuni as well as naturally occurring heterotrophic drinking water bacteria (measured as heterotrophic plate counts, HPC) were investigated in microcosms at 7 C, containing non-sterilised drinking water, drinking water sediment and A. aquaticus collected from a non-chlorinated ground water based drinking water supply system. Concentrations of E. coli, K. pneumoniae and C. jejuni decreased over time, following a first order decay with half lives of 5.3, 18.4 and 1.3 days, respectively. A. aquaticus did not affect survival of indicators and pathogens substantially whereas HPC were influenced by presence of dead A. aquaticus. Growth rates increased with an average of 48% for bacteria grown on R-2A agar and an average of 83% for bacteria grown on yeast extract agar when dead A. aquaticus were present compared to no and living A. aquaticus present. A. aquaticus associated E. coli, K. pneumoniae and C. jejuni were measured (up to 25 per living and 500 per dead A. aquaticus) and so were A. aquaticus associated heterotrophic bacteria (>1.8*10(4) CFU per living and >6*10(4) CFU per dead A. aquaticus). A. aquaticus did not serve as an optimised habitat that increased survival of indicators and pathogens, since A. aquaticus associated E. coli, K. pneumoniae and C. jejuni were only measured as long as the bacteria were also present in the water and sediment. (C) 2012 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,31,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,8.0,010LL,"Christensen, Sarah C. B.; Nissen, Erling; Arvin, Erik; Albrechtsen, Hans-Jorgen",5.0,5.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/j.watres.2012.07.011,"Christensen, SCB (corresponding author), Tech Univ Denmark, DTU Environm, Bygningstorvet 8115, DK-2800 Lyngby, Denmark.",PUBLIC-HEALTH SIGNIFICANCE; VIBRIO-CHOLERAE; SURVIVAL; INVERTEBRATES; GROUNDWATER; ISOPODS; NICHE,scch@env.dtu.dk,"Albrechtsen, Hans-Jorgen/0000-0003-3483-7709; Arvin, Erik/0000-0001-8654-3409; Christensen, Sarah Christine Boesgaard/0000-0001-6183-6045","Albrechtsen, Hans-Jorgen/J-1229-2014",22884244.0,,VCS Denmark Ltd.; Urban-WaterTech Graduate School,"We greatly acknowledge VCS Denmark Ltd. and the Urban-WaterTech Graduate School for co-funding the project. Thanks to Sinh Nguyen, Lene Jensen and Mona Refstrup for technical assistance. Lisbet Brusendorff is acknowledged for her assistance on graphics. Finally thanks to oluva K. yang, Charlotte B. Corfitzen, Sabrina Nedell and Anne-Marie Hybel for sparring and assistance during the lab work and to Arnaud Dechesne and Knud Boesgaard Sorensen for statistical support. We thank three anonymous reviewers for constructive and thorough comments on the manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY,2021-04-13,WOS:000308235500006,54,1,"Vellinger, C; Parant, M; Rousselle, P; Usseglio-Polatera, P",J,English,Antagonistic toxicity of arsenate and cadmium in a freshwater amphipod (Gammarus pulex),2012.0,Environmental Sciences & Ecology; Toxicology,21,0963-9292,7,OCT,1817,1827,Gammarus pulex; Antagonistic effect; Cadmium; Arsenate; Bioconcentration; Toxicity interaction,"[Vellinger, Celine; Parant, Marc; Rousselle, Philippe; Usseglio-Polatera, Philippe] Univ Lorraine UDL, CNRS UMR 7146, LIEBE, F-57070 Metz, France","Because toxicants rarely occur alone in the environment, a major challenge in risk assessment is to address the combined effects of chemicals on aquatic organisms. This work is aimed at investigating the joint toxicity action of binary mixtures of cadmium and arsenate on Gammarus pulex. Individuals were exposed during 240 h to four single arsenate or cadmium concentrations and binary mixtures of these metals according to a complete factorial plane. Observed mortality in binary mixtures was compared to observed mortality in single arsenate or cadmium exposures. In addition, interactive effects (antagonistic, additive or synergistic) were evaluated using a predictive model for the theoretically expected interactive effect of chemicals. For all the tested concentration combinations, we observed an antagonist 'between-metals' interaction on G. pulex mortality. This antagonistic effect was more marked for the lowest than for the highest (i.e. 1502.0 mu g(AsV) L-1 and 28.5 mu g(Cd) L-1) tested concentrations of individual metals in binary mixtures. Metal concentrations in body tissues were evaluated and were significantly lower in binary mixtures than in single metal exposures at similar concentration, especially for combinations corresponding to the highest concentrations of both metals (1502.0 mu g(AsV) L-1 and 28.5 mu g(Cd) L-1). Results were discussed in terms of (1) mechanisms of uptake and bioconcentration and (2) relationships between metal concentration in gammarid body and observed toxicity.",SPRINGER,59,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,11.0,998JX,"Vellinger, Celine; Parant, Marc; Rousselle, Philippe; Usseglio-Polatera, Philippe",19.0,19.0,Ecology; Environmental Sciences; Toxicology,ECOTOXICOLOGY,Ecotoxicology,10.1007/s10646-012-0916-1,"Vellinger, C (corresponding author), Univ Lorraine UDL, CNRS UMR 7146, LIEBE, Campus Bridoux,Rue Gen Delestraint, F-57070 Metz, France.",ASELLUS-AQUATICUS L; BEHAVIORAL-RESPONSES; METAL ACCUMULATION; RAINBOW-TROUT; COPPER; ZINC; CRUSTACEA; BIOCONCENTRATION; BIOACCUMULATION; AGROCHEMICALS,celine.vellinger@umail.univ-metz.fr; parant@univ-metz.fr; rousselle@univ-metz.fr; usseglio@univ-metz.fr,"VELLINGER, Celine/0000-0002-5448-8705",,22535317.0,1573-3017,French Ministry of Education and Research (Ministere de l'Enseignement Superieur et de la Recherche),"The authors would like to thank the French Ministry of Education and Research (Ministere de l'Enseignement Superieur et de la Recherche), which has supported this study. The authors warmly thank Karen Hopson for linguistic revision of the manuscript and the two anonymous reviewers for valuable comments that improved the clarity of the text.",,,,,,,,,,,,,,,,,,,,,,,,
Article,EUROPEAN JOURNAL OF FOREST RESEARCH,2021-04-13,WOS:000307700000020,46,1,"Tulonen, T; Arvola, L; Strommer, R",J,English,Cadmium release from afforested peatlands and accumulation in an aquatic ecosystem after experimental wood ash treatment,2012.0,Forestry,131,1612-4669,5,SEP,1529,1536,Wood ash; Cadmium; Peatsoil; Leaching; Accumulation; Aquatic ecosystems,"[Tulonen, Tiina; Arvola, Lauri] Univ Helsinki, Lammi Biol Stn, Lammi 16900, Finland; [Strommer, Rauni] Univ Helsinki, Dept Environm Sci, Lahti 15140, Finland","Wood ash produced as a by-product in paper mills and heating power plants contains many toxic heavy metals, including high cadmium (Cd) concentrations. The addition of wood ash on drained and forested peatlands to improve forest growth and nutrient balance is common practice in Finland but creates a risk of increasing Cd concentration in the soil and Cd release into recipient waters. Leaching of Cd from ash-treated peat was studied in a mesocosm experiment with three different ash doses (300, 600 and 1,200 g ash m(-2)), which have been commonly applied for fertilization in boreal forests and forested peatlands. Ash contained 5.4 mg Cd kg(-1), which corresponds doses of 1.6, 3.2 and 6.5 mg Cd m(-2). The mesocosm studies showed that all ash treatments clearly lowered pH (from 3.6 to 3.4-3.3) and dissolved organic carbon concentrations (from 97 to ca. 50 mg C l(-1)) in the run-off water during an 11-week experiment. However, only the application of the highest dose, 1,200 g ash m(-2), increased the Cd concentrations in the run-off water from the initial concentration of 1.25-1.75 mu g Cd l(-1). The treatment of peat with 300 or 600 g ash m(-2) did not increase Cd leaching as compared to the untreated peat. We measured high pH values (between 6.1 and 7.0) and high Cd concentrations only in the upper layers of ash-treated peat, which clearly indicated that most of Cd was tightly retained in the surface peat. The effects of Cd on the aquatic ecosystem were studied in microcosms where run-off water from mesocosms was added into aquariums containing humic lake water, lake sediment, bryophytes and benthic animals. The microcosm experiment showed that only the run-off water received from the highest ash treatment increased the Cd concentration of microcosm water. Greater Cd concentrations were found in benthic animals, Asellus aquaticus isopod, in treatments with the highest ash doses, but accumulation of Cd was not observed in the bottom material or in the bryophytes (Fontinalis antipyretica). According to the results, the risk of Cd release from peat after ash application is of minor short-term importance when low ash doses (between 300 and 600 g ash m(-2)) are used. Ash addition, however, temporally increased the acidity of discharge water, which may contribute to the mobilization of Cd from the peat and enhance the risk of bioaccumulation in aquatic organisms especially in acid waters.",SPRINGER,41,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,8.0,991KN,"Tulonen, Tiina; Arvola, Lauri; Strommer, Rauni",6.0,4.0,Forestry,EUR J FOREST RES,Eur. J. For. Res.,10.1007/s10342-012-0620-y,"Tulonen, T (corresponding author), Univ Helsinki, Lammi Biol Stn, Paajarventie 320, Lammi 16900, Finland.",HEAVY-METAL; FORESTED CATCHMENTS; LIMING AGENTS; BOREAL; GROWTH; SOILS; FERTILIZATION; SOLUBILITY; CHEMISTRY; NUTRIENT,tiina.tulonen@helsinki.fi,"Arvola, Lauri/0000-0003-1380-0659",,,1612-4677,Maj and Tor Nessling Foundation,We greatly acknowledge Mikael Pihlstrom for analyzing Cd samples; Hanna Suhonen and Marja Kosme for their valuable assistance with the field and laboratory work; and John Loehr for English language corrections. This study was funded by the Maj and Tor Nessling Foundation.,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000306139300012,60,0,"Jabiol, J; Chauvet, E",J,English,Fungi are involved in the effects of litter mixtures on consumption by shredders,2012.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,57,0046-5070,8,AUG,1667,1677,aquatic hyphomycetes; biodiversity effect; decomposition; Gammarus fossarum; litter mixture,"[Jabiol, Jeremy; Chauvet, Eric] Univ Toulouse, Lab Ecol Fonct & Environm, INPT, EcoLab,UPS, F-31062 Toulouse 9, France; [Jabiol, Jeremy; Chauvet, Eric] CNRS, EcoLab, Toulouse, France","1. Decomposition of litter mixtures in both terrestrial and aquatic ecosystems often shows non-additive diversity effects on decomposition rate, generally interpreted in streams as a result of the feeding activity of macroinvertebrates. The extent to which fungal assemblages on mixed litter may influence consumption by macroinvertebrates remains unknown. 2. We assessed the effect of litter mixing on all possible three-species combinations drawn from four tree species (Alnus glutinosa, Betula pendula, Juglans regia and Quercus robur) on both fungal assemblages and the rate of litter consumption by a common shredder, Gammarus fossarum. After a 9-week inoculation in a stream, batches of leaf discs were taken from all leaf species within litter mixture combinations. Ergosterol, an indicator of fungal biomass, and the composition of fungal assemblages, assessed from the conidia released, were determined, and incubated litter offered to G. fossarum in a laboratory-feeding experiment. 3. Mixing leaf litter species enhanced both the Simpsons index of the fungal assemblage and the consumption of litter by G. fossarum, but had no clear effect on mycelial biomass. Specifically, consumption rates of J. regia were consistently higher for mixed-species litter packs than for single-species litter. In contrast, the consumption rates of B. pendula were not affected by litter mixing, because of the occurrence of both positive and negative litter-mixing effects in different litter species combinations that counteracted each other. 4. In some litter combinations, the greater development of some fungal species (e.g. Clavariopsis aquatica) as shown by higher sporulation rates coincided with increased leaf consumption, which may have resulted from feeding preferences by G. fossarum for these fungi. 5. Where litter mixture effects on decomposition rate are mediated via shredder feeding, this could be due to indirect effects of the fungal assemblage.",WILEY,73,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,970NV,"Jabiol, Jeremy; Chauvet, Eric",21.0,21.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2012.02829.x,"Jabiol, J (corresponding author), Univ Toulouse, Lab Ecol Fonct & Environm, INPT, EcoLab,UPS, 118 Route Narbonne,Bat 4R1, F-31062 Toulouse 9, France.",LEAF-LITTER; SPECIES RICHNESS; DECOMPOSITION RATES; RIPARIAN VEGETATION; ASELLUS-AQUATICUS; GAMMARUS-PULEX; DIVERSITY; BIODIVERSITY; BREAKDOWN; LEAVES,jeremy.jabiol@gmail.com,"Chauvet, Eric/0000-0001-8676-392X","Chauvet, Eric/F-7644-2011",,1365-2427,CNRSCentre National de la Recherche Scientifique (CNRS)European Commission; European Science Foundation's (ESF)European Science Foundation (ESF),"We thank Jean Clobert, Head of the Station d'Ecologie Experimentale du CNRS a Moulis, for providing facilities, Andre Frainer, Sylvain Lamothe and Didier Lambrigot for technical assistance as well as Mark O. Gessner, Edwin T. H. M. Peeters, Alan G. Hildrew and two anonymous referees for their constructive comments on this manuscript. We also thank Richard Illi and Eawag's AUA Lab, Andreas Bruder and Andre Frainer for nutrient and lignin analyses. This research was funded through the CNRS and the European Science Foundation's (ESF) EURODIVERSITY programme, which supported BioCycle as a collaborative research project. BioCycle has been endorsed by DIVERSITAS as contributing to its biodiversity research priorities.",,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER AIR AND SOIL POLLUTION,2021-04-13,WOS:000304926200056,61,0,"Kolarikova, K; Stuchlik, E; Liska, M; Horecky, J; Tatosova, J; Hardekopf, D; Lapsanska, N; Horicka, Z; Hovorka, J; Mihaljevic, M; Fuksa, JK; von Tumpling, W",J,English,"Long-Term Changes in the Bioaccumulation of As, Cd, Pb, and Hg in Macroinvertebrates from the Elbe River (Czech Republic)",2012.0,Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences; Water Resources,223,0049-6979,6,JUL,3511,3526,Heavy metals; Arsenic; Bioaccumulation; Freshwater macroinvertebrates; Elbe River; Vltava River,"[Kolarikova, K.; Stuchlik, E.; Horecky, J.; Tatosova, J.; Hardekopf, D.; Horicka, Z.; Hovorka, J.] Charles Univ Prague, Inst Environm Studies, Prague 12801 2, Czech Republic; [Liska, M.; Lapsanska, N.] Povodi Vltavy, State Publ Enterprise, Prague, Czech Republic; [Mihaljevic, M.] Charles Univ Prague, Inst Geochem Mineral & Mineral Resources, Prague 12801 2, Czech Republic; [Fuksa, J. K.] TG Masaryk Water Res Inst, Prague, Czech Republic; [von Tuempling, W.] UFZ Helmholtz Ctr Environm Res, Magdeburg, Germany","The Elbe River was extremely loaded by heavy metals and arsenic during the second half of the 20th century as a consequence of intensive chemical industry activities. To assess long-term contamination trends in the Elbe after socio-economical changes in 1989, selected macroinvertebrate species were used to identify biotic accumulation levels in the period from 1993 to 2005. Concentrations of As, Cd, Pb, and Hg were determined in Asellus aquaticus (Crustacea), Bythinia tentaculata (Mollusca), Erpobdella spp. (Hirudinea), and larvae of the family Chironomidae (Diptera) over a 3-year period along the longitudinal profile of the Czech part of the Elbe River and the lower Vltava (the main Elbe tributary). In this study, new evaluative approaches were used to assess these multiparameter data sets. The results showed that the most contaminated Czech sites were located in the industry-heavy middle Elbe region between Valy and ObA (TM) istvi. Surprisingly high concentrations of As, Cd, and Pb were observed in the upper stretch near the headwaters. Probably as a consequence of former mining activities and the metallurgic and glass industries, the lower Vltava was loaded with Cd and Pb. Despite substantial improvements in the water quality of the Elbe River within the studied time period, we found no general decreasing trend of As, Cd, and Pb in macrozoobenthos. A significant decrease of Hg was revealed, however, occurring already between 1993 and 1996. The results of interspecies comparisons showed that the investigated elements were most accumulated by chironomid larvae and Erpobdella spp.",SPRINGER INTERNATIONAL PUBLISHING AG,49,"GEWERBESTRASSE 11, CHAM, CH-6330, SWITZERLAND",CHAM,16.0,954DH,"Kolarikova, K.; Stuchlik, E.; Liska, M.; Horecky, J.; Tatosova, J.; Hardekopf, D.; Lapsanska, N.; Horicka, Z.; Hovorka, J.; Mihaljevic, M.; Fuksa, J. K.; von Tuempling, W.",6.0,5.0,Environmental Sciences; Meteorology & Atmospheric Sciences; Water Resources,WATER AIR SOIL POLL,Water Air Soil Pollut.,10.1007/s11270-012-1129-1,"Kolarikova, K (corresponding author), Charles Univ Prague, Inst Environm Studies, Benatska 2, Prague 12801 2, Czech Republic.",HEAVY-METALS; AQUATIC MACROINVERTEBRATES; SEDIMENTS; MERCURY; FISH; INVERTEBRATES; CONTAMINATION; WATER; MACROZOOBENTHOS; COMMUNITIES,katerina.kolarikova@natur.cuni.cz,"Tatosova, Jolana/0000-0001-8493-0405; Tatosova, Jolana/0000-0001-8493-0405; Hovorka, Jan/0000-0003-4400-1585; Stuchlik, Evzen/0000-0003-0200-5721; Dockalova, Katerina/0000-0003-3633-1170; Mihaljevic, Martin/0000-0002-4875-9345","Tatosova, Jolana/I-4396-2016; Tatosova, Jolana/AAH-5528-2020; von Tumpling, Wolf/H-9032-2013; Hovorka, Jan/E-7146-2011; Stuchlik, Evzen/I-1915-2017; Dockalova, Katerina/M-4463-2017; Mihaljevic, Martin/F-9514-2016",,1573-2932,project MR Labe; Grant Agency of Czech RepublicGrant Agency of the Czech Republic [GACR 526/09/0567]; project Labe IV [SA/650/5/03];  [MR/5/95],"We sincerely thank the laboratory of the Povodi Vltava State Public Enterprise for their help with several laboratory measurements. The project was part of a long-term research of the Elbe River (1991-2005), which was funded by a series of consecutive projects: MR Labe (1991-1994), MR/5/95 (1995-1998), and Labe IV SA/650/5/03 (2003-2005). We thank the Ministry of the Environment of the Czech Republic and the Grant Agency of Czech Republic for the grant GACR 526/09/0567, which enabled the final processing of results.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:000305210400008,59,1,"Bundschuh, M; Appeltauer, A; Dabrunz, A; Schulz, R",J,English,Combined Effect of Invertebrate Predation and Sublethal Pesticide Exposure on the Behavior and Survival of Asellus aquaticus (Crustacea; Isopoda),2012.0,Environmental Sciences & Ecology; Toxicology,63,0090-4341,1,JUL,77,85,,"[Bundschuh, Mirco; Appeltauer, Andreas; Dabrunz, Andre; Schulz, Ralf] Univ Koblenz Landau, Inst Environm Sci, D-76829 Landau, Germany; [Appeltauer, Andreas] Eurofins Agrosci GmbH, D-75223 Niefern Oeschelbronn, Germany","Invertebrate communities of lentic habitats comprise, amongst others, the crustacean Asellus aquaticus (Isopoda) and the turbellarian Dendrocoelum lacteum (Tricladida). Because D. lacteum preferentially preys on A. aquaticus, contaminants introduced into the aquatic environment may affect this predator-prey interaction, finally influencing the performance of the predator. However, no studies investigating implications of organic pollutants on this food web subsystem currently exist. Hence, the present study assessed short-term implications of pesticides with different modes of action, namely, the triazole fungicide tebuconazole and the pyrethroid insecticide lambda-cyhalothrin, during a 72 h trial. The experiments for tebuconazole showed a statistically significant decrease in predatory success of D. lacteum. Lambda-cyhalothrin, in contrast, increased predation success by 40%, which is, however, not statistically significant. Both the decrease and the increase in predation seemed to be primarily driven by an altered activity of the prey A. aquaticus. This may be hypothesized because any shift in the prey's activity influenced its probability to stick to mucus, a viscous substance released by D. lacteum, or to encounter the predator directly.",SPRINGER,43,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,9.0,958BG,"Bundschuh, Mirco; Appeltauer, Andreas; Dabrunz, Andre; Schulz, Ralf",17.0,17.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,10.1007/s00244-011-9743-2,"Bundschuh, M (corresponding author), Univ Koblenz Landau, Inst Environm Sci, Fortstr 7, D-76829 Landau, Germany.",LAKE-DWELLING TRICLADS; DENDROCOELUM-LACTEUM TURBELLARIA; LAMBDA-CYHALOTHRIN; ACUTE TOXICITY; DAPHNIA-MAGNA; IMPACT; FIELD; TEBUCONAZOLE; POPULATION; MORTALITY,bundschuh@uni-landau.de,"Bundschuh, Mirco/0000-0003-4876-220X; Schulz, Ralf/0000-0002-6348-6971; Schulz, Ralf/0000-0002-6348-6971","Bundschuh, Mirco/H-4559-2014; Schulz, Ralf/ABI-4526-2020; Schulz, Ralf/G-3674-2011",22223070.0,,"Fix-Stiftung, LandauRussian Academy of Sciences","The authors thank the Fix-Stiftung, Landau, for financial support of research infrastructure as well as T. Burgi for assistance in the laboratory. Moreover, we are greatful to G. Gonsior is for the provision of A. aquaticus. The authors acknowledge J. P. Zubrod, B. Leask, and three anonymous reviewers for valuable comments on an earlier draft of this manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:000305842900007,41,0,"Bottger, R; Schaller, J; Mohr, S",J,English,Closer to reality - the influence of toxicity test modifications on the sensitivity of Gammarus roeseli to the insecticide imidacloprid,2012.0,Environmental Sciences & Ecology; Toxicology,81,0147-6513,,JUL 1,49,54,Crustacea; Haber's rule; Neonicotinoid; Sensitivity differences,"[Boettger, R.; Schaller, J.] Tech Univ Dresden, Inst Gen Ecol & Environm Protect, D-01737 Tharandt, Germany; [Boettger, R.; Mohr, S.] Umweltbundesamt, D-12307 Berlin, Germany","Laboratory toxicity test designs are far from reality and therefore extrapolations to field situations may be more difficult. In laboratory experiments with the amphipod Gammarus roeseli exposed to the insecticide imidacloprid it was investigated if test conditions closer to reality influences its sensitivity and if it is possible to extrapolate results from these laboratory tests to results from a stream mesocosm study. Experiments were run by varying medium, temperature, size, and seasonal origin of gammarids. Age and seasonal aspects had strongest effects with juveniles and animals taken from a spring population being most sensitive with an EC50 (96 h) of 14.2 mu g L-1 imidacloprid. The test designs closest to the conditions in the stream mesocosms reflected best the results in mesocosms study on basis of LOEC values. However, the ECx extrapolation failed to predict the effects of short term imidacloprid pulses in the field. (C) 2012 Elsevier Inc. All rights reserved.",ACADEMIC PRESS INC ELSEVIER SCIENCE,58,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,6.0,966MV,"Boettger, R.; Schaller, J.; Mohr, S.",12.0,12.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1016/j.ecoenv.2012.04.015,"Bottger, R (corresponding author), Tech Univ Dresden, Inst Gen Ecol & Environm Protect, PF 1117, D-01737 Tharandt, Germany.",ASELLUS-AQUATICUS L; PULEX L; BEHAVIORAL BIOASSAY; LIFE-HISTORY; AMPHIPOD; FOSSARUM; GROWTH; CRUSTACEA; EXPOSURE; BIOACCUMULATION,rita.boettger@googlemail.com,"Schaller, Jorg/0000-0003-1996-0127","Schaller, Jorg/E-2092-2013",22575057.0,1090-2414,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:000305053200024,92,3,"De Jonge, M; Teuchies, J; Meire, P; Blust, R; Bervoets, L",J,English,The impact of increased oxygen conditions on metal-contaminated sediments part II: Effects on metal accumulation and toxicity in aquatic invertebrates,2012.0,Engineering; Environmental Sciences & Ecology; Water Resources,46,0043-1354,10,JUN 15,3387,3397,Acid volatile sulfides (AVS); Aquatic invertebrates; Bioaccumulation; Metal exposure route; Metallothionein-like proteins (MTLP),"[De Jonge, M.; Blust, R.; Bervoets, L.] Univ Antwerp, Dept Biol, Ecophysiol Biochem & Toxicol Grp, B-2020 Antwerp, Belgium; [Teuchies, J.; Meire, P.] Univ Antwerp, Dept Biol, Ecosyst Management Res Grp, B-2610 Antwerp, Belgium","The present study evaluated the effect of increasing oxygen concentrations in overlying surface water on the accumulation and toxicity of sediment-bound metals in the aquatic invertebrates Lumbriculus variegatus, Asellus aquaticus and Daphnia magna. A 54 days experiment using three experimental treatments (90% O-2 in overlying surface water, 40% O-2 and a non-polluted control) was conducted. At 6 different time points (after 0, 2, 5, 12, 32 and 54 days) acid volatile sulfides (AVS), simultaneously extracted metals (SEM) and total organic carbon (TOC) were measured in the superficial sediment layer (0-1 cm). At each time point, accumulated metal levels as well as the available energy stores were measured in L. variegatus and A. aguaticus and each time D. magna was exposed to surface water in a 24 h toxicity test. Additionally metallothionein-like protein (MTLP) induction was quantified in L. variegatus. Oxygen induced changes in sediment AVS resulted in faster accumulation of metals from contaminated sediments in A. aguaticus, while no differences in toxicity in this species were observed. Ag, Cr, As and Co accumulation as well as toxicity in water exposed D. magna were clearly enhanced after 54 days, caused by oxidation of metal-sulfide complexes. Due to their feeding and burrowing behaviour, metal accumulation and toxicity in L. variegatus was not influenced by geochemical characteristics. Nevertheless, a rapid induction of MTLP was observed in both the 90% O-2 and the 40% O-2 (t)reatment. The present study showed that elevated oxygen concentrations in overlying surface water can directly enhance metal accumulation and toxicity in aquatic invertebrates, however this is highly dependent on the organisms ecology and most dominant metal exposure route (water vs. sediment). (c) 2012 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,42,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,11.0,955XC,"De Jonge, M.; Teuchies, J.; Meire, P.; Blust, R.; Bervoets, L.",37.0,34.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/j.watres.2012.03.035,"De Jonge, M (corresponding author), Univ Antwerp, Dept Biol, Ecophysiol Biochem & Toxicol Grp, Groenenborgerlaan 171, B-2020 Antwerp, Belgium.",OLIGOCHAETE LUMBRICULUS-VARIEGATUS; ACID-VOLATILE SULFIDE; BOUND METALS; BENTHIC INVERTEBRATES; DAPHNIA-MAGNA; CADMIUM; BIOAVAILABILITY; WATER; NICKEL; BIOACCUMULATION,maarten.dejonge@ua.ac.be,,"Bervoets, Lieven/E-5012-2015",22520858.0,,Agency for Innovation by Science and Technology (IWT)Institute for the Promotion of Innovation by Science and Technology in Flanders (IWT); Research Foundation - Flanders (FWO)FWO,"We would like to thank Dr. Valentine Mubiana, Steven Joosen and Tom van der Spiet for accurate laboratory analyses. Furthermore the help of Sergi Rofas Tudela and Vanesa Serina Esteban during the experiment is sincerely appreciated. Maarten De Jonge is supported by the Agency for Innovation by Science and Technology (IWT); Johnny Teuchies is granted a PhD fellowship of the Research Foundation - Flanders (FWO).",,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000303348800042,31,0,"Kupryianchyk, D; Rakowska, MI; Grotenhuis, JTC; Koelmans, AA",J,English,Modeling Trade-off between PAH Toxicity Reduction and Negative Effects of Sorbent Amendments to Contaminated Sediments,2012.0,Engineering; Environmental Sciences & Ecology,46,0013-936X,9,MAY 1,4975,4984,,"[Kupryianchyk, D.; Koelmans, A. A.] Wageningen Univ, Dept Environm Sci, Aquat Ecol & Water Qual Management Grp, NL-6700 AA Wageningen, Netherlands; [Rakowska, M. I.; Grotenhuis, J. T. C.] Wageningen Univ, Dept Agrotechnol & Food Sci, Subdept Environm Technol, NL-6700 AA Wageningen, Netherlands; [Koelmans, A. A.] Wageningen UR, IMARES Inst Marine Resources & Ecosyst Studies, NL-1970 AB Ijmuiden, Netherlands","Adding activated carbon (AC) to contaminated sediment has been suggested as an effective method for sediment remediation. AC binds chemicals such as polycyclic aromatic hydrocarbons (PAHs), thus reducing the toxicity of the sediment. Negative effects of AC on benthic organisms have also been reported. Here, we present a conceptual model to quantify the trade-off, in terms of biomass changes, between the advantageous PAH toxicity reduction and the negative effects of AC on populations of benthic species. The model describes population growth, incorporates concentration-effect relationships for PAHs in the pore water and for AC, and uses an equilibrium sorption model to estimate PAR pore water concentrations as a function of AC dosage. We calibrated the model using bioassay data and analyzed it by calculating isoclines of zero population growth for two species. For the sediment evaluated here, the results show that AC may safely protect the benthic habitat against considerable sediment PAR concentrations as long as the AC dosage remains below 4%.",AMER CHEMICAL SOC,52,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,10.0,933GO,"Kupryianchyk, D.; Rakowska, M. I.; Grotenhuis, J. T. C.; Koelmans, A. A.",12.0,12.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/es2044954,"Kupryianchyk, D (corresponding author), Wageningen Univ, Dept Environm Sci, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands.",SOOT-LIKE MATERIALS; POLYCYCLIC AROMATIC-HYDROCARBONS; MAXIMUM ADSORPTION CAPACITIES; POLYCHLORINATED BIPHENYL SORPTION; HYDROPHOBIC ORGANIC-COMPOUNDS; ACTIVATED CARBON; BLACK CARBON; ASELLUS-AQUATICUS; GAMMARUS-PULEX; QUALITATIVE APPROACH,darya.kupryianchyk@wur.nl,"Grotenhuis, Tim/0000-0002-1075-3407; Koelmans, Albert/0000-0001-7176-4356; Kupryianchyk, Darya/0000-0001-9454-214X","Grotenhuis, Tim/C-3006-2013; Koelmans, Albert A./D-8603-2014",22420612.0,,Dutch Technology Foundation STWTechnologiestichting STW [10030]; Alterra; RIVM; Deltares; Boskalis Dolman; Norit; Oostwaardhoeve VOF; De Vries Van de Wiel,"This study was funded by the Dutch Technology Foundation STW, project nr 10030. We acknowledge additional support from Alterra, RIVM, Deltares, Boskalis Dolman, Norit, Oostwaardhoeve VOF and De Vries & Van de Wiel.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOSYSTEMS,2021-04-13,WOS:000303601800009,57,0,"Treplin, M; Zimmer, M",J,English,Drowned or Dry: A Cross-Habitat Comparison of Detrital Breakdown Processes,2012.0,Environmental Sciences & Ecology,15,1432-9840,3,APR,477,491,allochthonous organic matter; auto-chthonous organic matter; detritus; dissolved organic matter; diversity effects; functional group; particulate organic matter; leaf litter; spatial subsidy; species-specificity,"[Treplin, Malte; Zimmer, Martin] Univ Kiel, Inst Zool, D-24118 Kiel, Germany; [Zimmer, Martin] Paris Lodron Univ Salzburg, FB Organism Biol, AG Okol Biodiversitat & Evolut Tiere, A-5020 Salzburg, Austria","Nutrient cycles in both terrestrial and many freshwater habitats are fueled by terrestrial detritus. However, direct comparisons of decomposition processes in these environments are scarce. Aiming at shedding light on similarities and differences in these processes in different habitats, we studied decomposition of low-quality versus high-quality detritus through the action of shredders versus grazers in aquatic versus terrestrial microcosms under controlled climatic conditions. Decomposition processes were most strongly affected by whether they took place in the terrestrial or the aquatic environment: Leaching resulted in a rapid mass loss of detritus in the aquatic environment, and detritus traits became less pronounced over time. Thus, breakdown was mediated through dissolved organic matter (DOM) in water but through particulate organic matter (POM) on land. Litter mass loss and the promoting effects of detritivores on mass loss also depended on the environment, but shredders always had a greater effect than grazers. Both litter and detritivore diversity were overall of little relevance for litter mass loss, but more so in the aquatic than the terrestrial environment. By contrast, the influence of detritivores on microbes was stronger in water than on land, but effects depended on the litter type. The type of both litter and detritivores, however, was less significant in the aquatic than in the terrestrial environment, possibly due to leaching and abiotic processing of litter during early decomposition, resulting in diminishing differences between litter types. We conclude that the habitat type shapes the dynamics of leaf litter decomposition. Heavy leaching (in the aquatic environment) shortens initial decomposition phases and dislocates the degradation of easily accessible compounds in the form of DOM from the leaves into the water column. Consequently, initial interspecific differences in litter quality diminish, and both functional differences in, and diversity of, both litter and detritivores become less important than in the terrestrial environment.",SPRINGER,79,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,15.0,936PF,"Treplin, Malte; Zimmer, Martin",23.0,22.0,Ecology,ECOSYSTEMS,Ecosystems,10.1007/s10021-012-9523-5,"Zimmer, M (corresponding author), Univ Kiel, Inst Zool, Botan Garten 1-9, D-24118 Kiel, Germany.",ERGOSTEROL CONCENTRATION PROVIDE; PLANT LITTER DIVERSITY; TERRESTRIAL FOOD WEBS; LEAF-LITTER; SPECIES-DIVERSITY; ASELLUS-AQUATICUS; GAMMARUS-PULEX; DECOMPOSITION RATES; RELIABLE ESTIMATE; ORGANIC-MATTER,martin.zimmer@sbg.ac.at,"Zimmer, Martin/0000-0002-1549-8871",,,1435-0629,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000301395400013,24,0,"Galic, N; Baveco, H; Hengeveld, GM; Thorbek, P; Bruns, E; van den Brink, PJ",J,English,Simulating population recovery of an aquatic isopod: Effects of timing of stress and landscape structure,2012.0,Environmental Sciences & Ecology,163,0269-7491,,APR,91,99,Chemical stress; Asellus aquaticus; Population recovery; Individual-based model; Spatial stress distribution,"[Galic, Nika; van den Brink, Paul J.] Univ Wageningen & Res Ctr, Alterra, NL-6700 AA Wageningen, Netherlands; [Galic, Nika; Baveco, Hans; Hengeveld, Geerten M.; van den Brink, Paul J.] Univ Wageningen & Res Ctr, Dept Aquat Ecol & Water Qual Management, NL-6700 AA Wageningen, Netherlands; [Hengeveld, Geerten M.] NIOO KNAW, NL-6700 AB Wageningen, Netherlands; [Thorbek, Pernille] Syngenta Ltd, Bracknell, Berks, England; [Bruns, Eric] Bayer CropSci, Monnheim, Germany","In agroecosystems, organisms may regularly be exposed to anthropogenic stressors, e.g. pesticides. Species' sensitivity to stress depends on toxicity, life-history, and landscape structure. We developed an individual-based model of an isopod, Asellus aquaticus, to explore how timing of stress events affects population dynamics in a seasonal environment. Furthermore, we tested the relevance of habitat connectivity and spatial distribution of stress for the recovery of a local and total population. The simulation results indicated that population recovery is mainly driven by reproductive periods. Furthermore, high habitat connectivity led to faster recovery both for local and total populations. However, effects of landscape structure disappeared for homogeneously stressed populations, where local survivors increased recovery rate. Finally, local populations recovered faster, implying that assessing recovery in the field needs careful consideration of spatial scale for sampling. We emphasize the need for a coherent definition of recovery for more relevant ecosystem risk assessment and management. (C) 2011 Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,55,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,9.0,907CM,"Galic, Nika; Baveco, Hans; Hengeveld, Geerten M.; Thorbek, Pernille; Bruns, Eric; van den Brink, Paul J.",23.0,23.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/j.envpol.2011.12.024,"Galic, N (corresponding author), Univ Wageningen & Res Ctr, Alterra, POB 47, NL-6700 AA Wageningen, Netherlands.",ASELLUS-AQUATICUS; LIFE-HISTORY; DISTURBANCE REGIMES; ECOLOGICAL THEORY; HEADWATER STREAM; RISK-ASSESSMENT; WATER; COLONIZATION; ECOSYSTEMS; GROWTH,nika.galic@wur.nl,"van den brink, Paul/0000-0002-7241-4347; Hengeveld, Geerten/0000-0002-9592-3080; Galic, Nika/0000-0002-4344-3464; KNAW, NIOO-KNAW/0000-0002-3835-159X","van den brink, Paul/AAT-7144-2020; Hengeveld, Geerten/O-8943-2019; van den Brink, Paul J/E-8315-2013; KNAW, NIOO-KNAW/A-4320-2012",22325436.0,1873-6424,Syngenta; Bayer CropScienceBayer AG,The authors would like to thank two anonymous reviewers for valuable comments on an earlier version of the manuscript. The work of Nika Galic is supported by Syngenta and Bayer CropScience.,,,,,,,,,,,,,,,,,,,,,,,,
Article,VETERINARY PARASITOLOGY,2021-04-13,WOS:000300331600042,9,0,"Langrova, I; Lukesova, D; Barus, V; Vadlejch, J; Valek, P; Jankovska, I; Petrtyl, M; Kubik, S; Cadkova, Z; Kudrnacova, M",J,English,The initial discovery of thorny-headed worms in sheep,2012.0,Parasitology; Veterinary Sciences,184,0304-4017,2-4,MAR 23,381,383,Acanthocephalus lucii; Cystacanths; Sheep,"[Langrova, I.; Barus, V.; Vadlejch, J.; Valek, P.; Jankovska, I.; Petrtyl, M.; Kubik, S.; Cadkova, Z.; Kudrnacova, M.] Czech Univ Life Sci, Fac Agrobiol Food & Nat Resources, Dept Zool & Fisheries, Prague 16521 6, Suchdol, Czech Republic; [Lukesova, D.] Czech Univ Life Sci, Inst Trop & Subtrop, Dept Anim Sci & Food Proc Trop & Subtrop, Prague 16521 6, Suchdol, Czech Republic","Acanthocephalans belonging to the species Acanthocephalus lucii were found in the colon of a lamb from ecological farms in the Czech Republic. The main determination features used for these acanthocephalans are the shape and size of the hooks as well as the number of hooks on the proboscis. Three immature specimens measured 5.0-13.2 mm in length; the appearance of the acanthocephalan body (in the studied material) suggests that passage through this unusual host causes the cystacanths to slightly increase in length. In the case of the lambs examined, the infection may be acquired through the accidental ingestion of the intermediate host - waterlouse (Asellus aquaticus). (C) 2011 Elsevier B.V. All rights reserved.",ELSEVIER SCIENCE BV,12,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,3.0,893BW,"Langrova, I.; Lukesova, D.; Barus, V.; Vadlejch, J.; Valek, P.; Jankovska, I.; Petrtyl, M.; Kubik, S.; Cadkova, Z.; Kudrnacova, M.",0.0,0.0,Parasitology; Veterinary Sciences,VET PARASITOL,Vet. Parasitol.,10.1016/j.vetpar.2011.08.033,"Langrova, I (corresponding author), Czech Univ Life Sci, Fac Agrobiol Food & Nat Resources, Dept Zool & Fisheries, Prague 16521 6, Suchdol, Czech Republic.",,langrova@af.czu.cz,"Petrtyl, Miloslav/0000-0003-0697-0772; Cadkova, Zuzana/0000-0001-8967-552X; langrova, iva/0000-0001-8731-7470; Vadlejch, Jaroslav/0000-0002-5958-7606; Lukesova, Daniela/0000-0003-1029-8966","Petrtyl, Miloslav/AAB-9648-2020; Cadkova, Zuzana/AAA-6096-2021; langrova, iva/AAC-2961-2021; Barus, Vlastimil/A-2211-2015; Vadlejch, Jaroslav/M-1189-2018",21940103.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,GENOME,2021-04-13,WOS:000301043300006,23,1,"Doublet, V; Raimond, R; Grandjean, F; Lafitte, A; Souty-Grosset, C; Marcade, I",J,English,"Widespread atypical mitochondrial DNA structure in isopods (Crustacea, Peracarida) related to a constitutive heteroplasmy in terrestrial species",2012.0,Biotechnology & Applied Microbiology; Genetics & Heredity,55,0831-2796,3,MAR,234,244,circular dimer; heteroplasmy; mtDNA; linear monomer; Oniscidea,"[Doublet, Vincent; Raimond, Roland; Grandjean, Frederic; Lafitte, Alexandra; Souty-Grosset, Catherine; Marcade, Isabelle] Univ Poitiers, UMR CNRS 7267, Equipe Ecol Evolut Symbiose, F-86022 Poitiers, France; [Doublet, Vincent] Univ Halle Wittenberg, Inst Biol, D-06099 Halle, Saale, Germany","Metazoan mitochondrial DNA (mtDNA) is generally composed of circular monomeric molecules. However, a few exceptions do exist and among them two terrestrial isopods Armadillidium vulgare and Porcellionides pruinosus have an atypical mtDNA composed of linear monomers associated with circular ""head-to-head"" dimers: a very unusual structure for animal mtDNA genome. To assess the distribution of this atypical mtDNA among isopods, we performed RFLP and Southern blot analyses on mtDNA of 16 terrestrial (Oniscidea family) and two aquatic isopod species: the marine Sphaeroma serratum (suborder Flabellifera, sister group of Oniscidea) and the freshwater Asellus aquaticus (Asellota, early derived taxon of isopod). The atypical mtDNA structure was observed in 15 terrestrial isopod species and A. aquaticus, suggesting a wide distribution of atypical mtDNA among isopods. However, a typical metazoan mtDNA structure was detected in the marine isopod S. serratum and the Oniscidea Ligia oceanica. Our results suggest two possible scenarios: an early origin of the atypical mtDNA in isopods followed by reversion to the typical ancestral mtDNA structure for several species, or a convergent appearance of the atypical mtDNA structure in two isopod suborders. We compare this distribution of the atypical mtDNA structure with the presence of a heteroplasmy also observed in the mtDNA of several terrestrial isopod species. We discuss if this transmitted heteroplasmy is vectored by the atypical mtDNA and its impact on the maintenance of the atypical mtDNA in isopods.","CANADIAN SCIENCE PUBLISHING, NRC RESEARCH PRESS",45,"65 AURIGA DR, SUITE 203, OTTAWA, ON K2E 7W6, CANADA",OTTAWA,11.0,902MT,"Doublet, Vincent; Raimond, Roland; Grandjean, Frederic; Lafitte, Alexandra; Souty-Grosset, Catherine; Marcade, Isabelle",18.0,17.0,Biotechnology & Applied Microbiology; Genetics & Heredity,GENOME,Genome,10.1139/G2012-008,"Doublet, V (corresponding author), Univ Poitiers, UMR CNRS 7267, Equipe Ecol Evolut Symbiose, 40 Ave Recteur Pineau, F-86022 Poitiers, France.",ARMADILLIDIUM-VULGARE; PHYLOGENY PERACARIDA; GENOME; EVOLUTION; VARIABILITY; ONISCIDEA; CNIDARIA; ORGANIZATION; ARCHITECTURE; REPLICATION,vincent.doublet@zoologie.uni-halle.de; isabelle.marcade@univ-poitiers.fr,"Doublet, Vincent/0000-0002-6313-1222; grandjean, frederic/0000-0002-8494-0985","Doublet, Vincent/D-8050-2015; grandjean, frederic/H-2017-2012",22376074.0,1480-3321,"Centre National de la Recherche Scientifique (CNRS)Centre National de la Recherche Scientifique (CNRS); French Ministere de l'Education Nationale, de l'Enseignement Superieur et de la Recherche; Region Poitou-CharentesRegion Nouvelle-Aquitaine","We thank G. Montesanto and S. Verne for providing samples; C. Debenest, C. Delaunay, and M. Raimond for technical assistance; M. Sicard for comments on earlier versions of the manuscript; and D. Bouchon for comments and for providing a previous alignment of partial 16S rRNA mitochondrial gene of isopods. We also gratefully acknowledge the comments of two anonymous reviewers. This work was funded by the Centre National de la Recherche Scientifique (CNRS) and the French Ministere de l'Education Nationale, de l'Enseignement Superieur et de la Recherche. V.D. Ph.D. position was funded by the Region Poitou-Charentes.",,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ENVIRONMENTAL RADIOACTIVITY,2021-04-13,WOS:000298525200007,24,3,"Rask, M; Saxen, R; Ruuhijarvi, J; Arvola, L; Jarvinen, M; Koskelainen, U; Outola, I; Vuorinen, PJ",J,English,Short- and long-term patterns of Cs-137 in fish and other aquatic organisms of small forest lakes in southern Finland since the Chernobyl accident,2012.0,Environmental Sciences & Ecology,103,0265-931X,1,JAN,41,47,Cs-137; Chernobyl fallout; Forest lakes; Freshwater fish; Crustacean zooplankton; Asellus aquaticus,"[Rask, Martti; Ruuhijarvi, Jukka] Evo Game & Fisheries Res, Finnish Game & Fisheries Res Inst, FI-16970 Evo, Finland; [Saxen, Ritva; Koskelainen, Ulla; Outola, Iisa] STUK Radiat & Nucl Safety Author, FI-00881 Helsinki, Finland; [Arvola, Lauri] Univ Helsinki, Lammi Biol Stn, FI-16900 Lammi, Finland; [Jarvinen, Marko] Finnish Environm Inst, FI-40500 Jyvaskyla, Finland; [Vuorinen, Pekka J.] Finnish Game & Fisheries Res Inst, FI-00791 Helsinki, Finland","We summarize the patterns of Cs-137 activity concentrations and transfer into fish and other biota in four small forest lakes in southern Finland during a twenty-year period following the Chernobyl accident in April 1986. The results from summer 1986 showed fastest accumulation of Cs-137 into planktivorous fishes, i.e. along the shortest food chains. Since 1987, the highest annual mean values of Cs-137 have been recorded in fish occupying the highest trophic levels, for perch (Perca fluviatilis) 13,600 Bq/kg (ww) and for pike (Esox lucius) 20,700 Bq/kg (ww). At the same time, activity concentrations of Cs-137 in crustacean zooplankton and Asellus aquaticus have ranged between 1000 and 19,500 Bq/kg (dw). In 2006, 5-28% of the 1987 Cs-137 activity concentration levels were still present in perch and pike. Since 1989 their Cs-137 activity concentrations in oligohumic seepage lakes have remained significantly higher than in polyhumic drainage lakes due to the increased transfer of Cs-137 into fish in the seepage lakes with lower electrolyte concentrations, longer water retention times and lower sedimentation rate. (C) 2011 Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,32,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,7.0,868LQ,"Rask, Martti; Saxen, Ritva; Ruuhijarvi, Jukka; Arvola, Lauri; Jarvinen, Marko; Koskelainen, Ulla; Outola, Iisa; Vuorinen, Pekka J.",12.0,11.0,Environmental Sciences,J ENVIRON RADIOACTIV,J. Environ. Radioact.,10.1016/j.jenvrad.2011.08.002,"Rask, M (corresponding author), Evo Game & Fisheries Res, Finnish Game & Fisheries Res Inst, FI-16970 Evo, Finland.",PERCA-FLUVIATILIS; SWEDISH LAKES; FINNISH LAKES; RADIOCESIUM; ELIMINATION; POTASSIUM; DYNAMICS; FALLOUT; CESIUM; SIZE,martti.rask@rktl.fi; lauri.arvola@helsinki.fi; marko.jarvinen@ymparisto.fi; iisa.outola@stuk.fi; pekka.vuorinen@rktl.fi,"Vuorinen, Pekka J/0000-0002-8385-3695; Jarvinen, Marko/0000-0002-8107-8066; Arvola, Lauri/0000-0003-1380-0659","Vuorinen, Pekka J/G-5062-2016",22036157.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGICAL INVASIONS,2021-04-13,WOS:000298645800019,71,2,"Piscart, C; Mermillod-Blondin, F; Maazouzi, C; Merigoux, S; Marmonier, P",J,English,Potential impact of invasive amphipods on leaf litter recycling in aquatic ecosystems,2011.0,Biodiversity & Conservation; Environmental Sciences & Ecology,13,1387-3547,12,DEC,2861,2868,Biological invasion; Dikerogammarus villosus; Ecosystem functioning; Gammarus tigrinus; Organic matter recycling,"[Piscart, Christophe; Mermillod-Blondin, Florian; Maazouzi, Chafik; Merigoux, Sylvie; Marmonier, Pierre] Univ Lyon 1, UMR 5023, CNRS, Lab Ecol Hydrosyst Fluviaux, F-69622 Villeurbanne, France; [Maazouzi, Chafik] Univ Paul Cezanne, UMR 6116, CNRS, IRD,IMEP, F-13397 Marseille 20, France","The impact of biological invasions on local biodiversity is well established, but their impact on ecosystem functioning has only been sketchily documented. However, biological invasions may impede services provided by aquatic ecosystems, such as, for example, the decomposition of organic matter, a key process in most small streams. To address this question, we experimentally quantified the leaf litter breakdown activity of native and invasive amphipod species, which are keystone species in aquatic ecosystems. The breakdown rate of each species was used to estimate the potential leaf litter recycling in the Rhone and Meurthe Rivers in sites occupied solely by native species and sites dominated by invasive species. We found that invaders were not able to compensate for the activity of native species and that the replacement of native species led to a decrease of at least 66% in the rate of leaf litter recycling. Our approach provides empirical evidence of the functional impact of non-indigenous species on leaf litter recycling, using standard protocols and literature data.",SPRINGER,48,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,8.0,870CD,"Piscart, Christophe; Mermillod-Blondin, Florian; Maazouzi, Chafik; Merigoux, Sylvie; Marmonier, Pierre",44.0,43.0,Biodiversity Conservation; Ecology,BIOL INVASIONS,Biol. Invasions,10.1007/s10530-011-9969-y,"Piscart, C (corresponding author), Univ Lyon 1, UMR 5023, CNRS, Lab Ecol Hydrosyst Fluviaux, Campus Doua,43 Bd 11 Novembre 1918, F-69622 Villeurbanne, France.",DIKEROGAMMARUS-VILLOSUS SOWINSKY; GAMMARUS SPP. CRUSTACEA; FATTY-ACID-COMPOSITION; ORGANIC-MATTER; MACROINVERTEBRATE COMMUNITIES; ASELLUS-AQUATICUS; SPECIES RICHNESS; TROPHIC ECOLOGY; FECAL PELLETS; BALTIC SEA,christophe.piscart@univ-lyon1.fr,"Mermillod-Blondin, Florian/0000-0001-5685-2892; piscart, christophe/0000-0002-4054-4542; ","Piscart, Christophe/A-7216-2008; Mermillod-Blondin, Florian/AAF-3491-2020; Piscart, Christophe/AAD-8973-2019; piscart, christophe/K-4981-2019; Maazouzi, Chafik/A-8275-2010",,1573-1464,"National Research Agency (Agence Nationale de la Recherche, ANR)French National Research Agency (ANR) [ANR-06-BDIV-007-InBioProcess 2007-2010]","This study was supported by the InBioProcess project (ANR-06-BDIV-007-InBioProcess 2007-2010) of the Biodiversity 2006 programme of the National Research Agency (Agence Nationale de la Recherche, ANR). We wish to thank Fabio Lepori for his interesting comments and Patricia Hulmes for linguistic corrections. We also greatly thank IanDuggan and anonymous referees for helpful comments and advice concerning an earlier version of this paper.",,,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC SCIENCES,2021-04-13,WOS:000296533400005,40,0,"Stubbington, R; Wood, PJ; Reid, I",J,English,Spatial variability in the hyporheic zone refugium of temporary streams,2011.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,73,1015-1621,4,NOV,499,511,Hyporheic refuge hypothesis; Low flows; Habitat contraction; Hyporheos; Benthos; Gammarus,"[Stubbington, Rachel] Nottingham Trent Univ, Sch Sci & Technol, Nottingham NG11 8NS, Notts, England; [Wood, Paul J.; Reid, Ian] Univ Loughborough, Dept Geog, Loughborough LE11 3TU, Leics, England","A key ecological role hypothesized for the hyporheic zone is as a refugium that promotes survival of benthic invertebrates during adverse conditions in the surface stream. Many studies have investigated use of the hyporheic refugium during hydrological extremes (spates and streambed drying), and recent research has linked an increase in the abundance of benthic invertebrates within hyporheic sediments to increasing biotic interactions during flow recession in a temporary stream. This study examined spatial variability in the refugial capacity of the hyporheic zone in two groundwater-dominated streams in which flow permanence varied over small areas. Two non-insect taxa, Commands pulex and Polycelis spp. were common to both streams and were investigated in detail. Hydrological conditions in both streams comprised a four-month period of flow recession and low flows, accompanied by reductions in water depth and wetted width. Consequent declines in submerged benthic habitat availability were associated with increases in population densities of mobile benthic taxa, in particular G. pulex. The reduction in the spatial extent of the hyporheic zone was minimal, and this habitat was therefore a potential refugium from increasing biotic interactions in the benthic sediments. Concurrent increases in the hyporheic abundance and hyporheic proportion of a taxon's total (benthic + hyporheic) population were considered as evidence of active refugium use. Such evidence was species-specific and site-specific, with refugium use being observed only for G. pulex and at sites dominated by downwelling water. A conceptual model of spatial variability in the refugial capacity of the hyporheic zone during habitat contraction is presented, which highlights the potential importance of the direction of hydrologic exchange.",SPRINGER BASEL AG,65,"PICASSOPLATZ 4, BASEL, 4052, SWITZERLAND",BASEL,13.0,841SM,"Stubbington, Rachel; Wood, Paul J.; Reid, Ian",36.0,36.0,Environmental Sciences; Limnology; Marine & Freshwater Biology,AQUAT SCI,Aquat. Sci.,10.1007/s00027-011-0203-x,"Stubbington, R (corresponding author), Nottingham Trent Univ, Sch Sci & Technol, Clifton Campus, Nottingham NG11 8NS, Notts, England.",GAMMARUS-PULEX L; MACROINVERTEBRATE ASSEMBLAGES; INVERTEBRATE COMMUNITIES; ASELLUS-AQUATICUS; FLOW PERMANENCE; ORGANIC-MATTER; POPULATION; DYNAMICS; SURFACE; RIVER,rachel.stubbington@ntu.ac.uk,"Stubbington, Rachel/0000-0001-8475-5109; Wood, Paul/0000-0003-4629-3163","Wood, Paul/C-2627-2012; Stubbington, Rachel/ABI-3913-2020",,1420-9055,Loughborough University,"RS acknowledges the support of a Loughborough University faculty studentship. Grateful thanks to Patrick Byrne. Matthew Johnson, Jonny Lewis, Sally Little, Antonia Liversidge, Matthew Mohammed, Jules Toone and Tom Worrall for assistance in the field. Thanks also to Philip Bowler (Natural England) and to Chris Extence and Richard Chadd (Environment Agency) for advice and site access on the River Lathkill and River Glen, respectively. River discharge data were generously provided by John Gunn (University of Birmingham) and Ian Gray (Environment Agency). We also extend our thanks to two anonymous reviewers, whose insightful comments greatly improved this manuscript.",,,,,,,,,,,,SI,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000295245600083,63,0,"Kupryianchyk, D; Reichman, EP; Rakowska, MI; Peeters, ETHM; Grotenhuis, JTC; Koelmans, AA",J,English,Ecotoxicological Effects of Activated Carbon Amendments on Macroinvertebrates in Nonpolluted and Polluted Sediments,2011.0,Engineering; Environmental Sciences & Ecology,45,0013-936X,19,OCT 1,8567,8574,,"[Kupryianchyk, D.; Reichman, E. P.; Peeters, E. T. H. M.; Koelmans, A. A.] Wageningen Univ, Dept Environm Sci, Aquat Ecol & Water Qual Management Grp, NL-6700 AA Wageningen, Netherlands; [Rakowska, M. I.; Grotenhuis, J. T. C.] Wageningen Univ, Dept Agrotechnol & Food Sci, Subdept Environm Technol, NL-6700 EV Wageningen, Netherlands; [Koelmans, A. A.] Wageningen Imares, NL-1970 AB Ijmuiden, Netherlands","Amendment of contaminated sediment with activated carbon (AC) is a remediation technique that has demonstrated its ability to reduce aqueous concentrations of hydrophobic organic compounds. The application of AC, however, requires information on possible ecological effects, especially effects on benthic species. Here, we provide data on the effects of AC addition on locomotion, ventilation, sediment avoidance, mortality, and growth of two benthic species, Gammarus pules and Asellus aquaticus, in clean versus polycyclic aromatic hydrocarbon (PAH) contaminated sediment. Exposure to PAH was quantified using 76 mu m polyoxymethylene passive samplers. In clean sediment, AC amendment caused no behavioral effects on both species after 3-5 days exposure, no effect on the survival of A. aquaticus, moderate effect on the survival of G. pulex (LC(50) = 3.1% AC), and no effects on growth. In contrast, no survivors were detected in PAH contaminated sediment without AC. Addition of 1% AC, however, resulted in a substantial reduction of water exposure concentration and increased survival of G. pulex and A. aquaticus by 30 and 100% in 8 days and 5 and 50% after 28 days exposure, respectively. We conclude that AC addition leads to substantial improvement of habitat quality in contaminated sediments and outweighs ecological side effects.",AMER CHEMICAL SOC,41,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,8.0,825BJ,"Kupryianchyk, D.; Reichman, E. P.; Rakowska, M. I.; Peeters, E. T. H. M.; Grotenhuis, J. T. C.; Koelmans, A. A.",58.0,57.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/es2014538,"Kupryianchyk, D (corresponding author), Wageningen Univ, Dept Environm Sci, Aquat Ecol & Water Qual Management Grp, POB 47, NL-6700 AA Wageningen, Netherlands.",POLYCYCLIC AROMATIC-HYDROCARBONS; GAMMARUS-PULEX L; ASELLUS-AQUATICUS L; POLYCHLORINATED-BIPHENYLS; CONTAMINATED SEDIMENTS; MARINE-SEDIMENTS; MACOMA-BALTHICA; BLACK CARBON; REDUCE PCB; WATER,darya.kupryianchyk@wur.nl,"Kupryianchyk, Darya/0000-0001-9454-214X; Grotenhuis, Tim/0000-0002-1075-3407; Peeters, Edwin T.H.M./0000-0003-2541-1829; Koelmans, Albert/0000-0001-7176-4356","Koelmans, Albert A./D-8603-2014; Grotenhuis, Tim/C-3006-2013",21846106.0,,Dutch Technology Foundation STWTechnologiestichting STW; Alterra; RIVM; Deltares; Boskalis; Dolman; Norit; Oostwaardhoeve V.O.F.; De Vries; Van de Wiel,"This study was funded by the Dutch Technology Foundation STW. We acknowledge financial support from Alterra, RIVM, Deltares, Boskalis Dolman, Norit, Oostwaardhoeve V.O.F., De Vries, and Van de Wiel. We would like to thank Frits Gillissen and John Beijer for their practical assistance and advice.",,,,,,,,,,,,,,,,,,,,,,,,
Article,FUNDAMENTAL AND APPLIED LIMNOLOGY,2021-04-13,WOS:000298141900004,43,1,"di Lascio, A; Rossi, L; Costantini, ML",J,English,Different temperature tolerance of northern and southern European populations of a freshwater Isopod Crustacean species (Asellus aquaticus L.),2011.0,Marine & Freshwater Biology,179,1863-9135,3,SEP,193,201,Asellidae; body size; critical temperature; environmental factor; freshwater environment; growth rate; life stages; survival rate,"[di Lascio, Antonella; Rossi, Loreto; Costantini, Maria Letizia] Sapienza Univ Rome, Dept Environm Biol, I-00185 Rome, Italy","Temperature is a major factor for ectothermic organisms, directly affecting biochemical and physiological processes. The increase in temperature and its effects have prompted many climate change studies, many of which focus on latitudinal gradients as they readily provide contrasting thermal regimes. In this study we evaluated the response in terms of growth, survival, and reproduction rates of two latitudinally separate populations of Asellus aquaticus (L.) to high temperature (30 degrees C). The comparisons revealed i) differences between the two populations, with higher tolerance found in the southern group, as well as between genders and body size classes. Only individuals from the southern population were able to complete the biological cycle at 30 degrees C, and no individuals from the northern population survived after 60 days; ii) differences between life stages: the survival rate of juveniles was greater than that of adults and the southern population had the highest proportion of temperature-resistant juveniles. The results confirm the importance of body size in the response to rising temperature and suggest that life stage should be taken into account in thermal adaptation studies. Analyses of intraspecific variability across different thermal regimes associated with the different latitudes illustrate how rising temperature can affect biological traits.",E SCHWEIZERBARTSCHE VERLAGSBUCHHANDLUNG,56,"NAEGELE U OBERMILLER, SCIENCE PUBLISHERS, JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,9.0,863DB,"di Lascio, Antonella; Rossi, Loreto; Costantini, Maria Letizia",12.0,12.0,Limnology; Marine & Freshwater Biology,FUND APPL LIMNOL,Fundam. Appl. Limnol.,10.1127/1863-9135/2011/0179-0193,"di Lascio, A (corresponding author), Sapienza Univ Rome, Dept Environm Biol, Via Sardi 70, I-00185 Rome, Italy.",CLIMATE-CHANGE; BODY-SIZE; THERMAL TOLERANCE; ADAPTATION; GROWTH; FISH; ACCLIMATION; ZOOPLANKTER; RESPONSES; CAPACITY,Antonella.dilascio@uniroma1.it,"ROSSI, LORETO/0000-0001-8014-5397; Costantini, Maria Letizia/0000-0001-6242-558X",,,,"MIUR-COFINMinistry of Education, Universities and Research (MIUR)Research Projects of National Relevance (PRIN); MIPAF",We thank Mr. George Metcalf for revising the English text. We also thank Dr. Wilco C. E. P. Verberk and an anonymous referee for helpful comments and suggestions on the manuscript. The work was funded by MIUR-COFIN and MIPAF.,,,,,,,,,,,,,,,,,,,,,,,,
Article,EVOLUTION,2021-04-13,WOS:000294594300016,26,0,"Eroukhmanoff, F; Hargeby, A; Svensson, EI",J,English,THE ROLE OF DIFFERENT REPRODUCTIVE BARRIERS DURING PHENOTYPIC DIVERGENCE OF ISOPOD ECOTYPES,2011.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,65,0014-3820,9,SEP,2631,2640,Adaptive divergence; assortative mating; contemporary evolution; ecological speciation; migration modification,"[Eroukhmanoff, Fabrice; Svensson, Erik I.] Lund Univ, Sect Anim Ecol, SE-22362 Lund, Sweden; [Eroukhmanoff, Fabrice] Univ Oslo, Dept Biol, CEES, N-0316 Oslo, Norway; [Hargeby, Anders] Linkoping Univ, Div Biol, S-58183 Linkoping, Sweden","The question of how diverging populations become separate species by restraining gene flow is a central issue in evolutionary biology. Assortative mating might emerge early during adaptive divergence, but the role of other types of reproductive barriers such as migration modification have recently received increased attention. We demonstrate that two recently diverged ecotypes of a freshwater isopod (Asellus aquaticus) have rapidly developed premating isolation, and this isolation barrier has emerged independently and in parallel in two south Swedish lakes. This is consistent with ecological speciation theory, which predicts that reproductive isolation arises as a byproduct of ecological divergence. We also find that in one of these lakes, habitat choice acts as the main barrier to gene flow. These observations and experimental results suggest that migration modification might be as important as assortative mating in the early stages of ecological speciation. Simulations suggest that the joint action of these two isolating barriers is likely to greatly facilitate adaptive divergence, compared to if each barrier was acting alone.",WILEY-BLACKWELL,37,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,816JK,"Eroukhmanoff, Fabrice; Hargeby, Anders; Svensson, Erik I.",13.0,12.0,Ecology; Evolutionary Biology; Genetics & Heredity,EVOLUTION,Evolution,10.1111/j.1558-5646.2011.01327.x,"Eroukhmanoff, F (corresponding author), Lund Univ, Sect Anim Ecol, Ecol Bldg, SE-22362 Lund, Sweden.",FRESH-WATER ISOPOD; NATURAL-SELECTION; ECOLOGICAL SPECIATION; ADAPTIVE DIVERGENCE; PARALLEL EVOLUTION; ASELLUS-AQUATICUS; SEXUAL ISOLATION; UNIQUE FEATURES; DIVERSIFICATION; STICKLEBACKS,fabrice.eroukhmanoff@bio.uio.no; anhar@ifm.liu.se; erik.svensson@zooekol.lu.se,"Svensson, Erik/0000-0001-9006-016X","eroukhmanoff, fabrice/D-1414-2015; Svensson, Erik/E-8324-2010",21884061.0,,Swedish Research CouncilSwedish Research CouncilEuropean Commission,"We thank S. Guechot, N. Nowshiravani-Arnberg, and K. Karlsson for their help with field-work and P. Edelaar, A. Hendry, A. Qvarnstrom, J. Kotiaho, K. Rengefors and ""The Svensson Lab"" for their comments on earlier drafts of the manuscript. This study was financially supported by the Swedish Research Council to FE and ES.",Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,CLEAN-SOIL AIR WATER,2021-04-13,WOS:000295259800007,36,0,"Obolewski, K; Glinska-Lewczuk, K",J,English,Effects of Oxbow Reconnection Based on the Distribution and Structure of Benthic Macroinvertebrates,2011.0,Science & Technology - Other Topics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Water Resources,39,1863-0650,9,SEP,853,862,Macrozoobenthos; Oxbow lake; Poland; Reconnection; Slupia River,"[Obolewski, Krystian] Pomeranian Univ, Dept Aquat Ecol, PL-76200 Slupsk, Poland; [Glinska-Lewczuk, Katarzyna] Univ Warmia & Mazury, Dept Land Reclamat & Environm Management, Olsztyn, Poland","This study focuses on the assessment of relationships between flow and macrozoobenthos structure that was performed in a reconnected oxbow lake located in the Slupia River floodplain (northern Poland). The lake was created during river straightening at the beginning of 20th century by cutting off the right-bank meander. The oxbow restoration was performed to enhance the ecological viability of this water body and restore riverine wetland. In July 2000 the oxbow was connected with the river channel through PVC pipes which enabled free water movement. Macrozoobenthos sampling, as well as chemical analyses of water and hydrological measurements, took place both before and after the oxbow reconnection. Before the oxbow reconnection, the dominant species was Asellus aquaticus, whereas after the reconnection the structure of benthic species changed significantly. During the first year it was replaced by bivalves and Chironomidae larvae and then A. aquaticus. After the reconnection, macrozoobenthos mean density was 5-fold higher and the mean wet biomass was 77-fold higher than before the reconnection. The number of taxa increased from 4 before the oxbow reconnection to 17 during the first year after the performed works and 20 in the next year. We stated that the revitalization process of the reconnected oxbow lake has long-term consequences for the benthic communities. The most significant feature of the oxbow reconnection is the qualitative and quantitative recolonization by riverine macrozoobenthos species. The performed restoration significantly improved ecological status of the oxbow lake by the increase in biodiversity and water quality.",WILEY,45,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,825GS,"Obolewski, Krystian; Glinska-Lewczuk, Katarzyna",22.0,20.0,Green & Sustainable Science & Technology; Environmental Sciences; Marine & Freshwater Biology; Water Resources,CLEAN-SOIL AIR WATER,Clean-Soil Air Water,10.1002/clen.201000491,"Obolewski, K (corresponding author), Pomeranian Univ, Dept Aquat Ecol, PL-76200 Slupsk, Poland.",HYDROLOGICAL CONNECTIVITY; FLOODPLAIN RESTORATION; RIVER ECOSYSTEMS; REGULATED RIVER; WATER-QUALITY; COMMUNITIES; DYNAMICS; BIOMASS; DANUBE; LAKES,obolewsk@apsl.edu.pl,"GLINSKA-LEWCZUK, KATARZYNA/0000-0002-7845-6353; Obolewski, Krystian/0000-0001-9361-0286; Obolewski, Krystian/0000-0003-1308-4015",,,1863-0669, [N N305 1423 40];  [N N305 3174 40],This scientific study was financed by educational funds as research project no. N N305 1423 40 and N N305 3174 40.,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000293910500005,29,0,"Harris, S; Eroukhmanoff, F; Green, KK; Svensson, EI; Pettersson, LB",J,English,Changes in behavioural trait integration following rapid ecotype divergence in an aquatic isopod,2011.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,24,1010-061X,9,SEP,1887,1896,antipredator behaviour; Asellus aquaticus; behavioural correlation; behavioural syndrome; phenotypic integration; predation; rapid divergence,"[Harris, S.; Green, K. K.; Svensson, E. I.; Pettersson, L. B.] Lund Univ, Dept Biol, SE-22362 Lund, Sweden; [Eroukhmanoff, F.] Univ Oslo, Dept Biol, CEES, Oslo, Norway","Colonization of new habitats can relax selection pressures, and traits or trait combinations no longer selected for might become reduced or lost. We investigated behavioural differentiation and behavioural trait integration in the freshwater isopod Asellus aquaticus. This isopod has recently colonized a novel habitat and diverged into two ecotypes which encounter different predator faunas. We investigated sex-specific behavioural differences and phenotypic integration in three behavioural assays: (i) time to emerge (TE) from a shelter, (ii) activity and (iii) escape behaviour. General activity and escape behaviour differed between ecotypes. Furthermore, general activity and TE differed between sexes. Behavioural traits were more frequently correlated in the ancestral habitat, and phenotypic integration tended to be higher in this habitat as well. Our study suggests that different predator types, but also other ecological factors such as habitat matrices and population densities, might explain the differences in behavioural integration in these ecotypes.",WILEY-BLACKWELL,71,"COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA",MALDEN,10.0,807OX,"Harris, S.; Eroukhmanoff, F.; Green, K. K.; Svensson, E. I.; Pettersson, L. B.",10.0,10.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/j.1420-9101.2011.02322.x,"Harris, S (corresponding author), Lund Univ, Dept Biol, SE-22362 Lund, Sweden.",GUPPIES POECILIA-RETICULATA; FRESH-WATER ISOPOD; ASELLUS-AQUATICUS; CORRELATIONAL SELECTION; GASTEROSTEUS-ACULEATUS; PHENOTYPIC INTEGRATION; ANTIPREDATOR BEHAVIOR; 3-SPINED STICKLEBACK; PERCA-FLUVIATILIS; IDOTEA-BALTICA,sanna.harris@biol.lu.se,"Pettersson, Lars/0000-0001-5745-508X; Svensson, Erik/0000-0001-9006-016X","Pettersson, Lars/AAX-3948-2020; eroukhmanoff, fabrice/D-1414-2015; Svensson, Erik/E-8324-2010",21658187.0,,Swedish Research Council (VR)Swedish Research Council,"We thank Dennis Hasselquist, Anna Runemark and two anonymous reviewers for constructive comments on a previous draft of this manuscript and Sita Ollek, Thomas Bourdier and Bjorn Gunnarsson for their assistance in the field and laboratory. Financial support was received from the Swedish Research Council (VR) to E. I. S. and L. B. P.",,,,,,,,,,,,,,,,,,,,,,,,
Editorial Material,MOLECULAR ECOLOGY RESOURCES,2021-04-13,WOS:000292478500020,27,1,"Austin, JD; Bertin, A; Borquez, JP; Cardenas, L; Cardoza, TB; Chapman, F; De Sousa, ACB; De Souza, AP; Douglas, KC; Ellwood, SR; Ferriol, M; Garmendia, A; Gouin, N; Hargrove, J; Jasti, M; Keranen, I; Knott, KE; Konec, M; Kuitunen, K; Lima, MP; Linde, CC; Merle, H; Oliva, ME; Perez, M; Saarinen, E; Samollow, PB; Scarpassa, VM; Segura, I; Smith, L; Trontelj, P; Valdivia, IM; Wallwork, H; Wellenreuther, M",J,English,Permanent Genetic Resources added to Molecular Ecology Resources Database 1 February 2011-31 March 2011,2011.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Evolutionary Biology,11,1755-098X,4,JUL,757,758,,"[Austin, James D.; Hargrove, John; Saarinen, Emily] Univ Florida, Inst Food & Agr Sci, Dept Wildlife Ecol & Conservat, Gainesville, FL 32611 USA; [Mol Ecol Resources Primer Dev Cons] Mol Ecol Resources Editorial Off, Vancouver, BC V6T 1Z4, Canada; [Austin, James D.; Chapman, Frank] Univ Florida, Inst Food & Agr Sci, Sch Forest Resources & Conservat, Program Fisheries & Aquat Sci, Gainesville, FL 32611 USA; [Bertin, Angeline] Univ La Serena, Dept Biol, La Serena, Chile; [Borquez, Jessica P.] Univ Concepcion, Programa Doctorado Sistemat & Biodiversidad, Concepcion, Chile; [Cardenas, L.] Univ Austral Chile, Inst Ecol & Evoluc, Valdivia, Chile; [Cardoza, Tatiana Bacry; Scarpassa, Vera Margarete] Inst Nacl de Pesquisas da Amazonia, Programa Posgrad Genet Conservacao & Biol Evolut, BR-69060001 Manaus, Amazonas, Brazil; [Barbosa De Sousa, Adna Cristina; De Souza, Anete Pereira] Univ Estadual Campinas, Ctr Biol Mol & Engn Genet, BR-13083970 Campinas, SP, Brazil; [De Souza, Anete Pereira] Univ Estadual Campinas, Inst Biol, Dept Biol Vegetal, BR-13083970 Campinas, SP, Brazil; [Douglas, Kory C.; Jasti, Madhur; Samollow, Paul B.] Texas A&M Univ, Dept Vet Integrat Biosci, College Stn, TX USA; [Ellwood, Simon R.] Curtin Univ Technol, Dept Environm & Agr, Bentley, WA 6102, Australia; [Ferriol, M.; Garmendia, A.; Segura, I.] Univ Politecn Valencia, Inst Agroforestal Mediterraneo, E-46022 Valencia, Spain; [Wellenreuther, M.] Lund Univ, Dept Biol, SE-22362 Lund, Sweden; [Saarinen, Emily] US EPA, Coastal Ecol Branch, Newport, OR 97365 USA; [Scarpassa, Vera Margarete] Inst Nacl de Pesquisas da Amazonia, Lab Genet Populacoes & Evolucao Vetores Malaria &, BR-69060001 Manaus, Amazonas, Brazil; [Wallwork, Hugh] S Australian Res & Dev Inst, Urrbrae, SA 5064, Australia; [Valdivia, I. M.] Univ Antofagasta, Programa Doctorado Ciencias Aplicadas Menc Sistem, Antofagasta, Chile; [Oliva, M. E.; Valdivia, I. M.] Univ Antofagasta, Fac Recursos Mar, Inst Invest Oceanol, Antofagasta, Chile; [Perez, M.] Univ Vigo, Fac Biol, Dept Bioquim Genet & Inmunol, Vigo 36310, Pontevedra, Spain; [Gouin, Nicolas] Univ Catolica Norte, Fac Ciencias Mar, Ctr Estudios Avanzados Zonas Aridas, Coquimbo, Chile; [Keranen, I.; Knott, K. E.; Kuitunen, K.] Univ Jyvaskyla, Dept Biol & Environm Sci, FIN-40014 Jyvaskyla, Finland; [Konec, Marjeta; Trontelj, Peter] Univ Ljubljana, Biotech Fac, Dept Biol, SI-1000 Ljubljana, Slovenia; [Merle, H.] Univ Politecn Valencia, Dept Ecosistemas Agroforestales, E-46022 Valencia, Spain; [Linde, Celeste C.; Smith, Leon] Australian Natl Univ, Res Sch Biol, Canberra, ACT 0200, Australia; [Lima, Marcos Prado] Univ Fed Oeste Para, Inst Ciencia & Tecnol Aguas, Lab Genet & Biodiversidade, BR-68040050 Santarem, PA, Brazil","This article documents the addition of 111 microsatellite marker loci to the Molecular Ecology Resources Database. Loci were developed for the following species: Acipenser oxyrinchus desotoi, Anopheles nuneztovari sensu lato, Asellus aquaticus, Calopteryx splendens, Calopteryx virgo, Centaurea aspera, Centaurea seridis, Chilina dombeyana, Proctoeces cf. lintoni and Pyrenophora teres f. teres.",WILEY-BLACKWELL,0,"COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA",MALDEN,2.0,788XU,"Austin, James D.; Bertin, Angeline; Borquez, Jessica P.; Cardenas, L.; Cardoza, Tatiana Bacry; Chapman, Frank; Barbosa De Sousa, Adna Cristina; De Souza, Anete Pereira; Douglas, Kory C.; Ellwood, Simon R.; Ferriol, M.; Garmendia, A.; Gouin, Nicolas; Hargrove, John; Jasti, Madhur; Keranen, I.; Knott, K. E.; Konec, Marjeta; Kuitunen, K.; Lima, Marcos Prado; Linde, Celeste C.; Merle, H.; Oliva, M. E.; Perez, M.; Saarinen, Emily; Samollow, Paul B.; Scarpassa, Vera Margarete; Segura, I.; Smith, Leon; Trontelj, Peter; Valdivia, I. M.; Wallwork, Hugh; Wellenreuther, M.",20.0,19.0,Biochemistry & Molecular Biology; Ecology; Evolutionary Biology,MOL ECOL RESOUR,Mol. Ecol. Resour.,10.1111/j.1755-0998.2011.03028.x,,,,"Garmendia, Alfonso/0000-0001-6837-1818; Oliva, Marcelo E/0000-0003-1759-2797; Borquez, Jessica/0000-0002-2376-771X; Ellwood, Simon/0000-0002-2673-0816; Ferriol, Maria/0000-0002-6533-5720; Perez, Montse/0000-0002-1772-8984; de Souza, Anete Pereira/0000-0003-3831-9829; Linde, Celeste/0000-0002-8207-1202; Cardenas, Leyla/0000-0003-0676-6704; Knott, Karelyn Emily/0000-0003-2564-1560; Wellenreuther, Maren/0000-0002-2764-8291; Austin, James/0000-0003-0643-8620; Merle, Hugo/0000-0002-0004-7162; Gouin, Nicolas/0000-0002-7111-2582","Garmendia, Alfonso/C-5895-2013; Scarpassa, Vera M./H-4125-2013; Oliva, Marcelo E/O-7080-2016; Wellenreuther, Maren/AAD-8360-2021; Borquez, Jessica/AAO-6839-2020; Ellwood, Simon/K-2023-2013; Ferriol, Maria/M-1370-2014; Perez, Montse/E-6741-2013; de Souza, Anete Pereira/B-8663-2012; Linde, Celeste/C-9306-2009; Kuitunen, Katja/C-9472-2011; Cardenas, Leyla/AAY-5671-2020; Wellenreuther, Maren/A-5555-2009; Merle, Hugo/L-4502-2017",21627775.0,,,,Green Published,,,,,,,,,,,,,,,,Mol Ecol Resources Primer Dev Cons,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000290313500020,36,0,"Eroukhmanoff, F; Svensson, EI",J,English,Evolution and stability of the G-matrix during the colonization of a novel environment,2011.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,24,1010-061X,6,JUN,1363,1373,adaptation; ecotype; G-matrix; parallel evolution; rapid divergence,"[Eroukhmanoff, F.] Univ Oslo, Ctr Ecol & Evolutionary Synth CEES, Dept Biol, N-0316 Oslo, Norway; [Eroukhmanoff, F.; Svensson, E. I.] Lund Univ, Sect Anim Ecol, Lund, Sweden","Populations that undergo a process of rapid evolution present excellent opportunities to investigate the mechanisms driving or restraining adaptive divergence. The genetic variance-covariance matrix (G) is often considered to constrain adaptation but little is known about its potential to evolve during phenotypic divergence. We compared the G-matrices of ancestral and recently established ecotype populations of an aquatic isopod (Asellus aquaticus) that have diverged in parallel in two south Swedish lakes. Phenotypic changes after colonization involved a reduction in overall size, lost pigmentation and changes in shape. Comparisons between G-matrices reveal close similarity within the same ecotype from different lakes but some degree of differentiation among ecotypes. Phenotypic divergence has apparently not been much influenced by the orientation of G. Additive genetic variation in the newly colonized habitats has also decreased substantially. This suggests that a process of adaptation from standing genetic variation has occurred and has probably facilitated phenotypic divergence.",WILEY,64,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,760GT,"Eroukhmanoff, F.; Svensson, E. I.",34.0,34.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/j.1420-9101.2011.02270.x,"Eroukhmanoff, F (corresponding author), Univ Oslo, Ctr Ecol & Evolutionary Synth CEES, Dept Biol, POB 1066 Blindern, N-0316 Oslo, Norway.",QUANTITATIVE GENETIC-ANALYSIS; VARIANCE-COVARIANCE MATRIX; FRESH-WATER ISOPOD; NATURAL-SELECTION; HISTORICAL CONTINGENCY; DIVERGENCE; CONSTRAINTS; ADAPTATION; MUTATION; DIFFERENTIATION,fabrice.eroukhmanoff@bio.uio.no,"Svensson, Erik/0000-0001-9006-016X","eroukhmanoff, fabrice/D-1414-2015; Svensson, Erik/E-8324-2010",21507116.0,1420-9101,"Swedish Research Council (VR)Swedish Research Council; Swedish Council for Environment, Agriculture, and Spatial Planning (FORMAS)Swedish Research Council Formas","We are grateful to S. Arnold, B. Calsbeek, R. Shaw, J. Fry, A. Hendry, A. Qvarnstrom, J. Kotiaho, Stefan Andersson, members of the Svensson Lab for constructive criticisms on the first draft of this manuscript and field assistants S. Guechot, M. von Post, K. Karlsson and S. Harris who participated in this project during 2005-2008. We also want to thank A. Hargeby for his great involvement in this project. This study was financially supported by the Swedish Research Council (VR) to FE and the Swedish Research Council (VR) and The Swedish Council for Environment, Agriculture, and Spatial Planning (FORMAS) to EIS.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGICAL ENGINEERING,2021-04-13,WOS:000291372300017,51,3,"Obolewski, K",J,English,Macrozoobenthos patterns along environmental gradients and hydrological connectivity of oxbow lakes,2011.0,Environmental Sciences & Ecology; Engineering,37,0925-8574,5,MAY,796,805,Macroinvertebrates; Wetland; Slupia River; Variance partitioning,"Pomeranian Univ, Dept Aquat Ecol, PL-76200 Slupsk, Poland","Hydrological connectivity and the frequency and intensity of floods are the key factors determining the structure of macroinvertebrates inhabiting wetland ecosystems in river valleys. In 2007, water and macroinvertebrate samples were collected on four occasions in the middle course of the Slupia River and in five oxbow lakes (Northern Poland) to determine the hydrological relations in a regulated lowland river environment marked by a moderate climate. The water bodies selected for the study featured different types of connections with the main river valley: two of them were completely cut off from the valley, one was connected via a single branch, one featured a forced-flow connection through drainage pipes, and one was connected by a system of drainage channels. Macroinvertebrates, mostly Chironomidae larvae, were predominant in the eutrophic waters of the river. The prevalent macroinvertebrates found in the eutrophicated oxbow lakes isolated from the river were Chironomidae larvae and Crustacea (mainly Asellus aquaticus). In unobstructed oxbow lakes, the main component of benthic fauna was Crustacea, while Ephemeroptera were found mostly in the water body connected to the river via a drainage channel. A canonical correspondence analysis (CCA) showed that hydrological connectivity was the main factor responsible for the structure of invertebrate populations, followed by the physical and chemical parameters of the local environment. A non-conformance analysis revealed that hydrological connectivity enhanced invertebrate abundance and biological diversity, while the overall abundance was marked by unimodal distribution. The developed general model indicates that in the group of measured environmental variables, nitrite concentrations were highly correlated with Shannon diversity and invertebrate composition, while sulphate levels were closely associated with invertebrate abundance in the waters of the analyzed ecosystems. (C) 2010 Elsevier B.V. All rights reserved.",ELSEVIER,48,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,10.0,774GC,"Obolewski, Krystian",39.0,32.0,"Ecology; Engineering, Environmental; Environmental Sciences",ECOL ENG,Ecol. Eng.,10.1016/j.ecoleng.2010.06.037,"Obolewski, K (corresponding author), Pomeranian Univ, Dept Aquat Ecol, PL-76200 Slupsk, Poland.",INVERTEBRATE COMMUNITIES; POLLUTION GRADIENT; WATER-QUALITY; RIVER; WETLANDS; ASSEMBLAGES; MACROINVERTEBRATES; FLOODPLAINS; NUTRIENTS; NITROGEN,obolewsk@apsl.edu.pl,"Obolewski, Krystian/0000-0003-1308-4015; Obolewski, Krystian/0000-0001-9361-0286",,,1872-6992,"Polish Ministry of Education and ScienceMinistry of Science and Higher Education, Poland [NN305 324733]",This study was supported financially by the Polish Ministry of Education and Science No. NN305 324733.,,,,,,,,,,,,SI,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:000291087300019,47,2,"Christensen, SCB; Nissen, E; Arvin, E; Albrechtsen, HJ",J,English,Distribution of Asellus aquaticus and microinvertebrates in a non-chlorinated drinking water supply system - Effects of pipe material and sedimentation,2011.0,Engineering; Environmental Sciences & Ecology; Water Resources,45,0043-1354,10,MAY,3215,3224,Invertebrates; Microbial quality; Distribution system; Cast iron; Water storage tank,"[Christensen, Sarah C. B.; Arvin, Erik; Albrechtsen, Hans-Jorgen] Tech Univ Denmark, DTU Environm, DK-2800 Lyngby, Denmark; [Nissen, Erling] VCS Denmark, DK-5000 Odense C, Denmark","Danish drinking water supplies based on ground water without chlorination were investigated for the presence of the water louse, Asellus aquaticus, microinvertebrates (<2 mm) and annelida. In total, 52 water samples were collected from fire hydrants at 31 locations, and two elevated tanks (6000 and 36,000 m(3)) as well as one clean water tank at a waterworks (700 m(3)) were inspected. Several types of invertebrates from the phyla: arthropoda, annelida (worms), plathyhelminthes (flatworms) and mollusca (snails) were found. Invertebrates were found at 94% of the sampling sites in the piped system with A. aquaticus present at 55% of the sampling sites. Populations of A. aquaticus were present in the two investigated elevated tanks but not in the clean water tank at a waterworks. Both adult and juvenile A. aquaticus (length of 2-10 mm) were found in tanks as well as in pipes. A. aquaticus was found only in samples collected from two of seven investigated distribution zones (zone 1 and 2), each supplied directly by one of the two investigated elevated tanks containing A. aquaticus. Micro-invertebrates were distributed throughout all zones. The distribution pattern of A. aquaticus had not changed considerably over 20 years when compared to data from samples collected in 1988-89. Centrifugal pumps have separated the distribution zones during the whole period and may have functioned as physical barriers in the distribution systems, preventing large invertebrates such as A. aquaticus to pass alive. Another factor characterising zone land 2 was the presence of cast iron pipes. The frequency of A. aquaticus was significantly higher in cast iron pipes than in plastic pipes. A. aquaticus caught from plastic pipes were mainly single living specimens or dead specimens, which may have been transported passively trough by the water flow, while cast iron pipes provided an environment suitable for relatively large populations of A. aquaticus. Sediment volume for each sample was measured and our study described for the first time a clear connection between sediment volume and living A. aquaticus since living A. aquaticus were nearly only found in samples with sediment contents higher than 100 ml/m(3) sample. Presence of A. aquaticus was not correlated to turbidity of the water. Measurements by ATP, heterotrophic plate counting and Colilert (R) showed that the microbial quality of the water was high at all locations with or without animals. Four other large Danish drinking water supplies were additionally sampled (nine pipe samples and one elevated tank), and invertebrates were found in all systems, three of four containing A. aquaticus, indicating a nationwide occurrence. (C) 2011 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,23,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,10.0,770LF,"Christensen, Sarah C. B.; Nissen, Erling; Arvin, Erik; Albrechtsen, Hans-Jorgen",27.0,25.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/j.watres.2011.03.039,"Christensen, SCB (corresponding author), Tech Univ Denmark, DTU Environm, Bygningstorvet B115, DK-2800 Lyngby, Denmark.",INVERTEBRATES; DISINFECTANT; BACTERIA; BIOFILM,scch@env.dtu.dk,"Albrechtsen, Hans-Jorgen/0000-0003-3483-7709; Arvin, Erik/0000-0001-8654-3409; Christensen, Sarah Christine Boesgaard/0000-0001-6183-6045","Albrechtsen, Hans-Jorgen/J-1229-2014",21507451.0,,VCS Denmark; Urban Water Technology Graduate School,"We greatly acknowledge VCS Denmark and the Urban Water Technology Graduate School for co-funding the project. Special thanks to all involved people at VCS Denmark for being part of carrying out the project. We greatly acknowledge two anonymous reviewers for constructive comments on the manuscript. Thanks to Arnaud Dechesne, Peter Wieberg Larsen and Henrik Spliid for sharing their knowledge and to Copenhagen Energy Ltd., Aarhus Water Ltd., Aalborg Supply, Water Ltd. and TRE-FOR Water Ltd. for allowing us to sample from their supply systems. Thanks to Walter Brusch (GEUS) for interesting field trips. Lisbeth Brusendorff is acknowledged for her assistance on graphics. Thanks to Susanne Kruse and Mona Refstrup for help in the lab and finally thanks to Charlotte B. Corfitzen and Oluva K. yang for fruitful discussions and support in the lab.",,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000289171400004,38,1,"Assmann, C; Rinke, K; Nechwatal, J; von Elert, E",J,English,Consequences of the colonisation of leaves by fungi and oomycetes for leaf consumption by a gammarid shredder,2011.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,56,0046-5070,5,MAY,839,852,food preference; fungi; Gammarus; leaf litter; oomycete,"[von Elert, Eric] Univ Cologne, Cologne Bioctr, Inst Zool, D-50674 Cologne, Germany; [Assmann, Christine; Rinke, Karsten] Univ Konstanz, Limnol Inst, D-7750 Constance, Germany; [Nechwatal, Jan] Univ Konstanz, Dept Biol, D-7750 Constance, Germany","P>1. Leaf litter breakdown by shredders in the field is affected by leaf toughness, nutritional value and the presence of secondary compounds such as polyphenols. However, experiments involving the use of single fungal strains have not supported the assumption that leaf parameters determine food selection by shredders perhaps because of a failure to test for high consumption prior to isolation of fungal strains, overrepresentation of hyphomycetes or the potential effects of accompanying bacteria. In this study, we used bacteria-free, actively growing fungi and oomycetes isolated from conditioned leaf litter for which a shredder had already shown high consumption rates. 2. Black alder (Alnus glutinosa) leaf litter was exposed to the littoral zone of Lake Constance in autumn, and subsamples were analysed for leaf parameters and consumption by Gammarus roeselii under standard conditions at regular intervals. On dates with a high consumption rate of the exposed leaves, 14 single strains of fungi and oomycetes were isolated, freed of bacteria and grown on autoclaved leaves. 3. Six of eight measured leaf parameters of exposed leaves were significantly correlated with Gammarus consumption rates, with high colinearity among leaf parameters hampering the identification of causal relations between leaf parameters and feeding activity. 4. When single strains of fungi and oomycetes were grown on autoclaved leaf litter, toughness of colonised leaves was always lower than in the control and the content of protein, N and P were increased. There were pronounced strain-specific effects on leaf parameters. Consumption rates also differed significantly, with nine of fourteen isolates consumed at higher rates than controls and none proving to be a deterrent. Protein and polyphenol content were significantly correlated with consumption rates. Oomycete-colonised leaves were consumed at similar rates but were of lower food quality than fungi-colonised leaves. 5. We argue that direct strain-specific attractant or repellent effects of fungi and oomycetes on consumption by G. roeselii are not important. However, we found indirect strain-specific role operating via effects on leaf parameters.",WILEY,43,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,14.0,745NF,"Assmann, Christine; Rinke, Karsten; Nechwatal, Jan; von Elert, Eric",19.0,17.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2010.02530.x,"von Elert, E (corresponding author), Univ Cologne, Cologne Bioctr, Inst Zool, Zulpicher Str 47B, D-50674 Cologne, Germany.",ASELLUS-AQUATICUS L; LITTER DECOMPOSITION; COMPARATIVE ECOLOGY; PULEX L; DYNAMICS; IMPACT; FRESH; DEGRADATION; PREFERENCES; POPULATION,Evelert@uni-koeln.de,"von Elert, Eric/0000-0001-7758-716X; Rinke, Karsten/0000-0003-0864-6722; Nechwatal, Jan/0000-0001-9977-7976","von Elert, Eric/S-1666-2018; Rinke, Karsten/E-6163-2016; Nechwatal, Jan/AAE-5494-2020",,1365-2427,German Research Foundation (DFG) within the Collaborative Research CentreGerman Research Foundation (DFG) [SFB 454],"We thank two anonymous reviewers who contributed substantially to the improvement in the study. We are grateful to M.O. Gessner for substantial help in establishing the ergosterol analysis, C. Gebauer and P. Merkel for their assistance with leaf litter analyses, C. Geiss for her assistance with the food choice assays and M. Wolf for help in building experimental components. F. Bartlett helped with English editing. This study was supported by a grant to E. v. E. from the German Research Foundation (DFG) within the Collaborative Research Centre SFB 454 Littoral Zone of Lake Constance.",,,,,,,,,,,,,,,,,,,,,,,,
Article,PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA,2021-04-13,WOS:000289265300043,39,0,"Protas, ME; Trontelj, P; Patel, NH",J,English,"Genetic basis of eye and pigment loss in the cave crustacean, Asellus aquaticus",2011.0,Science & Technology - Other Topics,108,0027-8424,14,APR 5,5702,5707,arthropods; regressive evolution; subterranean; mapping,"[Protas, Meredith E.; Patel, Nipam H.] Univ Calif Berkeley, Ctr Integrat Genom, Dept Mol & Cell Biol, Berkeley, CA 94720 USA; [Protas, Meredith E.; Patel, Nipam H.] Univ Calif Berkeley, Dept Integrat Biol, Berkeley, CA 94720 USA; [Trontelj, Peter] Univ Ljubljana, Dept Biol, Biotech Fac, SI-1000 Ljubljana, Slovenia","Understanding the process of evolution is one of the great challenges in biology. Cave animals are one group with immense potential to address the mechanisms of evolutionary change. Amazingly, similar morphological alterations, such as enhancement of sensory systems and the loss of eyes and pigmentation, have evolved multiple times in a diverse assemblage of cave animals. Our goal is to developan invertebrate model to study cave evolution so that, in combination with a previously established vertebrate cave system, we can address genetic questions concerning evolutionary parallelism and convergence. We chose the isopod crustacean, Asellus aquaticus, and generated a genome-wide linkage map for this species. Our map, composed of 117 markers, of which the majority are associated with genes known to be involved in pigmentation, eye, and appendage development, was used to identify loci of large effect responsible for several pigmentation traits and eye loss. Our study provides support for the prediction that significant morphological change can be mediated through one or a few genes. Surprisingly, we found that within population variability in eye size occurs through multiple mechanisms; eye loss has a different genetic basis than reduced eye size. Similarly, again within a population, the phenotype of albinism can be achieved by two different genetic pathways-either by a recessive genotype at one locus or doubly recessive genotypes at two other loci. Our work shows the potential of Asellus for studying the extremes of parallel and convergent evolution-spanning comparisons within populations to comparisons between vertebrate and arthropod systems.",NATL ACAD SCIENCES,34,"2101 CONSTITUTION AVE NW, WASHINGTON, DC 20418 USA",WASHINGTON,6.0,746RT,"Protas, Meredith E.; Trontelj, Peter; Patel, Nipam H.",61.0,58.0,Multidisciplinary Sciences,P NATL ACAD SCI USA,Proc. Natl. Acad. Sci. U. S. A.,10.1073/pnas.1013850108,"Protas, ME (corresponding author), Univ Calif Berkeley, Ctr Integrat Genom, Dept Mol & Cell Biol, Berkeley, CA 94720 USA.",DROSOPHILA-MELANOGASTER; BLIND CAVEFISH; EVOLUTION; ISOPODA; POPULATIONS; ASTYANAX; BIODIVERSITY; CONVERGENCE; MUTATIONS; ASELLIDAE,mprotas@calmail.berkeley.edu,"Patel, Nipam/0000-0003-4328-654X",,21422298.0,,National Institute of HealthUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USA; Slovenian Research AgencySlovenian Research Agency - Slovenia,"We thank reviewers for their helpful comments; G. Bracko and C. Fiser for help collecting animals; L. Bauman, B. Borowsky, R. Borowsky, K. Broman, C. Chaw, D. Culver, D. Fong, J. Gross, D. Hendrix, W. Lin, P. Liu, C. Miller, S. Prevorcnik, H. Protas, D. Richter, D. Schluter, J. Strus, and J. Yang for help and advice; H. Marques-Souza, R. Parchem, J. Serano, and M. Vargas-Vila for supplying degenerate primers; J. Dang from the Genome Analysis Core Facility, Helen Diller Family Comprehensive Cancer Center, University of California, San Francisco for Sequenom genotyping; and J. Boone from Floragenex for RAD-tag sequencing. M. E. P. was supported by a postdoctoral fellowship from the National Institute of Health, and P. T. was supported by grants from the Slovenian Research Agency.","Green Published, Bronze",,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,INTEGRATIVE AND COMPARATIVE BIOLOGY,2021-04-13,WOS:000288278100331,6,0,"Protas, ME; Trontelj, P; Patel, NH",J,English,"Eye and pigment loss in the isopod cave crustacean, Asellus aquaticus",2011.0,Zoology,51,1540-7063,,MAR,E240,E240,,"UC Berkeley, Berkeley, CA USA; Univ Ljubljana, Ljubljana 61000, Slovenia",,OXFORD UNIV PRESS INC,0,"JOURNALS DEPT, 2001 EVANS RD, CARY, NC 27513 USA",CARY,1.0,733QP,"Protas, M. E.; Trontelj, P.; Patel, N. H.",0.0,0.0,Zoology,INTEGR COMP BIOL,Integr. Comp. Biol.,,,,mprotas@berkeley.edu,,,,,,,,Annual Meeting of the Society-for-Integrative-and-Comparative-Biology,,"JAN 03-07, 2011","Salt Lake City, UT",,1.0,Soc Integrat & Comparat Biol,,,,,,,,,,,,,,,,
Article,JOURNAL OF THE NORTH AMERICAN BENTHOLOGICAL SOCIETY,2021-04-13,WOS:000287114800004,44,0,"MacNeil, C; Dick, JTA; Platvoet, D; Briffa, M",J,English,Direct and indirect effects of species displacements: an invading freshwater amphipod can disrupt leaf-litter processing and shredder efficiency,2011.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,30,0887-3593,1,MAR,38,48,species displacements; Dikerogammarus; Gammarus; IGP; shredders,"[Dick, Jaimie T. A.] Queens Univ Belfast, Med & Biol Ctr, Sch Biol Sci, Belfast BT9 7BL, Antrim, North Ireland; [Platvoet, Dirk] Univ Amsterdam, Zool Museum Amsterdam, Fac Sci, NL-1090 GT Amsterdam, Netherlands; [Platvoet, Dirk] Univ Amsterdam, Inst Biodivers & Ecosyst Dynam, Fac Sci, NL-1090 GT Amsterdam, Netherlands; [Briffa, Mark] Univ Plymouth, Sch Biol Sci, Plymouth PL4 8AA, Devon, England","Invasive species may threaten the fundamental role played by native macroinvertebrate shredders in determining energy flow and the trophic dynamics of freshwater ecosystems. Functionally, amphipods have long been regarded as mainly shredders, but they are increasingly recognized as major predators of other macroinvertebrate taxa. Furthermore, intraguild predation (IGP) between native and invasive amphipods underlies many species displacements. We used laboratory mesocosms to investigate what might happen to shredders and leaf-litter processing in water bodies invaded by the highly predatory Ponto-Caspian amphipod Dikerogammarus villosus, which is spreading rapidly throughout Europe and may soon invade the North American Great Lakes. The leaf-shredding efficiency of D. villosus was significantly lower than that of 3 Gammarus species (2 native and 1 invasive) that D. villosus has either already displaced or may be currently displacing in The Netherlands. In addition, D. villosus was a major predator of all of these native and invasive amphipod shredders and of a common isopod shredder Asellus aquaticus. Leaf processing in Gammarus and Asellus mesocosms declined rapidly in the presence of D. villosus and ceased altogether within 4 d because by then, all potential shredders had been killed and consumed. Furthermore, the shredding efficiency of surviving amphipods and isopods declined significantly within 2 d of the release of D. villosus, a result indicating that predator-avoidance behavior may override leaf processing. We discuss the implications of these direct and indirect effects of D. villosus invasions and species displacements on community structure and litter processing in aquatic ecosystems.",NORTH AMER BENTHOLOGICAL SOC,66,"1041 NEW HAMSPHIRE STREET, LAWRENCE, KS 66044 USA",LAWRENCE,11.0,718IP,"MacNeil, Calum; Dick, Jaimie T. A.; Platvoet, Dirk; Briffa, Mark",50.0,48.0,Ecology; Marine & Freshwater Biology,J N AM BENTHOL SOC,J. N. Am. Benthol. Soc.,10.1899/10-056.1,,GAMMARUS SPP. CRUSTACEA; ASELLUS-AQUATICUS ISOPODA; DIKEROGAMMARUS-VILLOSUS; INTRODUCED GAMMARUS; PREDATORY IMPACT; NATIVE GAMMARIDS; INVASION; BEHAVIOR; GROWTH; PULEX,calummanx@hotmail.com; j.dick@qub.ac.uk; platvoet@science.uva.nl; m.briffa@plymouth.ac.uk,"Briffa, Mark/0000-0003-2520-0538","Briffa, Mark/M-9041-2013",,,"European Science Foundation, NetherlandsEuropean Science Foundation (ESF)Netherlands Government","We thank the European Science Foundation LINKECOL Fellowship programme for funding CMN in The Netherlands. We thank Fred Schram and Koen Martens of the Zoological Museum of The University of Amsterdam for hosting CMN. Barry Taylor of St. Francis Xavier University, Nova Scotia, provided advice on leaf-shredding terminology.",,,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC SCIENCES,2021-04-13,WOS:000286667600009,87,2,"Jaschinski, S; Brepohl, DC; Sommer, U",J,English,The trophic importance of epiphytic algae in a freshwater macrophyte system (Potamogeton perfoliatus L.): stable isotope and fatty acid analyses,2011.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,73,1015-1621,1,FEB,91,101,Epiphytes; Periphyton; Sand microflora; Grazing; IsoSource,"[Jaschinski, Sybill; Sommer, Ulrich] IFM GEOMAR Leibniz Inst Marine Sci, D-24105 Kiel, Germany; [Brepohl, Daniela C.] Carl von Ossietzky Univ Oldenburg, ICBM TERRAMARE, D-26382 Wilhelmshaven, Germany","Stable isotope and fatty acid analyses were used to study carbon sources for animals in a submerged plant bed. Epiphytes growing on Potamogeton perfoliatus, sand microflora, and alder leaves were the most important carbon sources. The most abundant macrophyte, P. perfoliatus was unimportant as a food source. Modelling (IsoSource) showed that epiphytes were the most important food source for the most abundant benthic invertebrates, the isopod Asellus aquaticus (annual mean contribution 64%), the amphipod Gammarus pulex (66%), and the gastropod Potamopyrgus antipodarum (83%). The mean annual contributions of sand microflora were, respectively, 21, 19, and 9%; and of alder leaves, 15, 15, and 8% for these three species. The relative importance of carbon sources varied seasonally. The relative contribution of epiphytes was lowest for all three grazer species in July: A. aquaticus 38%, G. pulex 43%, and P. antipodarum 42%. A decline in epiphyte biomass in summer may have caused this switch to less attractive food sources. P. perfoliatus provided habitat and shelter for consumers, but food was mainly supplied indirectly by providing space for attached epiphytes, which are fast-growing and provide a highly nutritious food source.",BIRKHAUSER VERLAG AG,56,"VIADUKSTRASSE 40-44, PO BOX 133, CH-4010 BASEL, SWITZERLAND",BASEL,11.0,712LF,"Jaschinski, Sybill; Brepohl, Daniela C.; Sommer, Ulrich",38.0,30.0,Environmental Sciences; Limnology; Marine & Freshwater Biology,AQUAT SCI,Aquat. Sci.,10.1007/s00027-010-0163-6,"Jaschinski, S (corresponding author), IFM GEOMAR Leibniz Inst Marine Sci, Dusternbrooker Weg 20, D-24105 Kiel, Germany.",LITTORAL FOOD-WEB; ASELLUS-AQUATICUS; POTAMOPYRGUS-ANTIPODARUM; SUBMERGED MACROPHYTES; OLIGOTROPHIC LAKE; GAMMARUS-PULEX; INVERTEBRATES; PERIPHYTON; HERBIVORY; ECOSYSTEM,sjaschinski@ifm-geomar.de,,,,,Brazilian National Counsel of Technological and Scientific Development (CNPq)National Council for Scientific and Technological Development (CNPq); German Research FoundationGerman Research Foundation (DFG) [So 145/20],We thank T. Hansen for the analysis of the stable isotope samples. We also thank N. Aberle-Malzahn for helpful comments on the manuscript. S. Floder provided valuable assistance in the field. The Brazilian National Counsel of Technological and Scientific Development (CNPq) and the German Research Foundation supported this work (So 145/20).,Green Accepted,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY,2021-04-13,WOS:000286003700028,40,1,"Sroda, S; Cossu-Leguille, C",J,English,Effects of sublethal copper exposure on two gammarid species: which is the best competitor?,2011.0,Environmental Sciences & Ecology; Toxicology,20,0963-9292,1,JAN,264,273,Biomarkers; Energetic compounds; Copper toxicity; Invasive species; Gammarus roeseli; Dikerogammarus villosus,"[Sroda, Sophie; Cossu-Leguille, Carole] Univ Paul Verlaine METZ, CNRS, LIEBE, UMR 7146, F-57070 Metz, France","Biomarker responses in organisms exposed to copper were examined by comparing two gammarid species, Gammarus roeseli and Dikerogammarus villosus, based on gender. G. roeseli specimens were exposed to 20 mu g/L of copper for 6, 12, 24 and 48-h periods, while D. villosus were exposed to 20 and 30 mu g/L of copper for 12, 48 and 72 h. Males and females of each species were exposed separately and biomarker measurements were performed for each species and gender. The selected biomarkers were antioxidant enzymes as total glutathione peroxidase (GPxtot), selenium-dependent glutathione peroxidase (SeGPx), and catalase activities. Malondialdehyde level (MDA) was measured as a biomarker of toxic effect. Energy reserves were evaluated by means of lipid, glycogen and protein levels. For both species and gender, antioxidant enzyme activities were weakly modified by copper exposure and differences were transient. MDA levels were increased in both species and genders in exposed animals compared to controls, when energy reserves were decreased. G. roeseli was more rapidly overwhelmed by copper toxicity while the first response of D. villosus was the mobilization of its energetic content. D. Villosus probably has specific physiological properties that enable it to cope with copper toxicity and thus become the best competitor.",SPRINGER,63,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,10.0,703TH,"Sroda, Sophie; Cossu-Leguille, Carole",38.0,38.0,Ecology; Environmental Sciences; Toxicology,ECOTOXICOLOGY,Ecotoxicology,10.1007/s10646-010-0578-9,"Sroda, S (corresponding author), Univ Paul Verlaine METZ, CNRS, LIEBE, UMR 7146, Campus Bridoux,Ave Gen Delestraint, F-57070 Metz, France.",AMPHIPOD DIKEROGAMMARUS-VILLOSUS; ANTIOXIDANT ENZYME-ACTIVITIES; FATTY-ACID-COMPOSITION; LIPID-PEROXIDATION; RAPID-DETERMINATION; ASELLUS-AQUATICUS; OXIDATIVE STRESS; MOSELLE RIVER; CRUSTACEA; PULEX,sophie_sroda@hotmail.com,"Cossu-Leguille, Carole/0000-0002-6284-4415",,21113796.0,1573-3017,Conseil Regional de LorraineRegion Grand-Est; Zone Atelier Moselle (ZAM); Evaluer et Reduire l'Impact de la Chimie sur l'Environnement (ERICHE) group,"This study was supported by Conseil Regional de Lorraine, Zone Atelier Moselle (ZAM) and Evaluer et Reduire l'Impact de la Chimie sur l'Environnement (ERICHE) group. We thank P. Sornom for field helping and P. Rousselle for copper analyses. We are grateful to C. Blaise for reviewing English language in this article.",,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000284277700003,19,0,"Karlsson, K; Eroukhmanoff, F; Hardling, R; Svensson, EI",J,English,Parallel divergence in mate guarding behaviour following colonization of a novel habitat,2010.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,23,1010-061X,12,DEC,2540,2549,Asellus aquaticus; mating behaviour; parallel evolution; precopulatory mate guarding; predation; rapid divergence; sexual conflict,"[Karlsson, K.; Eroukhmanoff, F.; Hardling, R.; Svensson, E. I.] Lund Univ, Sect Anim Ecol, S-22362 Lund, Sweden","Ecological factors can have profound effects on mating system and mating behaviour. We investigated the effect of altered ecological conditions, following colonization of a novel habitat, on precopulatory mate guarding in a freshwater isopod (Asellus aquaticus). This isopod occurs in two different ecotypes, which coexist within several different lakes in Sweden but which utilize different habitats. These ecotypes have rapidly (ca. 40 generations) diverged in parallel among lakes in several phenotypic characters, presumably as a response to different predatory pressures. Here, we demonstrate that also mate guarding characteristics have diverged in parallel between the ecotypes in different lakes. This is one of the few studies reporting parallel evolution of mating behaviour. Furthermore, our results also indicate a potential sexual conflict, as the length of mate guarding appears to lower components of female fitness. We discuss how novel environments might have strong and rapid effects on mate guarding dynamics and mating behaviour.",WILEY-BLACKWELL,58,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,681AD,"Karlsson, K.; Eroukhmanoff, F.; Hardling, R.; Svensson, E. I.",18.0,17.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/j.1420-9101.2010.02102.x,"Karlsson, K (corresponding author), Lund Univ, Sect Anim Ecol, Solvegatan 37, S-22362 Lund, Sweden.",ISOPOD IDOTEA-BALTICA; FRESH-WATER ISOPOD; ASELLUS-AQUATICUS CRUSTACEA; INTERSEXUAL CONFLICT; SEXUAL CONFLICT; MATING SYSTEM; POECILIA-RETICULATA; FEMALE RESISTANCE; UNIQUE FEATURES; PREDATION RISK,Kristina.Karlsson@zooekol.lu.se,"Svensson, Erik/0000-0001-9006-016X","eroukhmanoff, fabrice/D-1414-2015; Svensson, Erik/E-8324-2010",20939835.0,1420-9101,Swedish Research Council (VR)Swedish Research Council; FORMASSwedish Research Council Formas,"We are grateful to T. Gosden, A. Lankinen and J. Madjidian for constructive comments on the first drafts of this manuscript and to M. von Post for valuable assistance in the field. Funding for this study has been provided by research grants from the Swedish Research Council (VR) to R. H. and E. I. S. and from FORMAS to E.I.S.",Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGY LETTERS,2021-04-13,WOS:000281739100018,41,0,"Dick, JTA; Armstrong, M; Clarke, HC; Farnsworth, KD; Hatcher, MJ; Ennis, M; Kelly, A; Dunn, AM",J,English,Parasitism may enhance rather than reduce the predatory impact of an invader,2010.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Evolutionary Biology,6,1744-9561,5,OCT 23,636,638,enemy release; functional-response; invasive-species; parasites; predation; trait-mediated-indirect-effects,"[Dick, Jaimie T. A.; Armstrong, Michael; Clarke, Hazel C.; Farnsworth, Keith D.; Ennis, Marilyn; Kelly, Andrew] Queens Univ Belfast, Sch Biol Sci, Belfast BT9 7BL, Antrim, North Ireland; [Hatcher, Melanie J.] Univ Bristol, Sch Biol Sci, Bristol BS8 1UG, Avon, England; [Dunn, Alison M.] Univ Leeds, Fac Biol Sci, Leeds LS2 9JT, W Yorkshire, England","Invasive species can have profound impacts on communities and it is increasingly recognized that such effects may be mediated by parasitism. The 'enemy release' hypothesis posits that invaders may be successful and have high impacts owing to escape from parasitism. Alternatively, we hypothesize that parasites may increase host feeding rates and hence parasitized invaders may have increased community impacts. Here, we investigate the influence of parasitism on the predatory impact of the invasive freshwater amphipod Gammarus pulex. Up to 70 per cent of individuals are infected with the acanthocephalan parasite Echinorhynchus truttae, but parasitized individuals were no different in body condition to those unparasitized. Parasitized individuals consumed significantly more prey (Asellus aquaticus; Isopoda) than did unparasitized individuals. Both parasitized and unparasitized individuals displayed Type-II functional responses (FRs), with the FR for parasitized individuals rising more steeply, with a higher asymptote, compared with unparasitized individuals. While the parasite reduced the fitness of individual females, we predict a minor effect on population recruitment because of low parasite prevalence in the peak reproductive period. The parasite thus has a large per capita effect on predatory rate but a low population fitness effect, and thus may enhance rather than reduce the impact of this invader.",ROYAL SOC,22,"6-9 CARLTON HOUSE TERRACE, LONDON SW1Y 5AG, ENGLAND",LONDON,3.0,649AW,"Dick, Jaimie T. A.; Armstrong, Michael; Clarke, Hazel C.; Farnsworth, Keith D.; Hatcher, Melanie J.; Ennis, Marilyn; Kelly, Andrew; Dunn, Alison M.",48.0,48.0,Biology; Ecology; Evolutionary Biology,BIOL LETTERS,Biol. Lett.,10.1098/rsbl.2010.0171,"Dick, JTA (corresponding author), Queens Univ Belfast, Sch Biol Sci, Belfast BT9 7BL, Antrim, North Ireland.",GAMMARUS-PULEX CRUSTACEA; POMPHORHYNCHUS-LAEVIS; BIOLOGICAL INVASIONS; POPULATION-DYNAMICS; INTERMEDIATE HOST; AMPHIPODA,j.dick@qub.ac.uk,"Farnsworth, Keith/0000-0001-8025-1114; Dunn, Alison/0000-0002-4855-1077","Farnsworth, Keith/B-5546-2008; Frankel, Victor/F-7943-2011",20392715.0,,"NERCUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/G01 521X/1]; Natural Environment Research CouncilUK Research & Innovation (UKRI)Natural Environment Research Council (NERC) [NE/G01521X/1, NE/G015201/1] Funding Source: researchfish","We acknowledge NERC funding, grant NE/G01 521X/1.",Green Published,,,,,,,,,,,,,,,,,,,,,,,
Article,PLOS ONE,2021-04-13,WOS:000281864100010,27,0,"Karlsson, K; Eroukhmanoff, F; Svensson, EI",J,English,Phenotypic Plasticity in Response to the Social Environment: Effects of Density and Sex Ratio on Mating Behaviour Following Ecotype Divergence,2010.0,Science & Technology - Other Topics,5,1932-6203,9,SEP 16,,,,"[Karlsson, Kristina; Eroukhmanoff, Fabrice; Svensson, Erik I.] Lund Univ, Sect Anim Ecol, Dept Biol, Lund, Sweden","The ability to express phenotypically plastic responses to environmental cues might be adaptive in changing environments. We studied phenotypic plasticity in mating behaviour as a response to population density and adult sex ratio in a freshwater isopod (Asellus aquaticus). A. aquaticus has recently diverged into two distinct ecotypes, inhabiting different lake habitats (reed Phragmites australis and stonewort Chara tomentosa, respectively). In field surveys, we found that these habitats differ markedly in isopod population densities and adult sex ratios. These spatially and temporally demographic differences are likely to affect mating behaviour. We performed behavioural experiments using animals from both the ancestral ecotype (""reed"" isopods) and from the novel ecotype (""stonewort"" isopods) population. We found that neither ecotype adjusted their behaviour in response to population density. However, the reed ecotype had a higher intrinsic mating propensity across densities. In contrast to the effects of density, we found ecotype differences in plasticity in response to sex ratio. The stonewort ecotype show pronounced phenotypic plasticity in mating propensity to adult sex ratio, whereas the reed ecotype showed a more canalised behaviour with respect to this demographic factor. We suggest that the lower overall mating propensity and the phenotypic plasticity in response to sex ratio have evolved in the novel stonewort ecotype following invasion of the novel habitat. Plasticity in mating behaviour may in turn have effects on the direction and intensity of sexual selection in the stonewort habitat, which may fuel further ecotype divergence.",PUBLIC LIBRARY SCIENCE,55,"1160 BATTERY STREET, STE 100, SAN FRANCISCO, CA 94111 USA",SAN FRANCISCO,6.0,650QH,"Karlsson, Kristina; Eroukhmanoff, Fabrice; Svensson, Erik I.",16.0,16.0,Multidisciplinary Sciences,PLOS ONE,PLoS One,10.1371/journal.pone.0012755,"Karlsson, K (corresponding author), Lund Univ, Sect Anim Ecol, Dept Biol, Lund, Sweden.",ASELLUS-AQUATICUS L; MALE-MALE COMPETITION; FRESH-WATER ISOPOD; FEMALE RESISTANCE; MATE CHOICE; ADAPTIVE PLASTICITY; LIFE-HISTORY; EVOLUTION; INVESTMENT; SELECTION,kristina.karlsson@zooekol.lu.se,"Svensson, Erik/0000-0001-9006-016X","Eroukhmanoff, Fabrice/F-8319-2010; eroukhmanoff, fabrice/D-1414-2015; Svensson, Erik/E-8324-2010",20862332.0,,Swedish Research CouncilSwedish Research CouncilEuropean Commission,"This study was funded by grants from the Swedish Research Council (VR) http://www.vr.se/ and FORMAS http://www.formas.se/ to E.I.S. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.","DOAJ Gold, Green Published",,e12755,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000280087900021,95,2,"Leberfinger, K; Bohman, I; Herrmann, J",J,English,Drought impact on stream detritivores: experimental effects on leaf litter breakdown and life cycles,2010.0,Marine & Freshwater Biology,652,0018-8158,1,SEP,247,254,Shredders; Emergence; Aquatic insect; Decomposition; Organic matter; Hydroperiod,"[Leberfinger, Karolina; Bohman, Irene; Herrmann, Jan] Linnaeus Univ, Sch Nat Sci, Freshwater Ecol Grp, S-39182 Kalmar, Sweden","Predictions of effects of global climate change include decreased runoff for many parts of the world, which will result in drying of streams. Information of the effects of drought on aquatic ecosystems is limited and little is known of the effects on ecosystem functions. Our main objective was to measure the direct effects of drought on leaf litter breakdown by invertebrate shredders in a controlled laboratory experiment. We hypothesized a decreased breakdown at high drought level. Single-species and multi-species treatments with three shredder species (Asellus aquaticus, Limnephilus bipunctatus, and L. flavicornis) were set up in an experiment with three drought level treatments, control, medium, and high drought (6 cm water level, 1 cm water level, and water level below sediment surface, respectively). Breakdown measured as leaf litter loss was significantly lower in both medium and high drought treatments compared to the control. Previously, decreased breakdown due to drying has been reported, but attributed to low densities of invertebrate shredders. We show that even when shredders are present, drought decreases the breakdown. Drought treatments also induced earlier pupation for the caddisfly L. flavicornis. Shifts in species phenology due to drought, e.g., earlier emergence, may affect species ability to adult survival and reproduction. Shifts in timing of emergence may also affect terrestrial food webs, where emerging aquatic insects may constitute an important food subsidy. Our knowledge of the complex effects of droughts in aquatic systems is limited with an urgent need of extended knowledge of the ecological effects of droughts on freshwater ecosystem functioning.",SPRINGER,46,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,8.0,628BA,"Leberfinger, Karolina; Bohman, Irene; Herrmann, Jan",35.0,33.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-010-0337-1,"Leberfinger, K (corresponding author), Linnaeus Univ, Sch Nat Sci, Freshwater Ecol Grp, S-39182 Kalmar, Sweden.",SEASONAL TIME CONSTRAINTS; CLIMATE-CHANGE; MACROINVERTEBRATE ASSEMBLAGES; SPECIES RICHNESS; FRESH-WATERS; ECOSYSTEM; BIODIVERSITY; PLASTICITY; DIVERSITY; RIVER,karolina.leberfinger@lnu.se,,"Stenroth, Karolina/B-6880-2008",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,MOLECULAR ECOLOGY,2021-04-13,WOS:000281797400007,66,2,"Juan, C; Guzik, MT; Jaume, D; Cooper, SJB",J,English,Evolution in caves: Darwin's 'wrecks of ancient life' in the molecular era,2010.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Evolutionary Biology,19,0962-1083,18,SEP,3865,3880,cave animals; cryptic species; phylogeography; speciation; subterranean; vicariance and dispersal,"[Juan, Carlos] Univ Illes Balears, Dept Biol, Palma De Mallorca 07122, Balearic Isl, Spain; [Guzik, Michelle T.; Cooper, Steven J. B.] Univ Adelaide, Sch Earth & Environm Sci, Adelaide, SA 5005, Australia; [Guzik, Michelle T.; Cooper, Steven J. B.] Univ Adelaide, Australian Ctr Evolutionary Biol, Adelaide, SA 5005, Australia; [Jaume, Damia] UIB, CSIC, IMEDEA, Mediterranean Inst Adv Studies, Esporles 07190, Balearic Isl, Spain; [Cooper, Steven J. B.] S Australian Museum, Evolutionary Biol Unit, Adelaide, SA 5000, Australia","Cave animals have historically attracted the attention of evolutionary biologists because of their bizarre 'regressive' characters and convergent evolution. However, understanding of their biogeographic and evolutionary history, including mechanisms of speciation, has remained elusive. In the last decade, molecular data have been obtained for subterranean taxa and their surface relatives, which have allowed some of the classical debates on the evolution of cave fauna to be revisited. Here, we review some of the major studies, focusing on the contribution of phylogeography in the following areas: biogeographic history and the relative roles of dispersal and vicariance, colonization history, cryptic species diversity and modes of speciation of cave animals. We further consider the limitations of current research and prospects for the future. Phylogeographic studies have confirmed that cave species are often cryptic, with highly restricted distributions, but have also shown that their divergence and potential speciation may occur despite the presence of gene flow from surface populations. Significantly, phylogeographic studies have provided evidence for speciation and adaptive evolution within the confines of cave environments, questioning the assumption that cave species evolved directly from surface ancestors. Recent technical developments involving 'next generation' DNA sequencing and theoretical developments in coalescent and population modelling are likely to revolutionize the field further, particularly in the study of speciation and the genetic basis of adaptation and convergent evolution within subterranean habitats. In summary, phylogeographic studies have provided an unprecedented insight into the evolution of these unique fauna, and the future of the field should be inspiring and data rich.",WILEY,140,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,16.0,649TS,"Juan, Carlos; Guzik, Michelle T.; Jaume, Damia; Cooper, Steven J. B.",133.0,124.0,Biochemistry & Molecular Biology; Ecology; Evolutionary Biology,MOL ECOL,Mol. Ecol.,10.1111/j.1365-294X.2010.04759.x,"Juan, C (corresponding author), Univ Illes Balears, Dept Biol, Palma De Mallorca 07122, Balearic Isl, Spain.",MITOCHONDRIAL-DNA PHYLOGEOGRAPHY; ASELLUS-AQUATICUS CRUSTACEA; SUBTERRANEAN DIVING BEETLES; AUSTRALIAN ARID ZONE; GENE FLOW; SURFACE-POPULATIONS; CRYPTIC DIVERSITY; REGRESSIVE EVOLUTION; SUBGENUS AVITICAMBARUS; HALOCARIDINA-RUBRA,cjuan@uib.es,"Juan, Carlos/0000-0002-6067-2963; Jaume, Damia/0000-0002-1857-3005; ","Juan, Carlos/C-9856-2011; Jaume, Damia/P-5559-2014; Cooper, Steven JB/I-6291-2012",20637049.0,1365-294X,"Ministerio de Ciencia e Innovacion, SpainSpanish Government [CGL2006-01365, CGL2009-08256]; UIB; University of East Anglia (United Kingdom); Institute of Zoology, Beijing (China) [PR2009-0231]; Australian Research CouncilAustralian Research Council [DP0663675, LP0669062]","We are very grateful to Bill Humphreys, Brent Emerson and Pedro Oromi for their constructive comments on an early version of the manuscript. The valuable comments and discussions on the paper of three anonymous reviewers and the suggestions of Louis Bertnatchez greatly improved the manuscript. Tom Iliffe, Sergio Montagud, Ignacio Ribera and Pedro Oromi kindly provided photographs for figures. Financial support has been received from the Ministerio de Ciencia e Innovacion, Spain (projects CGL2006-01365 to CJ and CGL2009-08256 to DJ, co-financed with EU FEDER funds). CJ visit to the University of Adelaide (Australia) has been funded by the UIB, and to the University of East Anglia (United Kingdom) and Institute of Zoology, Beijing (China) by MEC (PR2009-0231). MTG and SJBC received support for their research from the Australian Research Council (DP0663675 and LP0669062).",,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,JOURNAL OF APPLIED ICHTHYOLOGY,2021-04-13,WOS:000280979500014,15,0,"Berezina, NA; Strelnikova, AP",J,English,The role of the introduced amphipod Gmelinoides fasciatus and native amphipods as fish food in two large-scale north-western Russian inland water bodies: Lake Ladoga and Rybinsk Reservoir,2010.0,Fisheries; Marine & Freshwater Biology,26,0175-8659,,AUG,89,95,,"[Berezina, N. A.] Russian Acad Sci, Inst Zool, St Petersburg 199034, Russia; [Strelnikova, A. P.] Russian Acad Sci, Inst Biol Inland Waters, Borok, Russia","This paper focuses on the role of invasive, omnivorous / carnivorous amphipods in the food web of lakes and evaluates their significance as food items for fishes in two major lakes and reservoirs of the northwestern region of Russia: Lake Ladoga and Rybinsk Reservoir. Fish samples from both water bodies were collected, there age determined and their stomach content analysed to assess the role of the introduced amphipod in the diet. Fish species mainly analysed were: perch Perca fluviatilis, ruffe Gymnocephalus cernuus, burbot Lota lota, roach Rutilus rutilus, vendace Coregonus albula and kilka Clupeonella cultriventris. Analysis of original and literature data showed that the energy flow from zoobenthos to fish was modified by the Baikalian amphipod Gmelinoides fasciatus, introduced in the 1960s-80s into many lakes and reservoirs of Russia. The invader established successfully in different aquatic systems, rapidly reaching high abundances. Examples from Lake Ladoga and the Rybinsk Reservoir confirmed that the species is an important food item for littoral benthivorous fishes (ruffe, perch, gobies, burbot), especially at early ontogenetic stages and also for several pelagic fish (vendace, kilka). Although these fish species are considered low food quality, they enrich the food supply for large predatory fish species. In Lake Ladoga, G. fasciatus influenced negatively the abundance and biomass of native benthic invertebrates (including Gammarus lacustris and Asellus aquaticus) which were previously important prey items for littoral fishes: in the beginning of introduction up to 24100 m(-2) and 33.5 g m(-2); after introduction 6200-7800 m(-2) and 16.5 g m(-2), respectively. At the same time, the invader uses food sources (chironomids and oligochaetes) that would otherwise not be available to fishes. Therefore, the introduction of G. fasciatus into lakes and reservoirs of European part of Russia led to a greater share of the benthic productivity available to fishes, thereby allowing the intensive use of new ecosystem components and increasing the overall production in these systems.",WILEY-BLACKWELL,36,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,7.0,639MS,"Berezina, N. A.; Strelnikova, A. P.",15.0,11.0,Fisheries; Marine & Freshwater Biology,J APPL ICHTHYOL,J. Appl. Ichthyol.,10.1111/j.1439-0426.2010.01493.x,"Berezina, NA (corresponding author), Russian Acad Sci, Inst Zool, St Petersburg 199034, Russia.",,nber@zin.ru,"Strelnikova, Alexandra/0000-0002-7199-6496; Berezina, Nadezhda/0000-0003-3057-5596","Strelnikova, Alexandra/R-4546-2016; Berezina, Nadezhda/R-1968-2016",,1439-0426,,,,International Conference and Workshop on Managing Alien Species for Sustainable Development of Aquaculture and Fisheries,,"NOV 05-07, 2008","Univ Florence, Florence, ITALY",,2.0,,,,,,,,Univ Florence,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000278566100003,84,4,"Friberg, N; Skriver, J; Larsen, SE; Pedersen, ML; Buffagni, A",J,English,Stream macroinvertebrate occurrence along gradients in organic pollution and eutrophication,2010.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,55,0046-5070,7,JUL,1405,1419,bioassessment; biological oxygen demand; macroinvertebrates; nutrients; streams,"[Friberg, Nikolai; Skriver, Jens; Larsen, Soren E.] Aarhus Univ, NERI, Dept Freshwater Ecol, DK-8600 Silkeborg, Denmark; [Pedersen, Morten L.] Univ Aalborg, Dept Civil Engn, Aalborg, Denmark; [Buffagni, Andrea] Water Res Inst, CNR IRSA, Brugherio Mi, Italy","P> We analysed a large number of concurrent samples of macroinvertebrate communities and chemical indicators of eutrophication and organic pollution [total-P, total-N, NH(4)-N, biological oxygen demand (BOD(5))] from 594 Danish stream sites. Samples were taken over an 11-year time span as part of the Danish monitoring programme on the aquatic environment. Macroinvertebrate communities were sampled in spring using a standardised kick-sampling procedure whereas chemical variables were sampled six to 24 times per year per site. Habitat variables were assessed once when macroinvertebrates were sampled. The plecopteran Leuctra showed a significant negative exponential relationship (r2 = 0.90) with BOD(5) and occurred at only 16% of the sites with BOD(5) above 1.6 mg L-1. Sharp declines with increasing BOD(5) levels were found for the trichopteran families Sericostomatidae and Glossosomatidae although they appeared to be slightly less sensitive than Leuctra. Other plecopterans such as Isoperla showed a similar type of response curve to Leuctra (negative exponential) but occurred at sites with relatively high concentrations of BOD(5) up to 3-4 mg L-1. In contrast, the response curve of the isopod Asellus aquaticus followed a saturation function reaching a plateau above 3-4 mg L-1 BOD(5) and the dipteran Chironomus showed an exponential increase in occurrence with increasing BOD(5) concentration. Macroinvertebrate occurrence appeared to be related primarily to concentrations of BOD(5), NH(4)-N and total-P whereas there were almost no relationships to total-N. Occurrence of a number of taxa showed a stronger relationship to habitat conditions (width and substrate) than chemical variables. Important macroinvertebrate taxa are reduced at concentrations of BOD(5) that are normally perceived as indicating unimpacted stream site conditions. Our results confirmed sensitivity/tolerance patterns used by existing bioassessment systems only to some degree.",WILEY-BLACKWELL,44,"COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA",MALDEN,15.0,608ER,"Friberg, Nikolai; Skriver, Jens; Larsen, Soren E.; Pedersen, Morten L.; Buffagni, Andrea",83.0,77.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2008.02164.x,"Friberg, N (corresponding author), Aarhus Univ, NERI, Dept Freshwater Ecol, Vejlsoevej 25, DK-8600 Silkeborg, Denmark.",DANISH STREAMS; RIVER; COMMUNITIES; RESPONSES,nfr@dmu.dk,"Larsen, Soren E./0000-0003-4570-9489; Larsen, Soren Erik/0000-0001-8428-2065; buffagni, andrea stefano/0000-0002-3944-1861","Buffagni, Andrea/AAW-1334-2020; Larsen, Soren E./J-6754-2013",,,EUEuropean Commission [SSPI-CT-2003-502158]; Danish Ministry of the Environment; Scottish Executive Environment and Rural Affairs Department [WP3.4],"This study was partly funded by the EU project REBECCA (contract no. SSPI-CT-2003-502158) 'Relationships between ecological and chemical status of surface waters', by the Danish Ministry of the Environment and by the Scottish Executive Environment and Rural Affairs Department (WP3.4) for NF.",,,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC ECOLOGY,2021-04-13,WOS:000277425000007,9,0,"Mezek, T; Simcic, T; Arts, MT; Brancelj, A",J,English,Effect of fasting on hypogean (Niphargus stygius) and epigean (Gammarus fossarum) amphipods: a laboratory study,2010.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,44,1386-2588,2,JUN,397,408,Niphargus stygius; ETS activity; Fasting; Fatty acids; Gammarus fossarum; ETS/R,"[Mezek, Tadej; Simcic, Tatjana; Brancelj, Anton] Natl Inst Biol, Dept Freshwater & Terr Ecosyst Res, Ljubljana 1000, Slovenia; [Arts, Michael T.] Environm Canada, Natl Water Res Inst, Burlington, ON L7R 4A6, Canada","Two amphipods, the hypogean Niphargus stygius and epigean Gammarus fossarum, were analyzed for fatty acid (FA) composition, electron transport system (ETS) activity and respiration (R) during a laboratory fasting experiment. In agreement with ETS and R measurements (and the ETS/R ratio), the hypogean N. stygius utilized FA more slowly than the epigean G. fossarum. Inter-specific differences in the utilization of certain FA during fasting were also revealed. While N. stygius tended to preserve all of its FA during the experimental fasting period, G. fossarum showed a tendency to utilize MUFA (monounsaturated FA) and SAFA (saturated FA) and preferentially retain PUFA (polyunsaturated FA). The significant correlations between ETS activity and composition of specific FA during fasting can be linked to R. During the fasting, both ETS activity and respiration rate of G. fossarum decreased, however, ETS/R ratio increased. In contrast, N. stygius did not show significant changes in these parameters. This is the first report, which connects ETS activity with changes in concentrations of specific FA during fasting. Such evolutionary adaptations of hypogean species enables them to better survive chronically low and/or discontinuous food supplies compared to epigean species, which live in environments where food shortages are much less frequent.",SPRINGER,54,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,12.0,593AX,"Mezek, Tadej; Simcic, Tatjana; Arts, Michael T.; Brancelj, Anton",19.0,17.0,Ecology; Limnology; Marine & Freshwater Biology,AQUAT ECOL,Aquat. Ecol.,10.1007/s10452-009-9299-7,"Mezek, T (corresponding author), Natl Inst Biol, Dept Freshwater & Terr Ecosyst Res, Vecna Pot 111, Ljubljana 1000, Slovenia.",TRANSPORT SYSTEM ETS; ESSENTIAL FATTY-ACIDS; LONG-TERM STARVATION; METABOLIC-RESPONSES; OXYGEN-CONSUMPTION; FOOD-WEB; ASELLUS-AQUATICUS; SEVERE HYPOXIA; RESPIRATION; ECOSYSTEMS,tadej.mezek@gmail.com,"Arts, Michael/0000-0002-2335-4317","Arts, Michael/H-4973-2012",,1573-5125,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,AGRICULTURAL AND FOOD SCIENCE,2021-04-13,WOS:000281782500003,18,0,"Hagner, M; Penttinen, OP; Pasanen, T; Tiilikkala, K; Setala, H",J,English,Acute toxicity of birch tar oil on aquatic organisms,2010.0,Agriculture; Food Science & Technology,19,1459-6067,1,MAY,24,32,acute toxicity test; aquatic organisms; birch tar oil; biocide; EC50,"[Hagner, Marleena; Penttinen, Olli-Pekka; Pasanen, Tiina; Setala, Heikki] Univ Helsinki, Dept Ecol & Environm Sci, FI-15140 Lahti, Finland; [Tiilikkala, Kari] MTT Agrifood Res Finland, FI-31600 Jokioinen, Finland","Birch tar oil (BTO) is a by-product of processing birch wood in a pyrolysis system. Accumulating evidence suggests the suitability of BTO as a biocide or repellent in terrestrial environments for the control of weeds, insects, molluscs and rodents. Once applied as biocide, BTO may end up, either through run-off or leaching, in aquatic systems and may have adverse effects on non-target organisms. As very little is known about the toxicity of BTO to aquatic organisms, the present study investigated acute toxicity (LC50/EC50) of BTO for eight aquatic organisms. Bioassays with the Asellus aquaticus (crustacean), Lumbriculus variegatus (oligochaeta worm), Daphnia magna (crustacean), Lymnea sp. (mollusc), Lemna minor (vascular plant), Danio rerio (fish), Scenedesmus gracilis (algae), and Vibrio fischeri (bacterium) were performed according to ISO, OECD or USEPA-guidelines. The results indicated that BTO was practically nontoxic to most aquatic organisms as the median effective BTO concentrations against most organisms were > 150 mg l(-1). In conclusion, our toxicity tests showed that aquatic organisms are to some extent, invariably sensitive to birch tar oil, but suggest that BTO does not pose a severe hazard to aquatic biota. We deduce that, unless BTOs are not applied in the immediate vicinity of water bodies, no special precaution is required.",SCIENTIFIC AGRICULTURAL SOC FINLAND,35,"MTT AGRIFOOD RES FINLAND, AGRIC & FOOD SCI, EDITORIAL OFF, DEPT AGRIC SCI, PO BOX 27, UNIV HELSINSKI, FI-00014, FINLAND",UNIV HELSINSKI,9.0,649OT,"Hagner, Marleena; Penttinen, Olli-Pekka; Pasanen, Tiina; Tiilikkala, Kari; Setala, Heikki",15.0,14.0,"Agriculture, Multidisciplinary; Food Science & Technology",AGR FOOD SCI,Agr. Food Sci.,10.2137/145960610791015023,"Hagner, M (corresponding author), Univ Helsinki, Dept Ecol & Environm Sci, Niemenkatu 73, FI-15140 Lahti, Finland.",DAPHNIA-MAGNA; GLYPHOSATE; CHEMICALS; MALATHION; TESTS; WATER; FIELD,heikki.setala@helsinki.fi,"Penttinen, Olli-Pekka/0000-0001-6652-0875; Setala, Heikki Martti/0000-0002-5230-4001","Setala, Heikki M/P-7354-2015",,1795-1895,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,LIMNOLOGY AND OCEANOGRAPHY,2021-04-13,WOS:000277650900029,10,0,"Fontaneto, D; Ambrosini, R",J,English,Spatial niche partitioning in epibiont rotifers on the waterlouse Asellus aquaticus,2010.0,Marine & Freshwater Biology; Oceanography,55,0024-3590,3,MAY,1327,1337,,"[Fontaneto, Diego] Swedish Museum Nat Hist, Dept Invertebrate Zool, S-10405 Stockholm, Sweden; [Ambrosini, Roberto] Univ Milano Bicocca, Dipartimento Biotecnol & Biosci, Milan, Italy","Habitat partitioning is assumed to allow coexistence in natural communities. We analyzed the spatial partitioning in the species assemblages of epibiont rotifers living on the waterlouse Asellus aquaticus. We defined the spatial localization of individual rotifers on each waterlouse host, controlling for differences between waterlice and within and between waterbodies. Using hierarchical linear models on the whole species assemblage and on each species separately, patterns of spatial segregation were found for rotifers. Different species partition the available space on the waterlouse consistently within and between waterbodies. Both habitat selection and interactions between species seem to be the mechanisms driving the observed patterns.",AMER SOC LIMNOLOGY OCEANOGRAPHY,31,"5400 BOSQUE BLVD, STE 680, WACO, TX 76710-4446 USA",WACO,11.0,595YS,"Fontaneto, Diego; Ambrosini, Roberto",14.0,14.0,Limnology; Oceanography,LIMNOL OCEANOGR,Limnol. Oceanogr.,10.4319/lo.2010.55.3.1327,"Fontaneto, D (corresponding author), Swedish Museum Nat Hist, Dept Invertebrate Zool, S-10405 Stockholm, Sweden.",BDELLOID ROTIFERS; RESOURCE; COMPETITION; MODELS; SPACE; COMMUNITIES; SEPARATION; EVOLUTION; PLANKTON; PARADOX,diego.fontaneto@nrm.se,"Ambrosini, Roberto/0000-0002-7148-1468; Fontaneto, Diego/0000-0002-5770-0353","Ambrosini, Roberto/F-3188-2012; Fontaneto, Diego/B-9710-2008",,,Swedish Taxonomy Initiative; Natural Environment Research CouncilUK Research & Innovation (UKRI)NERC Natural Environment Research Council [NE/G013179/1] Funding Source: researchfish,"We thank Chiara Ceci for her help during sampling and sorting; Giulio Melone and Claudia Ricci for logistic support; Timothy G. Barraclough, Joaquin Hortal, and Marco Pautasso for comments on the manuscript; Francesca Lorusso for data digitization; TechDig for the 30 days trial version of the software; four anonymous referees and the editor Luc De Meester for their constructive comments. D.F. is supported by a Forskarassistent grant from the Swedish Taxonomy Initiative.",Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,TOXICOLOGY AND INDUSTRIAL HEALTH,2021-04-13,WOS:000276958300003,33,1,"Lukancic, S; Zibrat, U; Mezek, T; Jerebic, A; Simcic, T; Brancelj, A",J,English,"A new method for early assessment of effects of exposing two non-target crustacean species, Asellus aquaticus and Gammarus fossarum, to pesticides, a laboratory study",2010.0,"Public, Environmental & Occupational Health; Toxicology",26,0748-2337,4,MAY,217,228,pesticide stress assessment; electron transport system (ETS); respiration (R); atrazine; imidacloprid; non-target species,"[Lukancic, Simon; Zibrat, Uros; Mezek, Tadej; Jerebic, Andreja; Simcic, Tatjana; Brancelj, Anton] Natl Inst Biol, SI-1000 Ljubljana, Slovenia","A reliable method is needed for assessing the condition of aquatic animals and their resistance to toxic pollutants. The physiological responses of two freshwater crustaceans, Asellus aquaticus and Gammarus fossarum, following in vitro exposure to two pesticides (atrazine and imidacloprid), were measured by a combination of electron transport system (ETS) activity and respiration (R). Short-term exposure concentrations were selected according to standard toxicity tests and ranged from 0.01 mg L-1 to 10 mg L-1. When pesticide concentration was greater than 1 mg l(-1) (which is below the LC50 [ 48 hours] determined for both species), A. aquaticus and G. fossarum responded to short-term exposure with elevated levels of R and/or lower levels of ETS activity. One hour exposure to concentrations of up to 10 mg L-1 showed an effect in both test species. Laboratory tests confirmed that G. fossarum is more sensitive to short-term pesticide exposure than A. aquaticus. The combination of these two methods provides a useful and effective tool for assessing the general condition of aquatic animals. It also enables to determine toxic effects on freshwater biota of specific or combined pollutants. ETS/R ratio may be used as a quick predictor of effects on organisms exposed to pesticides and other stress factors such as changes in temperature, light, salinity, oxygen concentration and food.",SAGE PUBLICATIONS INC,46,"2455 TELLER RD, THOUSAND OAKS, CA 91320 USA",THOUSAND OAKS,12.0,587AJ,"Lukancic, Simon; Zibrat, Uros; Mezek, Tadej; Jerebic, Andreja; Simcic, Tatjana; Brancelj, Anton",9.0,9.0,"Public, Environmental & Occupational Health; Toxicology",TOXICOL IND HEALTH,Toxicol. Ind. Health,10.1177/0748233710362379,"Lukancic, S (corresponding author), Natl Inst Biol, Vecna Pot 111, SI-1000 Ljubljana, Slovenia.",ACUTE TOXICITY; PULEX L; EXPOSURE; NEONICOTINOIDS; CONTAMINATION; INSECTICIDE; SENSITIVITY; ORGANISMS; AMPHIPODS; SURVIVAL,simon.lukancic@nib.si,,,20203137.0,1477-0393,Slovenian Research AgencySlovenian Research Agency - Slovenia [3311-03-831062],This study was supported by the Slovenian Research Agency ( grant no. 3311-03-831062).,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOLOGICAL INFORMATICS,2021-04-13,WOS:000276744300007,43,1,"Boets, P; Lock, K; Messiaen, M; Goethals, PLM",J,English,Combining data-driven methods and lab studies to analyse the ecology of Dikerogammarus villosus,2010.0,Environmental Sciences & Ecology,5,1574-9541,2,MAR,133,139,Classification trees; Habitat suitability modelling; Invasive species; Predator-prey experiments; Substrate preference,"[Boets, Pieter; Lock, Koen; Messiaen, Marjolein; Goethals, Peter L. M.] Univ Ghent, Lab Environm Toxicol & Aquat Ecol, B-9000 Ghent, Belgium","The spread of aquatic invasive species is a worldwide problem In the aquatic environment, especially exotic Crustacea are affecting biodiversity The amphipod Dikerogammarus villosus is such an exotic species in Flanders, which is rapidly spreading and probably has a serious impact on aquatic communities The purpose of the present study was to make use of lab results, field data and modelling techniques to investigate the potential impact of this species on other macroinvertebrates All types of prey that were used in predator-prey experiments (Common's pulex, Gaminarus tigrinus, Crangonyx pseudogracilis. Asellus aquaticus, Cloeon dipterum and Chironomus species) were consumed by D villosus, especially species that were less mobile such as the Chironomus species The presence of gravel somewhat reduced predation by providing shelter to the prey. Substrate preference experiments indicated that D villosus preferred a stony substrate Using decisions trees to construct habitat suitability models based on field observations, it could be concluded that D villosus is mainly found in habitats with an artificial bank structure, a high oxygen saturation and a low conductivity, which corresponds with canals with a good chemical water quality. Moreover, a synecological classification tree, based on the abundance of the taxa present in the macroinvertebrate communities, indicated that the presence of D villosus negatively affected the presence of the Indigenous G pulex When the laboratory experiments and the field observations are combined, it can be concluded that D villosus can seriously affect macroinvertebrate communities in Flanders (C) 2009 Elsevier B V All rights reserved",ELSEVIER SCIENCE BV,52,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,7.0,584IG,"Boets, Pieter; Lock, Koen; Messiaen, Marjolein; Goethals, Peter L. M.",71.0,69.0,Ecology,ECOL INFORM,Ecol. Inform.,10.1016/j.ecoinf.2009.12.005,"Boets, P (corresponding author), Univ Ghent, Lab Environm Toxicol & Aquat Ecol, J Plateaustr 22, B-9000 Ghent, Belgium.",ARTIFICIAL NEURAL-NETWORKS; BIOLOGICAL INVASIONS; GAMMARUS-PULEX; MACROINVERTEBRATE TAXA; PREDATORY IMPACT; FRESH-WATERS; INVADER; AMPHIPODA; RIVER; PREDICTION,,,"Goethals, Peter LM/A-1116-2008",,1878-0512,"Fund for Scientific Research (FWO-Vlaanderen, Belgium)FWO","In the first place, we would like to thank the Flemish Environment Agency for the opportunity to study their samples. We would also like to thank Wim Gabriels from the Flemish Environment Agency lot providing the supporting information regarding these samples Koen Lock is currently supported by a post-doctoral fellowship from the Fund for Scientific Research (FWO-Vlaanderen, Belgium)",,,,,,,,,,,,,,,,,,,,,,,,
Article,FUNDAMENTAL AND APPLIED LIMNOLOGY,2021-04-13,WOS:000279768700005,16,0,"Assmann, C; Nechwatal, J; Rinke, K; von Elert, E",J,English,The impact of axenic strains of fungi and oomycetes on the preference of Gammarus roeselii for leaf litter,2010.0,Marine & Freshwater Biology,176,1863-9135,3,MAR,235,248,"fungi; oomycetes; leaf shredder; food selection; molecular methods, Gammarus, amphipod, ergosterol, food preference, leaf litter, conditioning","[Assmann, Christine; Rinke, Karsten] Univ Konstanz, Limnol Inst, D-78464 Constance, Germany; [Nechwatal, Jan] Univ Konstanz, Fachbereich Biol, D-78457 Constance, Germany; [von Elert, Eric] Univ Cologne, Inst Zool, D-50923 Cologne, Germany","The interaction of microbial colonization with leaf litter breakdown by the shredder Gammarus roeselii was studied in the littoral of large Lake Constance. In a first step we studied selective feeding of gammarids on leaf litter from three different treatments. Littoral exposed, tap water exposed, and autoclaved leaves were offered to G. roeselii in standard food-choice assays under laboratory conditions. We found highly selective feeding on littoral exposed leaf litter indicating that microbial conditioning is affecting the shredders feeding behaviour. Neither C, N, and P nor protein nor ergosterol content were positively correlated with the relative consumption rates of littoral exposed leaves. For a more detailed study of the microbial conditioning of the leaves oomycetes and fungi were isolated from the littoral exposed leaves. Based on the sequence of internal transcribed spacer (ITS) regions of rDNA, we identified single strains of Fusarium sporotrichoides, Microdochium sp., Ascomycete sp., and Cylindrocladiella parva; two strains of Cylindrocarpon sp.; and three strains of Pythium sp. Subsequently, food choice assays were conducted using the isolated strains by offering autoclaved leaves and leaves colonized with a single strain. Three strains (C. parva, Cylindrocarpon sp. 94-2057 and Ascomycete sp.) were preferred by G. roeselii, while leaves with F. sporotrichoides were avoided. Leaves with each of the three oomycete isolates (Pythium sp.) were neither preferred nor rejected by G. roeselii. Our results suggest that the selective feeding behaviour of G. roeselii is affected by the relative abundance of specific fungal strains. Thus, whether microbial conditioning acts as a repellent or as an attractor for shredders depends on the microbial community on the leaves.",E SCHWEIZERBARTSCHE VERLAGS,87,"NAEGELE U OBERMILLER, SCIENCE PUBLISHERS, JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,14.0,623TY,"Assmann, Christine; Nechwatal, Jan; Rinke, Karsten; von Elert, Eric",1.0,1.0,Limnology; Marine & Freshwater Biology,FUND APPL LIMNOL,Fundam. Appl. Limnol.,10.1127/1863-9135/2010/0176-0235,"Assmann, C (corresponding author), Univ Konstanz, Limnol Inst, Mainaustr 252, D-78464 Constance, Germany.",ASELLUS-AQUATICUS L; PHRAGMITES-AUSTRALIS; LAKE CONSTANCE; STREAM INVERTEBRATES; FEEDING PREFERENCES; COMPARATIVE ECOLOGY; COMMUNITY STRUCTURE; COMMON REED; ARCTIC LAKE; PULEX L,christine.assmann@gmx.de,"Nechwatal, Jan/0000-0001-9977-7976; Rinke, Karsten/0000-0003-0864-6722; von Elert, Eric/0000-0001-7758-716X","Nechwatal, Jan/AAE-5494-2020; Rinke, Karsten/E-6163-2016; von Elert, Eric/S-1666-2018",,,German Research Foundation (DFG) within the Collaborative Research CentreGerman Research Foundation (DFG) [SFB 454],"We are grateful to Prof. Dr. M. O. Gessner for his substantial support in the analysis of ergosterol. We thank C. Gebauer und P. Merkel for excellent technical assistance with the leaf litter analyses. We thank C. Geiss and S. Pitlik for assistance with the food-choice assays and molecular analyses, and acknowledge Dr. W. Nagl, P. Fink and R. Gergs for their help with statistics. We acknowledge M. Wolf for manufacturing the cages and four-chambered containers. We thank S. Raub for comments on, and improving the English of an earlier version of this manuscript. We acknowledge K. A. Brune for editing the English language of the manuscript. This study was supported by a grant to E. v. E. from the German Research Foundation (DFG) within the Collaborative Research Centre SFB 454 Littoral Zone of Lake Constance.",,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGICAL JOURNAL OF THE LINNEAN SOCIETY,2021-04-13,WOS:000273722500008,13,0,"Botello, A; Alvarez, F",J,English,"Genetic variation in the stygobitic shrimp Creaseria morleyi (Decapoda: Palaemonidae), evidence of bottlenecks and re-invasions in the Yucatan Peninsula",2010.0,Evolutionary Biology,99,0024-4066,2,FEB,315,325,anchialine systems; cave fauna; mtDNA; phylogeography,"[Botello, Alejandro; Alvarez, Fernando] Univ Nacl Autonoma Mexico, Inst Biol, Mexico City 04510, DF, Mexico","The karstic nature of the Yucatan Peninsula promotes the formation of submerged caves and sinkholes that are inhabited by an endemic subterranean water fauna. By contrast with most other micro-endemic stygobitic species, the freshwater palaemonid shrimp Creaseria morleyi is widely distributed across the northern part of the peninsula. In the present study, we investigated the phylogeographic structure of C. morleyi using two mitochondrial genes as markers, and explored hypotheses related to its evolution in the peninsula. DNA from 14 localities was extracted, and the 16S rRNA and cytochrome oxidase subunit I (COI) genes were amplified and sequenced. The different haplotypes were identified to construct a haplotype network and perform a nested clade analysis. Five haplotypes of the 16S gene were obtained, with a maximum divergence of 0.5%. One of these haplotypes is widely distributed and the most divergent is located in the north-western section of the peninsula. Twelve haplotypes for the COI gene were found with a maximum divergence of 2%, showing the same spatial pattern. The analysis revealed two significantly different clades corresponding to populations in the centre and south-east of the peninsula as a consequence of restricted genetic flow with isolation-by-distance. The divergence time of these two clades was 40-120 thousand years. The genetic variation in C. morleyi, the relationship between haplotypes and their geographic distribution, along with the geological history of the Yucatan Peninsula, may indicate that this variation is a relict of an ancient marked genetic structure reduced by changes in sea level that resulted in a series of bottlenecks. (C) 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 99, 315-325.","WILEY-BLACKWELL PUBLISHING, INC",53,"COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA",MALDEN,11.0,545HG,"Botello, Alejandro; Alvarez, Fernando",17.0,17.0,Evolutionary Biology,BIOL J LINN SOC,Biol. J. Linnean Soc.,10.1111/j.1095-8312.2009.01355.x,"Botello, A (corresponding author), Univ Nacl Autonoma Mexico, Inst Biol, Apartado Postal 70-153, Mexico City 04510, DF, Mexico.",ASELLUS-AQUATICUS CRUSTACEA; GEOGRAPHICAL-DISTRIBUTION; CLADISTIC-ANALYSIS; DNA POLYMORPHISM; PHYLOGEOGRAPHY; DIVERSITY; POPULATIONS; DIVERGENCE; HAPLOTYPES; MEXICO,alejandro.botello@uib.es,"Alvarez, Fernando/0000-0002-7347-5483","Alvarez, Fernando/G-6503-2018",,,"Consejo Nacional de Ciencia y Tecnologia (CONACYT)Consejo Nacional de Ciencia y Tecnologia (CONACyT) [167144]; Direccion General de Estudios de Posgrado (DGEP), UNAMUniversidad Nacional Autonoma de Mexico; CONACYT-Texas AM; PAPIIT-UNAMPrograma de Apoyo a Proyectos de Investigacion e Innovacion Tecnologica (PAPIIT)Universidad Nacional Autonoma de Mexico [IN 203906-3]","A. Botello acknowledges support received via a postgraduate scholarship from Consejo Nacional de Ciencia y Tecnologia (CONACYT-167144) and from Direccion General de Estudios de Posgrado (DGEP), UNAM. We gratefully acknowledge funding from the CONACYT-Texas A&M University Collaborative Research Grants Program via the project 'Studies on anchialine caves, the Ox Bel Ha system, Quintana Roo, Mexico' and from the PAPIIT-UNAM Program through grant IN 203906-3. We thank L. Marquez for nucleotide processing; V. Leon for his advice and assistance throughout this project; J. L. Villalobos, A. Celis, R. Gonzalez, T. del Angel, and R. Mendoza for assistance during fieldwork and sample collection; and R. Botello for help with the images.",Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,MARINE BIOLOGY,2021-04-13,WOS:000273560200002,21,0,"Sturaro, N; Caut, S; Gobert, S; Bouquegneau, JM; Lepoint, G",J,English,"Trophic diversity of idoteids (Crustacea, Isopoda) inhabiting the Posidonia oceanica litter",2010.0,Marine & Freshwater Biology,157,0025-3162,2,FEB,237,247,,"[Sturaro, Nicolas; Caut, Stephane; Gobert, Sylvie; Bouquegneau, Jean-Marie; Lepoint, Gilles] Univ Liege, Lab Oceanol, MARE Ctr, B-4000 Liege, Belgium; [Caut, Stephane] CSIC, Estac Biol Donana, E-41080 Seville, Spain","The coexistence of three idoteid species in Posidonia oceanica litter raises the question of trophic diversity and their role in the litter degradation process. Hence, diet composition of Idotea balthica, Idotea hectica and Cleantis prismatica was studied using a combination of gut contents and stable isotopes analysis. Gut content observations indicate that P. oceanica dead leaves are an important part of the ingested food for the three species, although their tissues are constituted of only a small to medium fraction of P. oceanica carbon. Our results also underlined the potential role of these species in the degradation of P. oceanica litter by mechanically fragmenting the litter and by assimilating a small to medium fraction of carbon. Moreover, we showed that there were considerable inter- and intra-specific differences in diet composition. Diet differed between juveniles and adults for I. balthica. Crustaceans are an important food source for adults of I. balthica, while I. hectica indicated a major contribution of algal material. C. prismatica showed an intermediate diet. This trophic diversity is probably one of the factors allowing these species to coexist in the same biotope.",SPRINGER,69,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,11.0,543GA,"Sturaro, Nicolas; Caut, Stephane; Gobert, Sylvie; Bouquegneau, Jean-Marie; Lepoint, Gilles",16.0,15.0,Marine & Freshwater Biology,MAR BIOL,Mar. Biol.,10.1007/s00227-009-1311-1,"Sturaro, N (corresponding author), Univ Liege, Lab Oceanol, MARE Ctr, Sart Tilman B6, B-4000 Liege, Belgium.",STABLE-ISOTOPE ANALYSIS; MARINE ISOPOD; ASELLUS-AQUATICUS; GAMMARUS-PULEX; CONSUMER-DIET; SEAGRASS BED; FOOD SOURCES; BALTIC SEA; CARBON; ECOSYSTEM,Nicolas.Sturaro@ulg.ac.be,"Lepoint, Gilles/0000-0003-4375-0357; Lepoint, Gilles/0000-0003-4375-0357; STURARO, Nicolas/0000-0002-7225-0880","Lepoint, Gilles/I-1130-2014; Lepoint, Gilles/N-4923-2019",,,Belgian Fund for Research for the Industry and Agriculture (FRIA)Fonds de la Recherche Scientifique - FNRS; Research Associate at the Belgian National Science Foundation (FRS-FNRS)Fonds de la Recherche Scientifique - FNRS; Belgian National Fund for Scientific ResearchFonds de la Recherche Scientifique - FNRS [FRFC 2.45.69.03],"The authors would like to thank the staff of the oceanographic research station STARESO (Calvi, Corsica) for valuable help during field work. We would like to thank A. L. Jackson, R. Inger and A. Parnell for their help in the isotopic model, and two anonymous referees for their helpful comments on the manuscript. We wish to thank Jacqueline Minett for improvement of the English. NS receives a doctoral grant from the Belgian Fund for Research for the Industry and Agriculture (FRIA), and GL is a Research Associate at the Belgian National Science Foundation (FRS-FNRS). This study was also funded by the Belgian National Fund for Scientific Research (FRFC 2.45.69.03). This paper is MARE publication number 177. The authors declare that the experiments performed comply with the current laws of France and Belgium.",,,,,,,,,,,,,,,,,,,,,,,,
Review; Book Chapter,"ADVANCES IN ECOLOGICAL RESEARCH, VOL 43: INTEGRATIVE ECOLOGY: FROM MOLECULES TO ECOSYSTEMS",2021-04-13,WOS:000286800200005,39,2,"Reiss, J; Bailey, RA; Cassio, F; Woodward, G; Pascoal, C",S,English,Assessing the Contribution of Micro-Organisms and Macrofauna to Biodiversity-Ecosystem Functioning Relationships in Freshwater Microcosms,2010.0,Environmental Sciences & Ecology,43,0065-2504,,,151,176,,"[Reiss, Julia] Queen Mary Univ London, Sch Biol & Chem Sci, London E1 4NS, England; [Bailey, R. A.] Queen Mary Univ London, Sch Math Sci, London E1 4NS, England; [Cassio, Fernanda; Pascoal, Claudia] Univ Minho, Dept Biol, CBMA, Ctr Mol & Environm Biol, P-4710057 Braga, Portugal; [Woodward, Guy] Univ London, Sch Biol & Chem Sci, London E1 4NS, England",,ELSEVIER ACADEMIC PRESS INC,59,"525 B STREET, SUITE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,26.0,BTF47,"Reiss, Julia; Bailey, R. A.; Cassio, Fernanda; Woodward, Guy; Pascoal, Claudia",29.0,29.0,Ecology,ADV ECOL RES,Adv. Ecol. Res.,10.1016/S0065-2504(10)43004-4,"Reiss, J (corresponding author), Queen Mary Univ London, Sch Biol & Chem Sci, London E1 4NS, England.",LEAF-LITTER DECOMPOSITION; AQUATIC HYPHOMYCETE DIVERSITY; COMMUNITY STRUCTURE; SPECIES-DIVERSITY; ASELLUS-AQUATICUS; GAMMARUS-PULEX; POLLUTED RIVER; STREAM; FUNGI; BIOMASS,,"Cassio, Fernanda/0000-0003-3924-3280; Pascoal, Claudia/0000-0002-2018-4201; ","Cassio, Fernanda/A-6653-2011; Pascoal, Claudia/C-4072-2009; Woodward, Guy/G-7103-2011",,,,,,,,,,,,,978-0-12-385005-8,,"Woodward, G",,Advances in Ecological Research,,,,,,,,,,,
Review; Book Chapter,"ADVANCES IN ECOLOGICAL RESEARCH, VOL 43: INTEGRATIVE ECOLOGY: FROM MOLECULES TO ECOSYSTEMS",2021-04-13,WOS:000286800200006,50,0,"Perkins, DM; Mckie, BG; Malmqvist, B; Gilmour, SG; Reiss, J; Woodward, G",S,English,"Environmental Warming and Biodiversity-Ecosystem Functioning in Freshwater Microcosms: Partitioning the Effects of Species Identity, Richness and Metabolism",2010.0,Environmental Sciences & Ecology,43,0065-2504,,,177,209,,"[Perkins, Daniel M.; Reiss, Julia] Queen Mary Univ London, Sch Biol & Chem Sci, London E1 4NS, England; [Mckie, Brendan G.] Swedish Univ Agr Sci, Dept Aquat Sci & Assessment, Uppsala, Sweden; [Malmqvist, Bjorn] Umea Univ, Dept Ecol & Environm Sci, S-90187 Umea, Sweden; [Gilmour, Steven G.] Queen Mary Univ London, Sch Math Sci, London E1 4NS, England; [Woodward, Guy] Univ London, Sch Biol & Chem Sci, London E1 4NS, England",,ELSEVIER ACADEMIC PRESS INC,84,"525 B STREET, SUITE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,33.0,BTF47,"Perkins, Daniel M.; Mckie, Brendan G.; Malmqvist, Bjorn; Gilmour, Steven G.; Reiss, Julia; Woodward, Guy",46.0,46.0,Ecology,ADV ECOL RES,Adv. Ecol. Res.,10.1016/S0065-2504(10)43005-6,"Perkins, DM (corresponding author), Queen Mary Univ London, Sch Biol & Chem Sci, London E1 4NS, England.",CLIMATE-CHANGE; FOOD WEBS; TEMPERATURE-DEPENDENCE; ECOLOGICAL NETWORKS; ASELLUS-AQUATICUS; PROCESS RATES; DIVERSITY; RESPONSES; SYSTEMS; IMPACTS,,"McKie, Brendan/0000-0002-1796-9497","Woodward, Guy/G-7103-2011; McKie, Brendan G/C-9376-2013",,,,,,,,,,,,,978-0-12-385005-8,,"Woodward, G",,Advances in Ecological Research,,,,,,,,,,,
Article,BULLETIN OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:000273102500018,30,2,"Lukancic, S; Zibrat, U; Mezek, T; Jerebic, A; Simcic, T; Brancelj, A",J,English,"Effects of Exposing Two Non-Target Crustacean Species, Asellus aquaticus L., and Gammarus fossarum Koch., to Atrazine and Imidacloprid",2010.0,Environmental Sciences & Ecology; Toxicology,84,0007-4861,1,JAN,85,90,Pesticide stress assessment; Non-target species,"[Lukancic, Simon; Zibrat, Uros; Mezek, Tadej; Jerebic, Andreja; Simcic, Tatjana; Brancelj, Anton] Natl Inst Biol, Ljubljana 1000, Slovenia","The physiological responses of two freshwater crustaceans, Asellus aquaticus L. and Gammarus fossarum Koch., following in vitro exposure to two pesticides were measured. Both species responded to short-term exposure with elevated levels of Respiration (R) and/or lower levels of Electron Transport System (ETS) activity. 1 h exposure to concentrations of up to 10 mg L(-1) showed an effect in both test species. Laboratory tests confirmed that G. fossarum is more sensitive to short-term pesticide exposure than A. aquaticus. ETS/R ratio may be used as a quick predictor of effects on organisms exposed to pesticides.",SPRINGER,17,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,6.0,537GZ,"Lukancic, Simon; Zibrat, Uros; Mezek, Tadej; Jerebic, Andreja; Simcic, Tatjana; Brancelj, Anton",14.0,14.0,Environmental Sciences; Toxicology,B ENVIRON CONTAM TOX,Bull. Environ. Contam. Toxicol.,10.1007/s00128-009-9854-x,"Lukancic, S (corresponding author), Natl Inst Biol, Vecna Pot 111, Ljubljana 1000, Slovenia.",ACUTE TOXICITY; PULEX L; EXPOSURE; INSECTICIDE; PESTICIDES; BIOASSAYS; HYPOXIA,simon.lukancic@nib.si,,,19795091.0,,Slovenian Research AgencySlovenian Research Agency - Slovenia [3311-03-831062],This study was supported by the Slovenian Research Agency (grant no. 3311-03-831062).,,,,,,,,,,,,,,,,,,,,,,,,
Article,CONTRIBUTIONS TO ZOOLOGY,2021-04-13,WOS:000279983500001,9,0,"Baratti, M; Filippelli, M; Nardi, F; Messana, G",J,English,"Molecular phylogenetic relationships among some stygobitic cirolanid species (Crustacea, Isopoda)",2010.0,Zoology,79,1383-4517,2,,57,67,12S; 16S; Cirolanidae; cytochrome oxidase I; mitochondrial DNA; stygofauna,"[Baratti, Mariella; Filippelli, Mariateresa; Messana, Giuseppe] CNR, Inst Study Ecosyst, I-50019 Sesto Fiorentino, FI, Italy; [Nardi, Francesco] Univ Siena, Dept Evolutionary Biol, I-53100 Siena, Italy","Within the Cirolanidae, a widespread family of marine isopods, about 23 genera are stygobitic and inhabit phreatic and anchialine ecosystems, with many endemic species. The Mediterranean area has a high biodiversity of subterranean cirolanids, which are considered thalassoid limnostygobionts. A molecular analysis was conducted using mtDNA genes to infer the phylogeny of species belonging to six of the seven stygobitic genera of Cirolanidae inhabiting the Mediterranean basin and to two American taxa: Faucheria faucheri, Marocolana delamarei, Saharolana seurati, Sphaeromides virei virei,Turcolana sp., 13 taxa of the genus Typhlocirolana and two American species, Antrolana lira and Speocirolana bolivari. The Typhlocirolana species are widespread in the western Mediterranean basin, with a concentration of taxa in the Maghreb region. Turcolana sp. is localised in the eastern Mediterranean, while F faucheri and S. v. virei are north Mediterranean taxa. S. seurati, the taxon least morphologically adapted to subterranean life, belongs to a monospecific genus present in a Tunisian spring. The molecular phylogeny showed a high affinity among the American taxa and the Mediterranean Sphaeromides, clustering in the Sphaeromides group identified by previous morphological studies. Typhlocirolana species and M. delamarei constitute their sister clade within the Sphaeromides group. F. faucheri appears to be a sister dale of the Sphaeromides group. S. seurati, showing reduced troglobitic adaptations, assumes disparate and unsolved positions in the phylogenetic reconstructions. The molecular data suggest that a combination of vicariance and dispersal events, occurring from 180 to a few million years ago, combined to bring about the present distribution pattern of Mediterranean cirolanid isopods.",BRILL,71,"PLANTIJNSTRAAT 2, P O BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,11.0,626RB,"Baratti, Mariella; Filippelli, Mariateresa; Nardi, Francesco; Messana, Giuseppe",11.0,8.0,Zoology,CONTRIB ZOOL,Contrib. Zool.,10.1163/18759866-07902001,"Baratti, M (corresponding author), CNR, Inst Study Ecosyst, Via Madonna del Piano 10, I-50019 Sesto Fiorentino, FI, Italy.",ASELLUS-AQUATICUS CRUSTACEA; MITOCHONDRIAL-DNA; SURFACE-POPULATIONS; SUBSTITUTION RATES; CAVE; EVOLUTION; PHYLOGEOGRAPHY; SEQUENCE; GENUS; TYPHLOCIROLANA,baratti@ise.cnr.it,"baratti, mariella/0000-0002-4276-4602; Nardi, Francesco/0000-0003-0271-9855; Messana, Giuseppe/0000-0002-2048-0078","baratti, mariella/AAX-1970-2020; Nardi, Francesco/E-5516-2011",,1875-9866,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOSCIENCE,2021-04-13,WOS:000276173900001,33,1,"Lettini, SE; Sukhdeo, MVK",J,English,The energetic cost of parasitism in isopods,2010.0,Environmental Sciences & Ecology,17,1195-6860,1,,1,8,acanthocephalans; crustacean; energy budget; parasite energy allocation; respiration,"[Lettini, Stacey E.; Sukhdeo, Michael V. K.] Rutgers State Univ, Dept Ecol & Evolut, New Brunswick, NJ 08901 USA","Assessment of the energetic costs of parasitism is central to understanding the role of parasites in their hosts' foodwebs, but few studies have directly measured these costs. This study demonstrates that infection with the acanthocephalan parasite Acanthocephalus tehlequahensis causes a significant and direct energetic cost to its freshwater isopod intermediate host Ceacidotea communis at both individual and population levels. Bomb calorimetry was used to measure energy (kj . m(-2) . y(-1)) allocated to host growth, reproduction, and respiration in infected and uninfected isopods and to parasite tissue in infected isopods. Infected isopod individuals allocated similar to 21% of their net production energy to parasite growth, and they were larger (length), consumed more leaf detritus, and lost significantly more energy to respiration than uninfected controls (P <= 0.05). They also allocated proportionally less energy to tissue growth, allocated zero energy to reproduction, and were less efficient at converting energy into isopod biomass when compared to uninfected controls (P <= 0.05). In the field, isopod populations were surveyed monthly for a year. The parasite had a mean infection prevalence in the stream of 30.19% +/- 8.31 SE with a mean intensity of 1.12 +/- 0.39 SE parasites/host in the population, and based on this infection rate, it is estimated that similar to 6.7% of total production energy of the isopod population (infected and uninfected) is diverted towards the parasite.",UNIVERSITE LAVAL,69,"PAVILLON CHARLES-EUGENE MARCHAND, LOCAL 0166, ST FOY, QUEBEC G1K 7P4, CANADA",ST FOY,8.0,576UF,"Lettini, Stacey E.; Sukhdeo, Michael V. K.",24.0,23.0,Ecology,ECOSCIENCE,Ecoscience,10.2980/17-1-3276,"Lettini, SE (corresponding author), Rutgers State Univ, Dept Ecol & Evolut, Bartlett Hall,84 Lipman Dr, New Brunswick, NJ 08901 USA.",FRESH-WATER ISOPODS; WHITE-FOOTED MICE; STREAM FOOD-WEB; GAMMARUS-PULEX; ACANTHOCEPHALAN PARASITE; GASTEROSTEUS-ACULEATUS; CERITHIDEA-CALIFORNICA; RESPIRATION RATES; INTERMEDIATE HOST; ASELLUS-AQUATICUS,slettini@gmail.com,,,,,Rutgers University Parasite Research Fund,"The authors would like to thank S. Ford for donation of a bomb calorimeter and T. Anderson, C. McCoy, B. Lettini, W. Rossiter, and S. Sukhdeo for field assistance and comments on the manuscript. In addition, we are grateful for the great discussion and suggested improvements of this work by A. Hernandez, H. John-Alder, J. Dighton, and J. Huffman. We thank the two anonymous reviewers and the editor for their comments and suggestions that helped improve this manuscript. Funding for this project came from the Rutgers University Parasite Research Fund.",,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY,2021-04-13,WOS:000273032100013,51,0,"Alonso, A; De Lange, HJ; Peeters, ETHM",J,English,Contrasting sensitivities to toxicants of the freshwater amphipods Gammarus pulex and G. fossarum,2010.0,Environmental Sciences & Ecology; Toxicology,19,0963-9292,1,JAN,133,140,Cadmium; Ivermectin; Juveniles; Adults; Toxicity,"[Alonso, Alvaro] Univ Alcala De Henares, Dept Ecol, Fac Biol, Madrid 28871, Spain; [Alonso, Alvaro; Peeters, Edwin T. H. M.] Wageningen Univ, Aquat Ecol & Water Qual Management Grp, NL-6700 AA Wageningen, Netherlands; [De lange, Hendrika J.] Univ Wageningen & Res Ctr, Ctr Ecosyst Studies, NL-6700 AA Wageningen, Netherlands","Amphipods are an important component of freshwater ecosystems. They are very often used in ecotoxicology, particularly the freshwater amphipod Gammarus pulex. However, there is scarce information on the sensitivity to toxicants of other species within the genus Gammarus. The present study aims to: (1) to compare sensitivities to ivermectin and cadmium between two species of freshwater amphipods (G. pulex and G. fossarum); (2) to compare sensitivities to these toxicants between juveniles and adults within each species; and (3) to assess whether the sensitivity to toxicants of these co-generic species is related with the wideness of their natural distribution area. Eight independent short-term bioassays (96 h) were conducted to assess sensitivity for ivermectin and cadmium for juvenile and adult life stages for each species. The LC50 (mortality) and EC50 (mortality plus immobility) were calculated to 48 and 96 h of continuous exposure. Our results showed that G. pulex was less tolerant to ivermectin than G. fossarum, the reverse being true for cadmium. In general, juveniles of both species were less tolerant to cadmium than adults. In the case of ivermectin, only for G. fossarum EC50 values were different between life stages. These results suggest that the risk assessment of toxicants to freshwater amphipods should include bioassays with the most sensitive species and life stage.",SPRINGER,44,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,8.0,536GE,"Alonso, Alvaro; De lange, Hendrika J.; Peeters, Edwin T. H. M.",38.0,37.0,Ecology; Environmental Sciences; Toxicology,ECOTOXICOLOGY,Ecotoxicology,10.1007/s10646-009-0398-y,"Alonso, A (corresponding author), Univ Alcala De Henares, Dept Ecol, Fac Biol, Madrid 28871, Spain.",ASELLUS-AQUATICUS L; BEHAVIORAL-RESPONSES; UNIONIZED AMMONIA; FEEDING-ACTIVITY; TOXICITY TESTS; LIFE-STAGES; CRUSTACEA; CADMIUM; INVERTEBRATES; METALS,aafernandez1976@yahoo.es,"Alonso, Alvaro/0000-0002-7797-8045; Peeters, Edwin T.H.M./0000-0003-2541-1829","Alonso, Alvaro/B-4286-2018",19697125.0,,Spanish Science and Innovation MinistrySpanish Government; Spanish Science and Innovation Ministry at University of Alcala; Wageningen Institute for Environment and Climate Research (WIMEK),"Dr.A'lvaro Alonso was supported by a postdoctoral grant from the Spanish Science and Innovation Ministry, he is currently supported by a Juan de la Cierva contract from the Spanish Science and Innovation Ministry at University of Alcala. Additionally, he has received a grant from the Wageningen Institute for Environment and Climate Research (WIMEK) to stay at the Aquatic Ecology and Water Quality Management Group (Wageningen University, The Netherlands). We want to give our sincere gratitude to Dr. Pilar Castro for her comments and suggestions during the writing of the manuscript. Special thanks to John Beijer for his help during the collection of amphipods and Dr. Cesar Francisquetti for his help during the bioassays. Furthermore, we are grateful for two anonymous reviewers for their valuable comments to improve this manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESENIUS ENVIRONMENTAL BULLETIN,2021-04-13,WOS:000277345900013,15,0,"Pliuraite, V; Mickeniene, L",J,English,CHANGES IN MACROINVERTEBRATE ASSEMBLAGES IN STREAMS UNDER ANTHROPOGENIC IMPACT,2010.0,Environmental Sciences & Ecology,19,1018-4619,3,,495,506,macroinvertebrates; anthropogenic impact; stream,"[Pliuraite, Virginija; Mickeniene, Liongina] Vilnius Univ, Inst Ecol, LT-08412 Vilnius 21, Lithuania","The anthropogenic impact on the distribution and biodiversity of benthic macroinvertebrates and water quality in four Lithuanian streams was studied. A total of 88 macroinvertebrate taxa (including 76 identified species) belonging to 47 families were identified in the investigated streams. The greatest species richness was recorded for the groups Trichoptera (20 species/1 taxa) and Chironomidae (18 species). The data obtained showed that reference streams differed from urban ones in the dominance of individual taxa. Significant differences were found in the abundance of pollution-tolerant Asellus aquaticus among the studied streams. These isopods were dominant in urban streams, while their abundance in the small reference stream was very low, and in the reference medium-sized stream, they were not found. Pollution sensitive Plecoptera were absent in urban streams, and Ephemeroptera also had lower abundance in urban streams compared to that in reference ones. Except for macroinvertebrate taxa richness (SR), % Trichoptera, % Chironomidae, % Scrapers, % Shredders, % Enterers, all other investigated metrics had at least one significant correlation with water quality variables. The Hilsenhoff's biotic index (HBI) and % Isopoda were positively correlated with all water quality variables, (except PO(4)-P).",PARLAR SCIENTIFIC PUBLICATIONS (P S P),52,"ANGERSTR. 12, 85354 FREISING, GERMANY",FREISING,12.0,592AE,"Pliuraite, Virginija; Mickeniene, Liongina",2.0,2.0,Environmental Sciences,FRESEN ENVIRON BULL,Fresenius Environ. Bull.,,"Pliuraite, V (corresponding author), Vilnius Univ, Inst Ecol, Akad 2, LT-08412 Vilnius 21, Lithuania.",BENTHIC MACROINVERTEBRATES; WATER-QUALITY; LAND-USE; AGRICULTURAL ACTIVITIES; RIVER-BASIN; COMMUNITIES; URBAN; INDEX; POLLUTION; HABITAT,virga@ekoi.lt,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,KNOWLEDGE AND MANAGEMENT OF AQUATIC ECOSYSTEMS,2021-04-13,WOS:000280888900002,26,1,"Adamek, Z; Jurajda, P; Prasek, V; Sukop, I",J,English,"Seasonal diet pattern of non-native tubenose goby (Proterorhinus semilunaris) in a lowland reservoir (Musov, Czech Republic)",2010.0,Fisheries; Marine & Freshwater Biology,,1961-9502,397,,,,Gobiidae; food; lowland reservoir; rip-rap bank; the Dyje River,"[Adamek, Z.] Univ S Bohemia, Fac Fisheries & Protect Waters, Vodnany 38925, Czech Republic; [Jurajda, P.; Prasek, V.] Acad Sci Czech Republic, Inst Vertebrate Biol, CS-60365 Brno, Czech Republic; [Sukop, I.] Mendel Univ Agr & Forestry Brno, Dept Zool Fisheries Hydrobiol & Apiculture, Lednice Na Morave 69144, Czech Republic","The tubenose goby (Proterorhinus semilunaris) is a gobiid species currently extending its area of distribution in Central Europe. The objective of the study was to evaluate the annual pattern of its feeding habits in the newly colonised habitats of the Musov reservoir on the Dyje River (the Danube basin, Czech Republic) with respect to natural food resources. In the reservoir, tubenose goby has established a numerous population, densely colonising stony rip-rap banks. Its diet was exclusively of animal origin with significant dominance of and preference for two food items-chironomid (Chironomidae) larvae and waterlouse (Asellus aquaticus), which contributed 40.2 and 27.6%, respectively, to the total food bulk ingested. The index of preponderance for the two items was also very high, amounting to 73.8 and 26.5, respectively. In the annual pattern, a remarkable preference for chironomid larvae was recorded in the summer period whilst waterlouse were consumed predominantly in winter months. The proportion of other food items was rather marginal-only corixids, copepods, ceratopogonids and cladocerans were of certain minor importance with proportions of 5.4, 4.3, 4.1 and 3.9%, respectively. Certain signs of cannibalism were also recorded, with 0.9 and 0.2% of the diet consisting of their own progeny and eggs, respectively.",EDP SCIENCES S A,37,"17, AVE DU HOGGAR, PA COURTABOEUF, BP 112, F-91944 LES ULIS CEDEX A, FRANCE",LES ULIS CEDEX A,12.0,638IX,"Adamek, Z.; Jurajda, P.; Prasek, V.; Sukop, I.",23.0,23.0,Fisheries; Marine & Freshwater Biology,KNOWL MANAG AQUAT EC,Knowl. Manag. Aquat. Ecosyst.,10.1051/kmae/2010018,"Adamek, Z (corresponding author), Univ S Bohemia, Fac Fisheries & Protect Waters, Zatisi 728-2, Vodnany 38925, Czech Republic.",GRAPHICAL ANALYSIS; FEEDING STRATEGY; RIVER; FOOD; GOBIES; MARMORATUS; DANUBE,adamek@ivb.cz,,"Jurajda, Pavel/F-9647-2014; Adamek, Zdenek/G-1193-2014; ASCR, IVB/A-9883-2011",,,"USB [MSM 6007665809, MSM 6215648905]; Centre of Excellence of the MSMT CR [LC 522]","This study was supported by the USB RIFCH projects no. MSM 6007665809, MSM 6215648905 and Centre of Excellence (LC 522) of the MSMT CR.",DOAJ Gold,,02,,,,,,,,,,,,,,,,,,,,,
Review; Book Chapter,"REVIEWS OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY, VOL 205",2021-04-13,WOS:000274026300001,71,1,"Kunz, PY; Kienle, C; Gerhardt, A",S,English,Gammarus spp. in Aquatic Ecotoxicology and Water Quality Assessment: Toward Integrated Multilevel Tests,2010.0,Environmental Sciences & Ecology; Toxicology,205,0179-5953,,,1,76,,"[Kunz, Petra Y.; Kienle, Cornelia; Gerhardt, Almut] Eawag EPFL, Swiss Ctr Appl Ecotoxicol, Ecotox Ctr, CH-8600 Dubendorf, Switzerland",,SPRINGER,214,"233 SPRING STREET, NEW YORK, NY 10013, UNITED STATES",NEW YORK,76.0,BNA53,"Kunz, Petra Y.; Kienle, Cornelia; Gerhardt, Almut",100.0,98.0,Environmental Sciences; Toxicology,REV ENVIRON CONTAM T,Rev. Environ. Contam. Toxicol.,10.1007/978-1-4419-5623-1_1,"Kunz, PY (corresponding author), Eawag EPFL, Swiss Ctr Appl Ecotoxicol, Ecotox Ctr, Uberlandstr 133, CH-8600 Dubendorf, Switzerland.",PULEX L CRUSTACEA; POSTEXPOSURE FEEDING DEPRESSION; RELEASED CHEMICAL CUES; S-TRANSFERASE ACTIVITY; HEAT-SHOCK PROTEINS; IN-SITU; BEHAVIORAL-RESPONSES; ASELLUS-AQUATICUS; ACUTE TOXICITY; FOSSARUM KOCH,petra.kunz@oekotoxzentrum.ch,"Kienle, Cornelia/0000-0002-7695-6549; Kunz, Petra/0000-0002-3624-2795","Kienle, Cornelia/ABG-5199-2020; Kunz, Petra/K-5338-2013",20044794.0,2197-6554,,,,,,,,,,,978-1-4419-5622-4,,"Whitacre, DM",,Reviews of Environmental Contamination and Toxicology,,,,,10.1007/978-1-4419-5623-1,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000272029700036,20,0,"Assmann, C; von Elert, E; Gergs, R",J,English,Effects of leaf litter and its fungal colonization on the diet of Limnomysis benedeni (Crustacea: Mysida),2009.0,Marine & Freshwater Biology,636,0018-8158,1,DEC,439,447,Invasive species; Fungi; Oomycetes; Leaf litter conditioning; Decomposition,"[Assmann, Christine; Gergs, Ren] Univ Konstanz, Limnol Inst, D-78464 Constance, Germany; [von Elert, Eric] Univ Cologne, Cologne Bioctr, D-50674 Cologne, Germany","The strong invasive freshwater mysid Limnomysis benedeni, a detritivorous-herbivorous feeder, has a preference for small food particles, but also feeds on leaf litter. Here, we tested whether leaf litter consumption by L. benedeni depends on the tree species and leaf conditioning (two types of physical and biological leaf conditioning). At the physical leaf conditioning, L. benedeni was fed with shortly leached or extensively leached leaves of five tree species in laboratory food assays. The mysid consumed shortly leached leaves of Copper Beech, Lombardy Poplar, Common Oak, and especially White Willow, and did not feed on shortly leached Black Alder leaves. The consumption of extensively leached leaves by L. benedeni did not depend on the tree species. Overall, 74% of the variation of the leaf consumption by L. benedeni was explained by the significant interaction of the factors carbon content and polyphenol content of the leaves, caused the feeding strategy of L. benedeni. For the biological leaf conditioning, the mysids consumed to a high degree naturally conditioned leaves, followed by leaves colonized by one of three fungi, but oomycete-colonized leaf litter and autoclaved leaves were consumed at similar low levels. Our results indicate that L. benedeni feeds on different types of conditioned leaves to different extents, and therefore may affect leaf litter degradation in many invaded freshwaters.",SPRINGER,47,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,9.0,522WB,"Assmann, Christine; von Elert, Eric; Gergs, Ren",9.0,9.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-009-9972-9,"Assmann, C (corresponding author), Univ Konstanz, Limnol Inst, Mainaustr 252, D-78464 Constance, Germany.",FEEDING PREFERENCES; ASELLUS-AQUATICUS; RANGE EXTENSION; GAMMARUS-PULEX; DECOMPOSITION; FRESH; RIVER; SHREDDERS; BREAKDOWN; ECOLOGY,Christine.assmann@uni-konstanz.de,"Sahm, Rene/0000-0001-8806-265X; von Elert, Eric/0000-0001-7758-716X","Sahm, Rene/B-6962-2012; von Elert, Eric/S-1666-2018",,1573-5117,German Research Foundation (DFG)German Research Foundation (DFG) [SFB 454],"We thank Almut Hanselmann for providing Limnomysis benedeni; Christine Gebauer and Petra Merkel for technical assistance with analyses of leaf litter carbon, nitrogen, and phosphorous; Isabelle Eisele for assistance with the no- choice assays; and John Hesselschwerdt for providing beech leaf litter. We acknowledge Karen A. Brune for editing the English language of the manuscript. This study was supported by the German Research Foundation (DFG) within the Collaborative Research Centre SFB 454 ""Littoral Zone of Lake Constance.''",,,,,,,,,,,,,,,,,,,,,,,,
Article,MOLECULAR ECOLOGY,2021-04-13,WOS:000271904400014,25,0,"Eroukhmanoff, F; Hargeby, A; Svensson, EI",J,English,Rapid adaptive divergence between ecotypes of an aquatic isopod inferred from F-ST-Q(ST) analysis,2009.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Evolutionary Biology,18,0962-1083,23,DEC,4912,4923,ecological speciation; F-ST; local adaptation; parallel evolution; Q(ST); rapid divergence; selection,"[Eroukhmanoff, Fabrice; Svensson, Erik I.] Lund Univ, Sect Anim Ecol, SE-22362 Lund, Sweden; [Hargeby, Anders] Linkoping Univ, Div Biol, S-58183 Linkoping, Sweden","Divergent natural selection is often thought to be the principal factor driving phenotypic differentiation between populations. We studied two ecotypes of the aquatic isopod Asellus aquaticus which have diverged in parallel in several Swedish lakes. In these lakes, isopods from reed belts along the shores colonized new stonewort stands in the centre of the lakes and rapid phenotypic changes in size and pigmentation followed after colonization. We investigated if selection was likely to be responsible for these observed phenotypic changes using indirect inferences of selection (F-ST-Q(ST) analysis). Average Q(ST) for seven quantitative traits were higher than the average F-ST between ecotypes for putatively neutral markers (AFLPs). This suggests that divergent natural selection has played an important role during this rapid diversification. In contrast, the average Q(ST) between the different reed ecotype populations was not significantly different from the mean F-ST. Genetic drift could therefore not be excluded as an explanation for the minor differences between allopatric populations inhabiting the same source habitat. We complemented this traditional F-ST-Q(ST) approach by comparing the F-ST distributions across all loci (n = 67-71) with the Q(ST) for each of the seven traits. This analysis revealed that pigmentation traits had diverged to a greater extent and at higher evolutionary rates than size-related morphological traits. In conclusion, this extended and detailed type of F-ST-Q(ST) analysis provides a powerful method to infer adaptive phenotypic divergence between populations. However, indirect inferences about the operation of divergent selection should be analyzed on a per-trait basis and complemented with detailed ecological information.",WILEY,49,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,12.0,521EZ,"Eroukhmanoff, Fabrice; Hargeby, Anders; Svensson, Erik I.",24.0,24.0,Biochemistry & Molecular Biology; Ecology; Evolutionary Biology,MOL ECOL,Mol. Ecol.,10.1111/j.1365-294X.2009.04408.x,"Eroukhmanoff, F (corresponding author), Lund Univ, Sect Anim Ecol, Ecol Bldg, SE-22362 Lund, Sweden.",FRESH-WATER ISOPOD; QUANTITATIVE TRAIT; PERCA-FLUVIATILIS; LIFE-HISTORY; DIFFERENTIATION; EVOLUTION; PREDATION; SELECTION; POPULATIONS; ADAPTATION,Fabrice.eroukhmanoff@zooekol.lu.se,"Svensson, Erik/0000-0001-9006-016X","Eroukhmanoff, Fabrice/F-8319-2010; eroukhmanoff, fabrice/D-1414-2015; Svensson, Erik/E-8324-2010",19878452.0,1365-294X,"The Ecole Normale Superieure (ENS); The Royal Physiographic Society in Lund (KFS); Swedish Research CouncilSwedish Research CouncilEuropean Commission; The Swedish Council for Environment, Agriculture, and Spatial Planning (FORMAS)Swedish Research Council Formas","We thank Nina Nowshiravani-Arnberg, Olof Hellgren, Staffan Bensch and Anna Runemark for their help with the molecular analyses and Mikael Akesson and Andrew Hendry for their comments on earlier drafts of the manuscript. This study was financially supported by The Ecole Normale Superieure (ENS) and The Royal Physiographic Society in Lund (KFS) to FE and the Swedish Research Council (VR) and The Swedish Council for Environment, Agriculture, and Spatial Planning (FORMAS) to EIS.",,,,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000271992200015,33,2,"Osterauer, R; Haus, N; Sures, B; Kohler, HR",J,English,Uptake of platinum by zebrafish (Danio rerio) and ramshorn snail (Marisa cornuarietis) and resulting effects on early embryogenesis,2009.0,Environmental Sciences & Ecology,77,0045-6535,7,NOV,975,982,Platinum group elements (PGEs); Bioavailability; Embryonic development; Ecotoxicology,"[Osterauer, Raphaela; Koehler, Heinz-R] Univ Tubingen, Anim Physiol Ecol Dept, D-72072 Tubingen, Germany; [Haus, Nadine; Sures, Bernd] Univ Duisburg Essen, Dept Appl Zool Hydrobiol, D-45141 Essen, Germany","Platinum group elements (PGEs), platinum, palladium and rhodium are widely used in automobile catalytic converters. PGEs are emitted into the environment and enter the aquatic ecosystem via runoff rainwater. The present study investigated the bioavailability of platinum chloride for the zebrafish (Danio rerio) and the ramshorn snail (Marisa cornuarietis) and determined the bioaccumulation rate of platinum. Applying the fish early life stage assay for D. rerio (DarT) and the Marisa embryo toxicity test (""Mariett"") for M. cornuarietis, effects of platinum chloride on the embryonic development were investigated. Platinum concentrations tested in this study ranged from environmentally relevant concentrations of 38 ng L(-1) up to a concentration of 74.2 mu g L(-1) for D. rerio and of 200 ng L(-1) up to 98.7 mu g L(-1) for M. cornuarietis. Platinum was found to be accumulated in both organisms. Bioaccumulation factors (BAFs) were in the range of 5-55 for a rerio and of 218.4-723.9 for M. cornuarietis, depending on the tested Pt concentrations. During the embryonic development, platinum was shown to alter the heart rate of both organisms already at the lowest tested concentration. At higher concentrations, platinum decelerated the hatching rate of the embryos of both species. Additionally, a retardation of the general development and a loss of weight due to platinum exposure was observed in M. cornuarietis. Results of this study contribute important data on the ecotoxicity of a rarely studied element. (C) 2009 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,58,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,8.0,522IX,"Osterauer, Raphaela; Haus, Nadine; Sures, Bernd; Koehler, Heinz-R",29.0,27.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2009.08.033,"Osterauer, R (corresponding author), Univ Tubingen, Anim Physiol Ecol Dept, Konrad Adenauer Str 20, D-72072 Tubingen, Germany.",MUSSEL DREISSENA-POLYMORPHA; CATHODIC STRIPPING VOLTAMMETRY; ISOPOD ASELLUS-AQUATICUS; EARLY-LIFE STAGES; GROUP METALS; ENDOCRINE DISRUPTORS; BRACHYDANIO-RERIO; ACUTE TOXICITY; BIOLOGICAL SAMPLES; COMPLEXING AGENTS,raphaela.osterauer@gmx.de,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013; Kohler, Heinz-R./AAL-1350-2021",19796790.0,,Studienstiftung des deutschen Volkes; Landesgraduiertenforderung Baden-Wurttemberg,Studienstiftung des deutschen Volkes and Landesgraduiertenforderung Baden-Wurttemberg are highly acknowledged for financial support.,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000270846900025,30,0,"Brooks, AC; Gaskell, PN; Maltby, LL",J,English,SUBLETHAL EFFECTS AND PREDATOR-PREY INTERACTIONS: IMPLICATIONS FOR ECOLOGICAL RISK ASSESSMENT,2009.0,Environmental Sciences & Ecology; Toxicology,28,0730-7268,11,NOV,2449,2457,Behavior; Cadmium; Hunting strategy; Predation; Prey choice,"[Brooks, Amy C.; Gaskell, Paul N.; Maltby, Lorraine L.] Univ Sheffield, Dept Anim & Plant Sci, Sheffield S10 2TN, S Yorkshire, England","Ecological risk assessments tend to focus on contaminant effects on single species in isolation. However, additional effects from interactions between species (e. g., predator-prey interactions) may also occur in natural systems. The present study investigated the consequences of sublethal contaminant effects in prey on predator-prey interactions, particularly the interaction between prey behavioral changes and predation by predators with different hunting strategies. Ambush (Ischnura elegans Vander Linden [Insecta, Odonata]) and active (Notonecta glauca Linnaeus [Insecta, Heteroptera]) predator species were used in conjunction with three prey species (Asellus aquaticus Linnaeus [Crustacea, Isopoda], Cloeon dipterum Linnaeus [Insecta, Ephemeroptera], and Chironomus riparius Meigen [Insecta, Diptera]). Immobilized prey demonstrated the importance of prey behavior for determining predation rates for both single-and multiple-prey species. Chironomus riparius was less responsive following exposure to cadmium, becoming more vulnerable to attack by the active but not the ambush predator. Some evidence was also observed for reduced general activity in C. dipterum following cadmium exposure. Sublethal exposure of prey did not affect the prey choice of active predators, possibly because of prey behavioral changes being insufficient to influence their relative availabilities. However, cadmium exposure of prey did alter their susceptibility to ambush predators. There was a reduced proportion of C. dipterum and an increased proportion of A. aquaticus in the diet of ambush predators, possibly because of reduced activity in C. dipterum affecting their relative encounter rates with predators. Sublethal exposures can therefore result in reduced prey survival that would not be predicted by single-species toxicity tests.",WILEY,43,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,507IV,"Brooks, Amy C.; Gaskell, Paul N.; Maltby, Lorraine L.",30.0,30.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1897/09-108.1,"Maltby, LL (corresponding author), Univ Sheffield, Dept Anim & Plant Sci, Western Bank, Sheffield S10 2TN, S Yorkshire, England.",LEPTOPHLEBIA-MARGINATA L; SWIMMING BEHAVIOR; TOXICITY; CADMIUM; SELECTION; EXPOSURE; LARVAE; MECHANISMS; RESPONSES; PENTACHLOROPHENOL,l.maltby@sheffield.ac.uk,"Maltby, Lorraine/0000-0003-3817-4033","Maltby, Lorraine/A-6702-2012",19572771.0,1552-8618,Unilever Research and the University of Sheffield,Thanks to S. Jaggard for help with experimental setup. This work forms part of a PhD thesis undertaken by A. C. Brooks and funded by Unilever Research and the University of Sheffield.,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000270594900054,29,1,"Brooks, AC; Gaskell, PN; Maltby, LL",J,English,Importance of Prey and Predator Feeding Behaviors for Trophic Transfer and Secondary Poisoning,2009.0,Engineering; Environmental Sciences & Ecology,43,0013-936X,20,OCT 15,7916,7923,,"[Brooks, Amy C.; Gaskell, Paul N.; Maltby, Lorraine L.] Univ Sheffield, Dept Anim & Plant Sci, Western Bank, Sheffield S10 2TN, S Yorkshire, England","Hydrophobic contaminants accumulate within aquatic sediments, hence pelagic predators may have limited direct contact with such compounds, but can be exposed via their benthic prey (i.e., via dietary exposures. Here we examine the importance of feeding behaviors of both prey (sediment ingesters or noningesters) and predators (piercers or engulfers) in determining the extent of dietary exposure and toxic effects. A freshwater macroinvertebrate system was used, consisting of two predator species, a piercer (Notonecta glauca) and an engulfer (Ischnura elegans), and three prey species, a sediment noningester (Cloeon dipterum) and two sediment ingesters (Asellus aquaticus, Chironomus riparius). Predators were fed prey previously exposed to artificial sediment dosed with 30 mu g/g of C-14 benzophenone. The piercer predator accumulated more benzophenone from sediment ingester compared to sediment noningestor prey, whereas the engulfer predator accumulated a similar concentration for all three prey species. Toxic effects, in terms of reduced feeding rate, were only observed with the engulfer feeding on sediment noningesters, probably due to the interaction between the narcotic mode of action of benzophenone and predator hunting strategy. The importance of dietary exposure in risk assessments may therefore depend on exposure pathways of prey, feeding behaviors of predators, and the contaminants toxic mode of action.",AMER CHEMICAL SOC,52,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,8.0,504DR,"Brooks, Amy C.; Gaskell, Paul N.; Maltby, Lorraine L.",14.0,14.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/es900747n,"Maltby, LL (corresponding author), Univ Sheffield, Dept Anim & Plant Sci, Western Bank, Sheffield S10 2TN, S Yorkshire, England.",FATTY-ACID-COMPOSITION; FOOD-CHAIN TRANSFER; BENTHIC INVERTEBRATES; CHIRONOMUS-RIPARIUS; ORGANIC-CHEMICALS; GRASS SHRIMP; SEDIMENT; BIOACCUMULATION; WATER; BIOCONCENTRATION,l.maltby@sheffield.ac.uk,"Maltby, Lorraine/0000-0003-3817-4033","Maltby, Lorraine/A-6702-2012",19921914.0,1520-5851,Unilever; University of Sheffield.,"This work forms part of a PhD thesis undertaken by A.C.B. and funded by Unilever and The University of Sheffield. We thank Stuart Marshall, Oliver Price, and Roger van Egmond for their contributions to this work.",,,,,,,,,,,,,,,,,,,,,,,,
Article,INLAND WATER BIOLOGY,2021-04-13,WOS:000272668600008,3,0,"Berezina, NA; Golubkov, SM; Gubelit, YI",J,English,Structure of littoral zoocenoses in the macroalgae zones of the Neva River Estuary,2009.0,Marine & Freshwater Biology,2,1995-0829,4,OCT,340,347,macrozoobenthos; biodiversity; biomass; spatial distribution; long-term dynamics; invasive species,"[Berezina, N. A.; Golubkov, S. M.; Gubelit, Yu. I.] Russian Acad Sci, Inst Zool, St Petersburg 199034, Russia","The biodiversity and spatial distribution of macrofauna biomass are studied for 12 sites of stonesand littoral in the Neva Estuary in 2002-2005. The highest biodiversity has been observed for chironomids and oligochaetes in the Neva Bay (36% and 24% of total species number) and in the eastern Gulf of Finland (33% and 23%). Amphipods (a parts per thousand currency sign89%), molluscs (a parts per thousand currency sign61%), and chironomids (a parts per thousand currency sign37%) dominate by biomass. The biomass spatial distribution vary dramatically from 9 to 37 g m(-2) in the freshwater Neva Bay and from 1 to 68 g m(-2) for the other Neva Estuary areas. The bottom fauna biomass in the Neva Bay is significantly lower than in the 1980-1990's and constitutes 20-50% of the biomass previously observed. We explain such a significant decrease by a reduction of the insects and aborigine crustaceans Gammarus lacustris Sars and Asellus aquaticus L. The invasive amphipod species Gmelinoides fasciatus (Stebbing) dominated by biomass for the study period (3.8-15.6 g m(-2), or > 30% of total macrozoobenthos biomass).",MAIK NAUKA/INTERPERIODICA/SPRINGER,45,"233 SPRING ST, NEW YORK, NY 10013-1578 USA",NEW YORK,8.0,531LU,"Berezina, N. A.; Golubkov, S. M.; Gubelit, Yu. I.",2.0,2.0,Marine & Freshwater Biology,INLAND WATER BIOL,Inland Water Biol.,10.1134/S1995082909040087,"Berezina, NA (corresponding author), Russian Acad Sci, Inst Zool, Univ Skaya Nab 1, St Petersburg 199034, Russia.",BALTIC SEA; DRIFTING ALGAE; DIVERSITY; FAUNA; INVERTEBRATES; ECOSYSTEMS; RESPONSES; FINLAND; GULF; MATS,nber@zin.ru,"Berezina, Nadezhda/0000-0003-3057-5596; Gubelit, Yulia/0000-0002-7334-7844","Golubkov, Sergey M/B-2039-2017; Berezina, Nadezhda/R-1968-2016; Gubelit, Yulia/U-4874-2017",,1995-0837,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FOLIA PARASITOLOGICA,2021-04-13,WOS:000270577500005,23,1,"Moravec, F",J,English,Experimental studies on the development of Contracaecum rudolphii (Nematoda: Anisakidae) in copepod and fish paratenic hosts,2009.0,Parasitology,56,0015-5683,3,SEP,185,193,parasitic nematode; Contracaecum; cormorant; Phalacrocorax; development; paratenic host; copepod; fish; Czech Republic,"Acad Sci Czech Republ, Inst Parasitol, Ctr Biol, CR-37005 Ceske Budejovice, Czech Republic","The larval development of the nematode Contracaecum rudolphii (Rudolphi, 1819), a common parasite of the proventriculus of cormorants, was experimentally studied. Within the eggs cultivated in freshwater under laboratory temperatures of 20-22 degrees C, the developing larva undergoes two moults on days 4-5, attaining the third larval stage. Most of the ensheathed third-stage larvae, 291-457 mu m long, hatch spontaneously from egg shells on days 5-6. Experiments have indicated that hatched ensheated third-stage larvae and those still inside egg capsules are already infective to copepods and fishes, which both can be considered paratenic (meta-paratenic) hosts. Five copepod species, Acanthocyclops vernalis, Cyclops strenuus, Ectocyclops phaleratus, Eucyclops serrulatus and Megacyclops viridis, the isopod Asellus aquaticus and small carps Cyprinus carpio were infected by feeding them these larvae. In addition, 9 fish species, Alburnoides bipunctatus, Anguilla anguilla, Barbatula barbatula, Cyprinus carpio, Gobio gobio, Perca fluviatilis, Phoxinus phoxinus, Poecilia reticulata and Tinca tinca, were successfully infected by feeding them copepods previously infected with C. rudolphii third-stage larvae. In fishes, larvae from copepods penetrate through the intestinal wall to the body cavity, where, in a few weeks, they become encapsulated; the larvae substantially grow in fish, attaining the body length up to 4.87 mm. In carp fry, the nematode third-stage larvae survived for about 15 months (up to 18 months in fish infected directly, i.e., without copepods). One small cormorant (Phalacrocorax carbo sinensis) was successfully infected by feeding it with copepods harbouring C. rudolphii third-stage larvae.",FOLIA PARASITOLOGICA,29,"BRANISOVSKA 31,, CESKE BUDEJOVICE 370 05, CZECH REPUBLIC",CESKE BUDEJOVICE,9.0,503YF,"Moravec, Frantisek",50.0,47.0,Parasitology,FOLIA PARASIT,Folia Parasitol.,,"Moravec, F (corresponding author), Acad Sci Czech Republ, Inst Parasitol, Ctr Biol, Branisovska 31, CR-37005 Ceske Budejovice, Czech Republic.",PHALACROCORAX-BRASILIANUS; 3RD-STAGE LARVAE; HYSTEROTHYLACIUM-ADUNCUM; LIFE-CYCLE; ASCARIDOIDEA; CORMORANT; INFECTION; PARASITES; RIVER; EGGS,moravec@paru.cas.cz,,"Moravec, Frantisek/G-7808-2014",19827362.0,1803-6465,"Academy of Sciences of the Czech RepublicCzech Academy of Sciences [62211]; Institute of Parasitology [Z60220518, LC522]","The author is indebted to J. Ondra, former State Fishery Pohorelice, and J. Schonbauer, former State Fishery Trebon, for providing cormorants. Thanks are also due to V. Nasincova, T. Scholz, I. Husakova, M. Valesova and J. Borovka, Institute of Parasitology ASCR, for their technical assistance. This work was Supported by the grant No. 62211 of the Academy of Sciences of the Czech Republic and by the research projects of the Institute of Parasitology, BC ASCR (Z60220518 and LC522).",,,,,,,,,,,,,,,,,,,,,,,,
Article,HELGOLAND MARINE RESEARCH,2021-04-13,WOS:000269013800002,20,0,"Aberle, N; Malzahn, AM; Grey, J; Hillebrand, H; Wiltshire, KH",J,English,Altered complementary feeding strategies of the consumers Hydrobia ulvae and Idotea emarginata via passive selectivity,2009.0,Marine & Freshwater Biology; Oceanography,63,1438-387X,3,SEP,189,197,Benthic microalgae; Isotope fractionation; Resource partitioning; Microphytobenthos; Stable isotope enrichment,"[Aberle, N.; Malzahn, A. M.; Wiltshire, K. H.] Alfred Wegener Inst Polar & Sea Res, Biol Anstalt Helgoland, D-27483 Helgoland, Germany; [Grey, J.] Queen Mary Univ, Sch Biol & Chem Sci, London, England; [Hillebrand, H.] Carl VonOssietzky Univ Oldenburg, ICBM Terramare, D-26382 Wilhelmshaven, Germany","This study aimed to identify differences in selectivity, foraging behaviour and complementary feeding of two benthic consumers (the isopod Idotea emarginata and the snail Hydrobia ulvae) using traditional cell counting as an indicator for algal biomass reduction and stable isotope labelling to detect differences in assimilation and digestion. We hypothesized that even when active feeding preferences of food components are not apparent, passive selectivity via mechanisms such as food assimilation and digestion can be of relevance. Algal biomass was reduced to a similar degree by the grazers independently from grazer and prey combinations without any indication for an active choice of food components. However, the isotope labelling approach indicated that passive selectivity can alter complementary feeding strategies, as we detected shifts in feeding preferences in relation to food quantity and competition. Thus, stable isotope labelling of food components opens up new perspectives in community ecology, allowing assessment of such complex mechanisms as passive selectivity, complementary feeding and competition.",SPRINGER,43,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,9.0,484AA,"Aberle, N.; Malzahn, A. M.; Grey, J.; Hillebrand, H.; Wiltshire, K. H.",3.0,3.0,Marine & Freshwater Biology; Oceanography,HELGOLAND MAR RES,Helgoland Mar. Res.,10.1007/s10152-009-0148-9,"Aberle, N (corresponding author), Alfred Wegener Inst Polar & Sea Res, Biol Anstalt Helgoland, D-27483 Helgoland, Germany.",NITROGEN ISOTOPE FRACTIONATION; STABLE-ISOTOPES; ASELLUS-AQUATICUS; MARINE-PHYTOPLANKTON; BENTHIC MICROALGAE; FOOD RESOURCES; DELTA-N-15; NUTRIENT; GROWTH; CARBON,Nicole.Aberle-Malzahn@awi.de,"Hillebrand, Helmut/0000-0001-7449-1613; Malzahn, Arne/0000-0002-2027-0804; Grey, Jonathan/0000-0001-9069-2271; Aberle, Nicole/0000-0003-3254-5710; Wiltshire, Karen/0000-0002-7148-0529","Hillebrand, Helmut/I-1717-2014; Malzahn, Arne/C-5851-2013; Wiltshire, Karen H./N-9494-2017; Grey, Jonathan/B-3346-2012; Aberle, Nicole/C-7366-2014",,,Deutsche ForschungsgemeinschaftGerman Research Foundation (DFG) [WI 1810/2-1+WI 1810/2-3],M. Janke is thanked for his help with the cultures of I. emarginata and for providing useful ideas. We thank H. Buhtz for technical assistance with stable isotope analyses. The funding of this work by the Deutsche Forschungsgemeinschaft (DFG-Forderzeichen WI 1810/2-1+WI 1810/2-3) is acknowledged.,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000268480600065,55,3,"Jonker, MTO; Suijkerbuijk, MPW; Schmitt, H; Sinnige, TL",J,English,Ecotoxicological Effects of Activated Carbon Addition to Sediments,2009.0,Engineering; Environmental Sciences & Ecology,43,0013-936X,15,AUG 1,5959,5966,,"[Jonker, Michiel T. O.; Suijkerbuijk, Martin P. W.; Schmitt, Heike; Sinnige, Theo L.] Univ Utrecht, Inst Risk Assessment Sci, NL-3508 TD Utrecht, Netherlands","Activated carbon (AC) addition is a recently developed technique for the remediation of sediments and soils contaminated with hydrophobic organic chemicals. Laboratory and field experiments have demonstrated that the addition of 3-4% of AC can reduce aqueous concentrations and the bioaccumulation potential of contaminants. However, one aspect of the technique that has hardly received any attention is the possible occurrence of secondary, eco(toxico)logical effects, i.e., effects of AC addition on the health, behavior, and habitat quality of local organisms. In the present study, several ecotoxicological effects were investigated in AC-water and AC-enriched (0-25%) sediment systems. It was demonstrated that (i) powdered activated carbons can be toxic to aquatic invertebrates (Lumbriculus variegatus, Daphnia magna, and Corophium volutator) based on different mechanisms and preferably should be washed prior to application; (ii) Asellus aquaticus and Corophium volutator may physically avoid AC-enriched sediments; (iii) exposure of Lumbriculus variegatus to AC-enriched sediments lead to a time and dose-dependent reduction in the worms' lipid content which was most probably caused by the observation that (iv) worm egestion rates decreased drastically upon AC addition, indicating that the presence of AC disturbed feeding behavior; and (v) there were no obvious effects on the microbiological community structure. All in all, these results suggest potential ecotoxicological effects of powdered AC addition and stress the need for a detailed further investigation of secondary effects of the technique, prior to any large-scale field application.",AMER CHEMICAL SOC,32,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,8.0,476XR,"Jonker, Michiel T. O.; Suijkerbuijk, Martin P. W.; Schmitt, Heike; Sinnige, Theo L.",86.0,85.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/es900541p,"Jonker, MTO (corresponding author), Univ Utrecht, Inst Risk Assessment Sci, POB 80177, NL-3508 TD Utrecht, Netherlands.",POLYCYCLIC AROMATIC-HYDROCARBONS; OLIGOCHAETE LUMBRICULUS VARIEGATUS; POLYCHLORINATED-BIPHENYLS; MARINE-SEDIMENTS; REDUCE PCB; CONTAMINATED SEDIMENTS; PHYSICOCHEMICAL TESTS; PAH BIOAVAILABILITY; MACOMA-BALTHICA; PARTICLE-SIZE,m.t.o.jonker@uu.nl,"Schmitt, Heike/0000-0002-0139-1934","Schmitt, Heike/G-3364-2011",19731704.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,DEVELOPMENTAL BIOLOGY,2021-04-13,WOS:000267777900283,3,0,"Protas, M; Patel, NH",J,English,"The genetic basis of morphological change in the cave isopod, Asellus aquaticus",2009.0,Developmental Biology,331,0012-1606,2,JUL 15,462,462,,"[Protas, Meredith; Patel, Nipam H.] Univ Calif Berkeley, Dept Integrat Biol, Berkeley, CA 94720 USA; [Patel, Nipam H.] Univ Calif Berkeley, Ctr Integrat Genom, Dept Mol Cell Biol, Berkeley, CA 94720 USA",,ACADEMIC PRESS INC ELSEVIER SCIENCE,0,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,1.0,467XW,"Protas, Meredith; Patel, Nipam H.",0.0,0.0,Developmental Biology,DEV BIOL,Dev. Biol.,10.1016/j.ydbio.2009.05.285,,,,,,,,,,,68th Annual Meeting of the Society-for-Developmental-Biology,,"JUL 23-27, 2009","San Francisco, CA",,,Soc Dev Biol,,,,,,,,261,,,,,,,,
Article,PLOS ONE,2021-04-13,WOS:000268035100005,25,0,"Eroukhmanoff, F; Svensson, EI",J,English,"Contemporary Parallel Diversification, Antipredator Adaptations and Phenotypic Integration in an Aquatic Isopod",2009.0,Science & Technology - Other Topics,4,1932-6203,7,JUL 9,,,,,"It is increasingly being recognized that predation can be a strong diversifying agent promoting ecological divergence. Adaptations against different predatory regimes can emerge over short periods of time and include many different traits. We studied antipredator adaptations in two ecotypes of an isopod (Asellus aquaticus) that have, diverged in parallel in two Swedish lakes over the last two decades. We quantified differences in escape speed, morphology and behavior for isopods from different ecotypes present in these lakes. Isopods from the source habitat (reed) coexist with mainly invertebrate predators. They are more stream-profiled and have higher escape speeds than isopods in the newly colonized stonewort habitat, which has higher density of fish predators. Stonewort isopods also show more cautious behaviors and had higher levels of phenotypic integration between coloration and morphological traits than the reed isopods. Colonization of a novel habitat with a different predation regime has thus strengthened the correlations between pigmentation and morphology and weakened escape performance. The strong signature of parallelism for these phenotypic traits indicates that divergence is likely to be adaptive and is likely to have been driven by differences in predatory regimes. Furthermore, our results indicate that physical performance, behavior and morphology can change rapidly and in concert as new habitats are colonized.",PUBLIC LIBRARY SCIENCE,54,"1160 BATTERY STREET, STE 100, SAN FRANCISCO, CA 94111 USA",SAN FRANCISCO,11.0,471DL,"Eroukhmanoff, Fabrice; Svensson, Erik I.",23.0,23.0,Multidisciplinary Sciences,PLOS ONE,PLoS One,10.1371/journal.pone.0006173,"Eroukhmanoff, F (corresponding author), Lund Univ, Sect Anim Ecol, Lund, Sweden.",LIFE-HISTORY EVOLUTION; FRESH-WATER ISOPOD; SWIMMING PERFORMANCE; POECILIA-RETICULATA; ADAPTIVE EVOLUTION; PERCA-FLUVIATILIS; ASELLUS-AQUATICUS; LACERTID LIZARDS; UNIQUE FEATURES; PREY BEHAVIOR,fabrice.eroukhmanoff@zooekol.lu.se,"Svensson, Erik/0000-0001-9006-016X","eroukhmanoff, fabrice/D-1414-2015; Eroukhmanoff, Fabrice/F-8319-2010; Svensson, Erik/E-8324-2010",19587791.0,,,,"DOAJ Gold, Green Published",,e6173,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY,2021-04-13,WOS:000268157200005,11,0,"Benesh, DP; Seppala, O; Valtonen, ET",J,English,Acanthocephalan size and sex affect the modification of intermediate host colouration,2009.0,Parasitology,136,0031-1820,8,JUL,847,854,Acanthocephala; Asellus aquaticus; cystacanth; host exploitation; host phenotype manipulation; intermediate host; larval life history; sexual dimorphism; trophic transmission,"[Benesh, D. P.] Max Planck Inst Evolutionary Biol, Dept Evolutionary Ecol, D-24306 Plon, Germany; [Seppaelae, O.] ETH, Inst Integrat Biol, CH-8600 Dubendorf, Switzerland; [Seppaelae, O.] EAWAG, Dept Aquat Ecol, CH-8600 Dubendorf, Switzerland; [Valtonen, E. T.] Univ Jyvaskyla, Dept Biol & Environm Sci, FI-40014 Jyvaskyla, Finland","For trophically transmitted parasites, transitional larval size is often related to fitness. Larger parasites may have higher establishment success and/or adult fecundity, but prolonged growth in the intermediate host increases the risk of failed transmission via natural host mortality. We investigated the relationship between the larval size of all acanthocephalan (Acanthocephalus lucii) and a trait presumably related to transmission, i.e. altered colouration in the isopod intermediate host. In natural collections, big isopods harboured larger worms and had more modified (darker) abdominal colouration than small hosts. Small isopods infected with a male parasite tended to have darker abdominal pigmentation than those infected with a female, but this difference was absent in larger hosts. Female size increases rapidly with host size, so females may have more to gain than males by remaining in and growing mutually small hosts. In experimental infections, a large total parasite volume was associated with darker host respiratory operculae, especially when it was distributed among fewer worms. Our results suggest that host Pigment alteration increases, with parasite size, albiet differently for male and female worths. This may be an adaptive strategy if, as parasites grow, the Potential for additional growth decreases and the likelihood of host mortality increases.",CAMBRIDGE UNIV PRESS,41,"32 AVENUE OF THE AMERICAS, NEW YORK, NY 10013-2473 USA",NEW YORK,8.0,472UH,"Benesh, D. P.; Seppaelae, O.; Valtonen, E. T.",13.0,13.0,Parasitology,PARASITOLOGY,Parasitology,10.1017/S0031182009006180,"Benesh, DP (corresponding author), Max Planck Inst Evolutionary Biol, Dept Evolutionary Ecol, August Thienemann Str 2, D-24306 Plon, Germany.",LARVAL LIFE-HISTORY; FRESH-WATER ISOPOD; LUCII ACANTHOCEPHALA; GROWTH STRATEGIES; REACTION NORMS; MANIPULATION; PIGMENTATION; AGE; SUSCEPTIBILITY; MORTALITY,benesh@evolbio.mpg.de,"Benesh, Daniel/0000-0002-4572-9546; Seppala, Otto/0000-0001-7902-3069","Benesh, Daniel/M-8998-2019",19450378.0,1469-8161,,,"Green Published, Green Accepted",,,,,,,,,,,,,,,,,,,,,,,
Article,BOREAL ENVIRONMENT RESEARCH,2021-04-13,WOS:000268741900005,2,0,"Berezina, NA; Zhakova, LV; Zaporozhets, NV; Panov, VE",J,English,Key role of the amphipod Gmelinoides fasciatus in reed beds of Lake Ladoga,2009.0,Environmental Sciences & Ecology,14,1239-6095,3,JUN 30,404,414,,"[Berezina, Nadezhda A.; Zhakova, Lyubov V.] Russian Acad Sci, Inst Zool, St Petersburg 199034, Russia; [Zaporozhets, Natalia V.; Panov, Vadirn E.] St Petersburg State Univ, St Petersburg 199034, Russia","The Baikalian amphipod Gmelinoides fasciatus, a successful invader in Eurasia, colonized the coastal zone of Lake Ladoga (northeastern Europe) in late 1990s. In the summers of 2000 and 2005 the density and biomass of benthic communities associated with macrophyte beds (Phragmites australis) and role of the invader ill fish diet were studied. Due to high production of macrophytes (600-800 g carbon m(-2) y(-1)) the benthic biomass was high, averaging 70.6 g m(-2) in 2005. Whilst the mean benthic biomass showed a 2-fold increase from 1990 to 2005, the biomass of native benthos 2-fold decreased, from 33.6 +/- 6.6 to 16.5 +/- 6.5 g m(-2). Gmelinoides fasciatus reached 54 +/- 13 g m(-2) and constituted 77% in the zoo-benthic biomass in 2005 as compared with 6% in 1990. Some crustaceans such as Gammarus lacustris and Asellus aquaticus reduced notably their distribution area and decreased in density. G. fasciatus is an important food item in diet of ruffe, perch and young burbot.",FINNISH ENVIRONMENT INST,32,"P O BOX 140, FIN-00251 HELSINKI, FINLAND",HELSINKI,11.0,480NJ,"Berezina, Nadezhda A.; Zhakova, Lyubov V.; Zaporozhets, Natalia V.; Panov, Vadirn E.",7.0,6.0,Environmental Sciences,BOREAL ENVIRON RES,Boreal Environ. Res.,,"Berezina, NA (corresponding author), Russian Acad Sci, Inst Zool, St Petersburg 199034, Russia.",CONSEQUENCES,nber@zin.ru,"Berezina, Nadezhda/0000-0003-3057-5596","Berezina, Nadezhda/R-1968-2016",,1797-2469,Russian Academy of SciencesRussian Academy of Sciences; European CommissionEuropean CommissionEuropean Commission Joint Research Centre [GOCE-CT-2003-506675],"We thank Dr. Kulli Kangur, Dr. Johanna Mattila and anonymous reviewer for comments, Dr. Gait Ashton (Scottish Association for Marine Science, UK) for useful advice and English revision that substantially improved the first version of the paper. We sincerely thank Dr. Eugenij A. Kurashov (Institute for Lake Researches. RAS) and Mr. Eugenij V. Rumyantsev (captain of the research vessel Aurora) for technical assistance during sampling. This study was supported by the Program on Biodiversity Conservation from the Russian Academy of Sciences and by the European Commission 6th Framework Programme Integrated Project ALARM (GOCE-CT-2003-506675).",,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000263378100017,36,0,"Schlief, J; Mutz, M",J,English,Effect of sudden flow reduction on the decomposition of alder leaves (Alnus glutinosa [L.] Gaertn.) in a temperate lowland stream: a mesocosm study,2009.0,Marine & Freshwater Biology,624,0018-8158,1,MAY,205,217,Litter decomposition; Stream flow; Litter input; Shredder; Microbial activity,"[Schlief, Jeanette; Mutz, Michael] Brandenburg Tech Univ Cottbus, Dept Freshwater Conservat, D-15526 Bad Saarow Pieskow, Germany","Climate change leads to summer low flow conditions and premature litter input in lowland streams in Central Europe. This may cause a sudden reduction of flow and fragmentation into isolated pools of permanently flowing streams, with a simultaneous increase in the food supply for detrivores during summer months. We performed a mesocosm study to investigate shredder and microbial mediated litter decomposition under these conditions. Leaf litter was placed in a lowland stream with a natural flow regime (reference) and in a stream mesocosm with significant flow reduction (FR) and a representative density of macroinvertebrates and detritus. Physicochemical parameters, leaf mass loss, macroinvertebrate abundance and biomass, leaf-associated respiration, fungal sporulation, and biomass were measured at regular intervals for 6 weeks. Coarse and fine-mesh bags were used to include or exclude macroinvertebrate shredders. In the coarse-mesh bags, leaf mass loss was significantly lower in the FR system than in the reference regime. In the fine-mesh bags, leaf respiration, fungal sporulation, and biomass but not leaf mass losses were substantially lower with flow reduction. Chironomid larvae (Micropsectra spp.) appeared to effectively fragment leaf litter in fine-mesh bags. In the FR system, leaf respiration was higher in the coarse-than in the fine-mesh bags. Our results suggest that, in temperate lowland streams, premature litter input during or after a sudden fragmentation into isolated pools and a reduction of stream flow reduces direct shredder-mediated litter decomposition, but shredders may indirectly influence the decomposition process.",SPRINGER,78,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,13.0,407PZ,"Schlief, Jeanette; Mutz, Michael",31.0,30.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-008-9694-4,"Schlief, J (corresponding author), Brandenburg Tech Univ Cottbus, Dept Freshwater Conservat, Seestr 45, D-15526 Bad Saarow Pieskow, Germany.",LEAF-LITTER BREAKDOWN; FRESH-WATER ECOSYSTEMS; ORGANIC-MATTER; GAMMARUS-PULEX; OXYGEN CONCENTRATIONS; INTERMITTENT STREAMS; MEDITERRANEAN STREAM; HYPORHEIC SEDIMENTS; NUTRIENT ENRICHMENT; ASELLUS-AQUATICUS,jeanette.schlief@tu-cottbus.de,,,,1573-5117,DFGGerman Research Foundation (DFG)European Commission [1162],"This study was supported by the DFG Priority Program 1162 AQUASHIFT. We are grateful to Thomas Wolburg, Michael Seidel, and Susann Parsche for their assistance that contributed to the success of this study.",,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000265252100017,20,0,"Eroukhmanoff, F; Hargeby, A; Arnberg, NN; Hellgren, O; Bensch, S; Svensson, EI",J,English,Parallelism and historical contingency during rapid ecotype divergence in an isopod,2009.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,22,1010-061X,5,MAY,1098,1110,adaptive radiation; historical contingency; mating propensity; parallel evolution; phenotype sorting; pigmentation,"[Eroukhmanoff, F.; Bensch, S.; Svensson, E. I.] Lund Univ, Sect Anim Ecol, SE-22362 Lund, Sweden; [Hargeby, A.] Linkoping Univ, Div Biol, Linkoping, Sweden; [Arnberg, N. N.] Univ Calif Santa Cruz, Dept Ecol & Evolutionary Biol, Santa Cruz, CA 95064 USA; [Hellgren, O.] EGI, Dept Zool, Oxford, England","Recent studies on parallel evolution have focused on the relative role of selection and historical contingency during adaptive divergence. Here, we study geographically separate and genetically independent lake populations of a freshwater isopod (Asellus aquaticus) in southern Sweden. In two of these lakes, a novel habitat was rapidly colonized by isopods from a source habitat. Rapid phenotypic changes in pigmentation, size and sexual behaviour have occurred, presumably in response to different predatory regimes. We partitioned the phenotypic variation arising from habitat ('selection': 81-94%), lake ('history': 0.1-6%) and lake x habitat interaction ('unique diversification': 0.4-13%) for several traits. There was a limited role for historical contingency but a strong signature of selection. We also found higher phenotypic variation in the source populations. Phenotype sorting during colonization and strong divergent selection might have contributed to these rapid changes. Consequently, phenotypic divergence was only weakly influenced by historical contingency.",WILEY,45,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,13.0,434CF,"Eroukhmanoff, F.; Hargeby, A.; Arnberg, N. N.; Hellgren, O.; Bensch, S.; Svensson, E. I.",38.0,37.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/j.1420-9101.2009.01723.x,"Eroukhmanoff, F (corresponding author), Lund Univ, Sect Anim Ecol, Ecol Bldg, SE-22362 Lund, Sweden.",ASELLUS-AQUATICUS CRUSTACEA; FRESH-WATER ISOPOD; UNIQUE FEATURES; EVOLUTION; PIGMENTATION; STICKLEBACKS; DETERMINISM; POPULATION; ADAPTATION; SPECIATION,fabrice.eroukhmanoff@zooekol.lu.se,"Hellgren, Olof/0000-0002-4062-7276; Svensson, Erik/0000-0001-9006-016X","eroukhmanoff, fabrice/D-1414-2015; Hellgren, Olof/C-7420-2014; Eroukhmanoff, Fabrice/F-8319-2010; Svensson, Erik/E-8324-2010",21462414.0,1420-9101,"The Ecole Normale SupErieure (ENS); The Royal Physiographic Society in Lund (KFS); Swedish Research Council (VR)Swedish Research Council; The Swedish Council for Environment, Agriculture, and Spatial Planning (FORMAS)Swedish Research Council Formas","The authors are grateful to S. Kuchta for his help with the interpretation of the molecular data and to A. Runemark, S. Ibanez, R. HArdling., R. SvanbAck and T. Gosden for constructive criticisms on the first draft of this manuscript, to M. Brydegaard Sorensen for his work on the picture analysis software (Picstats) and to field assistants S. GuEchot, M. von Post, K. Karlsson who participated in this project during 2005-2007. This study was financially supported by The Ecole Normale SupErieure (ENS) and The Royal Physiographic Society in Lund (KFS) to FE and the Swedish Research Council (VR) and The Swedish Council for Environment, Agriculture, and Spatial Planning (FORMAS) to EIS.",,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ZOOLOGICAL SYSTEMATICS AND EVOLUTIONARY RESEARCH,2021-04-13,WOS:000266549500003,8,0,"Prevorcnik, S; Jugovic, J; Sket, B",J,English,Geography of morphological differentiation in Asellus aquaticus (Crustacea: Isopoda: Asellidae),2009.0,Evolutionary Biology; Zoology,47,0947-5745,2,MAY,124,131,racial differentiation; geographic variation; morphometric analysis; multivariate statistic analyses; Europe; Dinaric area; Isopoda; Asellus,"[Prevorcnik, S.; Jugovic, J.; Sket, B.] Univ Ljubljana, Biotehn Fak, Oddelek Biol, Ljubljana 1001, Slovenia","We implemented a detailed morphometry and multivariate statistics to establish a general, large-scale racial differentiation in Asellus aquaticus (L.) sensu Racovitza. We ascertained that in surface populations a set of 11 morphometric characters might equivalently be represented by the pleopod respiratory area size alone. The analyses resulted in a distinct distribution pattern, with the large respiratory area populations disposed mainly along the Dinaric karst between southern Slovenia and western Macedonia and surrounded by the medium respiratory area morph, spatially irregularly substituted by the small area morph. This pattern is in contradiction with the distribution pattern of molecularly defined clades (as shown by Verovnik et al. 2005). We could find no ecological, hydrographical or paleogeographical explanations for such distribution pattern either. The only hypothetical explanation would be a preservation of the large respiratory area as a plesiomorphic character in the comparatively sheltered karst habitats, while throughout the easier accessible parts of the species range it was replaced by the 'modern' smaller area size. While a diminution of the respiratory area functionally means an increased sclerotization - hardening of pleopod IV-V exopodites, endopodites of pleopods III-V remain less sclerotized, probably respiratory and osmoregulatory functional.","WILEY-BLACKWELL PUBLISHING, INC",40,"COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA",MALDEN,8.0,452OC,"Prevorcnik, S.; Jugovic, J.; Sket, B.",4.0,4.0,Evolutionary Biology; Zoology,J ZOOL SYST EVOL RES,J. Zool. Syst. Evol. Res.,10.1111/j.1439-0469.2008.00493.x,"Prevorcnik, S (corresponding author), Univ Ljubljana, Biotehn Fak, Oddelek Biol, Pp 2995, Ljubljana 1001, Slovenia.",FRESH-WATER; POPULATIONS; GILLS,simona.prevorcnik@bf.uni-lj.si; jure.jugovic@bf.uni-lj.si; boris.sket@bf.uni-lj.si,,,,,Slovenian Research AgencySlovenian Research Agency - Slovenia,"We thank T. Tinim (Tartu, Estonia), K. Sindernark Kronestedt (Stockholm, Sweden), C. O. Coleman (Berlin, Germany), P. C. Dworschak (Wien, Austria), Laszlo Forro (Budapest, Hungary), B. Camur-Elipek (Edirne, Turkey), M. Ozbek (lzinir, Turkey), U. Wijest (Basel, Switzerland) and I. B. Musko (Tihany, Hungary) for sending LIS samples froin their institutions. We also thank all the collectors mentioned in the list (see Appendix S I, under Leg.). We are especially thankful to M Zagmajster for providing the maps for illustrating the geographic distribution of A. aquaticus using GIS software. We are grateful to P. Trontelj for his translating abstract to German language. This study was financially supported by the Slovenian Research Agency.",,,,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000265720600010,33,1,"Alonso, A; De Lange, HJ; Peeters, ETHM",J,English,Development of a feeding behavioural bioassay using the freshwater amphipod Gammarus pulex and the Multispecies Freshwater Biomonitor,2009.0,Environmental Sciences & Ecology,75,0045-6535,3,APR,341,346,Behaviour; Feeding activity; Toxicity; Cadmium; Ventilation; Impedance conversion technique,"[Alonso, Alvaro] Univ Alcala De Henares, Fac Biol, Dept Ecol, E-28871 Alcala De Henares, Spain; [Alonso, Alvaro; Peeters, Edwin T. H. M.] Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, NL-6700 AA Wageningen, Netherlands; [De Lange, Hendrika J.] Univ Wageningen & Res Ctr, Ctr Ecosyst Studies, NL-6700 AA Wageningen, Netherlands","The present study reports the development of a feeding behavioural bioassay using the Multispecies Freshwater Biomonitor (MFB). This device is based on the quadruple impedance conversion technique to record online different behaviours of animals. Animal movements in the water generate specific frequencies, and the MFB can estimate the percentage of time producing each frequency (from 0.5 to 8.5 Hz) by means of a stepwise discrete Fourier transformation. Two feeding behavioural bioassays were conducted in order to know the frequencies related to feeding behaviour of the freshwater amphipod Gammarus pulex. The first bioassay assessed the effects of food presence in the amphipod behaviour. The second bioassay assessed the effects of cadmium on the feeding activity (measured as leaf weight loss) and behaviour (swimming, ventilation, and feeding recorded through the MFB) of G. pulex in order to check the suitability of the developed method. The results of the first bioassay showed that the frequencies ranging from 3.0 to 4.5 Hz were highly correlated with feeding activity, especially 3.5 and 4.0 Hz. In the second bioassay, we found that cadmium reduced feeding and ventilation behaviours. Our study showed that the MFB can be used to record the feeding behaviour of G. pulex exposed to toxicants. The developed feeding behavioural bioassay allows an accurate and automatic assessment of several endpoints, including feeding, swimming and ventilation. However, the study of the complex behaviour of G. pulex using the MFB needs further research, since some behaviours seem to generate similar frequencies. (C) 2008 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,41,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,6.0,440SS,"Alonso, Alvaro; De Lange, Hendrika J.; Peeters, Edwin T. H. M.",36.0,34.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2008.12.031,"Alonso, A (corresponding author), Univ Alcala De Henares, Fac Biol, Dept Ecol, E-28871 Alcala De Henares, Spain.",ACID-MINE DRAINAGE; ASELLUS-AQUATICUS; UNIONIZED AMMONIA; GROWTH ASSAY; RESPONSES; CRUSTACEA; TOXICITY; INVERTEBRATES; SURVIVAL; CADMIUM,aafernandez1976@yahoo.es,"Alonso, Alvaro/0000-0002-7797-8045; Peeters, Edwin T.H.M./0000-0003-2541-1829","Alonso, Alvaro/B-4286-2018",19167022.0,1879-1298,Spanish Science and Innovation MinistrySpanish Government,"Dr. Alvaro Alonso was supported by a postdoctoral grant from the Spanish Science and Innovation Ministry. Dr. Alvaro Alonso is currently supported by a Juan de la Cierva contract from the Spanish Science and Innovation Ministry. We want to give our sincere gratitude to Dr. Pilar Castro for her comments and suggestions during the writing of the manuscript. Special thanks to John Beijer for his help in the collection of amphipods and Dr. Cesar Francisquetti for his help in the feeding activity bioassays. Furthermore, we are grateful for two anonymous reviewers for their comments on this manuscript.",,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000264379300007,29,0,"Trontelj, P; Douady, CJ; Fiser, C; Gibert, J; Goricki, S; Lefebure, T; Sket, B; Zaksek, V",J,English,A molecular test for cryptic diversity in ground water: how large are the ranges of macro-stygobionts?,2009.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,54,0046-5070,4,APR,727,744,cave; cryptic species; Niphargus; phylogeography; subterranean,"[Trontelj, Peter; Fiser, Cene; Goricki, Spela; Sket, Boris; Zaksek, Valerija] Univ Ljubljana, Dept Biol, Biotechn Fac, Ljubljana 1001, Slovenia; [Douady, Christophe J.; Gibert, Janine; Lefebure, Tristan] Univ Lyon 1, CNRS, Lab Ecol Hydrosyst Fluviaux, UMR, F-69622 Villeurbanne, France","1. Various groundwater habitats have exceptionally high levels of endemism caused by strong hydrographical isolation and low dispersal abilities of their inhabitants. More than 10% of macro-stygobiotic species nevertheless occupy relatively large ranges, measuring from some hundred to over 2000 km in length. These species represent a challenge because their distributions disregard hydrographical boundaries, and their means to disperse and maintain long-term gene flow are unknown. 2. Based on mitochondrial and nuclear gene sequences, we examined the phylogeographic structure of six formally recognised stygobiotic species (Niphargus virei, N. rhenorhodanensis, Troglocaris anophthalmus, T. hercegovinensis, Spelaeocaris pretneri, Proteus anguinus) and searched for cryptic lineage diversity in a genus-wide phylogeny of Niphargus. Using tree-based criteria as well as comparative divergence measures, we identified cryptic lineages, which may tentatively be equated with cryptic species. 3. Fourteen analysed nominal stygobiotic species with large ranges emerged as highly diversified, splitting into 51 tentative cryptic lineages. The degree of divergence was within the range or larger than the divergence of other related pairs of sister species. A substantial part (94%) of the cryptic lineages had ranges < 200 km in length. One half of them were recorded at single sites only. The largest range recorded was that of a cryptic N. virei lineage (700 km), while none of the very large traditional ranges (e.g. Niphargus aquilex- 2300 km, N. tauri- 1900 km) could be corroborated. 4. These data suggest that small ranges of macro-stygobionts are the rule, and ranges over 200 km are extremely rare. 5. The implications of this result for groundwater biodiversity assessment and conservation include a considerable increase in overall diversity at the regional and continental scale and a strong decrease in faunal similarities among regions, coupled with greater endemism.",WILEY,93,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,18.0,421ST,"Trontelj, Peter; Douady, Christophe J.; Fiser, Cene; Gibert, Janine; Goricki, Spela; Lefebure, Tristan; Sket, Boris; Zaksek, Valerija",167.0,150.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2007.01877.x,"Trontelj, P (corresponding author), Univ Ljubljana, Dept Biol, Biotechn Fac, POB 2995, Ljubljana 1001, Slovenia.",ASELLUS-AQUATICUS CRUSTACEA; MITOCHONDRIAL-DNA; PLETHODONTID SALAMANDERS; PHYLOGENETIC ANALYSES; DISTRIBUTION PATTERNS; SURFACE-POPULATIONS; HYPOGEAN WATERS; NORTH-AMERICAN; LIFE-HISTORY; CAVE,peter.trontelj@bf.uni-lj.si,"Douady, Christophe/0000-0002-4503-8040; Lefebure, Tristan/0000-0003-3923-8166","Douady, Christophe/N-3069-2019; Douady, Christophe J/N-1357-2014; Lefebure, Tristan/A-6489-2009",,1365-2427,Slovenian Research AgencySlovenian Research Agency - Slovenia [EVK2-CT-2001-00121 (PASCALIS)],"Our thanks go to (in alphabetical order) Uros Arnus (Maribor, Slovenia), Elzbieta Dumnicka (Krakow, Poland), Andreas Fuchs (Landau, Germany), Reinhard Gerecke (Tubingen, Germany), Jos Notenboom (Bilthoven, the Netherlands), Tonci Radja (Split, Croatia), Mustafa Tanatmis (Eskisheir, Turkey), Paul J. Wood (Loughborough, U.K.), who furnished Niphargus specimens. We are grateful to a number of friends and colleagues who helped us with the fieldwork: Gregor Bracko, Andrej Hudoklin, Katarina Jazbec, Franc Kljun, Simona Kralj-Fiser, Ivan Kos, Slavko Polak, Simona Prevorcnik, Rudi Verovnik, Maja Zagmajster (all Slovenia), T. Datry, J. Issartel, J. Lips and M. Meyssonier, J. Arnaud, L. Bruxelles, G. Deflandre, T. Dubourget, B. Hamon, M. Meyssonier, G. Michel, S. Ranchin, M. Wiemin and F. Malard (all France). We are further grateful to Jozica Murko-Bulic (Ljubljana, Slovenia), Laure Granger, and Catherine Lerondelle (Lyon, France) for their indispensable help in the laboratory, to Gregor Bracko for gathering distribution data, and to Maja Zagmajster for her help with GIS work. The work was financially supported by the Slovenian Research Agency and through contract n degrees EVK2-CT-2001-00121 (PASCALIS) of the Fifth Research and Technological Development Framework Programme of the European Union.",Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000264186000004,17,0,"Hasu, T; Benesh, DP; Valtonen, ET",J,English,Differences in parasite susceptibility and costs of resistance between naturally exposed and unexposed host populations,2009.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,22,1010-061X,4,APR,699,707,Acanthocephala; Acanthocephalus lucii; evolution of resistance; host-parasite interaction; local adaptation; naive host; parasite-mediated selection,"[Benesh, D. P.] Max Planck Inst Evolutionary Biol, D-24306 Plon, Germany; [Hasu, T.; Valtonen, E. T.] Univ Jyvaskyla, Dept Biol & Environm Sci, Jyvaskyla, Finland","It is generally assumed that resistance to parasitism entails costs. Consequently, hosts evolving in the absence of parasites are predicted to invest less in costly resistance mechanisms than hosts consistently exposed to parasites. This prediction has, however, rarely been tested in natural populations. We studied the susceptibility of three naive, three parasitized and one recently isolated Asellus aquaticus isopod populations to an acanthocephalan parasite. We found that parasitized populations, with the exception of the isopod population sympatric with the parasite strain used, were less susceptible to the parasite than the naive populations. Exposed but uninfected (resistant) isopods from naive populations, but not from parasitized populations, exhibited greater mortality than controls, implying that resistance entails survival costs primarily for naive isopods. These results suggest that parasites can drive the evolution of host resistance in the wild, and that co-existence with parasites may increase the cost-effectiveness of defence mechanisms.",WILEY,48,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,418YM,"Hasu, T.; Benesh, D. P.; Valtonen, E. T.",22.0,22.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/j.1420-9101.2009.01704.x,"Benesh, DP (corresponding author), Max Planck Inst Evolutionary Biol, August Thienemann Str 2, D-24306 Plon, Germany.",ACANTHOCEPHALUS-LUCII ACANTHOCEPHALA; ASELLUS-AQUATICUS; LIFE-HISTORY; INTERMEDIATE HOST; LOCAL ADAPTATION; SURVIVAL; IMMUNITY; LARVAE; PHENOLOXIDASE; CONSEQUENCES,benesh@evolbio.mpg.de,"Benesh, Daniel/0000-0002-4572-9546","Benesh, Daniel/M-8998-2019",19228272.0,1420-9101,Finnish Cultural Foundation (TH)Finnish Cultural Foundation; Biological Interactions Graduate School at the University of Turku (DPB),Thanks are due to Tapani Valtonen for helping to find the naive isopod populations. This work was supported by the Finnish Cultural Foundation (TH) and the Biological Interactions Graduate School at the University of Turku (DPB).,,,,,,,,,,,,,,,,,,,,,,,,
Article,ANALYTICA CHIMICA ACTA,2021-04-13,WOS:000263576900005,11,0,"Haus, N; Eybe, T; Zimmermann, S; Sures, B",J,English,Is microwave digestion using TFM vessels a suitable preparation method for Pt determination in biological samples by adsorptive cathodic stripping voltammetry?,2009.0,Chemistry,635,0003-2670,1,MAR 2,53,57,Teflon vessel; Aging effect; Platinum group element analysis; High pressure microwave system,"[Haus, Nadine; Zimmermann, Sonja; Sures, Bernd] Univ Duisburg Essen, Dept Appl Zool Hydrobiol, D-45141 Essen, Germany; [Eybe, Tanja] Ctr Rech Publ Gabriel Lippmann, L-4422 Belvaux, Luxembourg","The occurrence of Pt in environmental matrices is increasing since the introduction of automobile catalytic converters. Given that Pt is bioavailable and causes biological effects in plants and animals, respective biomonitoring programs are in high demand. But the analytical methods for conducting such programs have not yet been sufficiently established. Therefore, a study was carried out to develop a microwave digestion of biological samples, which allows a rapid determination of Pt by adsorptive cathodic stripping voltammetry. A high pressure microwave system was used and the digestion was performed in HNO(3) and HCI. After digestion the HNO(3) was evaporated with a microwave assisted vacuum concentration set. The study resulted in a procedural detection limit of 37.5 ngL(-1) and a relative standard deviation of 18%. A recovery study resulted in a Pt loss below 5%. The microwave assisted evaporation of HNO(3) performed satisfactorily and up to 500 mL of the sample solution could be used for the voltammetric measurements without any effect on the peak heights. A direct comparison of Pt concentrations conducted after microwave digestion and digestion by high pressure ashing showed similar values. However, these promising results were not persistent throughout the repeated analysis using the same Teflon vessels. The vessels did not endure the harsh conditions and due to aging processes the Pt loss consistently increased until Pt determination in environmental relevant concentrations became impossible. Quartz vessels could not be employed as an alternative to the Teflon vessels, due to a lack of compatibility with the vacuum concentration system. Consequently, the results of this paper show that there is a need for further development of more resistant Teflon materials. (c) 2008 Elsevier B.V. All rights reserved.",ELSEVIER SCIENCE BV,24,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,5.0,410KW,"Haus, Nadine; Eybe, Tanja; Zimmermann, Sonja; Sures, Bernd",11.0,11.0,"Chemistry, Analytical",ANAL CHIM ACTA,Anal. Chim. Acta,10.1016/j.aca.2008.12.043,"Haus, N (corresponding author), Univ Duisburg Essen, Dept Appl Zool Hydrobiol, Univ Str 5, D-45141 Essen, Germany.",ISOPOD ASELLUS-AQUATICUS; ICP-MS; DREISSENA-POLYMORPHA; HEAVY-METALS; ZEBRA MUSSEL; PLATINUM; PALLADIUM; ELEMENTS; RHODIUM; SPECTROMETRY,nadine.haus@uni-due.de,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013",19200478.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THE NORTH AMERICAN BENTHOLOGICAL SOCIETY,2021-04-13,WOS:000263481300011,26,0,"Molinos, JG; Donohue, I",J,English,Differential contribution of concentration and exposure time to sediment dose effects on stream biota,2009.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,28,0887-3593,1,MAR,110,121,disturbance; benthic; algae; macroinvertebrate; stream; stoichiometry; artificial stream; drift,"[Molinos, Jorge Garcia; Donohue, Ian] Trinity Coll Dublin, Dept Zool, Sch Nat Sci, Dublin 2, Ireland","Anthropogenically increased sediment loads are one of the most pervasive pollution pressures on surface waters and carry major ecological implications for biota. We conducted an experiment in artificial streams to quantify the response of 4 common macroinvertebrate taxa (Rithrogena semicolorata, Baetis rhodani, Asellus aquaticus, and Glossosoma boltoni) and benthic algae to doses of inorganic sediment that differed in maximum concentration and exposure time. Relatively minor disturbances (maximum concentration 250 mg/L) decreased % organic content of epilithon significantly after the first 24 h of exposure. However, algal biomass (measured as chlorophyll a) was reduced significantly only in the most prolonged exposure time (7 d). Epilithic nutrient stoichiometry (as indicated by molar organic ON ratios) was not affected by sediment addition. Invertebrate drift was affected strongly by exposure time, and all taxa exhibited statistically significant responses within the first day under all concentrations. However, concentration interacted significantly with exposure time in its effects on the drift of both mayfly species. Macroinvertebrate survival was high or complete for all treatments. Therefore, the differing relative and interactive effects of concentration and exposure time suggest that the common prediction of severity of effect based on a constant relationship between these factors can produce considerable overestimates or underestimates of environmental risk. Biological effects derived from increased sediment loads should be assessed on the basis of their overall dose and on the basis of the specific relationship between the concentration and exposure time that make up the dose.",NORTH AMER BENTHOLOGICAL SOC,67,"1041 NEW HAMSPHIRE STREET, LAWRENCE, KS 66044 USA",LAWRENCE,12.0,409BN,"Molinos, Jorge Garcia; Donohue, Ian",25.0,24.0,Ecology; Marine & Freshwater Biology,J N AM BENTHOL SOC,J. N. Am. Benthol. Soc.,10.1899/08-046.1,"Molinos, JG (corresponding author), Trinity Coll Dublin, Dept Zool, Sch Nat Sci, Dublin 2, Ireland.",FINE SEDIMENT; INVERTEBRATE DRIFT; DEPOSITED SEDIMENT; COPPER-SULFATE; CUTRINE-PLUS; GROWTH; PERIPHYTON; TOXICITY; MACROINVERTEBRATES; CONSTRUCTION,garciamj@tcd.ie; ian.donohue@tcd.ie,"Donohue, Ian/0000-0002-4698-6448; Molinos, Jorge Garcia/0000-0001-7516-1835","Donohue, Ian/A-7270-2010; Molinos, Jorge Garcia/C-9252-2015",,,"Trinity College, Dublin","This research was funded by Trinity College, Dublin. We would like to express our gratitude to Peter Stafford for his invaluable help during the experimental set up, to Mark Kavanagh for his advice with laboratory analyses, and to Yukiko Kato and John O'Brien for their help with field work.",,,,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY,2021-04-13,WOS:000263158800009,16,0,"Benesh, DP; Hasu, T; Seppala, O; Valtonen, ET",J,English,Seasonal changes in host phenotype manipulation by an acanthocephalan: time to be transmitted?,2009.0,Parasitology,136,0031-1820,2,FEB,219,230,Acanthocephala; Asellus aquaticus; host manipulation; host-parasite interaction; host pigmentation; intermediate host; plastic/flexible behaviour; seasonality; trophic transmission,"[Benesh, D. P.] Max Planck Inst Evolutionary Biol, Dept Evolutionary Ecol, D-24306 Plon, Germany; [Hasu, T.; Valtonen, E. T.] Univ Jyvaskyla, Dept Biol & Environm Sci, FI-40014 Jyvaskyla, Finland; [Seppaelae, O.] Swiss Fed Inst Aquat Sci & Technol, EAWAG, CH-8600 Dubendorf, Switzerland; Swiss Fed Inst Technol, Inst Integrat Biol, CH-8600 Dubendorf, Switzerland","Many complex life cycle parasites exhibit seasonal transmission between hosts. Expression of parasite traits related to transmission, such as the manipulation of host phenotype, may peak in seasons when transmission is optimal. The acanthocephalan Acanthocephalus lucii is primarily transmitted to its fish definitive host in spring. We assessed whether the parasitic alteration of 2 traits (hiding behaviour and coloration) in the isopod intermediate host was more pronounced at this time of year. Refuge use by infected isopods was lower, relative to uninfected isopods, in spring than in summer or fall. Infected isopods had darker abdomens than uninfected isopods, but this difference did not vary between seasons. The level of host alteration was unaffected by exposing isopods to different light anti temperature regimes. In a group of infected isopods kept at 4 degrees C, refuge use decreased from November to May indicating that reduced hiding in spring develops during winter. Keeping isopods at 16 degrees C instead of 4 degrees C resulted in higher mortality but not accelerated changes in host behaviour. Our results suggest that changes in host and/or parasite age, not environmental conditions, underlie the seasonal alteration of host behaviour, but further work is necessary to determine if this is an adaptive parasite strategy to be transmitted in a particular season.",CAMBRIDGE UNIV PRESS,42,"32 AVENUE OF THE AMERICAS, NEW YORK, NY 10013-2473 USA",NEW YORK,12.0,404NB,"Benesh, D. P.; Hasu, T.; Seppaelae, O.; Valtonen, E. T.",15.0,14.0,Parasitology,PARASITOLOGY,Parasitology,10.1017/S0031182008005271,"Benesh, DP (corresponding author), Max Planck Inst Evolutionary Biol, Dept Evolutionary Ecol, August Thienemann Str 2, D-24306 Plon, Germany.",ISOPOD ASELLUS-AQUATICUS; LARVAL LIFE-HISTORY; PERCA-FLUVIATILIS L; LUCII ACANTHOCEPHALA; POPULATION BIOLOGY; GROWTH STRATEGIES; GAMMARUS-PULEX; PARASITE; PREDATION; BEHAVIOR,benesh@evolbio.mpg.de,"Benesh, Daniel/0000-0002-4572-9546; Seppala, Otto/0000-0001-7902-3069","Benesh, Daniel/M-8998-2019",19091152.0,,Biological Interactions Graduate School at the University of Turku (D.P.B.); Finnish Cultural Foundation (T.H.)Finnish Cultural Foundation; Academy of Finland (O.S.)Academy of Finland,"We gratefully acknowledge financial support from the Biological Interactions Graduate School at the University of Turku (D.P.B.), the Finnish Cultural Foundation (T.H.) and the Academy of Finland (O.S.).","Green Published, Green Accepted",,,,,,,,,,,,,,,,,,,,,,,
Article,APPLIED GEOCHEMISTRY,2021-04-13,WOS:000262736900008,20,0,"Sako, A; Lopes, L; Roychoudhury, AN",J,English,"Adsorption and surface complexation modeling of palladium, rhodium and platinum in surficial semi-arid soils and sediment",2009.0,Geochemistry & Geophysics,24,0883-2927,1,JAN,86,95,,"[Sako, Aboubakar; Lopes, Lidia; Roychoudhury, Alakendra N.] Univ Stellenbosch, Dept Geol Geog & Environm Studies, ZA-7602 Matieland, South Africa","Sorption isotherms, time-dependent adsorption and surface complexation modeling studies were used to investigate the post-depositional mobility of three of the platinum group-elements (Pd, Rh, and Pt) in semi-arid soil and sediment samples with varying surface properties. The acidity constants (LogK(a1) and LogK(a2)), optimized from batch titration data, ranged from 4.69 to 5.34 for LogK(a1) and from -6.51 to -7.61 for Log K-a2, suggesting the occurrence of both protonation and deprotonation reactions on the solid surfaces. Partition coefficients and removal rates of the metals had a general trend of Pd > Pt > Rh. The sediment sample, with the highest clay content and exchangeable cation concentrations, also had the highest affinity for the metals. The times required for sediment to adsorb 63% of the metals were 2.63 h. 4.08 h and 10.64 h for Pd, Pt and Rh, respectively. The FITEQL program successfully optimized the conditional binding constants of the metals on the solids from batch adsorption data. The constants decreased in the order of Pd > Rh > Pt, which was consistent with the observed high affinity of the solids for Pd. The modeling results also showed that aqueous Pd was the least sensitive to pH followed by Rh and Pt. However, metal adsorption below the points of zero net proton charges (ca. pH 6.7) is attributable to the involvement of permanent negatively charged binding sites in the adsorption process. Notably, partition coefficients, removal rates and conditional binding constants all showed a high affinity of Pd for the solids. A similarity between the model outputs and the batch adsorption data indicates the suitability of the model for describing the mobility and retention of the three metals in semi-arid soils and sediments. (C) 2008 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,64,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,10.0,398MT,"Sako, Aboubakar; Lopes, Lidia; Roychoudhury, Alakendra N.",14.0,13.0,Geochemistry & Geophysics,APPL GEOCHEM,Appl. Geochem.,10.1016/j.apgeochem.2008.11.005,"Roychoudhury, AN (corresponding author), Univ Stellenbosch, Dept Geol Geog & Environm Studies, Private Bag 11, ZA-7602 Matieland, South Africa.",ISOPOD ASELLUS-AQUATICUS; GROUP ELEMENTS; HEAVY-METALS; COMPETITIVE ADSORPTION; TROPICAL SOILS; RIVER SEDIMENT; TRACE-ELEMENTS; ULVA-LACTUCA; CHARGE; WATER,roy@sun.ac.za,"Roychoudhury, Alakendra/0000-0002-5627-8891","Sako, Aboubakar/AAO-2382-2020",,,"NRF [44429, 47070]",This project was supported by NRF focus area Grants to AR (UID Nos. 44429 and 47070). The authors are grateful to Prof M. Tredox for her input to initial project concept. Comments from Dr. D. Stuben and an anonymous reviewer helped improve this manuscript. This is AEON Publication No. 55.,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,INTERNATIONAL REVIEW OF HYDROBIOLOGY,2021-04-13,WOS:000269832100011,7,0,"Assmann, C; von Elert, E",J,English,The Impact of Fungal Extracts on Leaf Litter on the Food Preference of Gammarus roeselii,2009.0,Marine & Freshwater Biology,94,1434-2944,4,,484,496,fungi; Pythium sp.; leaf shredder; food selection; organic solvent,"[Assmann, Christine] Univ Konstanz, Limnol Inst, D-78464 Constance, Germany; [von Elert, Eric] Univ Cologne, Inst Zool, D-50923 Cologne, Germany","We investigated the effect of methanol and methanol/methylene chloride extracts of the oomycete Pythium sp. JN I-b and of the fungi Ascomycete sp. PVSo8, Fusarium sporotrichoides, and Cylindrocarpon sp. 94-2057 on the food preference of Gammarus roeselii. The preference for leaf discs coated with these extracts compared to uncoated leaf discs was tested in food-choice assays. Methanol extracts of all strains repelled G. roeselii, and the effect of the extract concentration on relative consumption was strain specific. The repellent effect of these extracts, especially of extracts of Cylindrocarpon sp., decreased when the fungi were grown on leaf extract medium as opposed to synthetic medium containing sucrose. None of the methanol/methylene chloride extracts affected the food preference of the gammarid. We conclude that biologically active compounds were extracted from fungi and an oomycete were soluble in methanol but not in methanol/methylene chloride. Only repellent activity was observed with the extracts, and relative ratios of repellents and attractants might determine the consumption of fungi by G. roeselii.",WILEY-V C H VERLAG GMBH,30,"PO BOX 10 11 61, D-69451 WEINHEIM, GERMANY",WEINHEIM,13.0,494RD,"Assmann, Christine; von Elert, Eric",5.0,5.0,Marine & Freshwater Biology,INT REV HYDROBIOL,Int. Rev. Hydrobiol.,10.1002/iroh.200811160,"Assmann, C (corresponding author), Univ Konstanz, Limnol Inst, Mainaustr 252, D-78464 Constance, Germany.",ASELLUS-AQUATICUS L; STREAM INVERTEBRATES; COMPARATIVE ECOLOGY; PULEX L,christine.assmann@uni-konstanz.de,"von Elert, Eric/0000-0001-7758-716X","von Elert, Eric/S-1666-2018",,,,,,5th Plant Litter Processing in Freshwaters Conference,,"JUN, 2008","Coimbra, PORTUGAL",,,,,,,,,,,,,,,,,,,
Article,TURKISH JOURNAL OF ZOOLOGY,2021-04-13,WOS:000263384100007,2,0,"Ozbek, M; Balik, S; Topkara, ET",J,English,"Contribution to the Knowledge on the Distribution of Malacostraca (Crustacea) Species of Central and Southern Anatolia, with Some Ecological Notes",2009.0,Zoology,33,1300-0179,1,,47,55,Freshwater; Amphipoda; Decapoda; Isopoda; distribution; Turkey,"[Oezbek, Murat; Balik, Sueleyman; Topkara, Esat T.] Ege Univ, Fac Fisheries, Sect Hydrobiol, TR-35100 Izmir, Turkey","In order to contribute to the knowledge on the distribution of Malacostraca (Crustacea) species inhabiting freshwaters of central and southern parts of Anatolia, Turkey, sampling was performed at 69 stations between 29 May and 4 June 2006 and between 19 and 25 June 2006. Malacostraca specimens were found at 26 out of the 69 stations and were represented by 11 taxa (Gammarus agrarius, Gammarus argaeus, Gammarus anatoliensis, Gammarus balcanicus, Gammarus mladeni, Gammarus pseudosyriacus, Echinogammarus antalyae, Asellus aquaticus, Palaemonetes antennarius, Atyaepyra desmaresti orientalis, and Astacus leptodactylus). The zoogeographical distribution and ecology of the determined taxa are presented herein.",TUBITAK SCIENTIFIC & TECHNICAL RESEARCH COUNCIL TURKEY,17,"ATATURK BULVARI NO 221, KAVAKLIDERE, ANKARA, 00000, TURKEY",ANKARA,9.0,407SH,"Oezbek, Murat; Balik, Sueleyman; Topkara, Esat T.",5.0,4.0,Zoology,TURK J ZOOL,Turk. J. Zool.,,"Ozbek, M (corresponding author), Ege Univ, Fac Fisheries, Sect Hydrobiol, TR-35100 Izmir, Turkey.",ADJACENT REGIONS; ASIA CRUSTACEA; NORTH-AFRICA; AMPHIPODA; EUROPE,ozbekm71@yahoo.com,"Ozbek, Murat/0000-0003-4607-3507; Orhan, Kaan/0000-0001-6768-0176","Ozbek, Murat/ABB-5545-2020; Orhan, Kaan/I-4026-2019",,1303-6114,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ZOOLOGISCHER ANZEIGER,2021-04-13,WOS:000266787300004,9,0,"Verovnik, R; Prevorcnik, S; Jugovic, J",J,English,"Description of a neotype for Asellus aquaticus Linne, 1758 (Crustacea: Isopoda: Asellidae), with description of a new subterranean Asellus species from Europe",2009.0,Zoology,248,0044-5231,2,,101,118,Asellidae; Asellus aquaticus; Neotype; Asellus kosswigi sp n.; Speciation; Phylogeny; Morphology; Troglobiont,"[Verovnik, Rudi; Prevorcnik, Simona; Jugovic, Jure] Univ Ljubljana, Biotech Fac, Dept Biol, Ljubljana 1000, Slovenia","Asellus aquaticus is one of the most common and well-studied freshwater macroinvertebrates in Europe, but its current taxonomic description is inadequate. Therefore, a neotype is designated and described to allow a comparison with a newly described and illustrated species, Asellus kossivigi sp. n. While several troglomorphic Asellus species are known from Japan, this is the first subterranean species of the genus in Europe. It is morphologically, as well as genetically, distinct from all other, local, surface and subterranean populations. Its species status is confirmed by its syntopic occurrence with Asellus aquaticus without any sign of gene flow. (C) 2009 Elsevier GmbH. All rights reserved.","ELSEVIER GMBH, URBAN & FISCHER VERLAG",42,"OFFICE JENA, P O BOX 100537, 07705 JENA, GERMANY",JENA,18.0,455SZ,"Verovnik, Rudi; Prevorcnik, Simona; Jugovic, Jure",12.0,11.0,Zoology,ZOOL ANZ,Zool. Anz.,10.1016/j.jcz.2009.03.001,"Verovnik, R (corresponding author), Univ Ljubljana, Biotech Fac, Dept Biol, Vecna Pot 111, Ljubljana 1000, Slovenia.",PROASELLUS-COXALIS; TOXIC INFLUENCES; POPULATIONS; SYSTEMATICS; POLLUTION; GAMMARUS; SURFACE,rudi.verovnik@bf.uni-lj.si,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000261877900058,68,1,"De Jonge, M; de Vijuer, BV; Blust, R; Bervoets, L",J,English,Responses of aquatic organisms to metal pollution in a lowland river in Flanders: A comparison of diatoms and macroinvertebrates,2008.0,Environmental Sciences & Ecology,407,0048-9697,1,DEC 15,615,629,Macroinvertebrates; Diatoms; Metal pollution; Biotic indices; Redundancy analysis,"[De Jonge, Maarten; Blust, Ronny; Bervoets, Lieven] Univ Antwerp, Ecophysiol Biochem & Toxicol Grp, Dept Biol, B-2020 Antwerp, Belgium; [de Vijuer, Batt Van] Natl Bot Garden Belgium, Dept Bryophytes & Thallophytes, B-1860 Meise, Belgium","The role of macroinvertebrates and diatoms as indicator for metal pollution was investigated by assessing both biota along a metal gradient in the Belgian river the Dommel. Macroinvertebrates and diatoms were sampled in summer and winter and physical-chemical characteristics of the water were measured at four different sample periods and related to sediment characteristics. Although metal concentrations, except cadmium, in the water nowhere exceeded water quality standards, high metal concentrations were measured in the sediment, indicating historical contamination of the Dommel. At the sites that were situated downstream of the pollution source, high levels of conductivity and chloride were measured in the water. Redundancy Analysis (RDA) indicated pH, phosphate and zinc as the significant environmental variables explaining each respectively 7.7%, 11.6% and 22.6% of the macroinvertebrate community composition. Two clusters could be separated, with Gammarus pulex, Leptocerus interruptus, Baetis rhodani and Clown dipterum associated with low zinc concentrations and Tubificidae, Asellus aquaticus, Erpobdella sp. and Chironomus thummi-plumosus associated with higher zinc concentrations. Ammonium (10.6%), conductivity (16.5%), chloride (11.4%) and zinc (5.9%) turned out to be significant variables explaining the diatom community structure. Based on physical-chemical differences and species composition, three different groups could be separated. With this Tabellaria flocculosa and Fragilaria capucina var. rumpens were associated with low metal concentrations, Gomphonema paruulum and Nitzschia palea with elevated concentrations and Eolimna minima and Sellophora seminulum with high zinc concentrations. In conclusion, the diatom community best reflected the metal gradient. With regard to water quality indices, those based on macroinvertebrates best followed the metal pollution gradient and were most strongly correlated with physical-chemical variables of water and sediment. This study indicated that to assess the effect of metal pollution in lowland rivers, the combined use of macroinvertebrates and diatoms is more appropriate than the use of both biota separately. (C) 2008 Elsevier B.V. All rights reserved.",ELSEVIER SCIENCE BV,47,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,15.0,386IW,"De Jonge, Maarten; de Vijuer, Batt Van; Blust, Ronny; Bervoets, Lieven",82.0,76.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/j.scitotenv.2008.07.020,"De Jonge, M (corresponding author), Univ Antwerp, Ecophysiol Biochem & Toxicol Grp, Dept Biol, Groenenborgerlaan 171, B-2020 Antwerp, Belgium.",CHIRONOMUS-RIPARIUS DIPTERA; BELGIAN BIOTIC INDEX; WATER-QUALITY; ADAPTED POPULATIONS; HEAVY-METALS; COMMUNITIES; HISTORY; CADMIUM; STREAMS; INVERTEBRATES,maarten.dejonge@ua.ac.be,,"Bervoets, Lieven/E-5012-2015",18778849.0,1879-1026,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOSYSTEMS,2021-04-13,WOS:000260510000008,18,1,"Gyllstrom, M; Lakowitz, T; Bronmark, C; Hansson, LA",J,English,"Bioturbation as Driver of Zooplankton Recruitment, Biodiversity and Community Composition in Aquatic Ecosystems",2008.0,Environmental Sciences & Ecology,11,1432-9840,7,NOV,1120,1132,benthic-pelagic coupling; life-history; habitat shifts; recruitment; zooplankton; egg-bank; bioturbation; biodiversity,"[Gyllstrom, Mikael; Lakowitz, Thomas; Bronmark, Christer; Hansson, Lars-Anders] Lund Univ, Dept Ecol Limnol, S-22362 Lund, Sweden","In an experimental study we assessed if benthic bioturbating invertebrates affect the recruitment (hatching) of zooplankton from the sediment, and if this effect persists as differences in the zooplankton community in the water column, that is, if bioturbation quantitatively stimulates benthic-pelagic coupling. We investigated the effects of four different benthic invertebrates (Asellus aquaticus, Chironomus plumosus, Tubifex tubifex in the presence or absence of the predator Sialis lutaria). In total, 45 zooplankton taxa hatched from the sediment and the hatching success of some of these was dependent on the species identity of the bioturbating invertebrate. The predator Sialis reduced the abundance of all three invertebrate species, but tended to positively influence the zooplankton recruitment rates, possibly through increasing the activity of the bioturbating invertebrates. The most striking effect of bioturbation on the hatching and pelagic zooplankton community properties was that, on average, 11% more species hatched in the Asellus treatment than in any other treatment. This was also mirrored in the zooplankton water column community where, on average, 7% more species established a viable population in treatments with Asellus as bioturbator. In a complementary field survey, Asellus was more common in littoral than in profundal sediments. Because Asellus strongly affected recruitment of zooplankton in our experiment, we argue that bioturbation may partly explain why recruitment of resting stages of both phyto- and zooplankton is generally higher in littoral than in profundal areas.",SPRINGER,45,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,13.0,366UX,"Gyllstrom, Mikael; Lakowitz, Thomas; Bronmark, Christer; Hansson, Lars-Anders",8.0,8.0,Ecology,ECOSYSTEMS,Ecosystems,10.1007/s10021-008-9183-7,"Hansson, LA (corresponding author), Lund Univ, Dept Ecol Limnol, Ecol Bldg, S-22362 Lund, Sweden.",FRESH-WATER ZOOPLANKTON; TOP-DOWN CONTROL; LAKE-SEDIMENTS; EUTROPHIC LAKE; CHIRONOMUS-PLUMOSUS; ALGAL RECRUITMENT; EGG BANKS; FOOD WEBS; PATTERNS; DYNAMICS,lars-anders.hansson@limnol.lu.se,"Hansson, Lars-Anders/0000-0002-3035-1317",,,,"Swedish Research Council (VR)Swedish Research Council; Swedish Research Council for Environment, Agricultural Sciences and Spatial Planning (FORMAS)Swedish Research Council Formas","The study was financed by grants from Swedish Research Council (VR) and the Swedish Research Council for Environment, Agricultural Sciences and Spatial Planning (FORMAS).",Other Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000258402800014,36,1,"Albarino, R; Villanueva, VD; Canhoto, C",J,English,The effect of sunlight on leaf litter quality reduces growth of the shredder Klapopteryx kuscheli,2008.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,53,0046-5070,9,SEP,1881,1889,forested stream; fungi; leaf biofilm; sunlight-detritus pathways,"[Albarino, Ricardo; Villanueva, Veronica Diaz] Univ Nacl Comahue, Lab Limnol, CONICET, INIBIOMA, RA-8400 San Carlos De Bariloche, Rio Negro, Argentina; [Canhoto, Cristina] Univ Coimbra, IMAR, Coimbra, Portugal; [Canhoto, Cristina] Univ Coimbra, Dept Zool, Coimbra, Portugal","1. The direct effect of sunlight on the conditioning, breakdown and incorporation of leaf litter in stream food webs has not yet been considered. The aim here was to evaluate the effects of light intensity on the colonization of leaf litter by microorganisms and its resulting quality as food for the stonefly shredder Klapopteryx kuscheli. 2. Leaf litter was conditioned for 2 months in an open reach of a second-order stream in litter bags either exposed to or shaded from direct sunlight. Subsequently, we performed laboratory experiments to test larval consumption, growth, growth efficiency and feeding preference fed on both leaf litter treatments. 3. Leaf litter in the unshaded treatment had three times more chlorophyll-a (Chl-a) than that in the shaded treatment, 50% lower fungal biomass and similar bacterial abundance. Although larvae did not prefer either food and fed at the same rate on both leaf litter treatments, they grew twice as fast on the shade-conditioned leaves and attained a two-fold higher growth efficiency. 4. Sunlight can have significant effects on detritus-based food webs. Riparian modification induced by human activities in forested catchments increases the potential for sunlight to influence detritus dynamics.",WILEY,56,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,336YN,"Albarino, Ricardo; Villanueva, Veronica Diaz; Canhoto, Cristina",25.0,24.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2008.02016.x,"Albarino, R (corresponding author), Univ Nacl Comahue, Lab Limnol, CONICET, INIBIOMA, Quintral 1250, RA-8400 San Carlos De Bariloche, Rio Negro, Argentina.",PLANT LITTER; STREAM PERIPHYTON; ASELLUS-AQUATICUS; GAMMARUS-PULEX; DECOMPOSITION; PLECOPTERA; BACTERIA; FUNGI; DIET; INVERTEBRATES,ralbarin@crub.uncoma.edu.ar,"Canhoto, Cristina/0000-0003-3343-8757","Canhoto, Cristina/M-4211-2014",,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000257712600004,10,0,"Kreuter, K; Baier, B; Assmann, C; Steidle, JLM",J,English,Prey location and prey choice by the freshwater leech Erpobdella octoculata using foraging kairomones,2008.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,53,0046-5070,8,AUG,1524,1530,amino acids; Asellus aquaticus; Chironomus sp.; infochemicals; Tubifex sp.,"[Kreuter, Kirsten; Baier, Beate; Steidle, Johannes L. M.] Univ Hohenheim, Inst Zool, D-70593 Stuttgart, Germany; [Assmann, Christine] Univ Konstanz, Limnol Inst, Fachbereich Biol, Constance, Germany","1. The freshwater leech, Erpobdella octoculata, is a generalist predator feeding on prey organisms such as Tubifex spp., Chironomus spp. and Asellus aquaticus. Using different experimental designs, we studied the use of foraging kairomones by the leeches for prey location. 2. Leeches were attracted to living as well as to freshly killed larvae of Chironomus sp., to Tubifex sp., and to A. aquaticus offered in Petri dishes covered with gauze. The leeches also reacted to an extract of macerated Tubifex sp. presented in agar. 3. Using ion exchange chromatography, the presence of histidine and glutamic acid was demonstrated in water contaminated by living larvae of Chironomus sp. and Tubifex sp. Agar blocks containing a synthetic mixture of these compounds at concentrations above 5 mg mL(-1) were attractive to the leeches. 4. Choice tests showed that leeches preferred chemical signals from Tubifex sp. over larvae of Chironomus sp. No difference was found between chemicals from Tubifex sp. and A. aquaticus, and A. aquaticus and larvae of Chironomus sp. 5. The results demonstrate that E. octoculata uses specific foraging kairomones in searching for prey and indicate that amino acids serve as foraging kairomones.",WILEY,36,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,7.0,327EO,"Kreuter, Kirsten; Baier, Beate; Assmann, Christine; Steidle, Johannes L. M.",5.0,5.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2008.01982.x,"Steidle, JLM (corresponding author), Univ Hohenheim, Inst Zool, Fachgebiet Tierokol 220C, D-70593 Stuttgart, Germany.",FEEDING-BEHAVIOR; INFOCHEMICAL USE; SEARCH BEHAVIOR; AMINO-ACIDS; TERMINOLOGY; ATTRACTION; STIMULANTS; EXTRACTS; MARINE,jsteidle@uni-hohenheim.de,,,,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES,2021-04-13,WOS:000256387500004,30,0,"Seppala, O; Valtonen, ET; Benesh, DP",J,English,Host manipulation by parasites in the world of dead-end predators: adaptation to enhance transmission?,2008.0,Life Sciences & Biomedicine - Other Topics; Environmental Sciences & Ecology; Evolutionary Biology,275,0962-8452,1643,JUL 22,1611,1615,parasite-host interactions; host phenotype; non-host predation; Acanthocephala; Acanthocephalus lucii; Asellus aquaticus,"[Seppaelae, Otto] EAWAG, Dept Aquat Ecol ECO, CH-8600 Dubendorf, Switzerland; [Seppaelae, Otto] ETH, Inst Integrat Biol IBZ, CH-8092 Zurich, Switzerland; [Valtonen, E. Tellervo; Benesh, Daniel P.] Univ Jyvaskyla, Dept Biol & Environm Sci, Jyvaskyla 40014, Finland; [Benesh, Daniel P.] Max Planck Inst Evolut Biol, Dept Evolut Ecol, D-24306 Plon, Germany","Trophically transmitted parasites often alter their intermediate host's phenotype, thereby predisposing the hosts to increased predation. This is generally considered a parasite strategy evolved to enhance transmission to the next hosts. However, the adaptive value of host manipulation is not clear as it may be associated with costs, such as increased susceptibility to predators that are unsuitable next hosts for the parasites. We examined the ratio between the benefits and costs of host manipulation for transmission success of Acanthocephalus lucii (Acanthocephala), a parasite that alters the hiding behaviour and pigmentation of its isopod hosts. We experimentally compared the susceptibility of infected and uninfected isopods to predation by perch (Perca fluvialis; definitive host of the parasite) and dragonfly larvae (dead end). We found that the parasite predisposed the isopods to predation by both predators. However, the increased predation vulnerability of the infected isopods was higher towards perch. This suggests that, despite the costs due to non-host predation, host manipulation may still be advantageous for the parasite.",ROYAL SOC,34,"6-9 CARLTON HOUSE TERRACE, LONDON SW1Y 5AG, ENGLAND",LONDON,5.0,308KD,"Seppaelae, Otto; Valtonen, E. Tellervo; Benesh, Daniel P.",42.0,42.0,Biology; Ecology; Evolutionary Biology,P ROY SOC B-BIOL SCI,Proc. R. Soc. B-Biol. Sci.,10.1098/rspb.2008.0152,"Seppala, O (corresponding author), EAWAG, Dept Aquat Ecol ECO, Uberlandstr 133,POB 611, CH-8600 Dubendorf, Switzerland.",ACANTHOCEPHALUS-LUCII ACANTHOCEPHALA; ISOPOD ASELLUS-AQUATICUS; FRESH-WATER SNAIL; POPULATION BIOLOGY; ALTERED BEHAVIOR; FISH INTERACTION; LIFE-HISTORY; EYE FLUKE; SUSCEPTIBILITY; ECHINORHYNCHIDAE,otto.seppaelae@eawag.ch,"Benesh, Daniel/0000-0002-4572-9546; Seppala, Otto/0000-0001-7902-3069","Benesh, Daniel/M-8998-2019",18430644.0,,,,Green Published,,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONAL JOURNAL FOR PARASITOLOGY,2021-04-13,WOS:000255538100007,52,1,"Hernandez, AD; Sukhdeo, MVK",J,English,Parasite effects on isopod feeding rates can alter the host's functional role in a natural stream ecosystem,2008.0,Parasitology,38,0020-7519,6,MAY,683,690,Acanthocephalus tahlequahensis; behaviour modification; Caecidotea communis; detritus; energy flow; intermediate host; parasitism; seasonality,"[Hernandez, Alexander D.] Rutgers State Univ, Dept Ecol Evolut & Nat Resources, New Brunswick, NJ 08901 USA; Rutgers State Univ, Grad Program Ecol & Evolut, New Brunswick, NJ 08901 USA","Changes to host behaviour as a consequence of infection are common in many parasite-host associations, but their effects on the functional role hosts play within ecosystems are rarely quantified. This study reports that helminth parasites significantly decrease consumption of detritus by their isopod hosts in laboratory experiments. Natural host and parasite densities across eight contiguous seasons were used to estimate effects on the amount of stream detritus-energy processed. Extrapolations using mass-specific processing rates from laboratory results to field patterns suggest that the effects of the parasites occur year round but the greatest impact on the amount of detritus processed by isopods occurs in the autumn when the bulk of leaf detritus enters the stream, and when parasite prevalence in the isopod population is high. Parasites have a lesser impact on the amount of detritus processed in spring and summer when isopods are most abundant, when parasite prevalence is not high, and when fish predation on isopods is high. These results support the idea that parasites can affect the availability of resources critical to other species by altering behaviours related to the functional role hosts play in ecosystems, and suggest that seasonality may be an important factor to consider in the dynamics of these parasite-host interactions. (c) 2007 Australian Society for Parasitology Inc. Published by Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,52,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,8.0,296JA,"Hernandez, Alexander D.; Sukhdeo, Michael V. K.",34.0,34.0,Parasitology,INT J PARASITOL,Int. J. Parasit.,10.1016/j.ijpara.2007.09.008,"Hernandez, AD (corresponding author), Kyoto Univ, Primate Res Inst, Inuyama, Aichi 4848506, Japan.",AMPHIPOD GAMMARUS-PULEX; FRESH-WATER ECOSYSTEMS; COMMUNITY STRUCTURE; GEOMORPHIC AGENTS; ASELLUS-AQUATICUS; PROTEIN-SYNTHESIS; DYNAMIC ACTION; LIFE-HISTORY; BODY SIZE; BEHAVIOR,hernandez@pri.kyoto-u.ac.jp,"Hernandez, Alexander/0000-0001-8708-3774","Hernandez, Alexander/E-8705-2010",17980880.0,1879-0135,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ANIMAL ECOLOGY,2021-04-13,WOS:000254990300009,59,0,"McKie, BG; Woodward, G; Hladyz, S; Nistorescu, M; Preda, E; Popescu, C; Giller, PS; Malmqvist, B",J,English,"Ecosystem functioning in stream assemblages from different regions: contrasting responses to variation in detritivore richness, evenness and density",2008.0,Environmental Sciences & Ecology; Zoology,77,0021-8790,3,MAY,495,504,functional redundancy; intraspecific facilitation; metabolic scaling; shredders; trait-independent,"[McKie, B. G.; Malmqvist, B.] Umea Univ, Dept Ecol & Environm Sci, SE-90187 Umea, Sweden; [Woodward, G.; Giller, P. S.] Univ Coll, Cork, Ireland; [Woodward, G.; Hladyz, S.] Queen Mary Univ London, Sch Biol & Chem Sci, London, England; [Nistorescu, M.; Preda, E.; Popescu, C.] Univ Bucharest, Dept Syst Ecol, Bucharest, Romania","The diversity of species traits in a biological assemblage varies not only with species richness, but also with species evenness and organism density, which together influence the concentration of traits within functional guilds. Potential trait diversity at local scales is also constrained by the regional species pool. Implications of such variation for spatio-temporal variability in biodiversity-ecosystem functioning relationships are likely to be complex, but are poorly understood. In microcosm experiments conducted at laboratories in Sweden, Ireland and Romania, we investigated effects of species richness, evenness and density of stream-living detritivores on two related processes: detritivore leaf-processing efficiency (LPE) and growth. Assemblage composition varied among laboratories: one taxonomic order (Plecoptera) was studied in Sweden, whereas two orders, encompassing wider trait variation, were studied in Romania (Trichoptera and Plecoptera) and Ireland (Trichoptera and Isopoda). Relationships between density and both LPE and growth ranged from negative to positive across the study species, highlighting the potential for density-dependent variation in process rates to alter ecosystem functioning, but indicating that such effects depend on species identity. LPE varied with species diversity in the two more heterogeneous assemblages, but whereas LPE in the Romanian study was generally enhanced as richness increased, LPE in the Irish study increased only in less-even polycultures dominated by particular species. Transgressive overyielding was detected in the Irish experiment, indicating complementary resource use and/or facilitation (complementarity). These mechanisms could not be distinguished from the selection effect in the Romanian study. Growth was elevated in Romanian species mixtures, reflecting positive complementarity, but lower than expected growth in some Swedish mixtures was associated with negative complementarity, indicating interspecific interference competition. Our results emphasize the potential importance of detritivore diversity for stream ecosystem functioning, but both the effects of diversity on the studied processes, and the mechanisms underlying those effects, were specific to each assemblage and process. Such variability highlights challenges in generalizing impacts of diversity change for functional integrity in streams and other ecosystems in which the occurrence of important species traits fluctuates over relatively small spatio-temporal scales.",WILEY,51,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,288MK,"McKie, B. G.; Woodward, G.; Hladyz, S.; Nistorescu, M.; Preda, E.; Popescu, C.; Giller, P. S.; Malmqvist, B.",88.0,86.0,Ecology; Zoology,J ANIM ECOL,J. Anim. Ecol.,10.1111/j.1365-2656.2008.01357.x,"McKie, BG (corresponding author), Umea Univ, Dept Ecol & Environm Sci, SE-90187 Umea, Sweden.",SPECIES-RICHNESS; ASELLUS-AQUATICUS; BIODIVERSITY; GROWTH; DIVERSITY; SELECTION; COMPLEMENTARITY; DECOMPOSITION; INTERFERENCE; PRODUCTIVITY,brendan.mckie@emg.umu.se,"Giller, Paul/0000-0002-0641-7152; Popescu, Cristina/0000-0002-2033-0416; McKie, Brendan/0000-0002-1796-9497","McKie, Brendan G/C-9376-2013; Giller, Paul/AAB-1187-2021; Popescu, Cristina/C-9921-2015; Preda, Elena/D-1109-2013; Woodward, Guy/G-7103-2011",18298521.0,1365-2656,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY,2021-04-13,WOS:000256125000008,18,0,"Benesh, DP; Valtonen, ET; Seppala, O",J,English,Multidimensionality and intra-individual variation in host manipulation by an acanthocephalan,2008.0,Parasitology,135,0031-1820,5,APR,617,626,altered host phenotype; plastic/flexible behaviour; repeatability; Asellus aquaticus; Acanthocephala; intermediate host; isopod,"[Benesh, D. P.; Valtonen, E. T.] Univ Jyvaskyla, Dept Biol & Environm Sci, FI-40014 Jyvaskyla, Finland; [Seppaelae, O.] Swiss Fed Inst Aquat Sci & Technol, EAWAG, CH-8600 Dubendorf, Switzerland; [Seppaelae, O.] Swiss Fed Inst Technol, Inst Integrat Biol IBZ, CH-8600 Dubendorf, Switzerland","Trophically-transmitted parasites frequently alter multiple aspects of their host's phenotype. Correlations between modified characteristics may suggest how different traits are mechanistically related, but these potential relationships remain unexplored. We recorded 5 traits from individual isopods infected with an acanthocephalan (Acanthocephalus lucii): hiding, activity, substrate colour preference, body (pereon) coloration, and abdominal (pleon) coloration. Infected isopods hid less and had darker abdominal coloration than uninfected isopods. However, in 3 different experiments measuring hiding behaviour (time-scales of observation: 1 h, 8 h, 8 weeks), these two modified traits were not correlated, suggesting they may arise via independent mechanisms. For the shorter experiments (1 h and 8 h), confidence in this null correlation was undermined by low experimental repeatability, i.e. individuals did not behave similarly in repeated trials of the experiment. However, in the 8-Nveek experiment, hiding behaviour was relatively consistent within individuals, so the null correlation at this scale indicates, less equivocally, that hiding and coloration are unrelated. Furthermore, the difference between the hiding behaviour of infected and uninfected isopods varied over 8 weeks, suggesting that the effect of A. lucii infection on host behaviour changes over time. We emphasize the importance of carefully designed protocols for investigating multidimensionality in host manipulation.",CAMBRIDGE UNIV PRESS,38,"32 AVENUE OF THE AMERICAS, NEW YORK, NY 10013-2473 USA",NEW YORK,10.0,304QW,"Benesh, D. P.; Valtonen, E. T.; Seppaelae, O.",38.0,36.0,Parasitology,PARASITOLOGY,Parasitology,10.1017/S0031182008004216,"Benesh, DP (corresponding author), Max Planck Inst Evolutionary Biol, Dept Evolutionary Ecol, August Thienemann Str 2, D-24306 Plon, Germany.",ISOPOD ASELLUS-AQUATICUS; FRESH-WATER ISOPOD; INTERMEDIATE HOST; LUCII ACANTHOCEPHALA; GAMMARUS-PULEX; LIFE-HISTORY; PARASITE; BEHAVIOR; ECHINORHYNCHIDAE; PIGMENTATION,benesh@mpil-ploen.mpg.de,"Benesh, Daniel/0000-0002-4572-9546; Seppala, Otto/0000-0001-7902-3069","Benesh, Daniel/M-8998-2019",18294426.0,,,,"Green Published, Green Accepted",,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC ECOLOGY,2021-04-13,WOS:000253197700014,20,0,"Hasu, T; Jokela, J; Valtonen, ET",J,English,Effects of growth factors and water source on laboratory cultures of a northern Asellus aquaticus (Isopoda) population,2008.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,42,1386-2588,1,MAR,141,150,crustacean; offspring; reproduction; survival,"[Hasu, Tiina; Valtonen, E. Tellervo] Univ Jyvaskyla, Dept Biol & Environm Sci, Jyvaskyla 40014, Finland; [Jokela, Jukka] ETH, Swiss Fed Inst Aquat Sci & Technol, Inst Integrat Biol, Dept Aquat Ecol, CH-8600 Dubendorf, Switzerland","We tested whether two vitamin-based supplements, bright light or water from three different sources affected the survival and reproduction of Asellus aquaticus isopods, and the growth and survival of their laboratory-born juveniles. Isopods were sampled from the littoral zone of a lake in November (L:D = 6:18, temp. = 4 degrees C) and brought to laboratory (L:D = 16:8, temp. = 21 degrees C), where they started to breed after 5 weeks. None of the tested nutrient or light treatments significantly affected the time females started to carry the eggs in their marsupia, the duration of marsupial stage, the number of egg bearing females, the proportion of females producing live young, or the offspring growth measured as an increase in length. Generation specific survival effects of nutrient and light treatments were found in the two parent generations. However, the reproductive output of adult isopods measured as the mean number of surviving offspring per reproducing female was drastically reduced in tap water treatment, possibly due to the lethal effects of copper in the water for the newborn offspring. Survival of parent isopods did not differ among the water treatments. The lack of response to the tested growth factor treatments suggests that gut and/or endosymbiotic microbes may have an important role in A. aquaticus nutrition.",SPRINGER,34,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,10.0,263DL,"Hasu, Tiina; Jokela, Jukka; Valtonen, E. Tellervo",2.0,2.0,Ecology; Limnology; Marine & Freshwater Biology,AQUAT ECOL,Aquat. Ecol.,10.1007/s10452-007-9089-z,"Hasu, T (corresponding author), Univ Jyvaskyla, Dept Biol & Environm Sci, PO Box 35, Jyvaskyla 40014, Finland.",GAMMARUS-PULEX; LIFE-HISTORY; DETRITIVOROUS ISOPODS; TROPHIC NICHE; POLLUTION; FUNGI; DIET; ENDOSYMBIONTS; REQUIREMENTS; ADAPTATION,tiihasu@jyu.fi,"Jokela, Jukka/0000-0002-1731-727X",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY C-TOXICOLOGY & PHARMACOLOGY,2021-04-13,WOS:000252840300006,24,1,"Felten, V; Charmantier, G; Charmantier-Daures, M; Aujoulat, F; Garric, J; Geffard, O",J,English,Physiological and behavioural responses of Gammarus pulex exposed to acid stress,2008.0,Biochemistry & Molecular Biology; Endocrinology & Metabolism; Toxicology; Zoology,147,1532-0456,2,MAR,189,197,Gammarus pulex; survival; osmolality; ion loss; ventilation; locomotion; acid stress,"[Felten, V.; Garric, J.; Geffard, O.] CEMAGREF, Lab Ecotoxicol, F-69336 Lyon 09, France; [Charmantier, G.; Charmantier-Daures, M.; Aujoulat, F.] Univ Montpellier 2, Equipe Adaptat Ecophysiol & Ontogenese, UMR 5119 Ecolag, F-34095 Montpellier, France","Physiological and behavioural responses of the acid-sensitive amphipod Gammarus pulex exposed to a wide range of acid conditions (pH 4.1, 5.1, 6.0) under laboratory conditions were investigated. An exposure of 38 h to acid conditions caused significant decreases in survival rate, osmolality, haemolymph Na+ concentration, ventilatory and locomotor activity compared to organisms exposed to a circumneutral medium (pH 7.9). We highlighted the interest of using individual response distribution, since drastic effects can be detected in organisms exposed to pH 6.0, in particular for osmolality: The response can be divided into two groups, unimpacted and impacted organisms. Moreover this representation permitted to evaluate the health level of individual organisms through the determination of threshold values. Significant correlations between mean pH and mean physiological/behavioural responses were observed. The relationships between individual responses permitted not only to compare endpoints, but also to show that affected organisms were impacted by ionoregulation failure, hypoventilation and low locomotor activity. The energetic reallocation in favour of maintenance functions, such as osmoregulation, is discussed. The results of this study indicate that the values of haemolymph Na+ concentration, osmolality and locomotor activity in G. pulex could be effective ecophysiological/behavioural markers to monitor freshwater ecosystems and to assess the health of organisms or populations. (c) 2007 Elsevier Inc. All rights reserved.",ELSEVIER SCIENCE INC,58,"360 PARK AVE SOUTH, NEW YORK, NY 10010-1710 USA",NEW YORK,9.0,258AH,"Felten, V.; Charmantier, G.; Charmantier-Daures, M.; Aujoulat, F.; Garric, J.; Geffard, O.",25.0,24.0,Biochemistry & Molecular Biology; Endocrinology & Metabolism; Toxicology; Zoology,COMP BIOCHEM PHYS C,Comp. Biochem. Physiol. C-Toxicol. Pharmacol.,10.1016/j.cbpc.2007.09.006,"Felten, V (corresponding author), CEMAGREF, Lab Ecotoxicol, 3 Bis Quai Chauveau,CP 220, F-69336 Lyon 09, France.",CHAR SALVELINUS-ALPINUS; LOW ENVIRONMENTAL PH; ASELLUS-AQUATICUS L; SALMO-TRUTTA L; ASTACUS-ASTACUS; BROWN TROUT; LONG-TERM; RESPIRATORY RESPONSES; HEMOLYMPH NA+; WATER,vincent.felten@univ-reims.fr,"Aujoulat, Fabien/0000-0001-6180-6903; Geffard, olivier/0000-0001-7760-4644; FELTEN, Vincent/0000-0003-2601-7225","Charmantier, Guy/ABF-2425-2020",17936078.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000252890800016,14,1,"Gumuliauskaite, S; Arbaciauskas, K",J,English,The impact of the invasive Ponto-Caspian amphipod Pontogammarus robustoides on littoral communities in Lithuanian lakes,2008.0,Marine & Freshwater Biology,599,0018-8158,,MAR,127,134,pontogammarid; diversity; biomass; native; non-native; invertebrates,"[Gumuliauskaite, Simona; Arbaciauskas, Kestutis] Vilnius Univ, Inst Ecol, LT-08412 Vilnius, Lithuania","The intentionally introduced Pontogammarus robustoides is the most successful amphipod invader of Lithuanian inland waters and has become established in large lakes. Its impact on littoral invertebrate communities was studied by comparing similar habitats across lakes that harbour or are devoid of the invader. In habitats where P. robustoides is well established and numerous, it significantly reduces species richness and community diversity. Moderate pontogammarid density in habitats that can sustain the native gammarid Gammarus lacustris, however, revealed no negative impact on diversity metrics. Among the lakes studied, the benthic biomass did not differ in invaded and uninvaded habitats. The biomass of indigenous invertebrates (excluding chironomids, which exhibited high lake-specific biomass variation) was lower in the places with well-established P. robustoides. A detrimental impact was observed upon the native isopod Asellus aquaticus and a negative correlation with most of the higher taxa of native invertebrates. In the invaded lake habitats that favour P. robustoides, a change in community structure and a decrease in diversity up to twofold or more are to be expected.",SPRINGER,14,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,8.0,258SW,"Gumuliauskaite, Simona; Arbaciauskas, Kestutis",20.0,16.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-007-9209-8,"Gumuliauskaite, S (corresponding author), Vilnius Univ, Inst Ecol, Akad St 2, LT-08412 Vilnius, Lithuania.",CRUSTACEA; PREDATION,arbas@ekoi.lt,,,,1573-5117,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THE NORTH AMERICAN BENTHOLOGICAL SOCIETY,2021-04-13,WOS:000253203100010,25,0,"Zuellig, RE; Kashian, DR; Brooks, ML; Kiffney, PM; Clements, WH",J,English,The influence of metal exposure history and ultraviolet-B radiation on benthic communities in Colorado Rocky Mountain streams,2008.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,27,0887-3593,1,MAR,120,134,UVB; metals; macroinvertebrates; tolerance; streams; Colorado,"[Zuellig, Robert E.; Brooks, Marjorie L.; Clements, William H.] Colorado State Univ, Dept Fishery Wildlife & Conservat Biol, Ft Collins, CO 80523 USA; [Kashian, Donna R.] Univ Michigan, CILER, Ann Arbor, MI 48105 USA; [Kiffney, Peter M.] Natl Marine Fisheries Serv, NW Fisheries Sci Ctr, Environm Conservat Div, Mukilteo Biol Field Stn, Washington, DC USA","Interest in understanding the influence of ultraviolet-B (UVB; 280-320 mm) radiation in aquatic ecosystems has increased since the early 1990s. Pollution from historic mining operations coupled with physicochemical characteristics of Rocky Mountain streams that increase exposure of benthic communities to UVB provided an opportunity to examine how UVB interacted with heavy metal contamination to structure stream communities. We integrated a series of UVB addition experiments done in stream microcosms with a large-scale UVB shading experiment to test the hypothesis that effects of UVB were greater on benthic communities from metal-polluted streams than from reference streams. Microcosm experiments involved short-term exposure (7-10 d) of natural benthic macroinvertebrate communities collected from reference and metal-contaminated sites to lamp-generated UVB. In all cases, abundance decreased in UVB-treated streams compared to controls. Moreover, effects of UVB addition were significantly greater on communities from metal-polluted sites than from reference sites. The field experiment involved shading portions of the streambed from UVB for 60 d at 12 streams along a Zn gradient. Median Zn concentration at these sites ranged between 5 and 530 mu g/L, and mean UVB reaching the streambed varied from 6.5 to 29.0 J/cm(2). Results of the field experiment indicated that removal of UVB significantly increased total macroinvertebrate abundance and abundance of grazers, mayflies, caddisflies, Orthocladiinae midges, and the mayfly Baetis bicaudatus compared to controls. Grazer abundance was significantly greater in UVB removal treatments compared to controls but UVB removal had no effect on algal biomass. As with the microcosm experiments, the effects of UVB removal on benthic communities were generally greater at metal-polluted sites than at reference sites. We speculate that the energetic cost of regulating metals might inhibit the ability of some organisms to repair efficiently DNA damaged by UVB exposure. Our results demonstrate that benthic communities in Colorado Rocky Mountain streams are negatively influenced by UVB radiation and that communities subjected to long-term metal exposure are more sensitive to UVB than are reference communities. As a consequence, the effects of increased UVB radiation reaching the earth's surface might be more severe than previously considered in systems receiving multiple stressors.",NORTH AMER BENTHOLOGICAL SOC,79,"1041 NEW HAMSPHIRE STREET, LAWRENCE, KS 66044 USA",LAWRENCE,15.0,263FN,"Zuellig, Robert E.; Kashian, Donna R.; Brooks, Marjorie L.; Kiffney, Peter M.; Clements, William H.",6.0,6.0,Ecology; Marine & Freshwater Biology,J N AM BENTHOL SOC,J. N. Am. Benthol. Soc.,10.1899/07-035.1,"Zuellig, RE (corresponding author), Colorado State Univ, Dept Fishery Wildlife & Conservat Biol, Ft Collins, CO 80523 USA.",POLYCHAETE NEREIS-DIVERSICOLOR; AMBIENT UV-RADIATION; UPPER ARKANSAS RIVER; HEAVY-METALS; MAYFLIES EPHEMEROPTERA; FUNDULUS-HETEROCLITUS; POLLUTED ENVIRONMENT; ASELLUS-AQUATICUS; OZONE DEPLETION; TOLERANCE,rzuellig@usgs.gov; donna.kashian@noaa.gov; brook@uwyo.edu; peter.kiffney@noaa.gov; willc@cnr.colostate.edu,,"Brooks, Marjorie/M-5692-2014; Clements, William/N-2686-2016",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000252500000027,113,1,"Beketov, MA; Liess, M",J,English,Acute and delayed effects of the neonicotinoid insecticide thiacloprid on seven freshwater arthropods,2008.0,Environmental Sciences & Ecology; Toxicology,27,0730-7268,2,FEB,461,470,thiacloprid; chloronicotinyls; freshwater invertebrates; delayed effects; risk assessment,"[Beketov, Mikhail A.; Liess, Matthias] UFZ Helmholtz Ctr Environm Res, Helmholtz Ctr Environm Res, Dept Syst Ecotoxicol, D-04318 Leipzig, Germany","Ecotoxicological risk assessment of contaminants often is based on toxicity tests with continuous-exposure profiles. However, input of many contaminants (e.g., insecticides) to surface waters typically occurs in pulses rather than continuously. Neonicotinoids are a new group of insecticides, and little is known about their toxicity to nontarget freshwater organisms and potential effects on freshwater ecosystems. The aim of the present research was to assess effects of short-term (24-h) exposure to the neonicotinoid insecticide thiacloprid, including a postexposure observation period. A comparison of several freshwater insect and crustacean species showed an increase of sensitivity by three orders of magnitude in the following order: Daphnia magna < Asellus aquaticus = Gammarus pulex < Simpetrum striolatum < Culex pipiens = Notidobia ciliaris = Simulium latigonium, with median lethal concentrations (LC50s) of 4,400, 153, 190, 31.2, 6.78, 5.47, and 5.76 mu g/L, respectively (postexposure observation 11-30 d). Thiacloprid caused delayed lethal and sublethal effects, which were observed after 4 to 12 d following exposure. Reduction in LC50s found when postexposure observation was extended from I d to a longer period (11-30 d) was up to > 50-fold. Hence, delayed effects occurring after short-term exposure should be considered in risk assessment. The 5% hazardous concentration (HC5) of thiacloprid obtained in the present study (0.72 mu g/L) is more than one order of magnitude below the currently predicted worst-case environmental concentrations in surface water. Concerning the selection of test organisms, we observed that the widely employed test organism D. magna is least sensitive among the arthropods tested and that, for neonicotinoid insecticides, an insect like the mosquito C. pipiens would be more suitable for predicting effects on sensitive species.",WILEY-BLACKWELL,43,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,253DX,"Beketov, Mikhail A.; Liess, Matthias",135.0,132.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1897/07-322R.1,"Beketov, MA (corresponding author), UFZ Helmholtz Ctr Environm Res, Helmholtz Ctr Environm Res, Dept Syst Ecotoxicol, Permoserstr 15, D-04318 Leipzig, Germany.",ECOLOGICAL RISK-ASSESSMENT; DAPHNIA-MAGNA; SPECIES SENSITIVITY; TOXICITY BIOASSAYS; FOOD LIMITATION; PULSE EXPOSURE; LIFE-HISTORY; CONTAMINATION; FENVALERATE; ESFENVALERATE,mikhail.beketov@ufz.de,"Liess, Matthias/0000-0002-3321-8909; Serrano, Jose/0000-0002-1565-5216","Beketov, Mikhail/E-1727-2011; Liess, Matthias/A-8582-2009; Serrano, Jose/A-2854-2009",18348641.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000252766500028,18,0,"De Lange, HJ; Van Griethuysen, C; Koelmans, AA",J,English,"Sampling method, storage and pretreatment of sediment affect AVS concentrations with consequences for bioassay responses",2008.0,Environmental Sciences & Ecology,151,0269-7491,1,JAN,243,251,trace metals; AVS; sampling method; storage condition; Asellus,"[De lange, H. J.] Univ Wageningen & Res Ctr, Ctr Ecosyst Studies Alterra, NL-6700 AA Wageningen, Netherlands; [De lange, H. J.; Van Griethuysen, C.; Koelmans, A. A.] Univ Wageningen & Res Ctr, Aquat Ecol Water Qual Management Grp, NL-6700 DD Wageningen, Netherlands","Sediment treatment and sediment storage may alter sediment toxicity, and consequently biotic response. Purpose of our study was to combine these three aspects (treatment-toxicity-biotic response) in one integrated approach. We used Acid Volatile Sulfide (AVS) concentrations as a proxy of the disturbance of the sediment. AVS and Simultaneously Extracted Metal (SEM) concentrations were compared to bioassay responses with the freshwater benthic macroinvertebrate Asellus aquaticus. Storage conditions and sediment treatment affected AVS but not SEM levels. AVS can be used as a proxy for sediment disturbance. The best way to pretreat the sediment for use in a bioassay in order to maintain initial AVS conditions was to sample the sediment with an Ekman grab, immediately store it in ajar without headspace, and freeze it as soon as possible. In a survey using seven different sediments, bioassay responses of A. aquaticus were correlated with SEM and AVS characteristics. (C) 2007 Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,41,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,9.0,256YT,"De lange, H. J.; Van Griethuysen, C.; Koelmans, A. A.",28.0,27.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/j.envpol.2007.01.052,"De Lange, HJ (corresponding author), Univ Wageningen & Res Ctr, Ctr Ecosyst Studies Alterra, POB 47, NL-6700 AA Wageningen, Netherlands.",ACID-VOLATILE SULFIDE; FRESH-WATER SEDIMENTS; FLOODPLAIN LAKE-SEDIMENTS; RHINE-MEUSE DELTA; MACROINVERTEBRATE COMMUNITY; ASELLUS-AQUATICUS; BENTHIC INVERTEBRATES; CHIRONOMUS-RIPARIUS; TRACE-METALS; TOXICITY,marieke.delange@wur.nl,"Koelmans, Albert/0000-0001-7176-4356","Koelmans, Albert A./D-8603-2014",17482732.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FUNDAMENTAL AND APPLIED LIMNOLOGY,2021-04-13,WOS:000262356500006,41,2,"Werner, S; Rothhaupt, KO",J,English,Effects off the invasive Asian clam Corbicula fluminea on benthic macroinvertebrate taxa in laboratory experiments,2008.0,Marine & Freshwater Biology,173,1863-9135,2,,145,152,biodeposition; bioturbation; ecosystem engineering; exotic bivalve; benthos,"[Werner, Stefan; Rothhaupt, Karl-Otto] Univ Konstanz, Limnol Inst, Constance, Germany","The invasive burrowing bivalve Corbicula fluminea has an impact on ecosystern processes and oil organic matter dynamics in sediments. However, little is known about its effect oil benthic communities, especially oil macroinvertebrates. In laboratory experiments, we determined the effect of naturally Occurring densities of C fluminea (1012 ind. m(-2)) on ten macroinvertebrate taxa typical for the littoral zone of Lake Constance: two species of leeches, three species of gastropods, two amphipod species, one isopod, and two taxa of insect larvae (a stonefly and chironomids). We hypothesized that these benthic organisms might prefer C. fluminea over sand in pairwise habitat-choice experiments because Of structural and biotic effects of the bivalves. We distinguished between biotic effects of living infaunal C. fluminea that were either starved (only bioturbation) or fed with algae (biodeposition, bioturbation and nutrient real location), and we tested the importance of their Structural role using C. fluminea valves lying oil sand. No benthic taxa avoided areas with live C.fluminea or their valves. The detritivorous gastropod Lymnaea stagnalis and the amphipod Gammarus roeselii were found in higher numbers in areas with fed C. fluminea than in areas with sand. Starved clams were only preferred over sand by the amphipod Dike rogammarus villosus. The epifaunal taxa Erpobdella octoculata, Glossiphonia complanata (Hirdinea), D. villosus, G. roeselii (Amphipoda), Asellus aquaticus (Isopoda), and Centroptilum luteolum (Ephemeroptera) preferred areas with C fluminea valves to areas with sand. The Crustacean species and the leeches preferred valves over sand more than they preferred fed or starved living clams over sand. C. luteolum was the only taxon that responded differently to C. gastropods and chironomids did not show differences. We conclude fluminea in the three experiments, whereas g, that oil poorly structured sediments, valves of C. fluminea, which increase the surface area and Substrate diversity, could lead to an increase of most epifaunal benthic invertebrates.",E SCHWEIZERBARTSCHE VERLAGS,32,"NAEGELE U OBERMILLER, SCIENCE PUBLISHERS, JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,8.0,393FM,"Werner, Stefan; Rothhaupt, Karl-Otto",16.0,16.0,Limnology; Marine & Freshwater Biology,FUND APPL LIMNOL,Fundam. Appl. Limnol.,10.1127/1863-9135/2008/0173-0145,"Werner, S (corresponding author), Univ Konstanz, Limnol Inst, Constance, Germany.",MUSSEL DREISSENA-POLYMORPHA; FRESH-WATER ECOSYSTEMS; ZEBRA MUSSEL; DIKEROGAMMARUS-VILLOSUS; HABITAT COMPLEXITY; SETTLING JUVENILES; LITTORAL-ZONE; SANDY STREAM; COMMUNITIES; BIVALVES,Stefan.werner@uni-konstanz.de,,,,,Deutsche Forschungsgemeinschaft (DFG)German Research Foundation (DFG) [CRC 454],"We are grateful to John Hesselschwerdt. Marc Hamitou, and our students Adina Renz, Maren Sickinger, Cornelia Kolb, and Frederick von Netzer for their support during sampling of invertebrates, and Marc, Hamitou for his help in the laboratory. We thank Karen A. Brune for editing the manuscript, that further greatly benefited from comments of three anonymous reviewers. Funding for this work, was provided by the Deutsche Forschungsgemeinschaft (DFG) within the Sonderforschungsbereich Bodenseelitoral (CRC 454)",,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000252253300027,20,0,"Wilson, GDF",J,English,Global diversity of Isopod crustaceans (Crustacea; Isopoda) in freshwater,2008.0,Marine & Freshwater Biology,595,0018-8158,,JAN,231,240,Isopoda; Crustacea; Gondwana; Laurasia; diversity feeding; reproduction; habits; fresh water; classification,"Australian Museum, Sydney, NSW 2010, Australia","The isopod crustaceans are diverse both morphologically and in described species numbers. Nearly 950 described species (similar to 9% of all isopods) live in continental waters, and possibly 1,400 species remain undescribed. The high frequency of cryptic species suggests that these figures are underestimates. Several major freshwater taxa have ancient biogeographic patterns dating from the division of the continents into Laurasia (Asellidae, Stenasellidae) and Gondwana (Phreatoicidea, Protojaniridae and Heterias). The suborder Asellota has the most described freshwater species, mostly in the families Asellidae and Stenasellidae. The suborder Phreatoicidea has the largest number of endemic genera. Other primary freshwater taxa have small numbers of described species, although more species are being discovered, especially in the southern hemisphere. The Oniscidea, although primarily terrestrial, has a small number of freshwater species. A diverse group of more derived isopods, the 'Flabellifera' sensu lato has regionally important species richness, such as in the Amazon River. These taxa are transitional between marine and freshwater realms and represent multiple colonisations of continental habitats. Most species of freshwater isopods species and many genera are narrow range endemics. This endemism ensures that human demand for fresh water will place these isopods at an increasing risk of extinction, as has already happened in a few documented cases.",SPRINGER,41,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,10.0,249TS,"Wilson, George D. F.",56.0,54.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-007-9019-z,"Wilson, GDF (corresponding author), Australian Museum, 6 Coll St, Sydney, NSW 2010, Australia.",ASELLUS-AQUATICUS CRUSTACEA; PHYLOGEOGRAPHY; MESAMPHISOPUS; PHREATOICIDEA; POPULATIONS; ALLOZYME; CHILTON,buz.wilson@austmus.gov.au,,,,1573-5117,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ITALIAN JOURNAL OF ZOOLOGY,2021-04-13,WOS:000257051500001,5,0,"Maruzzo, D; Egredzija, M; Minelli, A; Fusco, G",J,English,"Segmental pattern formation following amputation in the flagellum of the second antennae of Asellus aquaticus (Crustacea, Isopoda)",2008.0,Zoology,75,1125-0003,3,,225,231,regeneration; antennal flagellum; development; segmentation,"[Maruzzo, D.; Egredzija, M.; Minelli, A.; Fusco, G.] Univ Padua, Dept Biol, I-35131 Padua, Italy","Regeneration of the second antennae of Asellus aquaticus is described here following amputations along the antennal flagellum. The process involves the frequent resorption (loss of the distalmost joint remained on the amputated antenna) and the regular apicalization of the new terminal article. In the distal part of the flagellum, resorption occurs only when less than 70% of the original article length is left. For amputations performed in the proximal meristematic region, where new articles are normally produced, the new terminal article may also divide, sometimes producing articles with abnormal setal pattern; instead, articles that would normally divide may fail to do so if they are the nearest proximal neighbour of the new terminal article. Outcome of the increased production of new articles from the meristematic region is a regenerated antenna with a number of flagellomeres close to that shown by the undamaged controlateral one. Similarities and differences in respect to the processes occurring after amputation in the antennal peduncle, as well as in other arthropod limbs, are discussed. These differences may help with understanding general properties of the regeneration process, such as the distinction between epimorphosis and morphallaxis and the relationship between normal development and regeneration.",TAYLOR & FRANCIS LTD,22,"2-4 PARK SQUARE, MILTON PARK, ABINGDON OR14 4RN, OXON, ENGLAND",ABINGDON,7.0,317WQ,"Maruzzo, D.; Egredzija, M.; Minelli, A.; Fusco, G.",3.0,2.0,Zoology,ITAL J ZOOL,Ital. J. Zoolog.,10.1080/11250000701885588,"Maruzzo, D (corresponding author), Univ Padua, Dept Biol, Via Ugo Bassi 58-B, I-35131 Padua, Italy.",LIMB REGENERATION; COCKROACH; GROWTH; CRAB,maruzzo@bio.unipd.it,"Minelli, Alessandro/0000-0003-3387-1489; FUSCO, GIUSEPPE/0000-0002-4690-6049",,,1748-5851,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ANNALES ZOOLOGICI FENNICI,2021-04-13,WOS:000252271500004,8,0,"Benesh, DP; Valtonen, ET; Jormalainen, V",J,English,Reduced survival associated with precopulatory mate guarding in male Asellus aquaticus (isopoda),2007.0,Environmental Sciences & Ecology; Zoology,44,0003-455X,6,DEC 19,425,434,,"Max Planck Inst Evolut Biol, Dept Evolut Ecol, D-24306 Plon, Germany; [Jormalainen, Veijo] Univ Turku, Dept Biol, FI-20014 Turku, Finland; [Benesh, Daniel P.; Valtonen, E. Tellervo] Univ Jyvaskyla, Dept Biol & Environm Sci, FI-40014 Jyvaskyla, Finland","Precopulatory mate-guarding in aquatic crustaceans is known to have immediate costs for the guarding male. The extent to which guarding behavior may reduce future reproductive opportunities, however, is less established. We examined the survival and antennae length, suggested to be important in detecting receptive females, in male freshwater isopods (Asellus aquaticus) collected paired or unpaired. Antennae length to body size relationships suggested that large, paired males had broken antennae more commonly than large, unpaired males. Moreover, broken antennae seem to be associated with increased mortality. Males collected paired had lower survival than males collected unpaired, and this reduction in survival was greatest in larger individuals. In pairing trials, males usually attempted pair formation regardless of their size, female size, or previous pairing status. Our results suggest that some costs associated with male guarding behavior may extend beyond the actual guarding episode, though the consequences for mating decisions remain to be determined.",FINNISH ZOOLOGICAL BOTANICAL PUBLISHING BOARD,35,"P O BOX 26, FI-00014 UNIV HELSINKI, FINLAND",UNIV HELSINKI,10.0,250AD,"Benesh, Daniel P.; Valtonen, E. Tellervo; Jormalainen, Veijo",10.0,10.0,Ecology; Zoology,ANN ZOOL FENN,Ann. Zool. Fenn.,,"Benesh, DP (corresponding author), Max Planck Inst Evolut Biol, Dept Evolut Ecol, D-24306 Plon, Germany.",FEMALE RESISTANCE; GAMMARUS-PULEX; INTERSEXUAL CONFLICT; PAIRING SUCCESS; SIZE; DURATION; ANTENNAE; GROWTH; STREAM; COSTS,benesh@mpil-ploen.mpg.de,"Jormalainen, Veijo/0000-0001-6346-2585; Benesh, Daniel/0000-0002-4572-9546","Jormalainen, Veijo/B-2073-2008; Benesh, Daniel/M-8998-2019",,1797-2450,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000249528000027,32,0,"Van den Brink, PJ; Baveco, JM; Verboom, J; Heimbach, F",J,English,An individual-based approach to model spatial population dynamics of invertebrates in aquatic ecosystems after pesticide contamination,2007.0,Environmental Sciences & Ecology; Toxicology,26,0730-7268,10,OCT,2226,2236,individual-based modeling; metapopulation modeling; stress ecology; pesticides; populations,"Univ Wageningen & Res Ctr, NL-6700 AA Wageningen, Netherlands; Univ Wageningen & Res Ctr, Dept Aquat Ecol & Water Qual Management, NL-6700 DD Wageningen, Netherlands; Bayer Crop Sci, D-40789 Monheim, Germany","In the present study we present a population model (Metapopulation model for Assessing Spatial and Temporal Effects of Pesticides [MASTEP]) describing the effects on and recovery of the waterlouse Asellus aquaticus after exposure to a fast-acting, nonpersistent insecticide as a result of spray drift in pond, ditch, and stream scenarios. The model used the spatial and temporal distribution of the exposure in different treatment conditions as an input parameter, A dose-response relation derived from a hypothetical mesocosm study was used to link the exposure with the effects. The modeled landscape was represented is a lattice of 1- by 1-m cells. The model included processes of mortality of A. aquaticus, life history, random walk between cells, density dependence of population regulation, and, in the case of the stream scenario, medium-distance drift of A. aquesticus due to flow. All parameter estimates were based on expert judgment and the results of a thorough review of published information on the ecology of A, aquaticus. In the treated part of the water body, the ditch scenario proved to be the worst-case situation, due to the absence of drift of A. aquaticus. Effects in the pond scenario were smaller because the pond was exposed from one side, allowing migration from the other, less contaminated side. The results of the stream scenario showed the importance of including drift for the population recovery in the 100-m stretch of the stream that was treated. It should be noted, however, that the inclusion of drift had a negligible impact on numbers in the stream as a whole (600 m).",WILEY,38,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,211MN,"Van den Brink, Paul J.; Baveco, J. M. (Hans); Verboom, Jana; Heimbach, Fred",50.0,45.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1897/07-022R.1,"Van den Brink, PJ (corresponding author), Univ Wageningen & Res Ctr, PO Box 47, NL-6700 AA Wageningen, Netherlands.",ISOPOD ASELLUS-AQUATICUS; LIFE-HISTORY; CRUSTACEA; GROWTH; WATER; LAKE,paul.vandenbrink@wur.nl,"van den brink, Paul/0000-0002-7241-4347; ","van den Brink, Paul J/E-8315-2013; van den brink, Paul/AAT-7144-2020; Baveco, Hans/H-5603-2011",17867885.0,1552-8618,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000247905900018,38,0,"Bergfur, J; Johnson, RK; Sandin, L; Goedkoop, W; Nygren, K",J,English,"Effects of nutrient enrichment on boreal streams: invertebrates, fungi and leaf-litter breakdown",2007.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,52,0046-5070,8,AUG,1618,1633,Asellus aquaticus; decomposition; ergosterol; functional feeding groups; nutrients,"Swedish Univ Agr Sci, Dept Environm Assessment, S-75007 Uppsala, Sweden; Uppsala Univ, Evolut Biol Ctr, Limnol Dept Ecol & Evolut, Uppsala, Sweden","1. The effect of nutrient enrichment on structural (invertebrate indices) and functional (leaf-litter breakdown rates) characteristics of stream integrity was studied in nine boreal streams. 2. The results showed predicted changes in biotic indices and leaf-litter breakdown along a complex (principal component) nutrient gradient. Biotic indices were better correlated with nutrient effects than leaf-litter breakdown. 3. Fungal biomass and invertebrate densities in the litter bags were positively correlated with leaf-litter breakdown, and both were also positively related to the nutrient gradient. 4. Invertebrate community composition influenced breakdown rate. High breakdown rates at one site were associated with the high abundance of the detritivore Asellus aquaticus. 5. This study lends support to the importance of invertebrate and fungi as mediators of leaf-litter decomposition. However, our study also shows that study design (length of incubation) can confound the interpretation of nutrient-induced effects on decomposition.",BLACKWELL PUBLISHING,65,"9600 GARSINGTON RD, OXFORD OX4 2DQ, OXON, ENGLAND",OXFORD,16.0,188FW,"Bergfur, Jenny; Johnson, Richard K.; Sandin, Leonard; Goedkoop, Willem; Nygren, Kristiina",39.0,35.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2007.01770.x,"Bergfur, J (corresponding author), Swedish Univ Agr Sci, Dept Environm Assessment, POB 7050, S-75007 Uppsala, Sweden.",FRESH-WATER ECOSYSTEMS; CATCHMENT LAND-USE; SPECIES RICHNESS; WOODLAND STREAM; SUBSTRATE PREFERENCES; HEADWATER STREAMS; POLLUTED RIVER; DECOMPOSITION; MACROINVERTEBRATES; INTEGRITY,jenny.bergfur@ma.slu.se,"Sandin, Leonard/0000-0003-1685-5305; Johnson, Richard/0000-0001-7979-6563","Sandin, Leonard/K-4475-2012; Johnson, Richard/P-4991-2014",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF PARASITOLOGY,2021-04-13,WOS:000249613400002,22,0,"Benesh, DP; Valtonen, ET",J,English,Effects of Acanthocephalus lucii (acanthocephala) on intermediate host survival and growth: Implications for exploitation strategies,2007.0,Parasitology,93,0022-3395,4,AUG,735,741,,"Univ Jyvaskyla, Dept Biol & Environm Sci, FI-40014 Jyvaskyla, Finland","Intermediate host exploitation by parasites is presumably constrained by the need to maintain host viability until transmission occurs. The relationship between parasitism and host survival, though, likely varies as the energetic requirements of parasites change during ontogeny. An experimental infection of an acanthocephalan (Acanthocephalus licii) in its isopod intermediate host (Asellus aquaticus) was conducted to investigate host survival and growth throughout the course of parasite development. Individual isopods were infected by exposure to fish feces containing parasite eggs. Isopods exposed to A. licii had reduced survival, but only early in the infection. Mean infection intensity was high relative to natural levels, but host mortality was not intensity dependent. Similarly, a group of naturally infected isopods harboring multiple cystacanths did not have lower survival than singly infected isopods. Isopods that were not exposed to the parasite exhibited sexual differences in survival and molting, but these patterns were reversed or absent in exposed isopods, possibly as a consequence of castration. Further, exposed isopods seemed to have accelerated molting relative to unexposed controls. Infection had no apparent effect on isopod growth. The effects of A. lucii on isopod survival and growth undermine common assumptions concerning parasite-induced host mortality and the resource constraints experienced by developing parasites.",ALLEN PRESS INC,46,"810 E 10TH ST, LAWRENCE, KS 66044 USA",LAWRENCE,7.0,212RB,"Benesh, Daniel P.; Valtonen, E. Tellervo",19.0,19.0,Parasitology,J PARASITOL,J. Parasitol.,10.1645/GE-1093R.1,"Benesh, DP (corresponding author), Univ Jyvaskyla, Dept Biol & Environm Sci, POB 35, FI-40014 Jyvaskyla, Finland.",ISOPOD ASELLUS-AQUATICUS; HYALELLA-AZTECA AMPHIPODA; LIFE-HISTORY; TRIAENOPHORUS-CRASSUS; BODY-SIZE; PARASITE; INFECTION; CRUSTACEA; TREMATODE; REPRODUCTION,dabenesh@cc.jyu.fi,"Benesh, Daniel/0000-0002-4572-9546","Benesh, Daniel/M-8998-2019",17918350.0,1937-2345,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF PARASITOLOGY,2021-04-13,WOS:000249613400003,9,0,"Benesh, DP; Valtonen, ET",J,English,Proximate factors affecting the larval life history of Acanthocephalus lucii (acanthocephala),2007.0,Parasitology,93,0022-3395,4,AUG,742,749,,"Univ Jyvaskyla, Dept Biol & Environm Sci, FI-40014 Jyvaskyla, Finland","The growth and eventual size of larval helminths in their intermediate hosts presumably has a variety of fitness consequences. Therefore, elucidating the proximate factors affecting parasite development within intermediate hosts should provide insight into the evolution of parasite life histories. An experimental infection that resulted in heavy intensities of an acanthocephalan (Acanthocephalus lucii) in its isopod intermediate host (Asellus aquaticus) permitted the examination of parasite developmental responses to variable levels of resource availability and intraspecific competition. Isopods were infected by exposure to egg-containing fish feces, and larval infrapopulations were monitored throughout the course of A. lucii development. The relative rate of parasite growth slowed over time, and indications of resource constraints on developing parasites, e.g., crowding effects, were only observed in late infections. Consequently, the factors likely representative of resource availability to larval parasites (host size and molting rate) primarily affected parasite size in late infections. Moreover, at this stage of infection, competitive interactions, gauged by variation in worm size, seemed to be alleviated by greater resources, i.e., larger hosts that molted more frequently. The relatively rapid, unconstrained growth of young parasites may be worse for host viability than the slower, resource-limited growth of larger parasites.",ALLEN PRESS INC,22,"810 E 10TH ST, LAWRENCE, KS 66044 USA",LAWRENCE,8.0,212RB,"Benesh, Daniel P.; Valtonen, E. Tellervo",13.0,13.0,Parasitology,J PARASITOL,J. Parasitol.,10.1645/GE-1094R.1,"Benesh, DP (corresponding author), Univ Jyvaskyla, Dept Biol & Environm Sci, POB 35, FI-40014 Jyvaskyla, Finland.",INTERMEDIATE HOSTS; GROWTH STRATEGIES; BODY-SIZE; HELMINTHS; CYSTACANTHS; PARASITES; GAMMARUS,dabenesh@cc.jyu.fi,"Benesh, Daniel/0000-0002-4572-9546","Benesh, Daniel/M-8998-2019",17918351.0,1937-2345,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CZECH JOURNAL OF ANIMAL SCIENCE,2021-04-13,WOS:000248268900004,6,0,"Jurajda, P; Adamek, Z; Janac, M; Valova, Z",J,English,Fish and macrozoobenthos in the Vlara stream drainage area (Bile Karpaty Mountains),2007.0,Agriculture,52,1212-1819,7,JUL,214,225,fish community; macroinvertebrates; bioindicators; Bile Karpaty Mountains; Czech Republic,"Acad Sci Czech Republ, Res Inst Vertebrate Biol, Kvetna 8, CZ-60365 Brno, Czech Republic; Univ S Bohemia, Res Inst Fish Culture & Hydrobiol, Vodnany, Czech Republic","Fish fauna and macrozoobenthos were surveyed at 51 and 32 sampling sites, respectively, in mountain and submountain streams of the Vlara stream drainage area in the Bile Karpaty Mountains. The aim of the study was to bring wide knowledge of their aquatic communities with their indicative value of the ecological quality of particular sites. Fish were sampled by electrofishing and macrozoobenthos was collected by kick-sampling using a bottom net (mesh size 500 pm) at the majority of the respective sites. In total, 15 fish species were registered in all profiles. At four headwater sites no fish were recorded at all. Brown trout (Salmo trutta m.fario) and stone loach (Barbatula barbatula) were the most frequent species at the sites under study (73% and 67%, respectively). A similar frequency (41%) was documented for chub (Leuciscus cephalus), gudgeon (Gobio gobio) and minnow (Phoxinus phoxinus). The species richness increased downstream in the mainstream of the Vlara stream with the maximum of 10 species found at the lowest study site. Qualitative data on fish assemblages did not fully correspond with the environmental stress. On the other hand, macrozoobenthos indicated a minor decrease in water quality downstream of small villages and farms. Larvae of dipterans (Chironomidae and Simuliidae in particular) and mayflies (Ephemeroptera) dominated among the temporary water macroinvertebrates while numerous populations of Gammarus fossarum (Amphipoda) and in some cases also of Asellus aquaticus (Isopoda) were recorded as permanent inhabitants of clean and polluted stretches"", respectively.",CZECH ACADEMY AGRICULTURAL SCIENCES,26,"TESNOV 17, PRAGUE, 117 05, CZECH REPUBLIC",PRAGUE,12.0,193IY,"Jurajda, P.; Adamek, Z.; Janac, M.; Valova, Z.",6.0,6.0,"Agriculture, Dairy & Animal Science",CZECH J ANIM SCI,Czech J. Anim. Sci.,10.17221/2277-CJAS,"Jurajda, P (corresponding author), Acad Sci Czech Republ, Res Inst Vertebrate Biol, Kvetna 8, CZ-60365 Brno, Czech Republic.",RIVER; COMMUNITIES,jurajda@brno.cas.cz,"Janac, Michal/0000-0001-6264-6091; Janac, Michal/0000-0001-6264-6091","Jurajda, Pavel/F-9647-2014; Jurajdova, Zdenka/F-9648-2014; Janac, Michal/AAF-7941-2021; Adamek, Zdenek/G-1193-2014; Janac, Michal/F-9727-2014",,1805-9309,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,FEMS MICROBIOLOGY ECOLOGY,2021-04-13,WOS:000247125700013,44,2,"Wang, YJ; Brune, A; Zimmer, M",J,English,Bacterial symbionts in the hepatopancreas of isopods: diversity and environmental transmission,2007.0,Microbiology,61,0168-6496,1,JUL,141,152,isopoda; symbiotic bacteria; transmission; distribution; specificity,"Univ Kiel, Inst Zool, D-24118 Kiel, Germany; Univ Konstanz, Fac Biol Mikrol Okol, D-7750 Constance, Germany; Max Planck Inst Terr Microbiol, Abt Biogeochem, D-35043 Marburg, Germany","The midgut glands (hepatopancreas) of terrestrial isopods contain bacterial symbionts. We analysed the phylogenetic diversity of hepatopancreatic bacteria in isopod species from various suborders colonizing marine, semiterrestrial, terrestrial and freshwater habitats. Hepatopancreatic bacteria were absent in the marine isopod Idotea balthica (Valvifera). The symbiotic bacteria present in the midgut glands of the freshwater isopod Asellus aquaticus (Asellota) were closely related to members of the proteobacterial genera Rhodobacter, Burkholderia, Aeromonas or Rickettsiella, but differed markedly between populations. By contrast, species of the suborder Oniscidea were consistently colonized by the same phylotypes of hepatopancreatic bacteria. While symbionts in the semiterrestrial isopod Ligia oceanica (Oniscidea) were close relatives of Pseudomonas sp. (Gammaproteobacteria), individuals of the terrestrial isopod Oniscus asellus (Oniscidea) harboured either 'Candidatus Hepatoplasma crinochetorum' (Mollicutes) or 'Candidatus Hepatincola porcellionum' (Rickettsiales), previously described as symbionts of another terrestrial isopod, Porcellio scaber. These two uncultivated bacterial taxa were consistently present in each population of six and three different species of terrestrial isopods, respectively, collected in different geographical locations. However, infection rates of individuals within a population ranged between 10% and 100%, rendering vertical transmission unlikely. Rather, feeding experiments suggest that 'Candidatus Hepatoplasma crinochetorum' is environmentally transmitted to the progeny.",OXFORD UNIV PRESS,61,"GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND",OXFORD,12.0,177AJ,"Wang, Yongjie; Brune, Andreas; Zimmer, Martin",51.0,51.0,Microbiology,FEMS MICROBIOL ECOL,FEMS Microbiol. Ecol.,10.1111/j.1574-6941.2007.00329.x,"Zimmer, M (corresponding author), Univ Kiel, Inst Zool, Am Botanischen Garten 9, D-24118 Kiel, Germany.",16S RIBOSOMAL-RNA; SPONGE HALICHONDRIA-PANICEA; STALK-FORMING LINEAGE; MICROBIAL COMMUNITY; MIDGUT GLANDS; CRUSTACEA; GUT; PROBES; PROTEOBACTERIA; MICROORGANISMS,mzimmer@zoologie.uni-kiel.de,"Brune, Andreas/0000-0002-2667-4391; Wang, Yongjie/0000-0002-7209-585X; Zimmer, Martin/0000-0002-1549-8871","Wang, Yongjie/C-2243-2009; Brune, Andreas/C-6944-2011",17506824.0,1574-6941,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000247127200012,64,1,"Baldy, V; Gobert, V; Guerold, F; Chauvet, E; Lambrigot, D; Charcosset, JY",J,English,Leaf litter breakdown budgets in streams of various trophic status: effects of dissolved inorganic nutrients on microorganisms and invertebrates,2007.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,52,0046-5070,7,JUL,1322,1335,budget; invertebrates; microorganisms; organic matter; trophic status,"CNRS, LADYBIO, UMR 5172, F-31055 Toulouse, France; Univ Aix Marseille 1, UMR 6116, Inst Mediterraneen Ecol & Paleoecol, F-13331 Marseille, France; Univ Metz, CNRS, UMR 7146, Lab Ecotoxicite & Sante Environm, Metz, France","1. We investigated the effect of trophic status on the organic matter budget in freshwater ecosystems. During leaf litter breakdown, the relative contribution of the functional groups and the quantity/quality of organic matter available to higher trophic levels are expected to be modified by the anthropogenic release of nutrients. 2. Carbon budgets were established during the breakdown of alder leaves enclosed in coarse mesh bags and submerged in six streams: two oligotrophic, one mesotrophic, two eutrophic and one hypertrophic streams. Nitrate concentrations were 4.5-6.7 mg L-1 and the trophic status of each stream was defined by the soluble reactive phosphorus concentration ranging from 3.4 (oligotrophic) to 89 mu g L-1 (hypertrophic). An ammonium gradient paralleled the phosphate gradient with mean concentrations ranging from 1.4 to 560 mu g L-1 NH4-N. The corresponding unionised ammonia concentrations ranged from 0.08 to 19 mu g L-1 NH3-N over the six streams. 3. The dominant shredder taxa were different in the oligo-, meso- and eutrophic streams. No shredders were observed in the hypertrophic stream. These changes may be accounted for by the gradual increase in the concentration of ammonia over the six streams. The shredder biomass dramatically decreased in eu- and hypertrophic streams compared with oligo- and mesotrophic. 4. Fungal biomass increased threefold from the most oligotrophic to the less eutrophic stream and decreased in the most eutrophic and the hypertrophic. Bacterial biomass increased twofold from the most oligotrophic to the hypertrophic stream. Along the trophic gradient, the microbial CO2 production followed that of microbial biomass whereas the microbial fine particulate organic matter and net dissolved organic carbon (DOC) did not consistently vary. These results indicate that the microorganisms utilised the substrate and the DOC differently in streams of various trophic statuses. 5. In streams receiving various anthropogenic inputs, the relative contribution of the functional groups to leaf mass loss varied extensively as a result of stimulation and the deleterious effects of dissolved inorganic compounds. The quality/quantity of the organic matter produced by microorganisms slightly varied, as they use DOC from stream water instead of the substrate they decompose in streams of higher trophic status.",WILEY,50,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,14.0,177AY,"Baldy, V.; Gobert, V.; Guerold, F.; Chauvet, E.; Lambrigot, D.; Charcosset, J.-Y.",94.0,90.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2007.01768.x,"Charcosset, JY (corresponding author), CNRS, LADYBIO, UMR 5172, 29 Rue Jeanne Marvig, F-31055 Toulouse, France.",GAMMARUS-PULEX; ASELLUS-AQUATICUS; WATER-QUALITY; PLANT LITTER; FUNGI; DECOMPOSITION; BACTERIA; BIOMASS; GROWTH; ERGOSTEROL,jcharchos@cict.fr,"Charcosset, Jean-Yves/0000-0002-1561-9856; Chauvet, Eric/0000-0001-8676-392X","Charcosset, Jean-Yves/F-8696-2018; Chauvet, Eric/F-7644-2011",,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Editorial Material,MOLECULAR ECOLOGY,2021-04-13,WOS:000247757200004,12,0,"Trontelj, P",J,English,The age of subterranean crayfish species. A comment on Buhay & Crandall (2005): subterranean phylogeography of freshwater crayfishes shows extensive gene flow and surprisingly large population sizes,2007.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Evolutionary Biology,16,0962-1083,14,JUL,2841,2843,cave invasion; crustacean; molecular clock; molecular dating; subterranean fauna,"Univ Ljubljana, Biotechnol Fac, Dept Biol, Ljubljana 61000, Slovenia",,WILEY-BLACKWELL,20,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,3.0,186CR,"Trontelj, Peter",7.0,7.0,Biochemistry & Molecular Biology; Ecology; Evolutionary Biology,MOL ECOL,Mol. Ecol.,10.1111/j.1365-294X.2007.03345.x,"Trontelj, P (corresponding author), Univ Ljubljana, Biotechnol Fac, Dept Biol, Vecna pot 111, Ljubljana 61000, Slovenia.",ASELLUS-AQUATICUS CRUSTACEA; BEETLES COLEOPTERA; EVOLUTION; DYTISCIDAE; PHYLOGENY; ISOPODA; CRABS,peter.trontelj@bf.uni-lj.si,,,17614899.0,1365-294X,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF PARASITOLOGY,2021-04-13,WOS:000247648400002,6,0,"Hasu, T; Holmes, JC; Valtonen, ET",J,English,Isopod (Asellus aquaticus) size and acanthocephalan (Acanthocephalus lucii) infections,2007.0,Parasitology,93,0022-3395,3,JUN,450,457,,"Univ Jyvaskyla, Dept Biol & Environm Sci, FIN-40014 Jyvaskyla, Finland","We examined the effect of isopod size and age on the success of an acanthocephalan infection and on the effects of that infection on the growth and survival of the isopods. Groups of isopods (Asellus aquaticus) belonging to 4 size classes (juveniles, maturing adults, young adults, and older adults) were exposed to infective acanthors of Acanthocephalus lucii. At the end of the experiment, survival of the isopods, lengths of male and female isopods, and numbers of different developmental stages of A. lucii larvae in infected isopods were assessed. Acanthocephalus lucii prevalence was significantly lower in juvenile isopods than in adults. Intensity of infection increased with the size of isopods at exposure, and cystacanth intensity correlated positively with isopod size at the end of the experiment. Exposed juveniles and maturing adults survived significantly better than unexposed individuals, but the opposite was true of the 2 largest size classes. At the end of experiment, exposed isopods, and, especially, cystacanth-infected isopods, were significantly larger than unexposed isopods in every size class. We suggest that isopod size not only affects the success of A. lucii infection but also affects the ability of A. lucii to affect the survival (and perhaps the growth) of the isopod hosts.",AMER SOC PARASITOLOGISTS,30,"810 EAST 10TH STREET, LAWRENCE, KS 66044 USA",LAWRENCE,8.0,184NJ,"Hasu, Tiina; Holmes, John C.; Valtonen, E. Tellervo",12.0,11.0,Parasitology,J PARASITOL,J. Parasitol.,10.1645/GE-1032R.1,"Holmes, JC (corresponding author), Univ Jyvaskyla, Dept Biol & Environm Sci, POB 35, FIN-40014 Jyvaskyla, Finland.",FRESH-WATER ISOPODS; INTERMEDIATE HOSTS; LARVAL HELMINTHS; BODY-SIZE; ECHINORHYNCHIDAE; PIGMENTATION; PREDATION; BEHAVIOR; ECOLOGY; REPRODUCTION,tiihasu@jyu.fi,,,17626334.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF CRUSTACEAN BIOLOGY,2021-04-13,WOS:000246234600002,7,0,"Maruzzo, D; Minelli, A; Ronco, M; Fusco, G",J,English,Growth and regeneration of the second antennae of Asellus aquaticus (Isopoda) in the context of arthropod antennal segmentation,2007.0,Marine & Freshwater Biology; Zoology,27,0278-0372,2,MAY,184,196,,"Univ Padua, Dept Biol, I-35131 Padua, Italy","The production of new articles in the flagellum of the second antennae of Asellus aquaticus was studied in both undamaged and regenerating antennae. Segmentation is an iterative process in two phases: 1) the first proximal flagellomere (the meristematic article) repeatedly gives off distally a new primary article; 2) each primary article divides into four secondary articles (a quartet). To a certain extent, production and development of different quartets are independent processes. Evidence is provided that the formation of new articles and their setae are partly decoupled. During regeneration from the preferred breakage point (the so-called 'autotomy plane'), the flagellum is generated by the same mechanism of two-phase segmentation. The regenerated flagellum has a normal segmental composition, except for the tip (the apical complex), which has four flagellomeres rather than the normal five. The similar segmental pattern observed also in other malacostracan crustaceans and in insects, supports a close phylogenetic relationship among the two groups; if the latter proves not to hold, that similarity would provide an example of parallel evolution of developmental mechanism. The difference between 'true' articles and annulations, defined on the structure of the muscular system, is discussed on the basis of comparative developmental data. In general, annulations are produced more sequentially, compared with the almost simultaneous emergence of true articles.",OXFORD UNIV PRESS,48,"GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND",OXFORD,13.0,164LG,"Maruzzo, Diego; Minelli, Alessandro; Ronco, Monica; Fusco, Giuseppe",10.0,8.0,Marine & Freshwater Biology; Zoology,J CRUSTACEAN BIOL,J. Crustac. Biol.,10.1651/S-2756.1,"Maruzzo, D (corresponding author), Univ Padua, Dept Biol, Via Ugo Bassi 58-B, I-35131 Padua, Italy.",OLFACTORY RECEPTOR NEURONS; POSTEMBRYONIC DEVELOPMENT; EVOLUTION; COPEPODS; INSECTS; MUSCULATURE; COCKROACH; TURNOVER; HOMOLOGY; ONTOGENY,maruzzo@bio.unipd.it; alessandro.minelli@unipd.it; ronco.monica@spes.uniud.it; giuseppe.fusco@unipd.it,"FUSCO, GIUSEPPE/0000-0002-4690-6049; Minelli, Alessandro/0000-0003-3387-1489",,,1937-240X,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF CAVE AND KARST STUDIES,2021-04-13,WOS:000249538600014,13,1,"Porter, ML",J,English,Subterranean biogeography: What have we learned from molecular techniques?,2007.0,Geology,69,1090-6924,1,APR,179,186,,"Univ Maryland Baltimore Cty, Dept Biol Sci, Baltimore, MD 21250 USA","Subterranean faunas have unique distributional attributes, including relatively small ranges and high levels of endemism. Two general models have been proposed to account for these distributional patterns-vicariance, the isolation of populations due to geographic barriers, and dispersal, an organism's ability to move to and colonize new habitats. The debate over the relative importance of each of these models in subterranean systems is ongoing. More recently, biogeographical studies of subterranean fauna using molecular methods have provided new perspectives into the distributional patterns of hypogean fauna, reinvigorating the vicariance versus dispersal debate. This review focuses on the application of molecular techniques to the study of subterranean biogeography, and particularly the contribution of molecular methods in estimating dispersal ability and divergence times. So far, molecular studies of subterranean biogeography have found evidence for the common occurrence of multiple independent colonizations of the subterranean habitat in cave-adapted species, have emphasized the importance of the genetic structure of the ancestral surface populations in determining the genetic structure of subsequent hypogean forms, and have stressed the importance of vicariance or a mixed model including both vicariant and dispersal events.",NATL SPELEOLOGICAL SOC,53,"2813 CAVE AVE, HUNTSVILLE, AL 35810-4431 USA",HUNTSVILLE,8.0,211QO,"Porter, Megan L.",50.0,44.0,"Geosciences, Multidisciplinary",J CAVE KARST STUD,J. Cave Karst Stud.,,"Porter, ML (corresponding author), Univ Maryland Baltimore Cty, Dept Biol Sci, Baltimore, MD 21250 USA.",ASELLUS-AQUATICUS CRUSTACEA; SURFACE-POPULATIONS; BEETLES COLEOPTERA; CAVE CRICKETS; PHYLOGEOGRAPHY; EVOLUTION; DIVERGENCE; ASTYANAX; GENETICS; RATES,,,,,2331-3714,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000244467500053,37,3,"Gaskell, PN; Brooks, AC; Maltby, L",J,English,Variation in the bioaccumulation of a sediment-sorbed hydrophobic compound by benthic macroinvertebrates: Patterns and mechanisms,2007.0,Engineering; Environmental Sciences & Ecology,41,0013-936X,5,MAR 1,1783,1789,,"Univ Sheffield, Dept Anim & Plant Sci, Sheffield S10 2TN, S Yorkshire, England","Aquatic ecological risk assessment is primarily focused on aqueous exposure, but many hydrophobic contaminants bind to particulate material and accumulate in sediments. The risk posed by such contaminants is partially dependent on the importance of dietary exposure. Here, we describe the bioaccumulation of a highly hydrophobic compound (dioctadecyl-dimethyl ammonium chloride (DODMAC)) to four freshwater macroinvertebrates (i.e., Asellus aquaticus, Chironomus riparius, Gammarus pulex, Lumbriculus variegatus) and investigate the mechanistic basis for observed interspecific variation in bioaccumulation. Although more than 99.99% of DODMAC was sediment-bound, it was bioavailable to all four species via dietary exposure. Interspecific variation in bioaccumulation was apparent despite the lack of selective feeding and biotransformation potential and after normalization for body size and lipid content. Chironomus riparius had the highest lipid-normalized DODMAC concentration and L. variegatus had the lowest. Study species differed in factors affecting uptake (i.e., feeding rate) and absorption efficiency (i.e., gut passage time and gut surfactancy). Feeding rate did not explain interspecific variation in bioaccumulation, but bioaccumulation was enhanced by either high surfactancy and short gut passage time (e.g., G. pulex) or low surfactancy and long gut passage time (e.g., C. riparius). Risk assessment of hydrophobic contaminants should consider dietary exposure and the potential food chain effects of interspecific variation in bioaccumulation.",AMER CHEMICAL SOC,50,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,7.0,139XZ,"Gaskell, Paul N.; Brooks, Amy C.; Maltby, Lorraine",24.0,23.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/es061934b,"Gaskell, PN (corresponding author), Univ Sheffield, Dept Anim & Plant Sci, Western Bank, Sheffield S10 2TN, S Yorkshire, England.",POLYCHLORINATED BIPHENYL CONGENERS; POLYCYCLIC AROMATIC-HYDROCARBONS; ASELLUS-AQUATICUS L; ORGANIC CONTAMINANTS; ASSIMILATION EFFICIENCIES; CHIRONOMUS-RIPARIUS; ARENICOLA-MARINA; BIOAVAILABILITY; SURFACTANTS; INVERTEBRATES,p.gaskell@sheffield.ac.uk,"Maltby, Lorraine/0000-0003-3817-4033","Maltby, Lorraine/A-6702-2012",17396674.0,1520-5851,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,MOLECULAR PHYLOGENETICS AND EVOLUTION,2021-04-13,WOS:000245717300009,22,1,"Lefebure, T; Douady, CJ; Malard, F; Gibert, J",J,English,Testing dispersal and cryptic diversity in a widely distributed groundwater amphipod (Niphargus rhenorhodanensis),2007.0,Biochemistry & Molecular Biology; Evolutionary Biology; Genetics & Heredity,42,1055-7903,3,MAR,676,686,cryptic diversity; dispersal; glaciation; subterranean; subsurface; Crustacea; phylogeography,"Univ Lyon 1, CNRS, UMR 5023, Lab Ecol Hydrosyst Flaviaux, F-69622 Villeurbanne, France","Theories about colonization and evolution in groundwater have assumed that the fragmented structure of groundwater strongly limits dispersal. The high number of endemic and allopatric species in groundwater supports this hypothesis, but the occurrence of widely distributed groundwater taxa calls into question its universality. These widely distributed taxa might also be sets of cryptic species because extreme conditions of life in groundwater promote cryptic diversity by inducing convergent morphological evolution. Niphargus rhenorhodanensis is a widely distributed and ubiquitous groundwater amphipod which supposedly colonized the Alps after Quaternary glaciations. We tested the dispersal and the cryptic species hypotheses within this species using a phylogeographic approach based on two mitochondrial genes (COI and 16S) and a nuclear gene (28S). Results support the view that poor dispersal is a main evolutionary factor in groundwater. All genes independently supported the existence of numerous cryptic and mostly allopatric units within N. rhenorhodanensis, indicating that its apparently wide distribution range is an artefact generated by cryptic diversity. We reject the hypothesis of a recent and global colonization of the Alps and argue that some N. rhenorhodanensis lineages probably survived glaciations near or within the Alps. (c) 2006 Elsevier Inc. All rights reserved.",ACADEMIC PRESS INC ELSEVIER SCIENCE,82,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,11.0,157KB,"Lefebure, T.; Douady, C. J.; Malard, F.; Gibert, J.",101.0,96.0,Biochemistry & Molecular Biology; Evolutionary Biology; Genetics & Heredity,MOL PHYLOGENET EVOL,Mol. Phylogenet. Evol.,10.1016/j.ympev.2006.08.020,"Lefebure, T (corresponding author), Cornell Univ, Baker Inst, Hungerford Hill Rd, Ithaca, NY 14853 USA.",ASELLUS-AQUATICUS CRUSTACEA; MITOCHONDRIAL-DNA VARIATION; MORPHOLOGICAL EVOLUTION; METABOLIC-RESPONSES; DWELLING AMPHIPODS; BAYESIAN-INFERENCE; SEQUENCE ALIGNMENT; GENE GENEALOGIES; PHYLOGEOGRAPHY; MODEL,tnl7@cornell.edu,"Douady, Christophe/0000-0002-4503-8040; Lefebure, Tristan/0000-0003-3923-8166","Douady, Christophe/N-3069-2019; Douady, Christophe J/N-1357-2014; Lefebure, Tristan/A-6489-2009",17049283.0,1095-9513,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OIKOS,2021-04-13,WOS:000243636800013,31,2,"Parker, JD; Burkepile, DE; Collins, DO; Kubanek, J; Hay, ME",J,English,Stream mosses as chemically-defended refugia for freshwater macroinvertebrates,2007.0,Environmental Sciences & Ecology,116,0030-1299,2,FEB,302,312,,"Georgia Inst Technol, Sch Biol, Atlanta, GA 30332 USA","Marine and terrestrial studies show that small, sedentary herbivores that utilize plants as both food and habitat can gain enemy-free space by living on hosts that are chemically defended from larger, generalist consumers. Although large herbivores are increasingly recognized as important consumers of macrophytes in freshwater communities, the potential indirect effects of herbivory on plant-associated macroinvertebrates have rarely been studied. Here, we show that the large, generalist consumers in a riverine system, Canada geese, Branta canadensis, and crayfish, Procambarus spiculifer, both selectively consumed riverweed, Podostemum ceratophyllum, over an aquatic moss, Fontinalis novae-angliae, even though moss comprised 89% of the total plant biomass on riverine rocky shoals. Moss supported twice as many plant-associated macroinvertebrates as riverweed, suggesting that it might provide a spatial refuge from consumption by these larger consumers. Bioassay-guided fractionation of moss extracts led to the isolation of a C-18 acetylenic acid, octadeca-9,12-dien-6-ynoic acid, that deterred crayfish feeding. In contrast to results with Canada geese and crayfish, both the amphipod Crangonyx gracilis and the isopod Asellus aquaticus consumed significant amounts of moss but rejected riverweed in laboratory feeding assays. Moreover, neither amphipod nor isopod feeding was deterred by the crude organic extract of Fontinalis, suggesting that these mesograzers tolerate or circumvent the chemical defenses that deterred larger consumers. Thus, herbivory by large, generalist herbivores may drive freshwater plant community structure towards chemically defended plants and favor the ecological specialization of smaller, less mobile herbivores on unpalatable hosts that represent enemy-free space.",WILEY,71,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,128DF,"Parker, John D.; Burkepile, Deron E.; Collins, Dwight O.; Kubanek, Julia; Hay, Mark E.",34.0,34.0,Ecology,OIKOS,Oikos,10.1111/j.2007.0030-1299.15289.x,"Parker, JD (corresponding author), Cornell Univ, Dept Ecol & Evolutionary Biol, Ithaca, NY USA.",CRAYFISH ORCONECTES-RUSTICUS; ENEMY-FREE SPACE; ACETYLENIC ACIDS; NEW-ZEALAND; MACROPHYTE COMMUNITIES; HERBIVORE INTERACTIONS; SUBMERGED MACROPHYTES; OMNIVOROUS CRAYFISH; FEEDING PREFERENCES; AQUATIC BRYOPHYTES,jdp52@cornell.edu,"Parker, John D/0000-0002-3632-7625; Hay, Mark/0000-0002-6130-9349; Kubanek, Julia/0000-0003-4482-1831; Burkepile, Deron/0000-0002-0427-0484","Burkepile, Deron/F-2368-2013; Parker, John D/F-9761-2010; Hay, Mark/D-9752-2011",,1600-0706,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,ACTA CARSOLOGICA,2021-04-13,WOS:000246800700019,2,0,"Trontelj, P; Goricki, S; Polak, S; Verovnik, R; Zaksek, V; Sket, B",J,English,Age estimates for some subterranean taxa and lineages in the Dinaric Karst,2007.0,Geology,36,0583-6050,1,,183,189,subterranean; molecular clock; molecular phylogeny; phylogeography; Dinaric Karst,"Univ Ljubljana, Oddelek Biol, Biotehniska Fak, Ljubljana 1000, Slovenia; Notranjski Muzej Postojna, Postojna 6230, Slovenia","Using a comparative phylogeographic approach and different independent molecular clocks we propose a timescale for the evolution of troglobionts in the Dinaric Karst that is relatively consistent over a wide taxonomic range. Keystone events seem to belong to two age classes. (1) Major splits within holodinaric taxa are from the mid-Miocene. They present the potential upper limit for the age of cave invasions. (2) Regional differentiation, including speciation, which can at least in part be associated with a subterranean phase, took place from early Pliocene to mid-Pleistocene. We suggest two to five million years as the time when most of the analyzed lineages started invading the Dinaric Karst underground.",KARST RESEARCH INST ZRC SAZU,31,"TITOV TRG 2, POSTOJNA, SI-6230, SLOVENIA",POSTOJNA,7.0,172JN,"Trontelj, Peter; Goricki, Spela; Polak, Slavko; Verovnik, Rudi; Zaksek, Valerija; Sket, Boris",20.0,20.0,"Geosciences, Multidisciplinary",ACTA CARSOLOGICA,ACTA CARSOLOGICA,,"Trontelj, P (corresponding author), Univ Ljubljana, Oddelek Biol, Biotehniska Fak, Vecna Pot 111, Ljubljana 1000, Slovenia.",ASELLUS-AQUATICUS CRUSTACEA; EVOLUTIONARY GENETICS; MITOCHONDRIAL-DNA; RATES; PHYLOGEOGRAPHY; COLONIZATION; BIOGEOGRAPHY; POPULATIONS; DIVERGENCE; PHYLOGENY,peter.trontelj@bf.uni-lj.si,,,,1580-2612,,,Bronze,Time in Kurst Meeting,,"MAR, 2007","Postojna, SLOVENIA",,,"Karst Res Inst ZRCSAZU Slovenia, Karst Waters Inst USA",,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000243962400003,20,0,"Richter, S; Nagel, R",J,English,"Bioconcentration, biomagnification and metabolism of C-14-terbutryn and C-14-benzo[a]pyrene in Gammarus fossarum and Asellus aquaticus",2007.0,Environmental Sciences & Ecology,66,0045-6535,4,JAN,603,610,biomagnification; bioconcentration; Gammarus fossarum; Asellus aquaticus; terbutyn; B[a]P,"Tech Univ Dresden, Inst Zool, D-01062 Dresden, Germany; Tech Univ Dresden, Inst Hydrobiol, D-01062 Dresden, Germany","The contribution of bioconcentration and biomagnification of C-14-terbutryn and C-14-benzo[a]pyrene via food and water to the bioaccumulation in Gammarus fossarum and Asellus aquaticus was investigated in single species-tests. In this investigation the uptake of C-14-terbutryn and C-14-benzo[a]pyrene via food and water by G. fossarum (L.) and A. aquaticus (L.) was examined. Bioconcentration factors (BCFs) and biomagnification factors (BMFs) were determined. Calculated BCFs were clearly higher than BMFs, indicating that water is the primary route of uptake. The uptake of terbutryn and benzo[a]pyren via water in G. fossarum and A. aquaticus is faster than uptake via food. The elimination and metabolism of the two chemicals by G. fossarum and A. aquaticus were studied. Terbutryn was eliminated almost completely in both species. In general, the elimination of terbutryn from G. fossarum and A. aquaticus was fast with half-life of 5 h. The elimination of terbutryn by G. fossarum after biomagnification is slower than after bioconcentration. No difference was found in elimination of terbutryn by A. aquaticus after biomagnification and after bioconcentration. Metabolites of terbutryn in G. fossarum and A. aquaticus were analyzed by HPLC. After the bioconcentration experiment a higher percentage of metabolites was found in G. fossarum than in A. aquaticus. This was confirmed for the experiment with uptake via food. The spectrum of metabolites was similar in both species, with hydroxyterbutryn being the major metabolism product in water. C-14-B[a]P could nearly completely be eliminated by G. fossarum (rest of activity 2%) after uptake via water. C-14-B[a]P could not be eliminated by G. fossarum and A. aquaticus after uptake via food. The metabolite could not be identified. (c) 2006 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,35,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,8.0,132SL,"Richter, S.; Nagel, R.",31.0,27.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2006.08.002,"Richter, S (corresponding author), Tech Univ Dresden, Inst Zool, D-01062 Dresden, Germany.",POLYCYCLIC AROMATIC-HYDROCARBONS; FRESH-WATER ISOPODS; PARTITION-COEFFICIENT; PULEX L; BIOACCUMULATION; ACCUMULATION; BIOAVAILABILITY; DEPURATION; BENZO<A>PYRENE; TOXICOKINETICS,Sabine.Richter@tu-dresden.de; rnagel@rcs.urz.tu-dresden.de,,,16997349.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000243962400005,35,2,"Haus, N; Zimmermann, S; Wiegand, J; Sures, B",J,English,Occurrence of platinum and additional traffic related heavy metals in sediments and biota,2007.0,Environmental Sciences & Ecology,66,0045-6535,4,JAN,619,629,field study; bioindicators; macroinvertebrates; fauna; environmental metal pollution; aquatic environment,"Univ Duisburg Essen, Dept Appl Zool Hydrobiol, D-45147 Essen, Germany; Univ Duisburg Essen, Inst Geog, Dept Geol, D-45141 Essen, Germany","Non-point sources play an important role in metal emissions into surface waters. One of the most important non-point sources is automobile traffic. Recent studies determining traffic related heavy metals in surface waters have concentrated mainly on worst case scenarios by analyzing heavy metal loads in waters and sediments close to storm-water overflow inlets. The present study aims at identifying traffic related heavy metals in moderately polluted sites, as they occur in highly urbanized regions. Therefore, the concentrations of eight traffic related metals (Pt, Sb, Mo, Cd, Pb, Cu, Cr and Zn) were determined in sediment and crustacean samples from eight different aquatic habitats in the Ruhr district, Germany. Traffic related heavy metals could be identified in sediment and biota samples as a combination of heavy metals (Pt, Sb, Cd, Pb for sediments and Pt and Sb for crustacean samples). Pt concentrations received special attention due to the relatively recent occurrence of anthropogenically emitted Pt in the environment. At six sampling sites, Pt was detected in sediment and/or biota samples. The uptake of Pt compared to other traffic related heavy metals by Asellus aquaticus and Gammarus pulex is relatively high and can be compared with the uptake rates of essential metals like Zn. (c) 2006 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,45,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,11.0,132SL,"Haus, N.; Zimmermann, S.; Wiegand, J.; Sures, B.",65.0,65.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2006.07.097,"Haus, N (corresponding author), Univ Duisburg Essen, Dept Appl Zool Hydrobiol, Univ Str 5, D-45147 Essen, Germany.",MUSSEL DREISSENA-POLYMORPHA; CATHODIC STRIPPING VOLTAMMETRY; ATOMIC-ABSORPTION-SPECTROMETRY; ISOPOD ASELLUS-AQUATICUS; FRESH-WATER ECOSYSTEMS; TRACE-METALS; GROUP ELEMENTS; BIOLOGICAL SAMPLES; MOTORWAY RUNOFF; ROAD DUST,nadine-haus@gmx.de,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013",16996105.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FUNDAMENTAL AND APPLIED LIMNOLOGY,2021-04-13,WOS:000245789900002,31,1,"Franken, RJM; Gardeniers, JJP; Peeters, ETHM",J,English,Secondary production of Gammarus pulex Linnaeus in small temperate streams that differ in riparian canopy cover,2007.0,Marine & Freshwater Biology,168,1863-9135,3,,211,219,algae; food quality; leaf litter; macroinvertebrates; stream ecology,"Wageningen Univ, Aquat Ecol & Water Qual Management Grp, NL-6700 DD Wageningen, Netherlands","Variation in the amount of riparian canopy cover affects bioenergetic processes in streams. Effects of canopy opening on environmental parameters including water temperature and the quality and quantity of food resources (leaf litter and/or associated biofilm) are likely to influence detritivore production. The objective of this study was to quantify population dynamics of the common shredder Gammarus pulex in three temperate lowland stream reaches that differ in riparian canopy cover. Benthic samples were taken monthly from October 2001 until October 2002, and secondary production was estimated using the size-frequency method. Populations differed in size/age structure, length-weight ratio, mean and maximum amphipod size, which were related to the amount of riparian canopy cover. Population density and secondary production were less clearly associated with canopy cover, which was probably related to a difference in fish predation between sites. Canopy opening was associated with differences in the range of variation in annual thermal conditions and most likely in the nutritional quality (microflora) of the food source, whereas the autumnal pulse of leaf fall lead to oxygen depletion at the heavily shaded woodland reach. Our study demonstrated that moderate differences in riparian canopy cover affect shredder-detritivore population dynamics and suggests that even detrital-based and shredder-dominated food webs can be influenced by the indirect effects of light. The temporal differences in temperature appear biologically less important unlike the effect of increased algal production. Whereas the array of interacting factors (temperature, radiation, leaf processing and microbial colonization) emphasize the complexity of effects associated with canopy opening.",E SCHWEIZERBARTSCHE VERLAGSBUCHHANDLUNG,68,"NAEGELE U OBERMILLER, SCIENCE PUBLISHERS, JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,9.0,158KH,"Franken, Rob J. M.; Gardeniers, Jean J. P.; Peeters, Edwin T. H. M.",10.0,10.0,Limnology; Marine & Freshwater Biology,FUND APPL LIMNOL,Fundam. Appl. Limnol.,10.1127/1863-9135/2007/0168-0211,"Franken, RJM (corresponding author), Wageningen Univ, Aquat Ecol & Water Qual Management Grp, POB 8080, NL-6700 DD Wageningen, Netherlands.",LEAF-LITTER; ASELLUS-AQUATICUS; FLOWING WATERS; L AMPHIPODA; BODY SIZE; GROWTH; RESPONSES; CRUSTACEA; FOSSARUM; INVERTEBRATES,Rob.Franken@wur.nl,"Franken, Rob/0000-0002-8101-6914; Peeters, Edwin T.H.M./0000-0003-2541-1829",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,MOLECULAR PHYLOGENETICS AND EVOLUTION,2021-04-13,WOS:000243644600016,7,0,"Zaksek, V; Sket, B; Trontelj, P",J,English,Phylogeny of the cave shrimp Troglocaris: Evidence of a young connection between Balkans and Caucasus,2007.0,Biochemistry & Molecular Biology; Evolutionary Biology; Genetics & Heredity,42,1055-7903,1,JAN,223,235,molecular phylogeny; Troglocaris; Atyidae; biogeography; subterranean; marine relict; paratethys,"Univ Ljubljana, Dept Biol, Biotech Fac, SI-1001 Ljubljana, Slovenia","The remarkably discontinuous distribution of the cave shrimp genus Troglocaris ill South France, West Balkans, and West Caucasus has long been considered a biogeographic enigma. To solve it, its phylogeny was reconstructed by analyzing sequences from two mitochondrial (cytochrome oxidase I and 16S rRNA) and one nuclear gene (28S rRNA) using maximum likelihood, parsimony and Bayesian inference. The genus was found to be polyphyletic because the French taxon T inermis had no direct common ancestry with other Troglocaris taxa but was sister to the epigean freshwater atyid Dugastella valentina. All other Troglocaris species constituted a well-supported monophylum, the second cave shrimp genus Spelaeocaris nested within. The monophylum had a well-defined structure: (1) a clade restricted to the Dinaric area of the Western Balkans containing the type species T anophthahmus along with some unnamed species, and (2) a geographically mixed clade split between the Caucasian T kutaissiana species complex on one, and T hercegouinensis, S. pretneri, plus an unnamed taxon on the other side. It was surprising to find the dichotomy between the Caucasian and one of the West-Balkan lineages so low in the phylogenetic hierarchy of the genus. Taking into account molecular rates of other decapods, we tentatively dated this split at 6-11 Myr. This time is in agreement with the brackish and freshwater phase of the Paratethys thus allowing for a freshwater common ancestor of Caucasian and Dinaric cave shrimps. This would weaken the marine relicts hypothesis that has often been invoked to explain the distribution of freshwater cave species with close marine relatives. (c) 2006 Elsevier Inc. All rights reserved.",ACADEMIC PRESS INC ELSEVIER SCIENCE,51,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,13.0,128FW,"Zaksek, Valerija; Sket, Boris; Trontelj, Peter",86.0,83.0,Biochemistry & Molecular Biology; Evolutionary Biology; Genetics & Heredity,MOL PHYLOGENET EVOL,Mol. Phylogenet. Evol.,10.1016/j.ympev.2006.07.009,"Trontelj, P (corresponding author), Univ Ljubljana, Dept Biol, Biotech Fac, POB 2995, SI-1001 Ljubljana, Slovenia.",ASELLUS-AQUATICUS CRUSTACEA; MOLECULAR PHYLOGENY; EVOLUTION; COLONIZATION; BIOGEOGRAPHY; DIVERGENCE; SPECIATION; SEQUENCES; ISTHMUS; HISTORY,peter.trontelj@bf.uni-lj.si,,,16935529.0,1095-9513,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000242153000010,8,0,"Felten, V; Baudoin, JM; Guerold, F",J,English,Physiological recovery from episodic acid stress does not mean population recovery of Gammarus fossarum,2006.0,Environmental Sciences & Ecology,65,0045-6535,6,NOV,988,998,Gammarus fossarum; haemolymph; ion loss; acid stress; recovery; in situ exposure,"CEMAGREF, Lab Ecotoxicol, F-69336 Lyon 09, France; Univ Metz, Lab Biodivers & Fonctionnement Ecosyst, F-57070 Metz, France; Univ Paul Verlaine Metz, CNRS, UMR 7146, Lab Ecotox & Sante Environm, F-57070 Metz, France","The physiological responses of the acid-sensitive amphipod Gammarus fossarum exposed in situ to acid stress (pH 4.5 and 5.5) and then transferred back to neutral water were investigated. Survival rate and haemolymph [Cl-] and [Na+] were assessed after 24, 48 and 72 h of exposure in acidic streams and after a recovery period of 12, 24, 36, 48 and 60 h. After 24 h, exposure to slightly acidic (pH 5.5) and strongly acidic water (pH 4.5) led to a severe and significant depletion in haemolymph [Na+] and [Cl-] compared to organisms exposed in circumneutral water (pH 7.3). However, after only a 12 h-period of transfer back in neutral water and whatever the previous exposure time (24, 48 and 72 h) in both slightly and strongly acidic water, haemolymph [Na+] and [Cl-] were equal or superior to the control level without associated mortality. In spite of this fast physiological recovery capacity, populations of G. fossarum living in streams undergoing episodic acid stresses were drastically affected thus, demonstrating the high acid-sensitivity of this species. We discuss the possible reasons of population regression and the absence of population recovery. (c) 2006 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,76,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,11.0,107EH,"Felten, V.; Baudoin, J. M.; Guerold, F.",5.0,5.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2006.03.059,"Felten, V (corresponding author), CEMAGREF, Lab Ecotoxicol, 3 Bis Chauveau,CP 220, F-69336 Lyon 09, France.",NORTHEASTERN UNITED-STATES; FRESH-WATER AMPHIPOD; SALMON SALMO-SALAR; ASELLUS-AQUATICUS L; PULEX L; LOW PH; ASTACUS-ASTACUS; SMALL STREAMS; CADMIUM TOXICITY; ANODONTA-ANATINA,v_felten@club-internet.fr,"FELTEN, Vincent/0000-0003-2601-7225",,16678237.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:000242446500006,35,1,"Bouskill, NJ; Handy, RD; Ford, TE; Galloway, TS",J,English,Differentiating copper and arsenic toxicity using biochemical biomarkers in Asellus aquaticus and Dreissena polymorpha,2006.0,Environmental Sciences & Ecology; Toxicology,65,0147-6513,3,NOV,342,349,arsenic; copper; oxidative stress; metallothionein; Na+/K+-ATPase,"Montana State Univ, Dept Microbiol, Bozeman, MT 59717 USA; Univ Plymouth, Plymouth Environm Res Ctr, Plymouth PL4 8AA, Devon, England; Univ Plymouth, Sch Biol Sci, Plymouth PL4 8AA, Devon, England","Biomarkers of metal exposure are well known, but how a suite of such biomarkers will respond if the metal is also an oxidizing agent or causes oxidative stress is unclear. This study compares the effects of copper and arsenic, two metals with different oxidizing potential, on freshwater invertebrates. Dreissena polymorpha and Asellus aquaticus were exposed to nominal concentrations of copper (100 mu g/L) or arsenic (80 mu g/L) over 7 days, and physiological stress was examined by measuring metallothionein (MT) induction, thiobarbituric acid reactive substances (TBARS), and Na+/K+-ATPase activity. Both species showed increased levels of NIT during 7-day Cu exposure tests and transient changes in lipid peroxidation (TBARS) which decreased to control levels by day 7. Arsenic had no effect on TBARS and only a transitory effect on NIT in D. polymorpha over 7 days, although it initially induced lipid peroxidation in A. aquaticus on day 3. No inhibition of the Na+/K+-ATPase enzyme was observed for exposed organisms, and baseline values reported here, for A. aquaticus, 1.1 mu mol Pi/mg/h, and for D. polymorpha, 0.38 mu mol Pi/mg/h, are probably the first reported for these species. (c) 2005 Elsevier Inc. All rights reserved.",ACADEMIC PRESS INC ELSEVIER SCIENCE,42,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,8.0,111JD,"Bouskill, Nicolas J.; Handy, Richard D.; Ford, Tim E.; Galloway, Tamara S.",45.0,44.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1016/j.ecoenv.2005.07.027,"Bouskill, NJ (corresponding author), Montana State Univ, Dept Microbiol, 109 Lewis Hall, Bozeman, MT 59717 USA.",LIPID-PEROXIDATION; PHYSIOLOGICAL-RESPONSES; OXIDATIVE STRESS; GAMMARUS-PULEX; EXPOSURE; METALLOTHIONEIN; WATER; MERCURY; METALS; SENSITIVITY,nbouskill@plymouth.ac.uk,"Ford, Timothy/0000-0001-5194-5459","Galloway, Tamara/C-1662-2009; Bouskill, Nick J/G-2390-2015",16253326.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000241190900010,48,0,"Nystrom, P; Stenroth, P; Holmqvist, N; Berglund, O; Larsson, P; Graneli, W",J,English,"Crayfish in lakes and streams: individual and population responses to predation, productivity and substratum availability",2006.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,51,0046-5070,11,NOV,2096,2113,bottom-up; cobbles; Pacifastacus leniusculus; stable isotopes; top-down,"Lund Univ, Dept Ecol, S-22362 Lund, Sweden","1. In a correlative study, we investigated the relative importance of fish predation, refuge availability and resource supply in determining the abundance and size distributions of the introduced and omnivorous signal crayfish (Pacifastacus leniusculus) in lakes and streams. Moreover, the biomass and food selection of predatory fish was estimated in each habitat type and stable isotopes of carbon and nitrogen were measured in perch (Perca fluviatilis), the dominant predator in the lakes, and in its potential food sources (crayfish, juvenile roach and isopods). 2. In lakes, crayfish were the most frequent prey in large perch (46%), followed by other macroinvertebrates (26%, including the isopod Asellus aquaticus) and small fish (25%). Crayfish and fish dominated the gut contents of large perch with respect to biomass. Nitrogen signatures showed that perch were one trophic level above crayfish (approx. 3.4 parts per thousand) and a two-source mixing model using nitrogen isotope values indicated that crayfish (81%) contributed significantly more to perch isotope values than did juvenile roach (19%). A positive correlation was found between the abundance of crayfish and the biomass of large perch. Crayfish abundance in lakes was also positively correlated with the proportion of cobbles in the littoral zone. Lake productivity (chlorophyll a) was positively correlated with crayfish size, but not with crayfish abundance. 3. In streams, brown trout (Salmo trutta) were the most abundant predatory fish. Gut contents of large trout in a forested stream showed that terrestrial insects were the most frequently found prey (60%), followed by small crayfish (27%) and isopods (27%). In contrast to lakes, the relative abundance of crayfish was negatively correlated with the total biomass of predatory fish and with total biomass of trout. However, abundance of crayfish at sites with a low biomass of predatory fish varied considerably and was related to substratum grain size, with fewer crayfish being caught when the substratum was sandy or dominated by large boulders. The mean size of crayfish was greater at stream sites with a high standing stock of periphyton, but neither predator biomass nor substratum grain size was correlated with crayfish size. 4. Our results suggest that bottom-up processes influence crayfish size in lakes and streams independent of predator biomass and substratum availability. However, bottom-up processes do not influence crayfish abundance. Instead, substratum availability (lakes) and interactions between predation and substratum grain size (streams) need to be considered in order to predict crayfish abundance.",WILEY,71,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,18.0,093TA,"Nystrom, Per; Stenroth, Patrik; Holmqvist, Niklas; Berglund, Olof; Larsson, Per; Graneli, Wilhelm",51.0,50.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2006.01641.x,"Nystrom, P (corresponding author), Lund Univ, Dept Ecol, Ecol Bldg, S-22362 Lund, Sweden.",BOTTOM-UP CONTROL; TOP-DOWN; PACIFASTACUS-LENIUSCULUS; SIGNAL CRAYFISH; SPECIES REPLACEMENTS; FISH PREDATION; DYNAMICS; NUTRIENTS; PREY; DENSITY,per.nystrom@limnol.lu.se,,"Ebersole, Joseph L/A-8371-2009",,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000241243100018,12,0,"Hargeby, A; Erlandsson, J",J,English,Is size-assortative mating important for rapid pigment differentiation in a freshwater isopod?,2006.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,19,1010-061X,6,NOV,1911,1919,adaptive pigmentation; ecological divergence; indirect selection; local adaptive change; reproductive isolation; sexual selection; size-assortative mating,"Lund Univ, Dept Ecol, S-22362 Lund, Sweden; Univ Gothenburg, Tjarno Marine Biol Lab, S-45296 Stromstad, Sweden","Identifying mechanisms behind assortative mating is central to the understanding of ecological divergence and speciation. Recent studies show that populations of the freshwater isopod Asellus aquaticus can rapidly become locally differentiated when submerged Chara vegetation expands in lakes. In the novel Chara habitat, isopods have become lighter pigmented and smaller than in ancestral reed stands. In this study, we used a laboratory multiple-choice experiment to investigate assortative mating as a possible prezygotic reproductive barrier between Chara and reed isopods. Mating was assortative when Chara isopods were experimentally mixed with isopods from an adjacent reed site with large-size individuals, suggesting a partial prezygotic reproductive barrier. No deviation from random mating could, however, be detected when Chara isopods were mixed with smaller sized isopods from another reed site. In both experiments, assortative mating was apparently based on size, as Chara isopods were larger and reed isopods smaller in mixed pairs than in assortative pairs. Pigmentation did not have any clear influence on mating. We suggest that divergence in pigmentation evolved through natural selection in conjunction with size-assortative mating indirectly causing assortative mating between Chara and reed isopods. Size-assortative mating is likely a by-product of natural selection, but its importance may hypothetically be transient, if selection erodes the correlation between pigmentation and size over time.",WILEY,39,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,094MI,"Hargeby, A.; Erlandsson, J.",13.0,13.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/j.1420-9101.2006.01170.x,"Hargeby, A (corresponding author), Lund Univ, Dept Ecol, S-22362 Lund, Sweden.",ASELLUS-AQUATICUS L; BODY-SIZE; REPRODUCTIVE ISOLATION; LITTORINA-SAXATILIS; NATURAL-SELECTION; FISH PREDATION; EVOLUTION; CRUSTACEA; POLYMORPHISM; PERSPECTIVE,anders.hargeby@limnol.lu.se,,,17040388.0,1420-9101,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,GENE,2021-04-13,WOS:000240028000004,21,0,"Goricki, S; Trontelj, P",J,English,Structure and evolution of the mitochondrial control region and flanking sequences in the European cave salamander Proteus anguinus,2006.0,Genetics & Heredity,378,0378-1119,,AUG 15,31,41,mitochondrial dna; tandem repeats; proteidae; amphibia; phylogeny,"Univ Ljubljana, Fac Biotech, Dept Biol, SI-1000 Ljubljana, Slovenia","The European cave salamander Proteus anguinus Laurenti 1768 is one of the best-known subterranean animals, yet its evolutionary history and systematic relationships remain enigmatic. This is the first comprehensive study on molecular evolution within the taxon, using an mtDNA segment containing the control region (CR) and adjacent sequences. Two to seven tandem repeats of 24-32 by were found in the intergenic spacer region (VNTR1), and three, four or six repeats, 59-77 by each, in the 3' end of the CR (VNTR2). Different molecular mechanisms account for VNTR2 formation in different lineages of Proteus. The overall CR variation was lower than that of the spacer region, the 3' end of the cytb gene, or the tRNA genes. Individual genes and the concatenated non-repetitive sequences produced similar, well resolved maximum likelihood, Bayesian inference and parsimony trees. The numbers of repeat elements as well as the genealogy of the VNTR2 repeat units were mostly inconsistent with the groupings of the non-repetitive sequences. Different degrees of repeat array homogenization were detected in all major groups. Orthology was established for the first and the second VNTR2 elements of some populations. These two copies may therefore be used for analyses at the population level. The pattern of CR sequence variation points to strong genetic isolation of hydrographically separated populations. Genetic separation of the major groups of populations is incongruent with the current division into subspecies. (c) 2006 Elsevier B.V. All rights reserved.",ELSEVIER,68,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,11.0,077KK,"Goricki, Spela; Trontelj, Peter",44.0,34.0,Genetics & Heredity,GENE,Gene,10.1016/j.gene.2006.04.016,"Trontelj, P (corresponding author), Univ Ljubljana, Fac Biotech, Dept Biol, Vecna Pot 111, SI-1000 Ljubljana, Slovenia.",DNA CONTROL REGION; D-LOOP REGION; ASELLUS-AQUATICUS CRUSTACEA; TANDEM REPEATS; PHYLOGENETIC-RELATIONSHIPS; NUCLEOTIDE-SEQUENCE; LENGTH VARIATION; HETEROPLASMY; AMPHIBIA; GENOME,peter.trontelj@bf.uni-lj.si,,,16764998.0,1879-0038,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OIKOS,2021-04-13,WOS:000239151300012,21,0,"Hasu, T; Valtonen, ET; Jokela, J",J,English,Costs of parasite resistance for female survival and parental care in a freshwater isopod,2006.0,Environmental Sciences & Ecology,114,0030-1299,2,AUG,322,328,,"Univ Jyvaskyla, Dept Biol & Environm Sci, FIN-40014 Jyvaskyla, Finland; EAWAG, Dept Limnol, CH-8600 Dubendorf, Switzerland","Parasite resistance is expected to be costly because activation and maintenance of immune system requires energy that will not be available for other fitness related functions. Here, we experimentally exposed gravid female isopods from two lake populations to trophically transmitted acanthocephalan parasite. Successful establishment of the parasite requires penetration to body cavity; therefore, it is likely to induce an immune response. Resistant females from a lake where the parasite occurs as well as from a lake without the parasite experienced higher mortality than susceptible or control females. Parasite exposure reduced the offspring size at birth in both susceptible, but especially, in resistant females, suggesting that resistant females had less resource to direct for parental care. Parasite exposure had no effect on brood dumping, time to release of offspring or offspring growth rate after birth. Hence, our results reveal costs of resistance in parental survival and parental care of offspring.",WILEY-BLACKWELL,31,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,7.0,065HR,"Hasu, Tiina; Valtonen, E. Tellervo; Jokela, Jukka",16.0,16.0,Ecology,OIKOS,Oikos,10.1111/j.2006.0030-1299.14726.x,"Hasu, T (corresponding author), Univ Jyvaskyla, Dept Biol & Environm Sci, FIN-40014 Jyvaskyla, Finland.",ACANTHOCEPHALUS-LUCII ACANTHOCEPHALA; EVOLUTIONARY ECOLOGY; ASELLUS-AQUATICUS; IMMUNE DEFENSE; TRADE-OFFS; REPRODUCTION; POPULATION; HOST; ECHINORHYNCHIDAE; CONSUMPTION,tiihasu@bytl.jyu.fi,"Jokela, Jukka/0000-0002-1731-727X",,,1600-0706,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BOREAL ENVIRONMENT RESEARCH,2021-04-13,WOS:000238772500003,14,0,"Tulonen, T; Pihlstrom, M; Arvola, L; Rask, M",J,English,"Concentrations of heavy metals in food web components of small, boreal lakes",2006.0,Environmental Sciences & Ecology,11,1239-6095,3,JUN 30,185,194,,"Univ Helsinki, Lammi Biol Stn, FI-16900 Lammi, Finland; Univ Helsinki, Dept Systemat & Ecol, FI-00014 Helsinki, Finland; Finnish Game & Fisheries Res Inst, Evo Res Stn, FI-16970 Evo, Finland","The concentrations of heavy metals in different food web components, such as zooplankton, benthic invertebrates and fish, were examined in small humic lakes from southern Finland. Variation in metal concentrations in zooplankton was observed between different lakes and in benthic invertebrates between different animal groups. We found a significant relationship between lakewater pH and Cd concentration in isopods (Asellus aquaticus), while no relationship between the humic content of lakewater and Cd or Hg concentrations was observed. Annual variation in Cd, studied over a six-year period, was correlated with the amount of discharge, which indicated the importance of the annual loading of Cd from the catchment in determining accumulation in isopods. The metal concentrations in perch (Perca fluviatilis) were higher in a humic and acid lake than in a slightly humic lake and may partly be explained by the varying dietary regime of perch.",FINNISH ENVIRONMENT INST,42,"P O BOX 140, FIN-00251 HELSINKI, FINLAND",HELSINKI,10.0,060AD,"Tulonen, Tina; Pihlstrom, Mikael; Arvola, Lauri; Rask, Martti",37.0,32.0,Environmental Sciences,BOREAL ENVIRON RES,Boreal Environ. Res.,,"Tulonen, T (corresponding author), Univ Helsinki, Lammi Biol Stn, Paajarvent 320, FI-16900 Lammi, Finland.",FRESH-WATER ISOPODS; ASELLUS-AQUATICUS L; PERCA-FLUVIATILIS L; TRACE-METALS; HEADWATER LAKES; ACCUMULATION; CADMIUM; PATTERNS; FINLAND; FISH,tiina.tulonen@helsinki.fi,"Arvola, Lauri/0000-0003-1380-0659",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,ENGINEERING GEOLOGY,2021-04-13,WOS:000238462700003,6,0,"Bloor, MC; Banks, CJ; Krivtsov, V",J,English,Population dynamics in Asellus aquaticus as modified by chronic leachate stress,2006.0,Engineering; Geology,85,0013-7952,1-2,MAY 26,9,13,Asellus aquaticus; leachate; landfill; population dynamics; toxicity testing; sub-lethal (chronic) toxicity,"Univ Southampton, Sch Civil & Environm Engn, Southampton SO17 1BJ, Hants, England","In the past, many landfill sites were constructed and operated without engineering containment, and from which leachate is likely to arise over the next several decades. Landfill leachate can contain high concentrations of toxic substances, which may pose a threat to the surroundings. In the worst cases, leachates may seep through the underlying substrata causing contamination of groundwater, of surface water drains, and ultimately of the rivers into which they discharge. As a consequence, the diversity and species richness of benthic communities are often degraded. The chronic toxicity of a landfill leachate was investigated in this study, with respect to determining the 'environmentally safe' concentration in which the long term survival of an Asellus aquaticus population is assured. The leachate was from a disused site known to contain industrial wastes, and samples were collected from a surface drain. The leachate used in the toxicity tests had a 600 mg l(-1) BOD5 and 1200 mg l(-1) COD. Sub-lethal toxicity tests were carried out in leachate concentrations that were lower than the acute toxicity threshold of Asellus aquaticus. The toxicity was judged based on birth frequency and the final length of juveniles. Tests showed that even a dilution of 1:20 would influence the breeding colony size of Asellus. A 30 mg l(-1) COD concentration was judged to be the 'environmentally safe' leachate dilution in which the frequency of births and juvenile length (after 4 weeks of monitoring) would not be affected. At this concentration, the integrity of an Asellus population would be protected. (C) 2006 Elsevier B.V. All rights reserved.",ELSEVIER SCIENCE BV,17,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,5.0,055PM,"Bloor, M. C.; Banks, C. J.; Krivtsov, V.",1.0,1.0,"Engineering, Geological; Geosciences, Multidisciplinary",ENG GEOL,Eng. Geol.,10.1016/j.enggeo.2005.09.021,"Bloor, MC (corresponding author), Univ Southampton, Sch Civil & Environm Engn, Southampton SO17 1BJ, Hants, England.",GAMMARUS-PULEX L; TOXICITY; ENVIRONMENT; SELECTION; TESTS,M.C.Bloor@soton.ac.uk,"Krivtsov, Vladimir/0000-0003-0844-5007; Krivtsov, Vladimir/0000-0003-0844-5007; Banks, Charles/0000-0001-6795-814X","Krivtsov, Vladimir/G-7219-2015; Krivtsov, Vladimir/AAO-6018-2020",,,,,,4th British-Geotechnical-Association Geoenvironmental Engineering Conference,,"JUN, 2004","Stratford upon Avon, ENGLAND",,,British Geotech Assoc,,,,SI,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY,2021-04-13,WOS:000237484200001,15,0,"De Troch, M; Chepurnov, V; Gheerardyn, H; Vanreusel, A; Olafsson, E",J,English,Is diatom size selection by harpacticoid copepods related to grazer body size?,2006.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,332,0022-0981,1,MAY 2,1,11,copepoda; diatoms; grazing; selection,"Univ Ghent, Dept Biol, Marine Biol Sect, B-9000 Ghent, Belgium; Univ Ghent, Dept Biol, B-9000 Ghent, Belgium; Stockholm Univ, Dept Zool, SE-10691 Stockholm, Sweden","Copepods are known as important consumers of primary production and are eaten by larger animals. They therefore form a main link to higher trophic levels. While feeding pathways and specificity of planktonic copepods have been well studied, the selectivity of the benthic harpacticoid copepods is far less documented. A better knowledge of the functional ecology of harpacticoids as important grazers oil primary producers may have consequences for the re-evaluation of basic energy flow in benthic ecosystems. We tested whether size selectivity for diatoms exists in harpacticoid copepods. We hypothesized that size selectivity of harpacticoid copepod species is strongly related to body size. Because of morphological constraints, we expected smaller copepods to prefer smaller diatoms while larger copepods should be able to consume both small and large diatoms. We tested this hypothesis in four harpacticoid copepod species of varied body size: Tigriopus brevicornis, Harpacticus obscurus, Amphiascus minutus and Paramphiascella fulvofasciata. As food source we used two C-13 labelled strains of the benthic diatom Seminavis robusta with a four-fold difference in cell biovolume. Three Out of four harpacticoid species showed size selectivity: H. obscurus and A. minutus preferred the larger Seminavis cells, while P. fulvofasciata selected the smaller Seminavis cells. Based on monoclonal treatments, there was no clear preference found for T. brevicornis although there was a small preference for large cells in the mixed treatments. Except for P. fulvofasciata, all species showed a lower uptake when offered the mixed diet (both small and large cells). Although most species showed a size selectivity, our results suggest that this selectivity was not related to their body size. However, the only species that ate significantly more of small diatoms was characterised by comparatively small mouthparts in relation to its body size. (c) 2005 Elsevier B.V. All rights reserved.",ELSEVIER,52,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,11.0,041VK,"De Troch, Marleen; Chepurnov, Victor; Gheerardyn, Hendrik; Vanreusel, Ann; Olafsson, Emil",35.0,34.0,Ecology; Marine & Freshwater Biology,J EXP MAR BIOL ECOL,J. Exp. Mar. Biol. Ecol.,10.1016/j.jembe.2005.10.017,"De Troch, M (corresponding author), Univ Ghent, Dept Biol, Marine Biol Sect, Campus Sterre,Krijgslaan 281,S8, B-9000 Ghent, Belgium.",FEEDING SELECTIVITY; ASELLUS-AQUATICUS; BALTIC SEA; FOOD; ALGAE; MEIOFAUNA; PREFERENCES; MORPHOLOGY; DYNAMICS; BEHAVIOR,marleen.detroch@UGent.be,"De Troch, Marleen/0000-0002-6800-0299","Olafsson, Emil/D-4916-2012; De Troch, Marleen/AAB-9809-2019",,1879-1697,,,Green Published,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY,2021-04-13,WOS:000236748600008,147,5,"Hopkin, RS; Qari, S; Bowler, K; Hyde, D; Cuculescu, M",J,English,Seasonal thermal tolerance in marine Crustacea,2006.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,331,0022-0981,1,APR 4,74,81,acclimatization; critical thermal maximum (CTMax); decapod; heat shock,"Univ Cent Lancashire, Dept Biol Sci, Preston PR1 2HE, Lancs, England; Univ Durham, Dept Biol Sci, Durham DH1 3LE, England; Northumbria Univ, Sch Appl Sci, Newcastle Upon Tyne NE1 8ST, Tyne & Wear, England","Seasonal values of the critical thermal maximum (CTMax) of eight species of adult marine Crustacea from temperate latitudes were measured and found to range between 20 and 34 degrees C. The extent to which CTMax was dependent on acclimatization varied with species but for most of the species studied, summer-captured animals bad significantly higher CTMax values than winter-captured animals. Heat shock resulted in an increase in thermotolerance in most species in winter-captured animals, but a different pattern was found for summer-captured animals. Then, only Cancer pagurus and Pagurus bernhardus showed a positive increment of CTMax on heat shock. Test for Serial Independence analysis indicated no significant phylogenetic autocorrelation between CTMax values in winter or summer-captured animals. Temperature measurements taken by remote data loggers in the intertidal zone of the North-East coast of England are reported. These suggest that several species, whose distribution extends into the intertidal zone, may experience temperatures close to their CTMax in summer. (c) 2005 Elsevier B.V. All rights reserved.",ELSEVIER SCIENCE BV,47,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,8.0,032BJ,"Hopkin, RS; Qari, S; Bowler, K; Hyde, D; Cuculescu, M",57.0,53.0,Ecology; Marine & Freshwater Biology,J EXP MAR BIOL ECOL,J. Exp. Mar. Biol. Ecol.,10.1016/j.jembe.2005.10.007,"Hopkin, RS (corresponding author), Univ Cent Lancashire, Dept Biol Sci, Preston PR1 2HE, Lancs, England.",HEAT-SHOCK RESPONSE; CARCINUS-MAENAS L; SHORE CRAB; ASELLUS-AQUATICUS; CANCER-PAGURUS; ACCLIMATION; TEMPERATURE; PROTEIN; PHYLOGENY; SALAMANDERS,rhopkin@uclan.ac.uk,"Cuculescu-Santana, Mirela/0000-0002-1096-2591",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000236022900007,34,0,"Simcic, T; Brancelj, A",J,English,"Effects of pH on electron transport system (ETS) activity and oxygen consumption in Gammarus fossarum, Asellus aquaticus and Niphargus sphagnicolus",2006.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,51,0046-5070,4,APR,686,694,pH tolerance; metabolic potential; respiration; ETS/R ratio,"Natl Inst Biol, SI-1000 Ljubljana, Slovenia","1. Electron transport system (ETS) activity and oxygen consumption were measured in three crustacean species (Gammarus fossarum, Asellus aquaticus and Niphargus sphagnicolus) that differ in their pH tolerance. Measurements were made under four different pH regimes: strongly acid (pH 4.5-5.0), weakly acid (5.5-6.0), 'neutral' (7.0-7.8) and alkaline (8.5-9.0). 2. The significantly lower ETS activity/respiration (ETS/R) ratios observed in strongly acid water than in neutral and alkaline water indicate an effect of acidity on metabolism of the organisms. The main reason for the lower ratios is not increased oxygen consumption (except for G. fossarum in strongly acid water) but decreased ETS activity. Metabolic potential was lower in strongly and weakly acid water than in neutral water. Therefore, efficient exploitation of metabolic potential (i.e. of relatively large production of ATP with the existing enzyme machinery) probably enables N. sphagnicolus and A. aquaticus to survive in an acid environment. 3. Increased oxygen consumption of G. fossarum in strongly acid water indicates an acid stress that leads to the collapse of metabolism and, consequent death of the animals. 4. Although N. sphagnicolus is found exclusively in permanently acid water, no negative effect of alkaline water on metabolism was observed. This species can, therefore, be best considered as an acid-resistant species, not an acidobiont.",BLACKWELL PUBLISHING,32,"9600 GARSINGTON RD, OXFORD OX4 2DQ, OXON, ENGLAND",OXFORD,9.0,021YX,"Simcic, T; Brancelj, A",24.0,23.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2006.01522.x,"Simcic, T (corresponding author), Natl Inst Biol, Vecna 111, SI-1000 Ljubljana, Slovenia.",MARINE-PHYTOPLANKTON; DREISSENA-POLYMORPHA; RESPIRATION RATE; ZOOPLANKTON; INVERTEBRATES; ACIDIFICATION; TEMPERATURES; GROWTH,tatjana.simcic@nib.si,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000234792000018,33,0,"De Lange, HJ; Sperber, V; Peeters, ETHM",J,English,Avoidance of polycyclic aromatic hydrocarbon-contaminated sediments by the freshwater invertebrates Gammarus pulex and Asellus aquaticus,2006.0,Environmental Sciences & Ecology; Toxicology,25,0730-7268,2,FEB,452,457,Asellidae; behavior; Gaminaridae; response; pollution,"Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, Dept Environm Sci, NL-6700 DD Wageningen, Netherlands","Contamination of sediments is a serious problem in most industrialized areas. Sediments are often contaminated with trace metals and organic contaminants like polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs). Bioassays are often used to determine the effect of contaminants on biota. However, survival or growth may not be the most sensitive endpoints. Behavioral changes often occur at much lower concentrations. Our study aimed to assess the effect of PAHs on habitat choice of two common freshwater invertebrates, the amphipod Gammarus pulex and the isopod Asellus aquaticus. We spiked clean field sediment with a mixture of four PAHs, fluoranthene, pyrene, chrysene, and benzo[k]fluoranthene, to a total concentration of 30 mg PAH/kg dry weight. Both species were offered a choice between PAH-spiked sediments and clean sediments in laboratory experiments. Results show that both species avoid PAH-spiked sediment. Origin of the population, either from a clean reference site or from a polluted site, did not affect habitat choice of either species.",SETAC,40,"1010 NORTH 12TH AVE, PENSACOLA, FL 32501-3367 USA",PENSACOLA,6.0,004ZS,"De Lange, HJ; Sperber, V; Peeters, ETHM",54.0,53.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1897/05-413.1,"De Lange, HJ (corresponding author), Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, Dept Environm Sci, POB 8080, NL-6700 DD Wageningen, Netherlands.",OLIGOCHAETE LUMBRICULUS-VARIEGATUS; INDUCED COMMUNITY TOLERANCE; RHINE-MEUSE DELTA; POLLUTION; TOXICITY; AMPHIPOD; METALS; FOOD; EARTHWORM; RESPONSES,marieke.delange@wur.nl,"Peeters, Edwin T.H.M./0000-0003-2541-1829",,16519306.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000234198800008,19,0,"Bohman, IM; Herrmann, J",J,English,"The timing of winter-growing shredder species and leaf litter turnover rate in an oligotrophic lake, SE Sweden",2006.0,Marine & Freshwater Biology,556,0018-8158,,FEB,99,108,shredders; leaf litter processing; allochthonous subsidies; winter; Limnephilidae; Asellus; Leptophlebia,"Univ Kalmar, Freshwater Ecol Grp, Dept Biol & Environm Sci, S-39182 Kalmar, Sweden","Small freshwater systems often depend on allochthonous organic subsidies to sustain productivity. Benthic invertebrates consuming coarse detritus maintain the energy flow by conveying dead organic matter into prey items and increase the food availability for other consumers. Compared to lotic systems, the dynamics of coarse detritus decomposition has not received much attention in lakes. The objectives of this study were to investigate the seasonality of leaf litter turnover and the timing of abundance of potential shredder species in a typical oligotrophic boreal lake. Leaf litter was experimentally exposed in litterbags in the littoral zone in Lake Valen from autumn to late spring two consecutive years. The weight loss rate of leaf litter initially followed the same pattern during both winter periods, but was markedly influenced by freezing in late winter the second year. Further, the seasonal variation patterns in abundance in litterbags were quite different among the potential shredder species. Only the limnephilid caddis larvae showed a density variation pattern possible to connect to the weight loss of leaf litter in litterbags. Otherwise frequent detritivores such as Asellus aquaticus and Leptophlebia marginata displayed lowest density in litterbags during the main weight loss period. However, after the long ice period the second winter the remaining leaf litter seemed to be consumed by A. aquaticus. With increasing knowledge of the initial leaf breakdown process and the guild of shredders in lakes, the decomposition rate may also in this habitat become a useful instrument when evaluating the impact from perturbations on ecosystem function.",SPRINGER,49,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,10.0,996TW,"Bohman, IM; Herrmann, J",9.0,9.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-005-1052-1,"Bohman, IM (corresponding author), Univ Kalmar, Freshwater Ecol Grp, Dept Biol & Environm Sci, S-39182 Kalmar, Sweden.",WOODLAND POND SWITZERLAND; STREAM INVERTEBRATES; RIPARIAN VEGETATION; AIRBORNE LITTERFALL; HEADWATER STREAMS; BREAKDOWN RATES; LAND-USE; MACROINVERTEBRATE; COLONIZATION; BIODIVERSITY,Irene.Bohman@hik.se,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000234198800031,8,0,"Bloor, MC; Banks, CJ",J,English,Acute and sub-lethal toxicity of landfill leachate towards two aquatic macro-invertebrates: demonstrating the remediation potential of aerobic digestion,2006.0,Marine & Freshwater Biology,556,0018-8158,,FEB,387,397,aerobic digestion; Asellus aquaticus; 2-chlorobiphenyl; Gammarus pulex; landfill leachate; toxicity tests,"Univ Southampton, Sch Civil & Environm Engn, Southampton SO17 1BJ, Hants, England","A specific landfill leachate that contained 1.036 mgl(-1) of 2-chlorobiphenyl was used in the study (255 mg l(-1) COD and 133 mg l(-1) BOD5). Three, 2-l semi-continuous batch reactors (SBRs) were used to simulate the treatment potential of this method on a small scale. Aerobic digestion effectively reduced the leachates COD concentration. Regardless of dilution, the leachates COD reached a < 20 mg l(-1) equilibrium after 96 h exposure to aerobic digestion, however, increasing the level of dilution accelerated the process. In untreated leachate, the LC50 for Asellus aquaticus was 57% v/v leachate in deionised water and 5% for Gammarus pulex (96 h, static LC50 tests without nutrition and oxygen depleting conditions). After being exposed to aerobic digestion, these values rose to 95% and 40%, respectively. Prolonged exposure to a 1:20 sub-lethal dilution of the aforementioned leachate has been previously shown to affect the breeding colony size of Asellus aquaticus and a 1:66 dilution influenced the fecundity of a Gammarus pulex population. After remediation by aerobic digestion, however, the population dynamics of both test species remained unaltered.",SPRINGER,18,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,11.0,996TW,"Bloor, MC; Banks, CJ",3.0,3.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-005-1201-6,"Bloor, MC (corresponding author), Univ Southampton, Sch Civil & Environm Engn, Southampton SO17 1BJ, Hants, England.",ASELLUS-AQUATICUS; SEWAGE; GROWTH,M.C.Bloor@soton.ac.uk,"Banks, Charles/0000-0001-6795-814X",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENT INTERNATIONAL,2021-04-13,WOS:000234475000003,17,0,"Bloor, MC; Banks, CJ",J,English,An evaluation of mixed species in-situ and ex-situ feeding assays: The altered response of Asellus aquaticus and Gammarus pulex,2006.0,Environmental Sciences & Ecology,32,0160-4120,1,JAN,22,27,Asellus aquaticus; ex-situ and in-situ feeding assays; Gammarus pulex; landfill leachate; receiving waters; toxicity tests,"Univ Southampton, Sch Civil Engn & Environm, Southampton SO17 1BJ, Hants, England","Mixed species feeding assays were undertaken with pollution sensitive (Gammarus pulex) and tolerant (Asellus aquaticus) macroinvertebrates during August 2003 and April 2004. The purpose of this study was to establish if a test animals' response is comparable during in-situ and ex-situ toxicity tests. Seven test sites were established along an undisclosed stream, which received leachate discharge from an unlined, disused UK landfill site. Sampling points A-B were upstream of the contamination, C was adjacent to the influx and D-G were downstream of the leachate discharge (at 100 in intervals). During the in-situ and ex-situ tests, 2-week-old male laboratory bred A. aquaticus and G. pulex were used as test animals. The animals were transplanted to the seven sampling points for the duration of the in-situ tests, whilst water samples from each site were returned to the laboratory for ex-situ testing. The results show that the animals' mortality and feeding rates followed similar trends during the in-situ and ex-situ tests, however, the animals' response was amplified during the in-situ tests. It was also observed that the effects were greater in April, compared to August that may be attributed to a higher frequency of rainfall during spring, which could have flushed a greater proportion of the contaminant load from the waste mass and as a consequence, higher levels of pollution may have leached into the stream from the landfill site. The study, therefore, concludes that in-situ toxicity tests are a more precise monitoring technique, in comparison to ex-situ assays. (C) 2005 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,15,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,6.0,000PT,"Bloor, MC; Banks, CJ",15.0,13.0,Environmental Sciences,ENVIRON INT,Environ. Int.,10.1016/j.envint.2005.04.004,"Bloor, MC (corresponding author), Univ Southampton, Sch Civil Engn & Environm, Southampton SO17 1BJ, Hants, England.",TOXICITY; SENSITIVITY,M.C.Bloor@soton.ac.uk,"Banks, Charles/0000-0001-6795-814X",,15949846.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,GENOME,2021-04-13,WOS:000235684300010,7,1,"Barzotti, R; Pelliccia, F; Rocchi, A",J,English,"DNA methylation, histone H3 methylation, and histone H4 acetylation in the genome of a crustacean",2006.0,Biotechnology & Applied Microbiology; Genetics & Heredity,49,0831-2796,1,JAN,87,90,DNA methylation; H3 methylation; H4 acetylation; crustacean; Asellus aquaticus,"Univ Roma La Sapienza, Dipartimento Genet & Biol Mol, I-00185 Rome, Italy","In this work, we used antibodies against histone H3 trimethylated at lysine 9 (H3K9m3); against histone H4 acetylated at lysines 5, 8, 12, and 16 (H4ac); and against DNA methylated at 5C cytosine (m5C) to study the presence and distribution of these markers in the genome of the isopod crustacean Asellus aquaticus. The use of these 3 antibodies to immunolabel spermatogonial metaphases yields reproducible patterns oil the chromosomes of this crustacean. The X and Y chromosomes present an identical banding pattern with each of the antibodies. The heterochromatic telomeric regions and the centromeric regions are rich in H3K9m3, but depleted in m5C and H4ac. Thus, m5C does not seem to be required to stabilize the silence of these regions in this organism.","CANADIAN SCIENCE PUBLISHING, NRC RESEARCH PRESS",20,"65 AURIGA DR, SUITE 203, OTTAWA, ON K2E 7W6, CANADA",OTTAWA,4.0,017HI,"Barzotti, R; Pelliccia, F; Rocchi, A",6.0,5.0,Biotechnology & Applied Microbiology; Genetics & Heredity,GENOME,Genome,10.1139/G05-086,"Rocchi, A (corresponding author), Univ Roma La Sapienza, Dipartimento Genet & Biol Mol, P Aldo Moro 5, I-00185 Rome, Italy.",GENES; METHYLTRANSFERASE; DIFFERENTIATION; HETEROCHROMATIN; PATTERNS,angela.rocchi@uniroma1.it,"PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",16462905.0,1480-3321,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000234193100017,16,1,"De Lange, HJ; De Haas, EM; Maas, H; Peeters, ETHM",J,English,"Contaminated sediments and bioassay responses of three macroinvertebrates, the midge larva Chironomus riparius, the water louse Asellus aquaticus and the mayfly nymph Ephoron virgo",2005.0,Environmental Sciences & Ecology,61,0045-6535,11,DEC,1700,1709,food; sediment contamination; survival; growth; whole sediment bioassay,"Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, NL-6700 DD Wageningen, Netherlands; Univ Amsterdam, Dept Aquat Ecol & Ecotoxicol, IBED, NL-1098 SM Amsterdam, Netherlands; Inst Inland Water Management & Waste Water Treatm, NL-8200 AA Lelystad, Netherlands","Bioassays are widely used to estimate ecological risks of contaminated sediments. We compared the results of three whole sediment bioassays, using the midge larva Chironomus riparius, the water louse Asellus aquaticus, and the mayfly nymph Ephoron virgo. We used sediments from sixteen locations in the Dutch Rhine-Meuse Delta that differed in level of contamination. Previously developed protocols for each bioassay were followed, which differed in sediment pretreatment, replication, and food availability. The Chironomus bioassay was conducted in situ, whereas the other two were conducted in the laboratory. The measured endpoints, survival and growth, were related to contaminant levels in the sediment and to food quantity in water and sediment. Only the response of A. aquaticus in the bioassay was correlated with sediment contamination. Food availability in overlying water was much more important for C riparius and E virgo, thereby masking potential sediment contaminant effects. We conclude that growth of A. aquaticus was depressed by sediment contamination, whereas growth of E virgo and C riparius was stimulated by seston food quantity. We discuss that the trophic state of the ecosystem largely affects the ecological risks of contaminated sediments. (c) 2005 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,44,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,10.0,996RV,"De Lange, HJ; De Haas, EM; Maas, H; Peeters, ETHM",23.0,23.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/j.chemosphere.2005.03.083,"De Lange, HJ (corresponding author), Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, POB 8080, NL-6700 DD Wageningen, Netherlands.",FLOODPLAIN LAKE-SEDIMENTS; ACID VOLATILE SULFIDE; RHINE-MEUSE DELTA; BENTHIC INVERTEBRATES; CADMIUM ACCUMULATION; IN-SITU; COMMUNITY STRUCTURE; HYALELLA-AZTECA; GAMMARUS-PULEX; TOXICITY TESTS,marieke.delange@wur.nl,"Peeters, Edwin T.H.M./0000-0003-2541-1829",,15885739.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,MOLECULAR ECOLOGY,2021-04-13,WOS:000233286300012,28,2,"Verovnik, R; Sket, B; Trontelj, P",J,English,The colonization of Europe by the freshwater crustacean Asellus aquaticus (Crustacea : Isopoda) proceeded from ancient refugia and was directed by habitat connectivity,2005.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Evolutionary Biology,14,0962-1083,14,DEC,4355,4369,colonization; concerted evolution; genetic diversity; phylogeography; refugium,"Univ Ljubljana, Biotech Fac, Dept Biol, SE-1000 Ljubljana, Slovenia","Recent continental-scale phylogeographic studies have demonstrated that not all freshwater fauna colonized Europe from the classic Mediterranean peninsular refugia, and that northern or central parts of the continent were occupied before, and remained inhabited throughout the Pleistocene. The colonization history of the ubiquitous aquatic isopod crustacean Asellus aquaticus was assessed using mitochondrial COI and a variable part of nuclear 28S rDNA sequences. Phylogeographic analysis of the former suggested that dispersion proceeded possibly during late Miocene from the western part of the Pannonian basin. Several areas colonized from here have served as secondary refugia and/or origins of dispersion, well before the beginning of the Pleistocene. Postglacial large-scale range expansion was coupled with numerous separate local dispersions from different refugial areas. Connectivity of the freshwater habitat has played an important role in shaping the current distribution of genetic diversity, which was highest in large rivers. The importance of hydrographic connections for the maintenance of genetic contact was underscored by a discordant pattern of mtDNA and nuclear rDNA differentiation. Individuals from all over Europe, differing in their mtDNA to a level normally found between species or even genera (maximal within population nucleotide divergence reached 0.16 +/- 0.018), shared the same 28S rRNA gene sequence. Only populations from hydrographically isolated karst water systems in the northwestern Dinaric Karst had distinct 28S sequences. Here isolation seemed to be strong enough to prevent homogenization of the rRNA gene family, whereas across the rest of Europe genetic contact was sufficient for concerted evolution to act.",WILEY,68,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,15.0,984EW,"Verovnik, R; Sket, B; Trontelj, P",109.0,105.0,Biochemistry & Molecular Biology; Ecology; Evolutionary Biology,MOL ECOL,Mol. Ecol.,10.1111/j.1365-294X.2005.02745.x,"Verovnik, R (corresponding author), Univ Ljubljana, Biotech Fac, Dept Biol, Vecna Pot 111, SE-1000 Ljubljana, Slovenia.",PHYLOGENETIC TREE SELECTION; MITOCHONDRIAL-DNA; PHYLOGEOGRAPHIC RELATIONSHIPS; MOLECULAR SYSTEMATICS; CONCERTED EVOLUTION; SEQUENCE ALIGNMENT; GENE FLOW; POPULATIONS; BIOGEOGRAPHY; HISTORY,rudi.verovnik@bf.uni-lj.si,,,16313598.0,1365-294X,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:000233908500010,64,1,"Lecerf, A; Dobson, M; Dang, CK; Chauvet, E",J,English,Riparian plant species loss alters trophic dynamics in detritus-based stream ecosystems,2005.0,Environmental Sciences & Ecology,146,0029-8549,3,DEC,432,442,trophic interactions; microbial diversity; ecosystem functioning; shredders; leaf litter breakdown,"UPS, CNRS, UMR 5172, Lab Dynam Biodivers, F-31055 Toulouse, France; Manchester Metropolitan Univ, Dept Environm Geog Sci, Manchester M1 5GD, Lancs, England; EAWAG, Limnol Res Ctr, CH-6047 Kastanienbaum, Switzerland","Riparian vegetation is closely connected to stream food webs through input of leaf detritus as a primary energy supply, and therefore, any alteration of plant diversity may influence aquatic ecosystem functioning. We measured leaf litter breakdown rate and associated biological parameters in mesh bags in eight headwater streams bordered either with mixed deciduous forest or with beech forest. The variety of leaf litter types in mixed forest results in higher food quality for large-particle invertebrate detritivores ('shredders') than in beech forest, which is dominated by a single leaf species of low quality. Breakdown rate of low quality (oak) leaf litter in coarse mesh bags was lower in beech forest streams than in mixed forest streams, a consequence of lower shredder biomass. In contrast, high quality (alder) leaf litter broke down at similar rates in both stream categories as a result of similar shredder biomass in coarse mesh bags. Microbial breakdown rate of oak and alder leaves, determined in fine mesh bags, did not differ between the stream categories. We found however aquatic hyphomycete species richness on leaf litter to positively co-vary with riparian plant species richness. Fungal species richness may enhance leaf litter breakdown rate through positive effects on resource quality for shredders. A feeding experiment established a positive relationship between fungal species richness per se and leaf litter consumption rate by an amphipod shredder (Gammarus fossarum). Our results show therefore that plant species richness may indirectly govern ecosystem functioning through complex trophic interactions. Integrating microbial diversity and trophic dynamics would considerably improve the prediction of the consequences of species loss.",SPRINGER,68,"ONE NEW YORK PLAZA, SUITE 4600, NEW YORK, NY, UNITED STATES",NEW YORK,11.0,992UC,"Lecerf, A; Dobson, M; Dang, CK; Chauvet, E",133.0,130.0,Ecology,OECOLOGIA,Oecologia,10.1007/s00442-005-0212-3,"Lecerf, A (corresponding author), UPS, CNRS, UMR 5172, Lab Dynam Biodivers, 29 Rue Jeanne Marvig, F-31055 Toulouse, France.",LEAF-LITTER DECOMPOSITION; ASELLUS-AQUATICUS; BREAKDOWN RATES; GAMMARUS-PULEX; FOREST; FUNGI; DIVERSITY; GROWTH; INVERTEBRATES; REPRODUCTION,lecerf@cict.fr,"LECERF, Antoine/0000-0002-7802-9773; LECERF, Antoine/0000-0002-7802-9773; Chauvet, Eric/0000-0001-8676-392X","LECERF, Antoine/ABD-2834-2020; LECERF, Antoine/C-5492-2011; Chauvet, Eric/F-7644-2011",16096846.0,1432-1939,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENT INTERNATIONAL,2021-04-13,WOS:000232077900002,9,0,"Bloor, MC; Banks, CJ",J,English,Acute and sub-lethal toxicity of landfill leachate towards two aquatic macro-invertebrates: Demonstrating the remediation potential of air stripping,2005.0,Environmental Sciences & Ecology,31,0160-4120,8,OCT,1114,1122,air stripping; Asellus aquaticus; 2-chlorobiphenyl; Gammarus pulex; landfill leachate; toxicity tests,"Univ Southampton, Sch Civil Engn & Environm, Southampton SO17 1BJ, Hants, England","A specific leachate that contained 1.036 mg l(-1) of 2-chlorobiphenyl was used in the study (255 mg l(-1) COD and 133 mg l(-1) BOD5). Bench scale (20 1) air stripping trials were used to simulate on a small-scale the treatment potential of this method. Air stripping effectively reduced the leachates COD concentration. Regardless of the volume of air supplied (1-5 1 of air per minute) the leachates COD reached a < 50 mg l(-1) equilibrium after 96-h exposure, however, increasing the volume of air accelerated the process. In untreated leachate, the LC50 for Asellus aquaticus was 57% v/v leachate in deionised water and 5% for Gammarus pulex (96-h, static LC50 tests without nutrition and oxygen depleting conditions). After being exposed to air stripping, these values rose from 90% to below the LC50 threshold for Asellus when 1-5 l of air per minute were applied and 30-90% for Gammarus. Furthermore, in sub-lethal concentrations of air stripped leachate (leachate that had been exposed to 5-1 of air per minute for 96-h) the population dynamics of both test species remained unaltered. (C) 2005 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,21,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,9.0,967FW,"Bloor, MC; Banks, CJ",6.0,6.0,Environmental Sciences,ENVIRON INT,Environ. Int.,10.1016/j.envint.2005.03.002,"Bloor, MC (corresponding author), Univ Southampton, Sch Civil Engn & Environm, Southampton SO17 1BJ, Hants, England.",GAMMARUS; GROWTH,M.C.Bloor@soton.ac.uk,"Banks, Charles/0000-0001-6795-814X",,15946742.0,1873-6750,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:000232714700005,26,0,"Kelly, DW; Dick, JTA",J,English,Effects of environment and an introduced invertebrate species on the structure of benthic macroinvertebrate species at the catchment level,2005.0,Marine & Freshwater Biology,164,0003-9136,1,SEP,69,88,biodiversity; biotic interactions; Gammarus; invasive species; macroinvertebrate community,"Queens Univ Belfast, Sch Biol & Biochem, Belfast BT9 7BL, Antrim, North Ireland; Univ Windsor, Great Lakes Inst Environm Res, Windsor, ON N9B 3P4, Canada","Biotic interactions such as predation and competition can influence aquatic communities at small spatial scales, but they are expected to be overridden by environmental factors at large scales. The continuing threat to freshwater biodiversity of biological invasions indicates that biotic factors do, however, have important structuring roles. In Irish rivers, the native amphipod Gammarus duebeni celticus has become locally extinct, ostensibly through differential predation by the more aggressive and introduced G. pulex. This mechanism explains impacts of G. pulex at within-river spatial scales on native macroinvertebrate community diversity, including declines in ephemeropterans, plecopterans, dipterans and oligochaetes. To determine if these patterns are predictable at larger spatial scales, we assessed patterns in native macroinvertebrate communities across river sites of the Erne catchment in 1998 and 1999, in conjunction with the distribution of G. pulex and G. d. celticus. In both years, G. pulex dominated invaded sites, whereas G. d. celticus occurred at low abundance in uninvaded sites. In both years, invaded sites had lower diversity and fewer pollution sensitive invertebrate species than un-invaded sites. Community ordination in 1998 showed that invaded sites had higher conductivity, smaller substrate particle size and comprised a lower proportion of pollution sensitive taxa including Ephemeroptera and Plecoptera. In contrast, in 1999, conductivity was the only variable explaining site ordination along axis 1, but was unable to separate sites with respect to invasion status. A second explanatory axis separated sites with respect to invasion status, with invaded sites having fewer taxa, including lower abundance of ephemeropterans, dipterans and plecopterans. Laboratory experiments examined the potential role of differential predation between the two Gammarus species in explaining these taxon specific patterns in the field. Survival of the ephemeropterans, Ephemerella ignita and Ecdyonurus venosus and the isopod, Asellus aquaticus, was lower when interacting with G. pulex than with G. d. celticus. This study indicates that G. putex may alter invertebrate community structure at scales beyond those detected within individual rivers. However, effects may be influenced by gradients in physico-chemistry, which may be temporal or depend on catchment characteristics. Invasions by amphipods have increased globally, thus comprehensive assessments of their impacts and of other aquatic invaders, may only be apparent when studies are conducted at a range of spatio-temporal scales.",E SCHWEIZERBARTSCHE VERLAGSBUCHHANDLUNG,55,"NAEGELE U OBERMILLER, SCIENCE PUBLISHERS, JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,20.0,976ED,"Kelly, DW; Dick, JTA",25.0,21.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,10.1127/0003-9136/2005/0164-0069,"Kelly, DW (corresponding author), Queens Univ Belfast, Sch Biol & Biochem, Belfast BT9 7BL, Antrim, North Ireland.",INVADER DIKEROGAMMARUS-VILLOSUS; COMMUNITY STRUCTURE; INTRAGUILD PREDATION; GAMMARUS CRUSTACEA; WATER-QUALITY; LOUGH NEAGH; IMPACT; AMPHIPODS; BEHAVIOR; SYSTEM,dwkelly@uwindsor.ca,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY,2021-04-13,WOS:000232315600006,17,1,"Fielding, NJ; MacNeil, C; Robinson, N; Dick, JTA; Elwood, RW; Terry, RS; Ruiz, Z; Dunn, AM",J,English,Ecological impacts of the microsporidian parasite Pleistophora mulleri on its freshwater amphipod host Gammarus duebeni celticus,2005.0,Parasitology,131,0031-1820,,SEP,331,336,amphipod; Gammarus; isopod; microsporidian; Pleistophora mulleri; trophic,"Queens Univ Belfast, Sch Biol & Biochem, Ctr Med Biol, Belfast BT9 7BL, Antrim, North Ireland; Univ Leeds, Ctr Biodivers & Conservat, Sch Biol, Leeds LS2 9JT, W Yorkshire, England; Univ Exeter, Dept Geog, Exeter EX4 4RJ, Devon, England","The microsporidian parasite, Pleistophora mulleri, infects the abdominal muscle of the freshwater amphipod Gammarus duebeni celticus. We recently showed that P. mulleri infection was associated with G. d. celticus hosts being more vulnerable to predation by the invasive amphipod Gammarus pulex. Parasitized G. d. celticus also had a reduced ability to prey upon other co-occurring amphipods. We suggested the parasite may have pervasive influences on host ecology and behaviour. Here, we examine the association between P. mulleri parasitism and parameters influencing individual host fitness, behaviour and interspecific interactions. We also investigate the relationship between parasite prevalence and host population structure in the field. In our G. d. celticus study population, P. mulleri prevalence was strongly seasonal, ranging from 8.5% in summer to 44.9% in winter. The relative abundance of hosts with the heaviest parasite burden increased during summer, which coincided with high host mortality, suggesting that parasitism may regulate host abundance to some degree. Females were more likely to be parasitized than males and parasitized males were paired with smaller females than unparasitized males. Parasitism was associated with reduction in the host's activity level and reduced both its predation on the isopod Asellus aquaticus and aggression towards precopula pairs of the invasive G. pulex. We discuss the pervasive influence of this parasite on the ecology of its host.",CAMBRIDGE UNIV PRESS,24,"40 WEST 20TH ST, NEW YORK, NY 10011-4211 USA",NEW YORK,6.0,970MZ,"Fielding, NJ; MacNeil, C; Robinson, N; Dick, JTA; Elwood, RW; Terry, RS; Ruiz, Z; Dunn, AM",26.0,26.0,Parasitology,PARASITOLOGY,Parasitology,10.1017/S0031182005007754,"MacNeil, C (corresponding author), Govt Lab, Ballakermeen Rd, Douglas 1M1 4BR, Man, England.",SPP. CRUSTACEA; PREDATION; REPLACEMENT; PULEX; TRANSMISSION; CANNIBALISM; COMPETITION; INFECTION; DISEASE; BIOLOGY,,"Dunn, Alison/0000-0002-4855-1077",,16178354.0,,,,,,,,,3,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000231958500003,15,0,"De Lange, HJ; Lurling, M; Van den Borne, B; Peeters, ETHM",J,English,Attraction of the amphipod Gammarus pulex to water-borne cues of food,2005.0,Marine & Freshwater Biology,544,0018-8158,,AUG 1,19,25,choice; feeding; infochemical; Gammarus; fungi; bacteria; algae,"Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, NL-6700 DD Wageningen, Netherlands","We examined the ability of the amphipod Gammarus pulex to detect chemical cues released from potential food sources. Therefore, response of G. pulex to chemical cues from food was tested in paired-choice laboratory experiments. Comparisons were made between artificial and natural leaves, with and without the importance of aufwuchs, and with different components of the aufwuchs community. Our study demonstrated that G. pulex actively chose its food and that G. pulex is most strongly attracted to the aufwuchs on discs rather than to the leaf itself. Fungi and bacteria are more important in the food selection process than algae probably because fungal and bacterial cues are more specific cues for decaying leaves than algal cues, since algae also grow on mineral substrates and then do not contribute to leaf decomposition.",SPRINGER,34,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,7.0,965NX,"De Lange, HJ; Lurling, M; Van den Borne, B; Peeters, ETHM",23.0,22.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-004-7896-y,"De Lange, HJ (corresponding author), Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, POB 8080, NL-6700 DD Wageningen, Netherlands.",RELEASED CHEMICAL CUES; ASELLUS-AQUATICUS; GROWTH; PREDATORS; CRUSTACEA; STIMULI; DIET; CONSPECIFICS; LACUSTRIS; SURVIVAL,marieke.delange@wur.nl,"Peeters, Edwin T.H.M./0000-0003-2541-1829",,,1573-5117,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:000230923700001,32,1,"Wood, PJ; Toone, J; Greenwood, MT; Armitage, PD",J,English,The response of four lotic macroinvertebrate taxa to burial by sediments,2005.0,Marine & Freshwater Biology,163,0003-9136,2,JUN,145,162,sedimentation; siltation; burial; ex-situ experiment; faunal response,"Univ Loughborough, Dept Geog, Loughborough LE11 3TU, Leics, England; Winfrith Technol Ctr, Ctr Ecol & Hydrol, Dorchester DT2 8ZD, Dorset, England","Sedimentation is widely acknowledged as a major cause 4 degradation of instream habitats. However, macroinvertebrate burial by sediment has been poorly studied. Ex situ experiments were undertaken to examine the response of four common and abundant macroinvertebrate taxa (Baetis rhodani, Nemoura cambrica, Hydropsyche pellucidula, and Asellus aquaticus) to burial by six sediment size classes (range = 125 mu m - 10 mm in size) and two depths of burial (5 mm and 10 mm). The nymphs of the ephemeropteran, Baetis rhodani, were unable to excavate themselves from any of the sediments. In contrast, the plecopteran nymphs of Nemoura cambrica were able to excavate themselves from all sediment classes and burial depths. Adults of the isopod, Asellus aquaticus, were able to excavate themselves rapidly from finer sediment classes (< I mm) but took significantly longer to escape from sediment > 1 mm in size and became trapped in coarser sediments (> 4 mm in size at 5 mm burial depth and > 2 mm at 10 mm. burial depth). The larvae of the trichopteran, Hydropsyche pellucidula, were able to excavate their heads from all sediment classes and both burial depths, but became trapped in particles < 500 mu m in size when buried under 10mm of sediment. The results demonstrate that the response of individual taxa to burial with sediments is highly variable. Consequently, many of the documented changes to benthic macroinvertebrate community composition due to sedimentation probably mask a variety of individual faunal responses.",E SCHWEIZERBARTSCHE VERLAGSBUCHHANDLUNG,46,"NAEGELE U OBERMILLER, SCIENCE PUBLISHERS, JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,18.0,951IT,"Wood, PJ; Toone, J; Greenwood, MT; Armitage, PD",55.0,52.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,10.1127/0003-9136/2005/0163-0145,"Wood, PJ (corresponding author), Univ Loughborough, Dept Geog, Loughborough LE11 3TU, Leics, England.",LAKE TANGANYIKA; FINE SEDIMENT; LAND-COVER; STREAM; RIVER; FISH; INVERTEBRATES; COMMUNITIES; TRICHOPTERA; LIMNEPHILIDAE,pj.wood@lboro.ac.uk,"Wood, Paul/0000-0003-4629-3163","Wood, Paul/C-2627-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000231029600009,12,0,"Bjelke, U",J,English,Processing of leaf matter by lake-dwelling shredders at low oxygen concentrations,2005.0,Marine & Freshwater Biology,539,0018-8158,,MAY 1,93,98,shredders; decomposition; hypoxia; littoral; Limnephilidae; Asellus aquaticus,"Univ Kalmar, Freshwater Ecol Grp, Dept Biol & Environm Sci, S-39182 Kalmar, Sweden","Organic sediments in freshwaters are regularly subject to low concentrations of oxygen. The ability of detritivores to sustain their feeding in such conditions should therefore be of importance for the decomposition process. In the present study, aquaria were used to determine processing rates of five lake-dwelling shredders at three different oxygen concentrations; normoxic (9 mg O-2 l(-1)) and two levels of hypoxia (I and 2 mg O-2 l(-1)). Discs of alder leaves (Alnus glutinosa (L.)) were used as food. Four species of caddisfly larvae (Trichoptera Limnephilidae) and the isopod, Asellus aquaticus (L.) were compared in the experiments. Significant differences in processing rates per g animal biomass were found both at normoxia and 2 mg oxygen l(-1). At I mg O-2 l(-1) none of the invertebrates fed on leaf discs. The caddisfly larvae Halesus radiatus (Curtis), being one of the two most efficient shredders at normoxia, did not feed at 2 mg oxygen l(-1). The other species fed at rates 15-50% of that at normoxia. The least efficient shredder at normoxia, A. aquaticus was similar to two of the trichopterans at 2 mg O-2 l(-1). This study shows that the importance of specific shredder species may shift in case of hypoxia. Species-specific traits regarding oxygen sensitivity may also be influential for distribution patterns of shredder species both within and between lakes.",SPRINGER,31,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,6.0,952TY,"Bjelke, U",10.0,9.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/s10750-004-3369-6,"Bjelke, U (corresponding author), Univ Kalmar, Freshwater Ecol Grp, Dept Biol & Environm Sci, S-39182 Kalmar, Sweden.",ASELLUS-AQUATICUS L; GAMMARUS-PULEX; LARVAE; WATER; DECOMPOSITION; TRICHOPTERA; COMMUNITIES; DETRITUS; HYPOXIA; HABITAT,ulf.bjelke@hik.se,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000228396800022,15,0,"Hargeby, A; Stoltz, J; Johansson, J",J,English,Locally differentiated cryptic pigmentation in the freshwater isopod Asellus aquaticus,2005.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,18,1010-061X,3,MAY,713,721,background matching; correlational selection; cryptis; divergent selection; genetic variation; Isopoda; local adaptation,"Lund Univ, Dept Ecol, S-22362 Lund, Sweden","A repeated pattern of background colour matching in animals is an indication that pigmentation may be cryptic. Here, we examine the relationship between pigmentation of the freshwater isopod Asellus aquaticus and background darkness in 29 lakes, wetlands and ponds in Southern Sweden. The results show that Asellus pigmentation was correlated with substrate darkness across all localities. In seven localities, in which two contrasting substrate types were noted, Asellus populations were differentiated with respect to pigmentation. These findings thus provide phenomenological support for cryptic pigmentation in Asellus. Pigmentation generally increased with body size, but the relationship between pigmentation and size differed among localities, possibly as a result of differences in correlational selection on pigmentation and size. Selection thus appears to have resulted in local differentiation over a small spatial scale, even within lakes and wetlands. This differentiation is a likely cause behind elevated phenotype variation noted in localities with two substrate types, suggesting that habitat heterogeneity promotes genetic diversity.",WILEY,42,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,916PE,"Hargeby, A; Stoltz, J; Johansson, J",23.0,23.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1111/j.1420-9101.2004.00837.x,"Hargeby, A (corresponding author), Lund Univ, Dept Ecol, Ecol Bldg, S-22362 Lund, Sweden.",PERCA-FLUVIATILIS L; FISH PREDATION; GENE FLOW; BODY-SIZE; CORRELATIONAL SELECTION; STRUCTURAL COMPLEXITY; COMMUNITY STRUCTURE; COLOR PATTERN; EVOLUTION; PREY,anders.hargeby@limnol.se,,,15842500.0,1420-9101,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ZOOLOGY,2021-04-13,WOS:000228683700002,17,1,"Bertin, A; Cezilly, F",J,English,Density-dependent influence of male characters on mate-locating efficiency and pairing success in the waterlouse Asellus aquaticus: an experimental study,2005.0,Zoology,265,0952-8369,,APR,333,338,Asellus aquaticus; antennae; body size; density; sexual selection,"Univ Bourgogne, CNRS, UMR 5561 Biogeosci, F-21000 Dijon, France","Population density is likely to determine the form of competition in which males are engaged for access to females. At low density, scramble competition should be of paramount importance because of the low probability of encounter between males and females. Consequently, sexual selection should favour characters that allow rapid detection of females. Conversely, at high population density, sexual selection should favour attributes that raise the fighting ability of males because of the more frequent contacts between males. These general predictions were tested in this study for the precopulatory mate-guarding isopod, Asellus aquaticus. In this species, male-biased sexual dimorphisms are reported for body size and antennae length and are, respectively, ascribed to contest and scramble competition over females. Therefore, the relative strength of sexual selection on male body size and antennae length at two different densities was experimentally assessed. Multivariate analyses indicated that density affected morphological correlates of the mating success of males, with body size being the main determinant of pairing success in males at a high density, whereas only antennae size significantly affected access to females at a low density. The antennae length of males was manipulated to examine how antennae length affects the ability of males to detect females in three experimental conditions varying in the probability of random contacts with receptive females. An advantage of having long antennae was only observed when there was an intermediate difficulty in finding females. Our results are discussed in relation to the influence of density on selective regimes in A. aquaticus.",WILEY,55,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,6.0,920IX,"Bertin, A; Cezilly, F",19.0,18.0,Zoology,J ZOOL,J. Zool.,10.1017/S0952836905006400,"Bertin, A (corresponding author), Univ Montpellier 2, CNRS, Inst Sci Evolut, UMR N5554,CC065, Bat 22,Pl Eugene Bataillon, F-34095 Montpellier, France.",SEXUAL SIZE DIMORPHISM; POPULATION-DENSITY; SELECTION; CRUSTACEA; GAMMARUS; COMPETITION; ASYMMETRY; DURATION; FEMALE; BEETLE,bertin@isem.univ-montp2.fr,,,,1469-7998,,,,,,,,4,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000226962200006,47,0,"Franken, RJM; Waluto, B; Peeters, ETHM; Gardeniers, JJP; Beijer, JAJ; Scheffer, M",J,English,Growth of shredders on leaf litter biofilms: the effect of light intensity,2005.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,50,0046-5070,3,MAR,459,466,Asellus aquaticus; biofilm; decomposition; Gammarus pulex; light,"Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, NL-6700 DD Wageningen, Netherlands","1. The effect of light intensity on the decomposition of poplar (Populus nigra) leaves and growth of the shredders, Asellus aquaticus and Gammarus pulex, was studied in a laboratory experiment. The response was studied along a gradient of six light intensities of 0, 5, 23, 54, 97 and 156 mumol m(-2) s(-1). It was hypothesised that an increase in light intensity would increase growth of shredders, because of an increase of algae (i.e. food quality) in the leaf-biofilm. 2. Light intensity affected both leaf-biofilm quality and consumer behaviour and affected several aspects of the decomposition-consumer interaction. In the absence of invertebrates, leaf mass loss was lower in the dark, while light intensity had no significant effect on mass loss of poplar leaf in the presence of invertebrates. Light intensity affected algal biomass, density and composition, and had a significant positive effect on the growth of both shredders. 3. Our results suggest that algae can be an important component of the nutritional value of the leaf-biofilm for benthic invertebrates, directly as an additional food source and indirectly through a link with bacteria and/or fungi. 4. The River Continuum Concept mainly emphasises allochthonous inputs to headwater streams and autochthonous production further downstream. Our results suggest that light, by its effect on the biofilms on leaf surfaces, might be a more important factor in headwaters than is usually assumed.",WILEY,44,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,8.0,896VM,"Franken, RJM; Waluto, B; Peeters, ETHM; Gardeniers, JJP; Beijer, JAJ; Scheffer, M",52.0,52.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2005.01333.x,"Franken, RJM (corresponding author), Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, POB 8080, NL-6700 DD Wageningen, Netherlands.",DISSOLVED ORGANIC-CARBON; GAMMARUS-PULEX; ASELLUS-AQUATICUS; STREAM ECOSYSTEM; PERIPHYTON; LIMITATION; RESPONSES; LEAVES; FUNGI; DIET,rob.franken@wur.nl,"Franken, Rob/0000-0002-8101-6914; Peeters, Edwin T.H.M./0000-0003-2541-1829","Scheffer, Marten/C-1852-2012",,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PROCESS SAFETY AND ENVIRONMENTAL PROTECTION,2021-04-13,WOS:000229092400015,5,0,"Bloor, MC; Banks, CJ",J,English,Acute and sub-lethal toxicity of landfill leachate towards two macro-invertebrates - Assessing the remediation potential of constructed wetlands,2005.0,Engineering,83,0957-5820,B2,MAR,184,190,Asellus aquaticus; 2-chlorobiphenyl; constructed wetlands; Gammarus pulex; landfill leachate; toxicity tests,"Univ Southampton, Dept Civil & Environm Engn, Southampton SO17 1BJ, Hants, England","A specific leachate that contained 1.036 mgl(-1) of 2-chlorobiphenyl was used in the study (255 mgl(-1) COD and 133 mgl(-1) BOD5). When operated on a 10 day hydraulic retention time (RT), reed beds planted with Juncus effusits removed 60% of the leachates COD, cornpared to 25% in unplanted beds. The constructed wetlands proved effective at reducing the level of acute toxicity to A. aquaticus and G. pulex. In untreated leachate, the LC50 for A. aquaticus was 57% v/v leachate in deionized water and 5% for G. pulex. When reed beds were operated on a 1-10 day RT, the LC50 for Asellus increased from 69% to below the LC50 threshold. The Gammarus LC50 also rose from 10% to 50%. The maximum toxicity reduction achieved by unplanted beds was 10% towards A. aquaticus and 5% for G. pulex, when operated on a 10 day RT. However, in sub-lethal concentrations of reed bed effluent (100%, 80% and 60% dilutions, obtained from planted beds on a 10 day RT), the final length of Asellus was significantly reduced, in comparison to a deionized water control. It is also speculated that chronic leachate stress may have affected the fecundity of Gammarus, however, insufficient data was collected to statistically validate this hypothesis.",ELSEVIER,22,"RADARWEG 29, 1043 NX AMSTERDAM, NETHERLANDS",AMSTERDAM,7.0,925ZN,"Bloor, MC; Banks, CJ",2.0,2.0,"Engineering, Environmental; Engineering, Chemical",PROCESS SAF ENVIRON,Process Saf. Environ. Protect.,10.1205/psep.03303,"Bloor, MC (corresponding author), Univ Southampton, Dept Civil & Environm Engn, Southampton SO17 1BJ, Hants, England.",SYSTEMS; GROWTH,m.c.bloor@soton.ac.uk,"Banks, Charles/0000-0001-6795-814X",,,1744-3598,,,,,,,,,,,,,,SI,,,,,,,,,,,,
Article; Proceedings Paper,ENVIRONMENT INTERNATIONAL,2021-04-13,WOS:000226970200021,8,0,"Bloor, MC; Banks, CJ; Krivtsov, V",J,English,Acute and sublethal toxicity tests to monitor the impact of leachate on an aquatic environment,2005.0,Environmental Sciences & Ecology,31,0160-4120,2,FEB,269,273,landfill leachate; toxicity testing; acute toxicity; sublethal toxicity; A. aquaticus; G. pulex,"Univ Southampton, Sch Civil Engn & Environm, Southampton SO17 1BJ, Hants, England","In this study, a specific landfill leachate (1200 mgl(-1) COD and 600 mgl(-1) BOD5) was used to develop a standardised short-term acute and longer-term sublethal ex-situ toxicity testing programme, in order to determine the potential ecological implications of leaching contaminants reaching the water table. Bioassays were undertaken with juvenile Gammarus pulex and Asellus aquaticus macro-invertebrates. Preliminary acute test variables included static and static renewed flow rates for 96-h, starved and fed specimens, and aerobic and oxygen depleting conditions. However, regardless of any test variable, the lethal concentration (LC50) for A. aquatieus remained at 12.3% v/v leachate in deionised water, whilst that for G. pulex was only 1%. Sublethal toxicity was judged on the basis of frequency of births and the growth rate of newly born individuals. Tests showed that even a dilution as high as 1:66- would influence the fecundity of a Gammarus population, whilst a dilution of 1:20 would affect the size of an Asellus breeding colony. (C) 2004 Elsevier Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,6,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,5.0,896YJ,"Bloor, MC; Banks, CJ; Krivtsov, V",19.0,17.0,Environmental Sciences,ENVIRON INT,Environ. Int.,10.1016/j.envint.2004.10.010,"Bloor, MC (corresponding author), Univ Southampton, Sch Civil Engn & Environm, Southampton SO17 1BJ, Hants, England.",ASELLUS-AQUATICUS,M.C.Bloor@soton.ac.uk,"Krivtsov, Vladimir/0000-0003-0844-5007; Krivtsov, Vladimir/0000-0003-0844-5007; Banks, Charles/0000-0001-6795-814X","Krivtsov, Vladimir/AAO-6018-2020; Krivtsov, Vladimir/G-7219-2015",15661294.0,,,,,2nd European Bioremediation Conference,,"JUN 30-JUL 03, 2003","Khania, GREECE",,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000226930700013,37,2,"Aberle, N; Hillebrand, H; Grey, J; Wiltshire, KH",J,English,Selectivity and competitive interactions between two benthic invertebrate grazers (Asellus aquaticus and Potamopyrgus antipodarum): an experimental study using C-13- and N-15-labelled diatoms,2005.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,50,0046-5070,2,FEB,369,379,benthic microalgae; herbivore grazing; interspecific competition; isotope fractionation; resource partitioning,"Max Planck Inst Limnol, D-2320 Plon, Germany; Stiftung Alfred Wegener Inst Polar & Meeresforsch, Biol Anstalt Helgoland, Helgoland, Germany; Univ Cologne, Inst Bot, D-5000 Cologne, Germany","1. Tracer experiments with two diatoms labelled with C-13 (Nitzschia palea) and N-15 (Fragilaria crotonensis), were conducted to investigate feeding selectivity and interspecific competition between the grazers Asellus aquaticus (Isopoda, Crustacea) and Potamopyrgus antipodarum (Hydrobiidae, Gastropoda). Conventional methods, such as cell counts and estimated biovolume, were used first to detect feeding preferences within the different grazer treatments. 2. The results revealed a significant decline in algal biovolume in all grazer treatments and no indications of active selectivity were observed. In contrast to conventional methods, measurements based on isotope signatures showed strong differences in tracer uptake, thus indicating different degrees of assimilation and digestion by the two grazers. 3. The selectivity index Q, which provides information on the uptake ratio of C-13 to N-15, showed a significant time effect for both grazer species and a significant difference between single- and mixed-grazer treatments for P. antipodarum. Thus, this technique enabled the direct quantification of the uptake by grazers and, therefore, served as an ideal tool for the detection of passive selectivity. 4. Our results indicate a shift in feeding preferences related to between-species competition and a potential divergence of trophic niches when species coexist.",BLACKWELL PUBLISHING LTD,42,"9600 GARSINGTON RD, OXFORD OX4 2DG, OXON, ENGLAND",OXFORD,11.0,896JP,"Aberle, N; Hillebrand, H; Grey, J; Wiltshire, KH",44.0,43.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2004.01325.x,"Aberle, N (corresponding author), Leibniz Inst Marine Sci, GEOMAR, IFM, Dusternbrooker Weg 20, D-24105 Kiel, Germany.",NITROGEN ISOTOPE FRACTIONATION; STABLE-ISOTOPES; FOOD-WEB; DETRITIVOROUS ISOPODS; OLIGOTROPHIC LAKE; ALGAE; CARBON; DIET; DELTA-N-15; PERIPHYTON,naberle@ifm-geomar.de,"Grey, Jonathan/0000-0001-9069-2271; Hillebrand, Helmut/0000-0001-7449-1613; Aberle, Nicole/0000-0003-3254-5710","Wiltshire, Karen H./N-9494-2017; Grey, Jonathan/B-3346-2012; Hillebrand, Helmut/I-1717-2014; Aberle, Nicole/C-7366-2014",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY,2021-04-13,WOS:000227434200006,14,0,"Schabuss, M; Kennedy, CR; Konecny, R; Grillitsch, B; Schiemer, F; Herzig, A",J,English,"Long-term investigation of the composition and richness of intestinal helminth communities in the stocked population of eel, Anguilla anguilla, in Neusiedler See, Austria",2005.0,Parasitology,130,0031-1820,,FEB,185,194,Anguilla anguilla; parasite community; diversity; Acanthocephalus lucii; Acanthocephalus anguillae,"Univ Vet Med Vienna, Dept Nat Sci, A-1210 Vienna, Austria; Univ Vienna, Inst Ecol & Conservat Biol, A-1090 Vienna, Austria; Univ Exeter, Dept Biol Sci, Exeter EX4 4PS, Devon, England; Biol Stn Illmitz, A-7142 Illmitz, Austria; Umweltbundesamt, A-1090 Vienna, Austria","Data from a long-term study of the intestinal helminth parasite community of eels, Anguilla anguilla, stocked into the shallow eutrophic Neusiedler See, Austria, were collected over an 8 year period (1994-2001). In total, 720 eels from 2 sampling sites were examined. The parasite community showed characteristics similar to those in the natural eel populations in rivers of the UK and mainland Europe: it was species poor, with only 5 species (Acanthocephalus lucii, Acanthocephalus anguillae, Raphidascaris acus, Proteocephalus macrocephalus, Bothriocephalus claviceps) comprising the component community and a maximum infracommunity richness of 4 species. Over the period, the intestinal parasite community of the sampling site in Illmitz, which was originally dominated by A. lucii, changed. As levels of A. anguillae increased to a point At which it dominated the community, diversity increased whilst dominance of a single species decreased. By contrast the community in the southern sampling site remained rather constant with a continuous high infection level of A. anguillae and low abundance of A. lucii. Both acanthocephalan species exhibited higher infection levels in larger eels and in different seasons of the year and the infection parameters were significantly different between the years of study. The significant differences in the infection levels of the 2 acanthocephalan species at the 2 sampling sites were surprising as both acanthocephalan species use the same intermediate host, Asellus aquaticus, and the sampling sites were in close proximity and were similar in terms of,,water quality, host size and invertebrate abundance. Differences in the fish communities of the 2 sampling sites and eel movements rather than interspecific competition are discussed as possible explanations for the differences in the parasite communities of the 2 sampling sites.",CAMBRIDGE UNIV PRESS,32,"32 AVENUE OF THE AMERICAS, NEW YORK, NY 10013-2473 USA",NEW YORK,10.0,903OA,"Schabuss, M; Kennedy, CR; Konecny, R; Grillitsch, B; Schiemer, F; Herzig, A",13.0,13.0,Parasitology,PARASITOLOGY,Parasitology,10.1017/S0031182004006444,"Schabuss, M (corresponding author), Univ Vet Med Vienna, Dept Nat Sci, Vet Pl 1, A-1210 Vienna, Austria.",EUROPEAN EEL; ENDOPARASITIC HELMINTHS; RIVER RHINE; DIVERSITY; DYNAMICS; CRASSUS; INFECTION; PARASITES; FLANDERS,Michael.Schabuss@vu-wien.ac.at,,,15727068.0,1469-8161,,,,,,,,2,,,,,,,,,,,,,,,,,,
Article,AQUATIC ECOLOGY,2021-04-13,WOS:000229073300004,17,0,"Bjelke, U; Bohman, IM; Herrmann, J",J,English,Temporal niches of shredders in lake littorals with possible implications on ecosystem functioning,2005.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,39,1386-2588,1,,41,53,Asellus aquaticus; biodiversity; ecosystem function; limnephilidae; phenology; shredders,"Univ Kalmar, Dept Biol & Environm Sci, Freshwater Ecol Grp, SE-39182 Kalmar, Sweden","Temporal growth separation of shredders is known in streams but has not been reported from lakes. In the present study, temporal niche/trait differentiations among shredders in lakes were investigated. We sampled quantitatively three lakes in SE Sweden over a period of 18 months. Dry weight and number of individuals of the collected shredders were measured monthly. Standing stock of detritus types was also monitored. The same 10 species of lentic shredders were found in each lake, one isopod and larvae of nine trichopterans. Functionally, the shredders could be categorized into two main groups; winter and summer growing species. However, also within these groups, temporal differences in growth pattern existed. The main input of detritus occurred during the autumnal leaf fall and a majority of winter shredders had the start of their lives tied to this period. A succession in loss of detritus types was evident with easily degraded matter disappearing first followed by more resistant matter. Shredder species richness, shredder biomass per m(2) and the ratio coarse/fine detritus all reached its annual low in late summer. We propose a temporal link between the shredder groups and the organic matter subject to decomposition; the successive palatability of coarse detritus is likely to make a temporally separated community of shredders efficient in terms of decomposition. We believe that a temporal differentiation per se is sufficient to conclude that different impact on ecosystem function exists among shredders. Additionally we discuss impacts of differences in abundance and shredding capacity among the species.",SPRINGER,51,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,13.0,925SJ,"Bjelke, U; Bohman, IM; Herrmann, J",16.0,15.0,Ecology; Limnology; Marine & Freshwater Biology,AQUAT ECOL,Aquat. Ecol.,10.1007/s10452-004-3524-1,"Bjelke, U (corresponding author), Univ Kalmar, Dept Biol & Environm Sci, Freshwater Ecol Grp, SE-39182 Kalmar, Sweden.",BIODIVERSITY; DIVERSITY; PRODUCTIVITY; WOODLAND; PATTERNS,ulf.bjelke@hik.se,,,,1573-5125,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FOLIA BIOLOGICA-KRAKOW,2021-04-13,WOS:000234096300002,10,0,"Czeczuga, B; Czeczuga-Semeniuk, E; Semeniuk, A",J,English,Carotenoids and carotenoproteins in Asellus aquaticus L. (Crustacea : Isopoda),2005.0,Life Sciences & Biomedicine - Other Topics,53,0015-5497,3-4,,109,114,Crustacea; Isopoda; carotenoids; carotenoproteins; crustacyanins; amino acids,"Med Univ, Dept Gen Biol, PL-15089 Bialystok, Poland; Med Univ, Dept Gynecol Endocrinol, PL-15276 Bialystok, Poland; Med Univ, Fac Med, PL-15089 Bialystok, Poland","Column (CC), thin-layer (TLC), high-performance liquid (HPLC) and ion-exchange chromatography (IEC), were used to investigate corotenoid and carotenoprotein complexes ill Asellus aquaticus specimens from he Narew river. The following carotenoids were found: alpha-carotene, beta-carotene, beta-cryptoxan thin, lutein, zeaxanthin, diadinoxanthin, mutatoxanthin, crustaxanthin, echinenone, hydrox echinenone, phoenicoxanthin, canthaxanthin and astaxanthin. Astaxanthin (37.5%), can haxanthin (21.4%) and phoenicoxanthin (12.3%) were found in the largest amounts. The total carotenoid content was 13.824 mu g g(-1) of dry mass. Carotenoprotein complexes containing astaxanthin as the prosthetic group were purified from Asellus aquaticus. The carotenoprotein complexes belonged to the crustacyanins group as alpha- and gamma-crustacyanin. The protein forming the alpha-crustacyanin contained large amounts of such amino-acids as asparic acid, glutamic acid and leucine, whereas the protein of the gamma-crustacyanin contained primarily glutamic acid, glycine and lysine.","POLISH ACAD SCIENCES, INST SYSTEMATICS EVOLUTION ANIMALS",54,"EDITORIAL OFFICE, SLAWKOWSKA 17, KRAKOW, 31-016, POLAND",KRAKOW,6.0,995JJ,"Czeczuga, B; Czeczuga-Semeniuk, E; Semeniuk, A",4.0,4.0,Biology,FOLIA BIOL-KRAKOW,Folia Biol.-Krakow,10.3409/173491605775142756,"Czeczuga, B (corresponding author), Med Univ, Dept Gen Biol, Kilinskiego 1, PL-15089 Bialystok, Poland.",BLUE CAROTENOPROTEIN; ASTAXANTHIN-PROTEINS; ALPHA-CRUSTACYANIN; ASTACUS-LEPTODACTYLUS; PROCAMBARUS-CLARKII; CIRCULAR-DICHROISM; LOBSTER CARAPACE; RESONANCE RAMAN; BALTIC SEA; COMPLEXES,bazzylio@poczta.onet.pl,"Czeczuga-Semeniuk, Ewa/0000-0001-9957-065X",,19058530.0,1734-9168,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ANIMAL ECOLOGY,2021-04-13,WOS:000226514300011,17,0,"Bjelke, U; Herrmann, J",J,English,Processing of two detritus types by lake-dwelling shredders: species-specific impacts and effects of species richness,2005.0,Environmental Sciences & Ecology; Zoology,74,0021-8790,1,JAN,92,98,decomposition; ecosystem functioning; functional groups; shredders; species richness,"Univ Kalmar, Dept Biol & Environm Sci, Freshwater Ecol Grp, SE-39182 Kalmar, Sweden","1. In studies of processes in ecosystems, species are often merged into functional groups. The concept of functional groups requires that species have a similar function with respect to some process. However, in many cases little is known whether the actual species are sufficiently similar. 2. In the present study, species-specificity among lake-dwelling detritivores was investigated. Microcosms were used to test 10 species of shredders regarding ability to process alder (Alnus glutinosa) and oak (Quercus robur) leaves. Taxonomically, nine species were caddisfly larvae (Trichoptera Limnephilidae) and one a freshwater louse (Isopoda Asellidae). 3. The shredders differed significantly in ability to process leaf litter. The most common shredder in lakes of the study area (SE Sweden), the isopod Asellus aquaticus, was shown to be inferior both in terms of capacity per individual and per g animal biomass. Also among the trichopterans, significant differences were found. 4. Consequently, these species cannot be treated as a unit with equal properties in the decomposition process. 5. In addition, 12 multispecies combinations of the shredders were tested for synergistic effects breaking down alder and oak leaves. No positive or negative effects due to species richness were found; it was possible to predict the yield of multispecies treatments using the decomposition output from the single species experiment.",WILEY-BLACKWELL,45,"COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA",MALDEN,7.0,890MC,"Bjelke, U; Herrmann, J",18.0,18.0,Ecology; Zoology,J ANIM ECOL,J. Anim. Ecol.,10.1111/j.1365-2656.2004.00901.x,"Bjelke, U (corresponding author), Univ Kalmar, Dept Biol & Environm Sci, Freshwater Ecol Grp, SE-39182 Kalmar, Sweden.",DIVERSITY; MACROINVERTEBRATE; TRICHOPTERA; LEAVES; INVERTEBRATES; COLONIZATION; RESILIENCE; MECHANISMS; RESPONSES; BREAKDOWN,ulf.bjelke@hik.se,,,,,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,MARINE AND FRESHWATER RESEARCH,2021-04-13,WOS:000232983500006,17,1,"Costantini, ML; Mancinelli, G; Mandrone, S; Rossi, L",J,English,Combined effects of acidification and competition on the feeding preference of a freshwater macroinvertebrate (Crustacea : Isopoda): a laboratory experiment,2005.0,Fisheries; Marine & Freshwater Biology; Oceanography,56,1323-1650,7,,997,1004,acidification; competition; detritivores; food niche; inter-individual variability; lotic microcosms,"Univ Rome, Dept Genet & Mol Biol, I-00085 Rome, Italy","To determine the combined effects of stream acidification and competition on the feeding preferences of benthic detritivores we compared, before and after sublethal acid exposure, lab-cultured populations of Asellus aquaticus reared either singly or with the closely related species Proasellus coxalis sensu lato in artificial channels. Both abiotic and biotic stressors reduced A. aquaticus density and affected its food intake. Whereas the presence of P. coxalis sensu lato increased the mass-specific ingestion rate and niche breadth of A. aquaticus according to optimal foraging theory, ingestion rate was reduced following acid exposure. Despite the increased variability in the consumption rate, variability of diet composition among individuals of A. aquaticus declined after acidification above all in the presence of the other species. Resource preferences changed, as a possible result of physiological accommodation to stress and/or selection of individuals that preferentially consumed the most processed plant detritus. The symmetry of niche overlap between the two species increased, strengthening the risk of competitive exclusion of A. aquaticus. The presence of the detritivores increased the buffering capacity of the artificial channels, reducing the rate at which the temporary hardness declined.",C S I R O PUBLISHING,55,"150 OXFORD ST, PO BOX 1139, COLLINGWOOD, VICTORIA 3066, AUSTRALIA",COLLINGWOOD,8.0,979ZK,"Costantini, ML; Mancinelli, G; Mandrone, S; Rossi, L",6.0,6.0,Fisheries; Limnology; Marine & Freshwater Biology; Oceanography,MAR FRESHWATER RES,Mar. Freshw. Res.,10.1071/MF04272,"Costantini, ML (corresponding author), Univ Rome, Dept Genet & Mol Biol, Via Sardi 70, I-00085 Rome, Italy.",ASELLUS-AQUATICUS L; GAMMARUS-PULEX L; INDIVIDUAL SPECIALIZATION; DETRITIVOROUS ISOPODS; STREAM ACIDIFICATION; PROASELLUS-COXALIS; CONTRASTING PH; TROPHIC NICHE; LEAF MATERIAL; NEW-ZEALAND,marialetizia.costantini@uniroma1.it,"Mancinelli, Giorgio/0000-0002-5833-7322; Costantini, Maria Letizia/0000-0001-6242-558X; ROSSI, LORETO/0000-0001-8014-5397","Mancinelli, Giorgio/A-7679-2013",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000223376200008,64,1,"Johnson, RK; Goedkoop, W; Sandin, L",J,English,Spatial scale and ecological relationships between the macroinvertebrate communities of stony habitats of streams and lakes,2004.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,49,0046-5070,9,SEP,1179,1194,comparative analysis; ecosystem; lake; macroinvertebrates; stream; variance partitioning,"Swedish Univ Agr Sci, Dept Environm Assessment, SE-75007 Uppsala, Sweden","1. Comparative studies of distinct, but not ecologically isolated, systems such as lakes and streams may improve our understanding of the importance of ecological linkages in aquatic ecosystems. 2. In this study we compared the macroinvertebrate benthos of stony habitats in Swedish lakes and streams. Community composition was used to evaluate zoogeographic patterns and functional feeding guilds were used to identify mechanisms potentially affecting such patterns. 3. Stream communities were generally more diverse and species-rich and had a higher proportion of grazers, shredders and passive-filter feeders than lakes. Lake communities had a higher proportion of predators and collector-gatherers. Of the 10 most common taxa, only Leptophlebia mayflies, clams (Sphaeriidae) and the isopod Asellus aquaticus were recorded in both lakes and streams. 4. Among-site variance in macroinvertebrate communities accounted for by regional-scale variables was low (6.4% for lakes and 10.1% for streams), compared with that by local-scale variables (21% for lakes and 37.6% for streams). For lakes, the among-site variance in macroinvertebrate communities was best explained by habitat-scale characteristics followed by ecosystem, riparian, catchment, geographic position and ecoregion. For streams, the variance in macroinvertebrate communities was best explained by ecosystem characteristics followed by habitat, catchment, riparian, ecoregion and geographic position. 5. Conspicuous differences in spatial pattern were revealed between lakes and streams. For lakes, the most unequivocal differences in community composition and function occurred at the transition zone between the mixed forests in the south and the boreal coniferous forests in the north. Surprisingly, streams did not respond as strongly to profound landscape-level differences in climate and vegetation cover. 6. The spatial differences noted between macroinvertebrate communities of lakes and streams may be because of differences in retention of detrital matter. Our findings imply that detrital inputs are qualitatively similar, but that the retention and processing of coarse particulate organic matter was presumably higher in lake littoral regions than in stream riffle habitats. 7. Although our findings support the conjecture that species distribution is determined fundamentally by conditions prevailing at the local-scale, regional factors such as land use/type and the role of history were important and seemingly act as strong determinants of large-scale patterns in biodiversity.",BLACKWELL PUBLISHING LTD,70,"9600 GARSINGTON RD, OXFORD OX4 2DG, OXON, ENGLAND",OXFORD,16.0,847ET,"Johnson, RK; Goedkoop, W; Sandin, L",116.0,106.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.2004.01262.x,"Johnson, RK (corresponding author), Swedish Univ Agr Sci, Dept Environm Assessment, Box 7050, SE-75007 Uppsala, Sweden.",RIVER CONTINUUM CONCEPT; SPECIES TRAITS; ECOSYSTEM THEORY; SWEDISH STREAMS; LAND-USE; LANDSCAPE; ASSEMBLAGES; PREDICTION; CATCHMENT; PATTERNS,richard.johnson@ma.slu.se,"Johnson, Richard K./0000-0001-7979-6563; Sandin, Leonard/0000-0003-1685-5305","Johnson, Richard K./P-4991-2014; Sandin, Leonard/K-4475-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,MARINE ENVIRONMENTAL RESEARCH,2021-04-13,WOS:000222199100033,5,0,"O'Neill, AJ; Galloway, TS; Browne, MA; Dissanayake, A; Depledge, MH",J,English,Evaluation of toxicity in tributaries of the Mersey estuary using the isopod Asellus aquaticus (L.),2004.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Toxicology,58,0141-1136,2-5,AUG-DEC,327,331,biomarker; isopoda; sewage effluent; carboxylesterase cholinesterase; ventilation rates; freshwater,"Univ Plymouth, Sch Biol Sci, PERC, Plymouth PL4 8AA, Devon, England; Environm Agcy, Bristol BS32 4UD, Avon, England","Increasing numbers of industrial, agricultural and natural chemicals are present in sewage effluent and are known to elicit toxic effects in laboratory exposures, but little is known of their combined sub-lethal effect in the field. In this study, a combination of esterase activity and ventilation rate assays was performed to determine the neurological and physiological function of the freshwater crustacean Asellus aquaticus (L.) at sites above and below a sewage treatment works (STW). Cholinesterase and carboxylesterase activities were significantly inhibited (n = 8, P < 0.05) and ventilation rates increased (n = 8, P = 0.0001) in A. aquaticus at STW sites compared to those from reference sites, indicating a decrease in neurological and physiological function. The ecological relevance of these findings for the population dynamics of the organisms in the field is discussed. (C) 2004 Elsevier Ltd. All rights reserved.",ELSEVIER SCI LTD,10,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,5.0,831MS,"O'Neill, AJ; Galloway, TS; Browne, MA; Dissanayake, A; Depledge, MH",15.0,15.0,Environmental Sciences; Marine & Freshwater Biology; Toxicology,MAR ENVIRON RES,Mar. Environ. Res.,10.1016/j.marenvres.2004.03.076,"O'Neill, AJ (corresponding author), Univ Plymouth, Sch Biol Sci, PERC, Drake Circus, Plymouth PL4 8AA, Devon, England.",ACETYLCHOLINESTERASE; CRUSTACEANS; EXPOSURE,a.oneill@plymouth.ac.uk,"Dissanayake, Awantha/0000-0001-8758-8959; Browne, Mark Anthony/0000-0002-7508-1015","Galloway, Tamara/C-1662-2009; Dissanayake, Awantha/G-7017-2011",15178049.0,1879-0291,,,,12th International Symposium on Pollutant Responses in Marine Organisms (PRIMO 12),,"MAY 09-13, 2003","Safety Harbor, FL",,,"Natl Inst Environm Hlth Sci, Int Soc Study Xenobiot, Univ Florida, Coll Pharmacy, Biosense Labs, Mol Light Technol Res, Hamilton Thorne Biosci, Elsevier Publishers, US Geol Survey, BRD FL Integrated Sci Ctr",,,,,,,,,,,,,,,,
Article,BULLETIN OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:000222638400025,1,0,"Pascoe, D; Carroll, K",J,English,Comparison of cadmium toxicity to Asellus aquaticus (L.) populations following 17 years isolation in pond and laboratory cultures,2004.0,Environmental Sciences & Ecology; Toxicology,73,0007-4861,1,JUL,167,173,,"Cardiff Univ, Sch Biosci, Cardiff CF10 3TL, S Glam, Wales",,SPRINGER,24,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,7.0,837MA,"Pascoe, D; Carroll, K",1.0,1.0,Environmental Sciences; Toxicology,B ENVIRON CONTAM TOX,Bull. Environ. Contam. Toxicol.,10.1007/s00128-004-0409-x,"Pascoe, D (corresponding author), Cardiff Univ, Sch Biosci, Cardiff CF10 3TL, S Glam, Wales.",FRESH-WATER ISOPOD; EPISODIC EXPOSURE; DAPHNIA-MAGNA; POLLUTANTS; ADAPTATION; COPPER; PHENOL,,,,15386088.0,1432-0800,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:000222110900004,3,0,"Prevorcnik, S; Blejec, A; Sket, B",J,English,Racial differentiation in Asellus aquaticus (L.) (Crustacea : lsopoda : Asellidae),2004.0,Marine & Freshwater Biology,160,0003-9136,2,JUN,193,214,geographic variation; morphometric analysis; troglomorphic traits; pigmentation; isopoda; Asellus,"Univ Ljubljana, Dept Biol, Biotech Fac, Ljubljana 1001, Slovenia; Natl Inst Biol, Ljubljana 1001, Slovenia","The primary patterns of racial differentiation in the water louse, Asellus aquaticus (L.) sensu RACOVITZA, were assessed by the analysis of geographic variation in 59 morphometric characters. Mates from 20 localities in Slovenia and 18 in other countries were analyzed. In Multivariate Discriminant Function Analysis, Minimum Spanning Tree and in Cluster Analysis, samples comprising specimens without eye and body pigmentation are separated from the samples with pigmented specimens, even thou-h these two troglomorphic traits are not being considered. Only 7 traits are needed for the separation. In the cline of the samples with pigmented specimens, 3 groups of samples with the concentric distribution ranges may be distinguished. The results confirm the existence of extensive racial diversification in Slovenia and indicate some inconsistencies in the presently applied classification. The results of separate analysis of male gonopod structure are consistent with the results of multivariate statistical analysis.",E SCHWEIZERBARTSCHE VERLAGS,44,"NAEGELE U OBERMILLER JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,22.0,830GU,"Prevorcnik, S; Blejec, A; Sket, B",32.0,31.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,10.1127/0003-9136/2004/0160-0193,"Prevorcnik, S (corresponding author), Univ Ljubljana, Dept Biol, Biotech Fac, Vecna Pot 111, Ljubljana 1001, Slovenia.",MULTIVARIATE-ANALYSIS; HYPOGEAN POPULATIONS; GEOGRAPHIC-VARIATION; ISOPODA; SYSTEMATICS; WATERS,simona.prevorcnik@uni-lj.si; ablejec@nib.si; b.sket@uni-lj.si,"Blejec, Andrej/0000-0001-7484-6031; Blejec, Andrej/0000-0001-7484-6031","Blejec, Andrej/M-5215-2019; Blejec, Andrej/A-8470-2010",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:000221825600015,46,1,"van Wijngaarden, RPA; Cuppen, JGM; Arts, GHP; Crum, SJH; van den Hoorn, MW; van den Brink, PJ; Brock, TCM",J,English,Aquatic risk assessment of a realistic exposure to pesticides used in bulb crops: A microcosm study,2004.0,Environmental Sciences & Ecology; Toxicology,23,0730-7268,6,JUN,1479,1498,pesticide package; crop protection; toxic units; risk assessment; drift reduction measures,"Alterra, Green World Res, NL-6700 AA Wageningen, Netherlands; Wageningen Univ, Dept Aquat Ecol & Water Qual Management, NL-6703 AZ Wageningen, Netherlands","The fungicide fluazinam, the insecticide lambda-cyhalothrin, and the herbicides asulam and metamitron were applied to indoor freshwater microcosms (water volume approximately 0.6 m(3)). The treatment regime was based on a realistic application scenario in tulip cultivation. Concentrations of each pesticide were equal to 0%, 0.2%, 0.5%, 2%, and 5% spray drift emission of label-recommended rates. Contribution of compounds to the toxicity of the pesticide package was established by expressing their concentrations as fractions of toxic units. The fate of the compounds in the water, and responses of phytoplankton, zooplankton, periphyton, macro invertebrates, macrophytes, decomposition, and water quality were followed for 13 weeks. The half-lives of lambda-cyhalothrin, metamitron, and fluazinam were 1 to 2 d; that of asulam was >30 d. No consistent effects could be demonstrated for the 0.2% treatment regime that was therefore considered the no-observed-effect concentration(community) (NOEC). The macroin-vertebrate populations of Gammarus pules, Asellus aquaticus, and Proasellus meridianus were the most sensitive end points, followed by species of copepods and cladocerans. Responses mainly were due to lambda-cyhalothrin. The 0.5% treatment regime resulted in short-term effects. Pronounced effects were observed at the 2% and 5% treatment levels. At the end of the experiment, the macrophyte biomass that consisted of Elodea nuttalii, showed a decline at the two highest treatment levels, asulam being the causal factor (NOEC: 0.5% treatment level). Primary production was reduced at the 5% treatment level only. In our experiment, the first-tier risk assessment procedure for individual compounds was adequate for protecting sensitive populations exposed to realistic combinations of pesticides. Spray drift reduction measures seem to be efficient in protecting aquatic ecosystems in agricultural areas.",WILEY,41,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,20.0,826JO,"van Wijngaarden, RPA; Cuppen, JGM; Arts, GHP; Crum, SJH; van den Hoorn, MW; van den Brink, PJ; Brock, TCM",41.0,40.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1897/03-80,"van Wijngaarden, RPA (corresponding author), Alterra, Green World Res, POB 47, NL-6700 AA Wageningen, Netherlands.",FRESH-WATER MICROCOSMS; INSECTICIDE LAMBDA-CYHALOTHRIN; DURSBAN(R) 4E; RESPONSES; MIXTURE; FATE; CHLORPYRIFOS; COMMUNITY,rene.vanwijngaarden@wur.nl,"van den brink, Paul/0000-0002-7241-4347; ","van den brink, Paul/AAT-7144-2020; van den Brink, Paul J/E-8315-2013",15376534.0,1552-8618,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,MOLECULAR ECOLOGY,2021-04-13,WOS:000221302600015,15,2,"Verovnik, R; Sket, B; Trontelj, P",J,English,Phylogeography of subterranean and surface populations of water lice Asellus aquaticus (Crustacea : Isopoda),2004.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Evolutionary Biology,13,0962-1083,6,JUN,1519,1532,AMOVA; Asellus aquaticus; cave invasion; nested clade analysis; phylogeography; subterranean,"Univ Ljubljana, Biotech Fac, Dept Biol, SI-1000 Ljubljana, Slovenia","The water louse Asellus aquaticus is a widespread, euryoecious species, mostly uniform throughout its range. However, six subspecies are known from the Dinaric karst in the northwestern Balkans. They include some specialized subterranean populations. The pattern of genetic variation among subterranean and surface populations in this hydrographically highly fragmented karst region was investigated using a 653 bp fragment of the mitochondrial gene (COI). Sequencing of 168 individuals from 25 localities revealed 72 haplotypes. AMOVA and methods of phylogenetic reconstruction all uncovered hydrographic structuring of genetic variation of the populations. Nested clade analysis pointed out several fragmentation events, along with some range expansions within hydrographical systems. By superimposing the subterranean mode of life on the phylogeographical pattern, three independent cave colonizations could be inferred within a distance of < 100 km. Caves were invaded after the ancestral surface populations became isolated through vicariant fragmentation. A possible scenario of hydrographic history of the region was constructed combining the molecular data with palaeogeographical information.",WILEY,45,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,14.0,819GJ,"Verovnik, R; Sket, B; Trontelj, P",70.0,68.0,Biochemistry & Molecular Biology; Ecology; Evolutionary Biology,MOL ECOL,Mol. Ecol.,10.1111/j.1365-294X.2004.02171.x,"Verovnik, R (corresponding author), Univ Ljubljana, Biotech Fac, Dept Biol, Vecna Pot 111, SI-1000 Ljubljana, Slovenia.",NESTED CLADISTIC-ANALYSIS; MITOCHONDRIAL-DNA; GEOGRAPHICAL-DISTRIBUTION; PHENOTYPIC ASSOCIATIONS; HYPOGEAN POPULATIONS; HAPLOTYPES; COLEOPTERA; MOUNTAINS; PROGRAM; MODEL,rudi.verovnik@uni-lj.si,,,15140095.0,1365-294X,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OIKOS,2021-04-13,WOS:000220087600003,13,0,"Englund, G; Hamback, PA",J,English,Scale-dependence of movement rates in stream invertebrates,2004.0,Environmental Sciences & Ecology,105,0030-1299,1,APR,31,40,,"Umea Univ, Umea Marine Sci Ctr, Dept Ecol & Environm Sci, SE-90187 Umea, Sweden; Stockholm Univ, Dept Bot, SE-10691 Stockholm, Sweden","We used analytical models and random walk simulations in a one-dimensional habitat to study the scale-dependence of migration rates in stream invertebrates. Our models predict that per capita migration rate is inversely proportional to patch length when patches are large compared to the scale of movements. When patches are small the scale-dependence is weaker and primarily determined by the length of individual movements (steps) relative to patch size. Laboratory experiments using isopods (Asellus aquaticus L.) and mayfly nymphs (Baetis sp.) confirmed that the strength of the scale-dependence decreased with increasing step length. For the case when step length distributions follow an exponential probability distribution, which is often the case for stream organisms, we provide a simple model that allows the scale-dependence to be predicted from the mean step length. We fitted this model to published field data on drift densities at different downstream distances from a net that blocks the drift from upstream areas. Agreement between model and data was excellent in most cases. We then used already published data on the length of induced drift movements to predict the scale-dependence that was observed in block experiments performed in the same system. Predicted and observed scale-dependence showed very close agreement. We conclude that our models and published data on drift distances can be used to calculate the expected scale-dependence of per capita emigration rates for a large number of taxa under a wide range of environmental conditions.",WILEY,42,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,801HS,"Englund, G; Hamback, PA",26.0,24.0,Ecology,OIKOS,Oikos,10.1111/j.0030-1299.2004.13024.x,"Englund, G (corresponding author), Umea Univ, Umea Marine Sci Ctr, Dept Ecol & Environm Sci, SE-90187 Umea, Sweden.",PATCH SIZE; DRIFT; HABITAT; PREDATORS; MIGRATION; DISTANCE; GEOMETRY; INSECTS; DENSITY; NYMPHS,goran.englund@eg.umu.se,"Hamback, Peter A/0000-0001-6362-6199; Englund, Goran/0000-0001-5634-8602","Englund, Goran/A-7434-2008; Hamback, Peter A/A-8194-2008",,1600-0706,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EVOLUTION,2021-04-13,WOS:000189003000008,32,0,"Hargeby, A; Johansson, J; Ahnesjo, J",J,English,Habitat-specific pigmentation in a freshwater isopod: Adaptive evolution over a small spatiotemporal scale,2004.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,58,0014-3820,1,JAN,81,94,color; contemporary evolution; continuous trait; local selection; new environment,"Lund Univ, Dept Ecol, S-22362 Lund, Sweden; Sch Biosci & Proc Technol, S-35195 Vaxjo, Sweden","Pigmentation in the freshwater isopod Asellus aquaticus (Crustacea) differed between habitats in two Swedish lakes. In both lakes, isopods had lighter pigmentation in stands of submerged vegetation, consisting of stoneworts (Chara spp.), than in nearby stands of reed (Phragmites australis). Experimental crossings of light and dark isopods in a common environment showed that pigmentation had a genetic basis and that genetic variance was additive. Environmental effects of diet or chromatophore adjustment to the background had minor influence on pigmentation, as shown by laboratory rearing of isopods on stonewort or reed substrates, as well as analyses of stable isotope ratios for isopods collected in the field. In both study lakes, the average phenotype became lighter with time (across generations) in recently established stonewort stands. Taken together, these results indicate that altered phenotype pigmentation result from evolutionary responses to local differences in natural selection. Based on the assumption of two generations per year, the evolutionary rate of change in pigmentation was 0.08 standard deviations per generation (haldanes) over 20 generations in one lake and 0.22 haldanes over two generations in the other lake. This genetic change occurred during an episode of population growth in a novel habitat, a situation known to promote adaptive evolution. In addition, stonewort stands constitute large and persistent patches, characteristics that tend to preserve local adaptations produced by natural selection. Results from studies on selective forces behind the adaptive divergence suggest that selective predation from visually oriented predators is a possible selective agent. We found no indications of phenotype-specific movements between habitats. Mating within stonewort stands was random with respect to pigmentation, but on a whole-lake scale it is likely that mating is assortative, as a result of local differences in phenotype distribution.",WILEY,83,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,14.0,774UF,"Hargeby, A; Johansson, J; Ahnesjo, J",53.0,52.0,Ecology; Evolutionary Biology; Genetics & Heredity,EVOLUTION,Evolution,,"Hargeby, A (corresponding author), Lund Univ, Dept Ecol, S-22362 Lund, Sweden.",ASELLUS-AQUATICUS CRUSTACEA; PERCH PERCA-FLUVIATILIS; LARVAL ACANTHOCEPHALUS-LUCII; CORRELATIONAL SELECTION; LIFE-HISTORY; STRUCTURAL COMPLEXITY; EUTROPHIC LAKE; FOOD WEBS; GENE FLOW; PREDATION,anders.hargeby@limnol.lu.se; jonas.johansson@limnol.lu.se; jonas.ahnesjo@ibl.vxu.se,,,15058721.0,1558-5646,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ZOOLOGY,2021-04-13,WOS:000186710900014,26,0,"Fielding, NJ; MacNeill, C; Dick, JTA; Elwood, RW; Riddell, GE; Dunn, AM",J,English,Effects of the acanthocephalan parasite Echinorhynchus truttae on the feeding ecology of Gammarus pulex (Crustacea : Amphipoda),2003.0,Zoology,261,0952-8369,,NOV,321,325,amphipod; acanthocephalan; Gammarus pulex; Echinorhynchus truttae,"Queens Univ Belfast, Ctr Med Biol, Sch Biol & Biochem, Belfast BT9 7BL, Antrim, North Ireland; Univ Leeds, Sch Biol, Ctr Biodivers & Conservat, Leeds LS2 9JT, W Yorkshire, England","The amphipod Gammarus pulex is an intermediate host to the acanthocephalan fish parasite Echinorhynchus truttae. Gammarus pulex has a wide trophic repertoire, feeding as a herbivore, detritivore and predator. In this study an examination was made of the effects of E. truttae parasitism on components of the G. pulex diet: stream-conditioned leaves, dead chironomids and live juvenile isopods Asellus aquaticus. Over 21 days, parasitism had no effect on daily feeding rates or wet weights of G. pulex fed on leaves or chironomids. Parasitism had a significant effect on the number of A. aquaticus killed by G. pulex, with parasitized individuals killing significantly fewer than their unparasitized counterparts. In addition, unparasitized amphipods killed all size classes of A. aquaticus indiscriminately, whereas parasitized animals tended to kill the smaller size classes. The impacts of the parasitism of G. pulex throughout the wider freshwater community are discussed.",CAMBRIDGE UNIV PRESS,20,"40 WEST 20TH ST, NEW YORK, NY 10011-4211 USA",NEW YORK,5.0,745VJ,"Fielding, NJ; MacNeill, C; Dick, JTA; Elwood, RW; Riddell, GE; Dunn, AM",38.0,37.0,Zoology,J ZOOL,J. Zool.,10.1017/S0952836903004230,"Dick, JTA (corresponding author), Queens Univ Belfast, Ctr Med Biol, Sch Biol & Biochem, 97 Lisburn Rd, Belfast BT9 7BL, Antrim, North Ireland.",POMPHORHYNCHUS-LAEVIS; INTERMEDIATE HOST; ASELLUS-AQUATICUS; FRESH-WATER; PREDATION; BEHAVIOR; GROWTH; DIET; COLOR; FUNGI,,"Riddell, Gillian/0000-0002-1524-1101; Dunn, Alison/0000-0002-4855-1077",,,,,,,,,,,3,,,,,,,,,,,,,,,,,,
Article,LIMNOLOGY AND OCEANOGRAPHY,2021-04-13,WOS:000186772800014,41,0,"Zimmer, M; Bartholme, S",J,English,Bacterial endosymbionts in Asellus aquaticus (Isopoda) and Gammarus pulex (Amphipoda) and their contribution to digestion,2003.0,Marine & Freshwater Biology; Oceanography,48,0024-3590,6,NOV,2208,2213,,"Univ Kiel, Biozentrum, Inst Zool, D-24098 Kiel, Germany","We demonstrate for the first time the presence of bacterial endosymbionts in the midgut glands (hepatopancreas) of the freshwater detritivore Asellus aquaticus (Isopoda), whereas the hepatopancreas of another crustacean detritivore, Gammarus pulex (Amphipoda), which coexists with the former species, was devoid of such bacteria. We detected both phenol oxidase and cellulase activity in hepatopancreatic extracts from both detritivores, which suggests that both of these enzymes are produced in the midgut glands of both species. After treatment with antibiotics, both the number of hepatopancreatic bacteria and enzymatic activity were reduced in the isopod hepatopancreas, but antibiotics had no effect on enzyme activity in the amphipod hepatopancreas. Feeding on microbially inactivated leaf litter did not affect enzyme activity in hepatopancreatic extracts fro in A. asellus, but increased cellulase activity was seen in the hepatopancreas of G. pulex. These results (1) confirm the hypothesized enzymatic adaptation of crustacean freshwater detritivores to their food sources of terrestrial origin, (2) demonstrate that the isopod A. aquaticus, like its terrestrial relatives, contains endosymbiotic bacteria that-contribute to digestive processes, and (3) show interspecific differences between these coexisting crustacean detritivores in terms of enzyme origin and their dependence on microbiota.",AMER SOC LIMNOLOGY OCEANOGRAPHY,36,"5400 BOSQUE BLVD, STE 680, WACO, TX 76710-4446 USA",WACO,6.0,746XK,"Zimmer, M; Bartholme, S",40.0,38.0,Limnology; Oceanography,LIMNOL OCEANOGR,Limnol. Oceanogr.,10.4319/lo.2003.48.6.2208,"Zimmer, M (corresponding author), Univ Kiel, Biozentrum, Inst Zool, Olshaussenstr 40, D-24098 Kiel, Germany.",CELLULOSE DIGESTION; PORCELLIO SCABER; ONISCUS-ASELLUS; LEAF-LITTER; CRUSTACEA; GUT; INVERTEBRATES; PHYSIOLOGY; WOODLOUSE; ENZYMES,,"Zimmer, Martin/0000-0002-1549-8871",,,,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,GENETICA,2021-04-13,WOS:000185826700006,9,0,"Verovnik, R; Sket, B; Prevorcnik, S; Trontelj, P",J,English,Random amplified polymorphic DNA diversity among surface and subterranean populations of Asellus aquaticus (Crustacea : Isopoda),2003.0,Genetics & Heredity,119,0016-6707,2,OCT,155,165,Asellus aquaticus; cave invasion; genetic diversity; RAPD; speciation; subterranean,"Univ Ljubljana, Dept Biol, Biotech Fac, SI-1000 Ljubljana, Slovenia","The ecological and evolutionary processes leading to isolation and adaptation of cave animals compared to their surface ancestors are not yet unequivocally understood. In this study the genetic relations of four cave and three surface population of the freshwater crustacean Asellus aquaticus in the Karst region of SW Slovenia and NE Italy were assessed using RAPDs as genetic markers. The results suggest that specialized populations from two caves invaded their subterranean habitat independently, and that their morphological similarity is a result of convergent evolution. Another, less specialized cave population seems to originate from a later colonization of a cave system already inhabited by a more specialized population, but the two populations do not interbreed. This series of temporally and spatially independent invasions has generated a diversity hotspot of non-interbreeding populations of a ubiquitous freshwater crustacean, which is uniform over most of its range. Genetic variability estimated by the percentage of polymorphic RAPD fragments was similar ( 86 - 91%) in most cave and surface populations. Substantially lower values ( as low as 49%) were found in two cave populations affected by heavy pollution. Two a priori groupings of populations, traditional subspecies and hydrologically connected groups, were rejected as not significant by means of nested analysis of molecular variance (AMOVA). On the other hand, groupings revealed by UPGMA clustering displayed a significant component of among-group variance. An analysis of gene flow between populations using estimated migration rates confirmed these findings.",KLUWER ACADEMIC PUBL,40,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,11.0,730JB,"Verovnik, R; Sket, B; Prevorcnik, S; Trontelj, P",32.0,30.0,Genetics & Heredity,GENETICA,Genetica,10.1023/A:1026085716777,"Verovnik, R (corresponding author), Univ Ljubljana, Dept Biol, Biotech Fac, SI-1000 Ljubljana, Slovenia.",GENETIC DIFFERENTIATION; HYPOGEAN POPULATIONS; RAPD-ANALYSIS; MARKERS; MODEL; DIVERGENCE; ASELLIDAE; DISTANCE; ALLOZYME,,,,14620955.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000183641600016,14,0,"Bertin, A; Cezilly, F",J,English,"Sexual selection, antennae length and the mating advantage of large males in Asellus aquaticus",2003.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,16,1010-061X,4,JUL,698,707,Asellus aquaticus; body size; sexual dimorphism; sexual selection; scramble competition,"Univ Bourgogne, CNRS, UMR 5561, Equipe Ecol Evolut, F-21000 Dijon, France","In crustacean species with precopulatory mate-guarding, sexual size dimorphism has most often been regarded as the consequence of a large male advantage in contest competition for access to females. However, large body size in males may also be favoured indirectly through scramble competition. This might partly be the case if the actual target of selection is a morphological character, closely correlated with body size, involved in the detection of receptive females. We studied sexual selection on body size and antennae length in natural populations of Asellus aquaticus, an isopod species with precopulatory mate guarding. In this species, males are larger than females and male pairing success is positively related to body size. However, males also have longer antennae, relative to body size, than females, suggesting that this character may also be favoured by sexual selection. We used multivariate analysis of selection to assess the relative influences of body size and antennae length in five different populations in the field. Selection gradients indicated that overall body size was a better predictor of male pairing success than antennae length, although some variation was observed between sites. We then manipulated male antennae length in a series of experiments conducted in the laboratory, and compared the pairing ability of males with short or long antennae. Males with short antennae were less likely to detect, orient to and to pair with a receptive female compared to males with long antennae. We discuss the implications of our results for studies of male body size and sexual dimorphism in relation to sexual selection in crustaceans.",WILEY,60,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,692BZ,"Bertin, A; Cezilly, F",44.0,43.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1046/j.1420-9101.2003.00565.x,"Cezilly, F (corresponding author), Univ Bourgogne, CNRS, UMR 5561, Equipe Ecol Evolut, 6 Bd Gabriel, F-21000 Dijon, France.",MALE-MALE COMPETITION; BODY-SIZE; WATER STRIDER; NATURAL-SELECTION; MALE CHOICE; MATE; DIMORPHISM; CRUSTACEA; SUCCESS; RATIO,frank.cezilly@u-bourgogne.fr,,,14632233.0,1420-9101,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THERMAL BIOLOGY,2021-04-13,WOS:000183794100010,50,2,"Lagerspetz, KYH",J,English,"Thermal acclimation without heat shock, and motor responses to a sudden temperature change in Asellus aquaticus",2003.0,Life Sciences & Biomedicine - Other Topics; Zoology,28,0306-4565,5,JUL,421,427,Asellus aquaticus; Crustacea; heat shock; thermal acclimation; avoidance; preference; motor activity; klinokinesis,"Turku Univ, Dept Biol, Physiol Anim Lab, FIN-20014 Turku, Finland","1. In the fresh water isopod Asellus aquaticus the critical thermal maximum (CTMax) after 2 weeks was similar in animals transferred directly from 9degreesC to 22degreesC and in animals acclimated gradually (1degreesC/day). 2. A sudden change of ambient temperature caused immediate changes in the locomotor behaviour of Asellus that did not persist, and especially an increase of the frequency and angle of turning (klinokinesis). 3. Asellus, acclimated to 12degreesC, preferred temperatures of 11 - 15degreesC in a thermal gradient, and showed klinokinetic heat avoidance reactions-at effective heat shock temperature (28degreesC).",PERGAMON-ELSEVIER SCIENCE LTD,23,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,7.0,694UX,"Lagerspetz, KYH",12.0,12.0,Biology; Zoology,J THERM BIOL,J. Therm. Biol.,10.1016/S0306-4565(03)00027-5,"Lagerspetz, KYH (corresponding author), Turku Univ, Dept Biol, Physiol Anim Lab, FIN-20014 Turku, Finland.",STRESS PROTEINS; DAPHNIA-MAGNA; TOLERANCE,kari.lagerspetz@utu.fi,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THE ROYAL SOCIETY OF NEW ZEALAND,2021-04-13,WOS:000184810100003,8,0,"Chadderton, WL; Ryan, PA; Winterbourn, MJ",J,English,"Distribution, ecology, and conservation status of freshwater Idoteidae (Isopoda) in southern New Zealand",2003.0,Science & Technology - Other Topics,33,0303-6758,2,JUN,529,548,Austridotea; conservation biology; distributim; Idoteidae; Isopoda; life history; New Zealand; streams,"Dept Conservat, Hamilton, New Zealand; Univ Canterbury, Sch Biol Sci, Christchurch 1, New Zealand","Three species of Idoteidae, Austridotea lacustris, A. annectens, and A. benhami, are known from the South Island of New Zealand and some of its outlying islands. All three have largely coastal distributions, with A. lacustris and A. annectens inhabiting both fresh and brackish water. They feed mainly on plant detritus and, to a lesser extent, algae and invertebrates. A. lacustris is known from Stewart Island, Campbell Island, Pitt Island, and the south of the South Island. On Stewart Island, many stream populations of A. lacustris occur immediately above the upper limit of tidal influence, but on Campbell Island, the species penetrates much further inland. A. annectens has been found on Stewart Island, Pitt Island, and the southern South Island as far north as Banks Peninsula. It lives in freshwater streams and brackish lagoons. A. annectens has a 1-year life cycle with young released in spring. A. benhami is known only from a few freshwater streams near Dunedin (South Island) and appears to be the most endangered of the three species. Habitat protection by vegetated riparian strips is proposed to reduce potentially harmful effects on its populations.",SIR PUBLISHING,49,"PO BOX 399, WELLINGTON, NEW ZEALAND",WELLINGTON,20.0,712RF,"Chadderton, WL; Ryan, PA; Winterbourn, MJ",12.0,11.0,Multidisciplinary Sciences,J ROY SOC NEW ZEAL,J. R. Soc. N.Z.,10.1080/03014223.2003.9517742,"Chadderton, WL (corresponding author), Dept Conservat, POB 112, Hamilton, New Zealand.",ASELLUS-AQUATICUS; STREAM; ISLAND; CRUSTACEA; FOOD; FISH,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EVOLUTIONARY BIOLOGY,2021-04-13,WOS:000182322200013,9,0,"Bertin, A; Cezilly, F",J,English,"Sexual selection, antennae length and the mating advantage of large males in Asellus aquaticus",2003.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,16,1010-061X,3,MAY,491,500,Asellus aquaticus; body size; scramble competition; sexual dimorphism; sexual selection,"Univ Bourgogne, Equipe Ecol Evolut, Biogeosci Dijon, CNRS,UMR 5561, F-21000 Dijon, France","In crustacean species with precopulatory mate-guarding, sexual size dimorphism has most often been regarded as the consequence of a large male advantage in contest competition for access to females. However, large body size in males may also be favoured indirectly through scramble competition. This might partly be the case if the actual target of selection is a morphological character, closely correlated with body size, involved in the detection of receptive females. We studied sexual selection on body size and antennae length in natural populations of Asellus aquaticus, an isopod species with precopulatory mate guarding. In this species, males are larger than females and male pairing success is positively related to body size. However, males also have longer antennae, relative to body size, than females, suggesting that this character may also be favoured by sexual selection. We used multivariate analysis of selection to assess the relative influences of body size and antennae length in five different populations in the field. Selection gradients indicated that, overall, body size was a better predictor of male pairing success than antennae length, although some variation was observed between sites. We then manipulated male antennae length in a series of experiments conducted in the lab, and compared the pairing ability of males with short or long antennae. Males with short antennae were less likely to detect, orient to, and to pair with a receptive female compared with males with long antennae. We discuss the implications of our results for studies of male body size and sexual dimorphism in relation to sexual selection in crustaceans.",WILEY,60,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,10.0,668XV,"Bertin, A; Cezilly, F",10.0,9.0,Ecology; Evolutionary Biology; Genetics & Heredity,J EVOLUTION BIOL,J. Evol. Biol.,10.1046/j.1420-9101.2003.00536.x,"Cezilly, F (corresponding author), Univ Bourgogne, Equipe Ecol Evolut, Biogeosci Dijon, CNRS,UMR 5561, 6 Bd Gabriel, F-21000 Dijon, France.",MALE-MALE COMPETITION; BODY-SIZE; WATER STRIDER; NATURAL-SELECTION; MALE CHOICE; MATE; DIMORPHISM; CRUSTACEA; SUCCESS; RATIO,frank.cezilly@u-bourgogne.fr,,,14635849.0,1420-9101,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,PROCEEDINGS OF THE BIOLOGICAL SOCIETY OF WASHINGTON,2021-04-13,WOS:000182529200013,0,0,"Lewis, JJ; Martin, JW; Wetzer, R",J,English,"Columbasellus acheron, a new genus and species of subterranean isopod from Washington (Crustacea : Isopoda : Asellidae)",2003.0,Life Sciences & Biomedicine - Other Topics,116,0006-324X,1,APR 23,190,197,,"J Lewis & Associates Biol Consulting, Clarksville, IN 47129 USA; Nat Hist Museum Los Angeles, Res & Collect Branch, Los Angeles, CA 90007 USA","Columbasellus acheron, new genus, new species, is described from a male specimen discovered during the cleaning of the municipal water well of Kalama, Washington. The genus Columbasellus is geographically closest to the genera Caecidotea, Calasellus and Salmasellus, but is morphologically more similar to the Eurasian Asellus aquaticus/hilgendorfii complex of species, with which it shares a male pleopod 2 that possesses a relatively large labial spur and basal spur, and fully formed, ovate exopods in pleopods 4 and 5. Columbasellus acheron inhabits the hyporheic zone of the Kalama River. Evidence is presented that indicates widespread use of stream gravel interstices by subterranean isopods in the Pacific Northwest, including the first record of Salmasellus howarthi from Oregon.",BIOL SOC WASHINGTON,17,"NAT MUSEUM NAT HIST SMITHSONIAN INST, WASHINGTON, DC 20560 USA",WASHINGTON,8.0,672PH,"Lewis, JJ; Martin, JW; Wetzer, R",2.0,0.0,Biology,P BIOL SOC WASH,Proc. Biol. Soc. Wash.,,"Lewis, JJ (corresponding author), J Lewis & Associates Biol Consulting, 217 W Carter Ave, Clarksville, IN 47129 USA.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHROMOSOME RESEARCH,2021-04-13,WOS:000183322100008,3,0,"Barzotti, R; Pelliccia, F; Rocchi, A",J,English,Identification and characterization of U1 small nuclear RNA genes from two crustacean isopod species,2003.0,Biochemistry & Molecular Biology; Genetics & Heredity,11,0967-3849,4,APR,365,373,Asellus; Crustacea; fluorescence in-situ hybridization; Isopoda; Proasellus; small nuclear RNA; U1,"Univ Roma La Sapienza, Dipartimento Genet & Biol Mol, I-00185 Rome, Italy","Four different units containing three variants of the U1 snRNA gene have been identified in the genome of Asellus aquaticus and only one unit has been identified in the genome of Proasellus coxalis. All four identified U1 snRNA genes can be folded according to the proper secondary structure and possess the functionally useful conserved sequences. Moreover, in the 3 flanking regions, all genes present both the 3 box, a conserved sequence required for 3 processing of mature snRNA, and a polyadenylation signal which is unusual for these genes. The PCR products were used as probes in fluorescent in-situ hybridization (FISH) experiments to locate them on chromosomes of A. aquaticus and P. coxalis.",KLUWER ACADEMIC PUBL,25,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,9.0,686KZ,"Barzotti, R; Pelliccia, F; Rocchi, A",18.0,16.0,Biochemistry & Molecular Biology; Genetics & Heredity,CHROMOSOME RES,Chromosome Res.,10.1023/A:1024048108918,"Rocchi, A (corresponding author), Univ Roma La Sapienza, Dipartimento Genet & Biol Mol, I-00185 Rome, Italy.",DROSOPHILA-MELANOGASTER; NUCLEOTIDE-SEQUENCE; PROASELLUS-COXALIS; EXPRESSION; REPEAT; CHICKEN; RAT,,"PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",12906133.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGICAL BULLETIN,2021-04-13,WOS:000181099300005,209,0,"McGaw, IJ",J,English,"Behavioral thermoregulation in Hemigrapsus nudus, the amphibious purple shore crab",2003.0,Life Sciences & Biomedicine - Other Topics; Marine & Freshwater Biology,204,0006-3185,1,FEB,38,49,,"Univ Nevada, Dept Sci Biol, Las Vegas, NV 89154 USA; Bamfield Marine Sci Ctr, Bamfield, BC V0R 1B0, Canada","The thermoregulatory behavior of Hemigrapsus nudus, the amphibious purple shore crab, was examined in both aquatic and aerial environments. Crabs warmed and cooled more rapidly in water than in air. Acclimation in water of 16 degreesC (summer temperatures) raised the critical thermal maximum temperature (CTMax); acclimation in water of 10 degreesC (winter temperatures) lowered the critical thermal minimum temperature (CTMin). The changes occurred in both water and air. However, these survival regimes did not reflect the thermal preferences of the animals. In water, the thermal preference of crabs acclimated to 16 degreesC was 14.6 degreesC, and they avoided water warmer than 25.5 degreesC. These values were significantly lower than those of the crabs acclimated to 10 degreesC; these animals demonstrated temperature preferences for water that was 17 degreesC, and they avoided water that was warmer than 26.9 degreesC. This temperature preference was also exhibited in air, where 10 degreesC acclimated crabs exited from under rocks at a temperature that was 3.2 degreesC higher than that at which the 16 degreesC acclimated animals responded. This behavioral pattern was possibly due to a decreased thermal tolerance of 16 degreesC acclimated crabs, related with the molting process. H. nudus was better able to survive prolonged exposure to cold temperatures than to warm temperatures, and there was a trend towards lower exit temperatures with the lower acclimation (10 degreesC) temperature. Using a complex series of behaviors, the crabs were able to precisely control body temperature independent of the medium, by shuttling between air and water. The time spent in either air or water was influenced more strongly by the temperature than by the medium. In the field, this species may experience ranges in temperatures of up to 20 degreesC; however, it is able to utilize thermal microhabitats underneath rocks to maintain its body temperature within fairly narrow limits.",MARINE BIOLOGICAL LABORATORY,56,"7 MBL ST, WOODS HOLE, MA 02543 USA",WOODS HOLE,12.0,647NJ,"McGaw, IJ",31.0,31.0,Biology; Marine & Freshwater Biology,BIOL BULL-US,Biol. Bull.,10.2307/1543494,"McGaw, IJ (corresponding author), Univ Nevada, Dept Sci Biol, 4505 Maryland Pkwy, Las Vegas, NV 89154 USA.",CRAYFISH ORCONECTES-RUSTICUS; RESPIRATORY GAS-TRANSPORT; ACID-BASE STATUS; HOMARUS-AMERICANUS; CARCINUS-MAENAS; HEAT TOLERANCE; TEMPERATURE-ACCLIMATION; THERMAL-ACCLIMATION; GENUS PETROLISTHES; ASELLUS-AQUATICUS,imcgaw@ccmail.nevada.edu,,,12588743.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000180791100032,17,0,"Cosden, JM; Schijf, J; Byrne, RH",J,English,Fractionation of platinum group elements in aqueous systems: Comparative kinetics of palladium and platinum removal from seawater by Ulva lactuca L.,2003.0,Engineering; Environmental Sciences & Ecology,37,0013-936X,3,FEB 1,555,560,,"Univ S Florida, Coll Marine Sci, St Petersburg, FL 33701 USA","A marine macroalga, Ulva lactuca L., was used as a substrate to compare the kinetics of palladium (Pd) and platinum (Pt) removal from seawater. This work indicates that, while the equilibrium behaviors of Pd and Pt are in many respects similar, their kinetic behaviors are quite distinct. The removal of both Pt(II) and Pt(IV) from seawater by U. lactuca is slower than the removal of Pd(II) by approximately an order of magnitude. Relative Pd and Pt removal rates are strongly influenced by system hydrodynamics. Under quiescent conditions, lambda(Pd)/lambda(Pt), the ratio of Pd and Pt removal rates, is 7 2, whereas under turbulent conditions lambda(Pd)/lambda(Pt) can be as large as 27. These observations suggest that the disparate kinetic behaviors of Pd and Pt may produce considerable differences in the environmental dispersion of these elements.",AMER CHEMICAL SOC,36,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,6.0,642EK,"Cosden, JM; Schijf, J; Byrne, RH",32.0,30.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/es0259234,"Byrne, RH (corresponding author), Univ S Florida, Coll Marine Sci, 140 7th Ave S, St Petersburg, FL 33701 USA.",PLASMA-MASS SPECTROMETRY; ISOPOD ASELLUS-AQUATICUS; WATERS; METAL; ACCUMULATION; 25-DEGREES-C; SOLUBILITY; COMPLEXES; SEDIMENTS; RHODIUM,,"Schijf, Johan/0000-0001-9266-6982","Schijf, Johan/D-8259-2012",12630472.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000182868900001,18,0,"Zimmermann, S; Menzel, CM; Stuben, D; Taraschewski, H; Sures, B",J,English,"Lipid solubility of the platinum group metals Pt, Pd and Rh in dependence on the presence of complexing agents",2003.0,Environmental Sciences & Ecology,124,0269-7491,1,,1,5,lipid solubility; platinum group metals; complexing agent; bioaccumulation,"Univ Karlsruhe, Zool Inst Okol 1, D-76128 Karlsruhe, Germany; Univ Karlsruhe, Inst Mineral & Geochem, D-76128 Karlsruhe, Germany","Investigations on the bioaccumulation of the platinum group metals (PGM) Pt, Pd and Rh in aquatic organisms are of growing interest in environmental research due to the increasing emission of these metals by motor vehicles with catalytic converters. Until now, nothing is known about the possible influence of complexing agents on the bioaccumulation capacity of these precious metals. According to the partition coefficient between I-octanol and water (P-OW) as a measure of bioaccumulation, in this study a simple shaking method was performed in order to investigate the effects of different complexing agents (L-methionine, thio urea, EDTA, humic substances, bile compounds) on the octanol solubility of the PGM. The results demonstrated a significant influence of all agents used. L-Methionine and thio urea decreased the lipid solubility. In contrast, the presence of EDTA, humic substances and especially bile caused a higher transfer of metals in the octanol phase. For most complexing agents tested, the transfer of Pd to the lipid phase was significantly higher compared with Rh and Pt, except for bile acid where the highest octanol solubility was found for Pt. Recent experimental results on PGM accumulation in zebra mussels confirm a high bioaccumulation of Pd which could be predicted from the lipid solubility. (C) 2003 Elsevier Science Ltd. All rights reserved.",ELSEVIER SCI LTD,40,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,5.0,678LP,"Zimmermann, S; Menzel, CM; Stuben, D; Taraschewski, H; Sures, B",43.0,40.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/S0269-7491(02)00428-1,"Zimmermann, S (corresponding author), Univ Karlsruhe, Zool Inst Okol 1, Geb 07-01, D-76128 Karlsruhe, Germany.",ISOPOD ASELLUS-AQUATICUS; GROUP ELEMENTS PGE; HUMIC SUBSTANCES; ACUTE TOXICITY; ROAD DUST; PALLADIUM; WATER; EDTA; BIOACCUMULATION; DISSOLUTION,,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013",12683977.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000182287000003,3,0,"Michailova, P; Ilkova, J; White, KN",J,English,"Functional and structural rearrangements of salivary gland polytene chromosomes of Chironomus riparius Mg. (Diptera,Chironomidae) in response to freshly neutralized aluminium",2003.0,Environmental Sciences & Ecology,123,0269-7491,2,,193,207,Chironomidae; Chironomus riparius; aluminium; polytene chromosomes; genotoxicity,"Univ Manchester, Sch Biol Sci, Manchester M13 9PT, Lancs, England; Bulgarian Acad Sci, Inst Zool, Sofia 1000, Bulgaria","Although recent work has shown that environmentally relevant concentrations of freshly neutralized aluminium (AI) are bioavailable and toxic to freshwater invertebrates, the genotoxicity of Al has not been examined. Here we show that freshly neutralized Al affects structure and function of the salivary gland polytene chromosomes of the ubiquitous chironomid larva Chironomus riparius over three generations. Exposure to 500 mug l(-1) added Al for 24-25 days resulted in a significantly higher frequency of numerous somatic aberrations, while no structural aberrations were found in F1 controls and few in the second and third generation. Aberrations also included deletions of sections of chromosome G of C. riparius larvae as well as deletions of one or more Balbiani rings. Changes in functional activity included decreased activity of the Balbiani rings (BR), and an increase in the number of decondensed centromeres. The activity of the nucleolar organizer (NOR) significantly decreased in F1 chironomids exposed to Al, while in the F2 and F3 generations the NOR showed normal (high) activity. First generation chironomids were generally more susceptible to Al although no clear evidence of tolerance was apparent over three generations. The possible use of alterations in chironomid polytene chromosomes as biomarkers of trace metal pollution is discussed. (C) 2003 Elsevier Science Ltd. All rights reserved.",ELSEVIER SCI LTD,49,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,15.0,668JL,"Michailova, P; Ilkova, J; White, KN",30.0,25.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/S0269-7491(02)00405-0,"White, KN (corresponding author), Univ Manchester, Sch Biol Sci, Oxford Rd, Manchester M13 9PT, Lancs, England.",SNAIL LYMNAEA-STAGNALIS; THUMMI BALBIANI RINGS; MEIGEN 1804 DIPTERA; ASELLUS-AQUATICUS; WATER; TOXICITY; CADMIUM; METAL; LEAD; BIOACCUMULATION,keith.white@man.ac.uk,,,12628199.0,1873-6424,,,,,PII S0269-7491(02)00405-0,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY,2021-04-13,WOS:000179950100017,24,0,"Gomez, MB; Gomez, MM; Palacios, MA",J,English,"ICP-MS determination of Pt, Pd and Rh in airborne and road dust after tellurium coprecipitation",2003.0,Chemistry; Spectroscopy,18,0267-9477,1,,80,83,,"Univ Complutense Madrid, Fac CC Quim, Dept Quim Analit, E-28040 Madrid, Spain","A method has been developed for the simultaneous determination of Pd, Pt and Rh (PGE) in environmental airborne and road dust samples by tellurium coprecipitation and ICP-MS. The Te coprecipitation was applied after digestion of the sample with aqua regia-HF in a microwave oven. This separation method removes more than 95% of the elements producing mass interference in PGE determination by ICP-MS. The methodology was validated with reference road dust samples CW7 and CW8. The detection limits are 0.3, 0.6 and 0.8 pg m(-3) for Pt, Pd and Rh in airborne particulate matter, and 1, 1 and 0.4 ng g(-1) for Pt, Pd and Rh in road dust. Application of the isotopic dilution method for Pt and Pd after their coprecipitation improves the results obtained for road dust samples. Rh (monoisotopic element) analysis was carried out by external calibration after Te coprecipitation.",ROYAL SOC CHEMISTRY,27,"THOMAS GRAHAM HOUSE, SCIENCE PARK, MILTON RD,, CAMBRIDGE CB4 0WF, CAMBS, ENGLAND",CAMBRIDGE,4.0,627TB,"Gomez, MB; Gomez, MM; Palacios, MA",105.0,97.0,"Chemistry, Analytical; Spectroscopy",J ANAL ATOM SPECTROM,J. Anal. At. Spectrom.,10.1039/b209727n,"Gomez, MM (corresponding author), Univ Complutense Madrid, Fac CC Quim, Dept Quim Analit, E-28040 Madrid, Spain.",PLASMA-MASS SPECTROMETRY; PLATINUM-GROUP ELEMENTS; ISOPOD ASELLUS-AQUATICUS; SODIUM PEROXIDE FUSION; NIS FIRE-ASSAY; GEOLOGICAL SAMPLES; PARTICULATE MATTER; PALLADIUM; RHODIUM; GOLD,,"Gomez-Mancebo, Belen/0000-0002-1594-6275; Gomez-Gomez, Milagros/0000-0002-9904-4681","Gomez-Mancebo, Belen/I-3225-2015; Gomez-Gomez, Milagros/H-8589-2017",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGICAL JOURNAL OF THE LINNEAN SOCIETY,2021-04-13,WOS:000180082100009,20,0,"Bertini, A; David, B; Cezilly, F; Alibert, P",J,English,Quantification of sexual dimorphism in Asellus aquaticus (Crustacea : Isopoda) using outline approaches,2002.0,Evolutionary Biology,77,0024-4066,4,DEC,523,533,allometry; complex series; Fourier; geometric morphometries; head; mate guarding; multivariate analyses; paraeopods; pleotelson; sex; sexual selection; shape; size,"Univ Bourgogne, Equipe Ecol Evolut, F-21000 Dijon, France; Univ Bourgogne, Equipe Paleontol Biogeosci Dijon, CNRS, UMR 5561, F-21000 Dijon, France","A marked sexual dimorphism is often observed in arthropods species in which males perform precopulatory mate guarding. It is generally thought to reflect the influence of sexual selection. Until now, sexual dimorphisms associated with mate guarding have mainly been qualitatively described. However, assessing the effects of sexual selection on sexual dimorphims requires a preliminary quantitative assessment of differences in morphology between sexes. Using Fourier analyses, we tested if morphological dimorphisms could be quantitatively assessed in the isopod Asellus aquaticus. In addition, we checked whether sexual dimorphism in shape was exclusively related to mate guarding through considering characters that are not, a priori, implicated in mating behaviour. To assess the potential role of sexual selection in shaping morphology, we then examined how dimorphic characters could influence males' pairing success. Three characters (pleotelson, paraeopods 4 and 5) differed significantly in shape between males and females. In addition, two characters (pleotelson and paraeopods 4) differed in shape between guarding males and nonguarding males, with the latter being closer in shape to females. This suggests that sexual selection may be partly responsible for the observed morphological divergence between sexes in A. aquaticus. (C) 2002 The Linnean Society of London.",OXFORD UNIV PRESS,59,"GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND",OXFORD,11.0,629ZE,"Bertini, A; David, B; Cezilly, F; Alibert, P",31.0,27.0,Evolutionary Biology,BIOL J LINN SOC,Biol. J. Linnean Soc.,10.1046/j.1095-8312.2002.00125.x,"Alibert, P (corresponding author), Univ Bourgogne, Equipe Ecol Evolut, 6 Bd Gabriel, F-21000 Dijon, France.",FOURIER SHAPE-ANALYSIS; MALE BODY-SIZE; EUROPEAN EARWIGS; SELECTION; DIFFERENTIATION; GENITALIA; EVOLUTION; BEETLE; ROLES; MODEL,paul.alibert@u-bourgogne.fr,,"Rohlf, F J/A-8710-2008",,1095-8312,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF HELMINTHOLOGY,2021-04-13,WOS:000179711800005,14,0,"Kennedy, CR; Moriarty, C",J,English,"Long-term stability in the richness and structure of helminth communities in eels, Anguilla anguilla, in Lough Derg, River Shannon, Ireland",2002.0,Parasitology; Zoology,76,0022-149X,4,DEC,315,322,,"Univ Exeter, Dept Biol Sci, Exeter EX4 4PS, Devon, England; Univ Dublin Trinity Coll, Dept Zool, Dublin 2, Ireland","A data set on intestinal helminth parasites was collected in the course of an 18 year investigation into the biology of eels in Meelick Bay, Lough Derg, River Shannon. This was used to test two hypotheses relating to the composition and structure of intestinal helminth communities, namely that eels in large rivers do not harbour richer and more diverse communities than those in small rivers but that community composition and structure are more stable over time than in small rivers. The helminth community was species poor, with only six species comprising the component community and a maximum infracommunity richness of, three species. The community was overwhelmingly dominated by the acanthocephalan Acanthocephalus lucii, reflecting the importance of its intermediate host Asellus aquaticus in the eels' diet. The remaining helminth species contributed to species richness but made very little contribution to community diversity. Population levels of Acanthocephalus lucii fell and remained low between 1992 and 2000, probably reflecting increased movement of eels from other parts of the lough into Meelick Bay. Diversity values were low, but similar to those reported from other rivers in Britain and Europe. The results provided support for both hypotheses and indicated that in respect of richness, diversity and dominance, the helminth communities of eels in the River Shannon were typical of, and comparable to, those of other large rivers throughout Europe.",C A B I PUBLISHING,28,"C/O PUBLISHING DIVISION, WALLINGFORD OX10 8DE, OXON, ENGLAND",WALLINGFORD,8.0,623PJ,"Kennedy, CR; Moriarty, C",23.0,20.0,Parasitology; Zoology,J HELMINTHOL,J. Helminthol.,10.1079/JOH2002140,"Kennedy, CR (corresponding author), Univ Exeter, Dept Biol Sci, Exeter EX4 4PS, Devon, England.",PARASITE COMMUNITIES; EUROPEAN EEL; DIVERSITY; DYNAMICS; GERMANY; RHINE,,,,12498636.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,LIMNOLOGY AND OCEANOGRAPHY,2021-04-13,WOS:000179650200027,23,1,"Stahl-Delbanco, A; Hansson, LA",J,English,"Effects of bioturbation on recruitment of algal cells from the ""seed bank"" of lake sediments",2002.0,Marine & Freshwater Biology; Oceanography,47,0024-3590,6,NOV,1836,1843,,"Inst Ecol Limnol, SE-22362 Lund, Sweden","Effects of different bioturbators on recruitment of several nuisance algae, Anaboena spp. (Cyanophyta), Microcystis spp. (Cyanophyta), and Gonvostomum semen (Raphidophyta), from sediment to water were studied in a long-term laboratory experiment. Natural sediment, where macrofauna larger than 1 mm had been removed, was added to 18 aquaria. To each of six aquaria, individuals of Asellus aquaticus (Isopoda) or Chironomus plumosus (Arthropoda) larvae were added, and six aquaria were left as bioturbation-free controls. Recruitment of Anabaena, Microcystis, and G. semen from the sediment was detected using inverted traps that were sampled once a week during 8 weeks. The activities of the isopod A. aquaticus increased recruitment rates of all algal groups investigated, whereas chironomids had a less pronounced effect. With respect to Anabaena, increased recruitment rate was expressed as a promotion of growth in the pelagic habitat. To our knowledge, these results are the first to demonstrate that bioturbating invertebrates affect the recruitment of phytoplankton resting stages. Moreover, our results suggest that recruitment rate might be more pronounced in littoral areas, which are often dominated by A. aquaticus, rather than in profundal areas of a lake, generally dominated by chironomids. Hence, with respect to algal dynamics, the strength of the coupling between the benthic and pelagic zones might vary both spatially and temporally, depending on composition of the benthic invertebrate community and the ontogenetic development of the individuals within it.",AMER SOC LIMNOLOGY OCEANOGRAPHY,38,"5400 BOSQUE BLVD, STE 680, WACO, TX 76710-4446 USA",WACO,8.0,622ME,"Stahl-Delbanco, A; Hansson, LA",54.0,49.0,Limnology; Oceanography,LIMNOL OCEANOGR,Limnol. Oceanogr.,10.4319/lo.2002.47.6.1836,"Hansson, LA (corresponding author), Inst Ecol Limnol, Ecol Bldg, SE-22362 Lund, Sweden.",CHIRONOMUS-PLUMOSUS LARVAE; EGG BANK; EUTROPHIC LAKE; POPULATIONS; WATER; CYANOBACTERIA; GERMINATION; RESPONSES; PLANKTON; PATTERNS,,"Hansson, Lars-Anders/0000-0002-3035-1317",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BEHAVIOUR,2021-04-13,WOS:000178657700002,8,0,"Sparkes, TC; Keogh, DP; Orsburn, TH",J,English,Female resistance and mating outcomes in a stream-dwelling isopod: Effects of male energy reserves and mating history,2002.0,Behavioral Sciences; Zoology,139,0005-7959,,JUL,875,895,sexual conflict; mating contest; female choice; glycogen; sperm supplies,"Univ Kentucky, TH Morgan Sch Biol Sci, Ctr Ecol Evolut & Behav, Lexington, KY 40506 USA; Univ Kentucky, Grad Ctr Toxicol, Lexington, KY 40506 USA","In the stream-dwelling isopod, Lirceus fontinalis, conspicuous mating contests occur between males and females prior to pair formation. Our previous work has shown that female resistance during contests determines contest outcomes. Here we examined whether female resistance could act as a mechanism of choice in which females discriminate against males with low energy (glycogen) reserves. We manipulated male glycogen levels by chasing males around a race-track then exposed females to males that differed in glycogen levels. We found that high-glycogen males were more successful than low-glycogen males and that this effect appeared to be due to increased female resistance towards low-glycogen males. We then examined one potential benefit to females of energy-based mate discrimination. In L. fontinalis, male mating history and levels of glycogen reserves are correlated, i.e. recently mated males are glycogen-depleted due to energy costs associated with mating. We examined whether recently mated males were also costly mates, and thus should be avoided by females. We quantified the relationship between male mating history and female fertilization success and found that females suffered an 18% reduction in fertilization success by mating with a male that had recently inseminated another female. We propose that female resistance could act as a mechanism of choice in which males with low energy reserves are avoided and that one benefit of this discrimination is that females increase fertilization success be avoiding males that have recently mated.",BRILL,83,"PLANTIJNSTRAAT 2, P O BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,21.0,605CK,"Sparkes, TC; Keogh, DP; Orsburn, TH",20.0,20.0,Behavioral Sciences; Zoology,BEHAVIOUR,Behaviour,10.1163/156853902320387873,"Sparkes, TC (corresponding author), De Paul Univ, Dept Biol Sci, 2325 N Clifton Ave, Chicago, IL 60614 USA.",OPERATIONAL SEX-RATIOS; MALE-MALE COMPETITION; ASELLUS-AQUATICUS L; GAMMARUS-PULEX; WATER STRIDER; LOADING CONSTRAINTS; HABITAT STRUCTURE; FOOD-DEPRIVATION; PREDATION RISK; 2 POPULATIONS,tsparkes@depaul.edu,,,,1568-539X,,,,,,,,7,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL BIOLOGY,2021-04-13,WOS:000177259600009,16,1,"Hervant, F; Renault, D",J,English,Long-term fasting and realimentation in hypogean and epigean isopods: a proposed adaptive strategy for groundwater organisms,2002.0,Life Sciences & Biomedicine - Other Topics,205,0022-0949,14,JUL,2079,2087,starvation; refeeding; subterranean; surface; crustacean; intermediary metabolism; energy metabolism; digestive physiology; adaptive strategy; food-limited biotope,"Univ Lyon 1, CNRS, UMR 5023, F-69622 Villeurbanne, France; Univ Rennes 1, Biol Stn, CNRS, UMR 6553, F-35380 Paimpont, France","The effects of long-term fasting and subsequent refeeding on digestive physiology and energy metabolism were investigated in a subterranean aquatic crustacean, Stenasellus virei, and in a morphologically similar surface-dwelling species, Asellus aquaticus. Metabolic response to food deprivation was monophasic in A. aquaticus, with an immediate, large decrease in all energy reserves. In contrast, S. virei displayed three successive periods of phosphageno-glucidic, lipidic and, finally, proteo-lipidic-dominant catabolism over the course of the nutritional stress. To represent the responses of subterranean crustaceans to food stress and renutrition, a sequential energy strategy was hypothesized, suggesting that four successive phases (called stress, transition, adaptation and recovery) can be distinguished. Based on these results, a general adaptive strategy for groundwater organisms was proposed. Their remarkable resistance to long-term fasting may be partly explained by (1) a depressed metabolism, during which they mainly subsist on lipid stores, (2) a prolonged state of glycogen- and protein-sparing, (3) low energetic requirements and (4) large body stores. In addition, these groundwater species displayed high recovery abilities during refeeding, showing an optimal utilization of available food and a rapid restoration of their body reserves. These adaptive responses might be considered for numerous subterranean organisms as an efficient energy-saving strategy in a harsh and unpredictable environment where fasting (and/or hypoxic) periods of variable duration alternate with sporadic feeding events (and/or normoxic periods). Therefore, food-limited and/or hypoxia-tolerant groundwater species appear to be good examples of animals representing a low-energy system.",COMPANY OF BIOLOGISTS LTD,26,"BIDDER BUILDING CAMBRIDGE COMMERCIAL PARK COWLEY RD, CAMBRIDGE CB4 4DL, CAMBS, ENGLAND",CAMBRIDGE,9.0,580WL,"Hervant, F; Renault, D",82.0,80.0,Biology,J EXP BIOL,J. Exp. Biol.,,"Hervant, F (corresponding author), Univ Lyon 1, CNRS, UMR 5023, 6 Rue Dubois, F-69622 Villeurbanne, France.",METABOLIC RESPONSES; SUBSEQUENT RECOVERY; BIOCHEMICAL-COMPOSITION; PROTEUS-ANGUINUS; NIPHARGUS-VIREI; EUPROCTUS-ASPER; SEVERE HYPOXIA; STARVATION,,"RENAULT, David/0000-0003-3644-1759",,12089211.0,,,,,,UNSP JEB4141,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THE NORTH AMERICAN BENTHOLOGICAL SOCIETY,2021-04-13,WOS:000174134600012,20,0,"Mermillod-Blondin, F; Gerino, M; des Chatelliers, MC; Degrange, V",J,English,Functional diversity among 3 detritivorous hyporheic invertebrates: an experimental study in microcosms,2002.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,21,0887-3593,1,MAR,132,149,functional groups; bioturbation; chironomids; asellids; tubificids; organic matter processing; denitrification,"Univ Lyon 1, UMR CNRS 5023, Equipe HydroBiol & Ecol Souterraines, F-69622 Villeurbanne, France; Ctr Ecol Syst Aquat Continentaux, UMR CNRS 5576, F-31055 Toulouse, France; Univ Lyon 1, UMR CNRS 5557, F-69622 Villeurbanne, France","Macroinvertebrates living at the sediment-water interface can be classified into different functional groups according to their modes of feeding and/or their bioturbation activities. We compared 3 detritivorous taxa of hyporheic habitats (chironomid larvae, asellid isopods, and tubificids) to test whether they represented distinct functional groups. This hypothesis was tested in experimental conditions using slow filtration gravel-and-sand columns during 20-d experiments. We measured the effects of the 3 taxa on particle redistribution, organic matter processing, nutrient fluxes, and microbial distribution. There were 3 experimental treatments: 1) 50 chironorriid larvae (>80% Prodiamesa), 2) 25 asellids (Asellus aquaticus), and 3) 100 tubificids (Tubifex sp.). Although biologically mediated sediment fluxes were weak because of the small proportion of fine sediment in the columns, the 3 species redistributed sediment differently. They also had different effects on microbial activity, and 0, and nutrient transport into the sediment. Chironomids caused a downward flux of sediment that accumulated as far as 4 cm below the sediment surface. Asellids homogeneized sediments at 1 to 3 cm depth in the column. Tubificids generated a biodiffusive mixing of sediment at the sediment surface together with a vertical transport inside the sediment and increased microbial respiration at all depths. Both asellids and chironomids increased 0, penetration and decreased microbial activity in the first 5 cm. of the sediment. Deeper in the sediment, tubificids and asellids stimulated anaerobic processes, whereas chironomid larvae had little effect on these processes. The initial hypothesis that the 3 taxa could be usefully classified into distinct functional groups was accepted. Their distinct activities in the sediment, demonstrated by specific modes of mixing, produced different effects on sediment properties and microbial activities.",NORTH AMER BENTHOLOGICAL SOC,60,"1041 NEW HAMSPHIRE STREET, LAWRENCE, KS 66044 USA",LAWRENCE,18.0,526MQ,"Mermillod-Blondin, F; Gerino, M; des Chatelliers, MC; Degrange, V",42.0,41.0,Ecology; Marine & Freshwater Biology,J N AM BENTHOL SOC,J. N. Am. Benthol. Soc.,10.2307/1468305,"Mermillod-Blondin, F (corresponding author), Univ Lyon 1, UMR CNRS 5023, Equipe HydroBiol & Ecol Souterraines, 43 Bd 11 Novembre 1918, F-69622 Villeurbanne, France.",SEDIMENT REWORKING; PARTICLE-SIZE; BIODIVERSITY; TRANSPORT; BIOTURBATION; OLIGOCHAETA; TUBIFICIDAE; LIMNODRILUS; NUTRIENT; BEHAVIOR,mermillo@univ-lyon1.fr,"Mermillod-Blondin, Florian/0000-0001-5685-2892","Mermillod-Blondin, Florian/AAF-3491-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EVOLUTIONARY ECOLOGY RESEARCH,2021-04-13,WOS:000174247600003,2,0,"Zimmer, M; Geisler, S; Walter, S; Brendelberger, H",J,English,Fluorescence in Asellus aquaticus (Isopoda : Asellota): a first approach,2002.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,4,1522-0613,2,FEB,181,187,assortative mating; behavioural change; colour change; endoparasites; honest signal; metabolite storage; parasite-induced changes; predation risk,"Univ Kiel, Zool Inst Limnol, D-24098 Kiel, Germany","In the freshwater isopod, Asellus aquaticus (Isopoda: Asellota), fluorescing metabolic products, stored in specialized cells, cause intraspecific variation in individual visibility. In many populations, 50-80% of isopods exhibit increased visibility under natural light conditions, which increases predation risk to these individuals. Furthermore, fluorescing isopods exhibit different behaviour with respect to sheltering. These individuals would be expected to be out-competed by their non-fluorescing conspecifics. However, assortative mating of fluorescing versus non-fluorescing isopods warrants reproduction in both phenotypes. We hypothesize possible causes of the isopods' fluorescing appearance and present results that allow the predicted consequences to individual isopods to be tested.",EVOLUTIONARY ECOLOGY LTD,11,"UNIV ARIZONA, 321 BIOSCIENCES WEST, TUCSON, AZ 85721 USA",TUCSON,7.0,528MM,"Zimmer, M; Geisler, S; Walter, S; Brendelberger, H",4.0,4.0,Ecology; Evolutionary Biology; Genetics & Heredity,EVOL ECOL RES,Evol. Ecol. Res.,,"Zimmer, M (corresponding author), Univ Kiel, Zool Inst Limnol, Olshaussenstr 40, D-24098 Kiel, Germany.",COLOR,mzimmer@zoologie.uni-kiel.de,"Walter, Sylvia/0000-0003-3724-0422; Zimmer, Martin/0000-0002-1549-8871","Walter, Sylvia/A-9160-2012",,1937-3791,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC SCIENCES,2021-04-13,WOS:000175859300007,10,0,"Ketmaier, V",J,English,"Isolation by distance, gene flow and phylogeography in the Proasellus coxalis-group (Crustacea, Isopoda) in Central Italy: allozyme data",2002.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,64,1015-1621,1,,66,75,Proasellus coxalis; allozymes; gene flow; isolation by distance; phylogeography,"Univ Roma La Sapienza, Dipartimento Biol Anim Uomo, I-00185 Rome, Italy","Fifteen populations belonging to the Proasellus coxalis-group were surveyed for genetic variation at 19 enzymatic loci in order to clarify the degree of genetic structuring of this species at the scale of Central Italy. With Neighbour-Joining analysis, it was possible to identify two main clusters, the first grouping populations sampled in coastal areas of Central Italy, the second comprising several populations from inland areas of the Apennines. In the first group, genetic relationships follow a geographic scheme, with populations arranged according to the proximity of the collecting sites. The inland populations have less clear geographic relationships and a higher degree of genetic differentiation. In view of the paleogeography of the study areas, I hypothesise a more recent penetration of this taxon into the Central Italian alluvial coastal plains (subjected to cyclical marine ingressions during the Quaternary) from sources of colonisation in the inland areas. The higher genetic differentiation of the inland populations presumably reflects a longer evolutionary history and could be explained by the periodic fragmentation of river catchments during Pleistocene climatic fluctuations. Such an evolutionary scenario is supported by F-statistics analyses. Effective dispersal of individuals between populations can be hypothesised for the coastal populations but not for the inland ones. On the whole, there is a pattern of isolation by distance, but a large amount of gene flow seems to reflect historical rather than ongoing gene exchange.",SPRINGER BASEL AG,49,"PICASSOPLATZ 4, BASEL, 4052, SWITZERLAND",BASEL,10.0,556PZ,"Ketmaier, V",7.0,5.0,Environmental Sciences; Limnology; Marine & Freshwater Biology,AQUAT SCI,Aquat. Sci.,10.1007/s00027-002-8055-z,"Ketmaier, V (corresponding author), Univ Roma La Sapienza, Dipartimento Biol Anim Uomo, V Univ 32, I-00185 Rome, Italy.",ASELLUS-AQUATICUS ISOPODA; POPULATIONS; EQUILIBRIUM; ASELLIDAE; MARINE; EXCESS,valerio.ketmaier@uniroma1.it,,,,1420-9055,,,,,UNSP 1015-1621/02/010066-10,,,,,,,,,,,,,,,,,,,,,
Article,CHEMOSPHERE,2021-04-13,WOS:000173616600009,24,0,"Eimers, MC; Evans, RD; Welbourn, PM",J,English,Partitioning and bioaccumulation of cadmium in artificial sediment systems: application of a stable isotope tracer technique,2002.0,Environmental Sciences & Ecology,46,0045-6535,4,JAN,543,551,stable isotopes; cadmium; bioaccumulation; sediment; Asellus aquaticus,"Trent Univ, Peterborough, ON K9J 7B8, Canada","The utility of stable isotope tracers for investigating the relationship between cadmium (Cd) partitioning in artificial sediment-water systems and Cd accumulation in a benthic detritivore (Asellus racovitzai, Isopoda) was explored. In the laboratory, Cd isotopes were applied to synthetic sediment and isotope concentrations were measured in sediment, overlying water and exposed asellids over a 10-day period. Isotope ratios measured in sediment and water were compared to ratios measured in asellids to determine whether Cd partitioning could predict metal bioaccumulation. Two different parameters which might affect Cd partitioning between the sediment and overlying water compartments were investigated: the chemical form in which Cd was added to systems, and the organic matter content of the sediment. To test the effect of chemical form on Cd partitioning, three isotopes of cadmium were individually applied to formulated sediment in varying combinations of Cd-113(NO3)(2), Cd-112-humic acid (HA) (CdSO4)-Cd-114. The results demonstrated that chemical form did not influence partitioning, as the Cd isotope that was applied to sediment in the nitrate form exhibited similar partitioning between sediment and overlying water as the isotope that was applied in the sulfate or HA form. However, Cd isotope concentrations in overlying water were strongly related to the pattern of isotope accumulation in asellids suggesting that overlying water concentrations determined Cd bioaccumulation. In contrast, when the organic matter content of sediment was increased through the addition of Sphagnum peat moss, total Cd concentrations in overlying water and tissue were low, and there was no relationship between Cd-isotope concentrations in tissue and water. These results indicate that Cd accumulation occurred primarily from water, and factors that increase metal partitioning to sediment, such as increased sediment organic matter content, decrease Cd accumulation in asellids. The stable isotope tracer method described herein appears to be a useful technique for investigating the relationship between metal partitioning and bioaccumulation in simple sediment systems, but could also be extended to more complex systems, and used with different metals that have multiple stable isotopes. (C) 2002 Elsevier Science Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,32,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,9.0,517NK,"Eimers, MC; Evans, RD; Welbourn, PM",28.0,23.0,Environmental Sciences,CHEMOSPHERE,Chemosphere,10.1016/S0045-6535(01)00156-4,"Eimers, MC (corresponding author), Trent Univ, Peterborough, ON K9J 7B8, Canada.",FRESH-WATER; ADSORPTION; CONTAMINANTS; ACCUMULATION; TOXICITY; AMPHIPOD; BINDING; METALS; COPPER; OXIDE,ceimers@trentu.ca,,,11838433.0,1879-1298,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:000172510600009,17,0,"MacNeil, C; Dick, JTA; Bigsby, E; Elwood, RW; Montgomery, WI; Gibbins, CN; Kelly, DW",J,English,The validity of the Gammarus : Asellus ratio as an index of organic pollution: abiotic and biotic influences,2002.0,Engineering; Environmental Sciences & Ecology; Water Resources,36,0043-1354,1,JAN,75,84,Gammarus : Asellus ratio; organic pollution; biotic indices; richness indices; predation,"Queens Univ Belfast, Sch Biol & Biochem, Belfast BT9 7BL, Antrim, North Ireland; Univ Ulster, Limnol Lab, Ballyronan BT45 6LR, Londonderry, North Ireland; Univ Aberdeen, Dept Geog, Aberdeen AB9 2UF, Scotland","In freshwaters, Gammarus spp. are more sensitive to organic pollution than Asellus spp. and the relative abundance of the two taxa has been proposed as a pollution index. We tested the validity of this by examining the relationship between the Gammarus: Asellus (G:A) ratio and (1) a suite of physico-chemical variables, (2) established biotic (average score per taxon, ASPT) and richness (species richness (S) and Ephemeroptera, Plecoptera and Trichoptera families richness (EPT family richness)) indices generated from the macro invertebrate community. In addition, we investigated a suspected biotic interaction, predation, between Gammarus and Asellus. Both univariate and multivariate analyses showed that the G:A ratio was sometimes responsive to changes in parameters linked to organic pollution, such as BOD5 and nitrate levels. However, the G: A ratio also appeared responsive to variables not directly linked to organic pollution, such as conductivity and distance from source. There were significant positive correlations among the G:A ratio and the ASPT, S and EPT, indicating that changes in the relative abundances of Gammarus and Asellus were reflected in changes in the pollution sensitivity and richness of the wider macroinvertebrate community. A laboratory experiment revealed significant predation of Asellus aquaticus juveniles by Gammarus duebeni celticus adults, but no reciprocal predation. We propose that the G:A ratio may be useful as a crude measure of organic pollution that could supplement more complex indices in a multimetric approach to pollution monitoring or be used for monitoring individual sites, where a simple technique is required for monitoring purposes over a period of time. Also, we urge recognition of the possible role of biotic interactions among taxa used in the generation of pollution indices. (C) 2001 Elsevier Science Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,28,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,10.0,498LE,"MacNeil, C; Dick, JTA; Bigsby, E; Elwood, RW; Montgomery, WI; Gibbins, CN; Kelly, DW",42.0,40.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/S0043-1354(01)00218-4,"MacNeil, C (corresponding author), Queens Univ Belfast, Sch Biol & Biochem, 97 Lisburn Rd, Belfast BT9 7BL, Antrim, North Ireland.",RUNNING-WATER SITES; MACROINVERTEBRATE COMMUNITIES; PERFORMANCE; DIVERSITY; PREDATION; CRUSTACEA; QUALITY; RIVERS,,,,11767742.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:000171840700018,50,3,"Moldovan, M; Rauch, S; Gomez, M; Palacios, MA; Morrison, GM",J,English,"Bioaccumulation of palladium, platinum and rhodium from urban particulates and sediments by the freshwater isopod Asellus aquaticus",2001.0,Engineering; Environmental Sciences & Ecology; Water Resources,35,0043-1354,17,DEC,4175,4183,wordy-palladium; platinum; rhodium; Asellus aquaticus; bioaccumulation; ICP-MS,"Univ Complutense Madrid, Fac Ciencias Quim, Dept Quim Analit, E-28040 Madrid, Spain; Chalmers Univ Technol, SE-41296 Gothenburg, Sweden","The three-way catalytic converters introduced to oxidize and reduce gaseous automobile emissions represent a source of platinum group elements (PGEs), in particular platinum, palladium and rhodium, to the urban environment. Abrasion of automobile exhausts leads to an increase of the concentration of PGEs in environmental matrices such as vegetation. soil and water bodies. The bioaccumulation of Pd, Pt and Rh by the freshwater isopod Asellus aquaticus was studied in natural ecosystems and under laboratory conditions. Owing to the low concentration level (ng g(-1)) of PGEs in the animals studied, analyses were performed with a quadrupole inductively coupled plasma mass spectrometry (ICP-MS) and hafnium, copper, yttrium, rubidium, strontium and lead were monitored for spectral interference correction. Asellus aquaticus collected in an urban river showed a content (mean +/- s) of 155.4 +/- 73.4, 38.0 +/- 34.6, and 17.9 +/- 12.2 ng g(-1) (dry weight) for Pd, Pt and Rh, respectively. The exposure of Asellus aquaticus to PGE standard solutions for a period of 24 h give bioaccumulation factors of Bf: 150, 85, and 7 for Pd, Pt and Rh, respectively. Exposure of Asellus aquaticus to environmental samples for different exposure periods demonstrated that PGE bioaccumulation is time dependent, and shows a higher accumulation for the materials with a higher PGE content. While all three elements have the same uptake rate for exposure to catalyst materials, for exposure to environmental materials they have a different uptake rate which can be attributed to transformations of the PGE species in the environment. (C) 2001 Elsevier Science Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,28,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,9.0,486WV,"Moldovan, M; Rauch, S; Gomez, M; Palacios, MA; Morrison, GM",152.0,144.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/S0043-1354(01)00136-1,"Moldovan, M (corresponding author), Univ Complutense Madrid, Fac Ciencias Quim, Dept Quim Analit, E-28040 Madrid, Spain.",PLASMA-MASS SPECTROMETRY; LUMBRICULUS-VARIEGATUS; METALS; TOXICITY; ROAD,,"Moldovan, Mariella/0000-0001-6697-4252; Morrison, Gregory/0000-0002-2101-6525; Gomez-Gomez, M. Milagros/0000-0002-9904-4681; Rauch, Sebastien/0000-0003-3636-0684","Moldovan, Mariella/A-4294-2008; Gomez-Gomez, M. Milagros/H-8589-2017",11791847.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Editorial Material,ANIMAL BEHAVIOUR,2021-04-13,WOS:000172189400025,10,0,"Zimmer, M",J,English,Why do male terrestrial isopods (Isopoda : Oniscidea) not guard females?,2001.0,Behavioral Sciences; Zoology,62,0003-3472,,OCT,815,821,,"Univ Kiel, Inst Zool, Limnol Biol Zentrum, D-24098 Kiel, Germany",,ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD,89,"24-28 OVAL RD, LONDON NW1 7DX, ENGLAND",LONDON,7.0,492VZ,"Zimmer, M",17.0,17.0,Behavioral Sciences; Zoology,ANIM BEHAV,Anim. Behav.,10.1006/anbe.2001.1845,"Zimmer, M (corresponding author), Univ Kiel, Inst Zool, Limnol Biol Zentrum, Olshausenstr 40, D-24098 Kiel, Germany.",TIME INVESTMENT STRATEGIES; GAMMARUS-PULEX AMPHIPODA; ASELLUS-AQUATICUS L; PARACERCEIS-SCULPTA; SEXUAL DIMORPHISM; MATE CHOICE; THERMOSPHAEROMA-THERMOPHILUM; INTERSEXUAL CONFLICT; POPULATION-DYNAMICS; MALE DISCRIMINATION,mzimmer@zoologie.uni-kiel.de,"Zimmer, Martin/0000-0002-1549-8871",,,1095-8282,,,,,,,,4,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY,2021-04-13,WOS:000170840100023,8,0,"Akyuz, T; Erkan, BM; Akyuz, S; Bassari, A",J,English,Radioisotope excited X-ray fluorescence analysis of Asellus Aquaticus (Crustacea : Isopoda) from Istanbul as an indicator of environmental metal pollution,2001.0,Chemistry; Nuclear Science & Technology,249,0236-5731,3,SEP,649,651,,"Cekmece Nucl Res & Training Ctr, TR-34831 Istanbul, Turkey; Istanbul Univ, Dept Biol, TR-34459 Istanbul, Turkey; Istanbul Univ, Dept Phys, TR-34459 Istanbul, Turkey","Some metal contents of the freshwater isopod: Asellus aquaticus (Crustacea: Isopoda). collected from the pool of the botanical garden of Istanbul University (at the vicinity of old city center of Istanbul), were analysed, in order to investigate urban metal pollution. The analysis of the homogenized sample of isopods indicated that it contained K, Ca, Mn. Fe, Cu, Ni. Zn, Ph, Br, Rb, Sr, Y, Zr. Ba, Cd, Cs and Hg in different amounts. The results were compared with those of other isopods; and various organisms.",SPRINGER,11,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,3.0,469WY,"Akyuz, T; Erkan, BM; Akyuz, S; Bassari, A",5.0,5.0,"Chemistry, Analytical; Chemistry, Inorganic & Nuclear; Nuclear Science & Technology",J RADIOANAL NUCL CH,J. Radioanal. Nucl. Chem.,,"Akyuz, T (corresponding author), Cekmece Nucl Res & Training Ctr, PK 1, TR-34831 Istanbul, Turkey.",HEAVY-METALS; TERRESTRIAL ISOPODS; ACCUMULATION; TOXICITY; COPPER,lamp97@itu.edu.tr,,,,1588-2780,,,,European Conference on Energy Dispersive X-ray Spectrometry (EDXRS 2000),,"JUN 18-23, 2000","UNIV MIN & MET, KRAKOW, POLAND",,,,,,,,,,UNIV MIN & MET,,,,,,,,,
Article,PARASITOLOGY,2021-04-13,WOS:000170390500009,16,0,"Sures, B; Streit, B",J,English,"Eel parasite diversity and intermediate host abundance in the River Rhine, Germany",2001.0,Parasitology,123,0031-1820,,AUG,185,191,Anguilla anguilla; parasites; acanthocephalans; crustaceans; diversity; neozoans,"Univ Karlsruhe, Inst Zool, D-76128 Karlsruhe, Germany; Univ Frankfurt, Abt Okol & Evolut, D-60054 Frankfurt, Germany","European eels (Anguilla anguilla) from 2 sampling sites on the Rhine river (near Karlsruhe and near Worms) were investigated with respect to their parasite communities. Nine different metazoan species were found to live in and on the eels. The highest number of species was recorded from the intestine, which contained up to 6 different helminths. Among these, acanthocephalans were the most prevalent worms with the eel-specific parasite Paratenuisentis ambiguus as the dominant species of the intestinal component communities at both sites. Comparing the intestinal parasites from eels caught near Karlsruhe with those from Worms, the acanthocephalans showed a significantly lower abundance at Worms. A significantly lower mean number of intestinal helminth species as well as a significantly lower Brillouin's Index was found at Worms compared,vith Karlsruhe. This difference could be related to the abundance of the respective intermediate crustacean hosts. At the sampling site Worms the amphipod Corophium curvispimon was the dominant crustacean. Additionally, only the isopod Jaera istri and the amphipod Dikerogammarus villosus were found. All these crustacean species have only recently colonized the Rhine river system via the Main-Danube canal, built in the early 1990s. They are not known to act as intermediate hosts for any of the acanthocephalans found in the eels. The site near Karlsruhe exhibited a higher crustacean diversity, including Asellus aquaticus and different species of the genus Gammarus, which are all known intermediate hosts for the acanthocephalans found. Therefore, changes of eel parasite diversity can be correlated with the appearance of invading crustacean species (neozoans).",CAMBRIDGE UNIV PRESS,50,"110 MIDLAND AVE, PORT CHESTER, NY 10573-9863 USA",PORT CHESTER,7.0,461YB,"Sures, B; Streit, B",53.0,50.0,Parasitology,PARASITOLOGY,Parasitology,10.1017/S0031182001008356,"Sures, B (corresponding author), Univ Karlsruhe, Inst Zool, Geb 07-01,Kornblumenstr 13, D-76128 Karlsruhe, Germany.",ANGUILLICOLA-CRASSUS NEMATODA; INTESTINAL HELMINTH COMMUNITIES; LONG-TERM CHANGES; PARATENIC HOSTS; EUROPEAN EEL; SWIMBLADDER PARASITE; LAKE-BALATON; NOVA-SCOTIA; LIFE-CYCLE; DRACUNCULOIDEA,,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013",11510684.0,,,,,,,,,2,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000170293900005,31,0,"Marklund, O; Blindow, I; Hargeby, A",J,English,Distribution and diel migration of macroinvertebrates within dense submerged vegetation,2001.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,46,0046-5070,7,JUL,913,924,Chara; diel migration; distribution; macroinvertebrates; submerged vegetation,"Lund Univ, Dept Limnol Ecol, S-22362 Lund, Sweden","1. We studied vertical and horizontal distribution of macroinvertebrates within a dense stand of Chara spp. in Lake Krankesjon, southern Sweden. Invertebrates were sampled at three depths within the vegetation and at three distances from the vegetation edge during day and night in July and August. Corresponding samples of oxygen content of the water were taken. 2. The densities (number of invertebrates per unit plant biomass) of most invertebrate taxa were generally lower in the upper layers of the vegetation than in the layers close to the sediment. The densities of several taxa. (Asellus aquaticus, Cloeon sp. and Polycentropodidae), as well as total density of invertebrates, were higher at the edge than in the innermost parts of the macrophyte stand, whereas snail densities generally were highest at the innermost sites. 3. Densities of A. aquaticus, Chironomidae larvae and Helobdella stagnalis generally increased at night. These taxa. appear to undertake a diel vertical migration within the vegetation, towards, or even down to the sediment in daytime and up into the vegetation, in some cases to the vegetation surface, at night. Factors underlying the diel vertical migration are discussed, as are their ecological consequences.",WILEY-BLACKWELL,29,"COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA",MALDEN,12.0,460DX,"Marklund, O; Blindow, I; Hargeby, A",52.0,50.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1046/j.1365-2427.2001.00726.x,"Marklund, O (corresponding author), Lund Univ, Dept Limnol Ecol, S-22362 Lund, Sweden.",SHALLOW EUTROPHIC LAKES; AQUATIC INVERTEBRATES; FISH PREDATION; LONG-TERM; MACROPHYTES; COMPLEXITY; DYNAMICS; FOOD,ola.marklund@limnol.lu.se,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000170293900008,89,5,"Graca, MAS; Cressa, C; Gessner, MO; Feio, MJ; Callies, KA; Barrios, C",J,English,"Food quality, feeding preferences, survival and growth of shredders from temperate and tropical streams",2001.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,46,0046-5070,7,JUL,947,957,conditioning; feeding preference; food quality; leaf litter; nutritional ecology; shredders; tropical streams,"Univ Coimbra, Dept Zool, P-3004517 Coimbra, Portugal; Cent Univ Venezuela, Inst Zool Trop, Caracas, Venezuela; Univ Kiel, Projektzentrum Okosyst Forsch, Kiel, Germany; Univ Kiel, Inst Zool, Abt Limnol, Kiel, Germany","1. The importance of leaf quality to the nutritional ecology of lotic shredders is well established for temperate species but virtually unknown for tropical taxa. In the present study, we compared the feeding behaviour and performance of two tropical and two temperate shredders in a series of pair-wise experiments. 2. Specifically, we tested whether leaf conditioning status (stream-conditioned versus unconditioned leaves) and geographical origin (temperate Alnus glutinosa versus tropical Hura crepitans leaves) affect the food preference, survivorship, and growth of selected shredders from low and high latitudes in a consistent manner. The animals used in experiments were the caddis-flies Nectopsyche argentata and Phylloicus priapulus from Venezuela, Sericostoma vittatum from Central Portugal, and the amphipod Gammarus pulex from Northern Germany. 3. In general, all shredders exhibited the same high preference for conditioned over unconditioned leaves, irrespective of the geographical origin of the leaf or shredder species. 4. A corresponding tendency for higher growth was found for sets of animals offered conditioned leaves, with the differences in growth being clearer in the two tropical shredders. Survivorship of the two temperate species was consistently high (> 83%) regardless of the diet offered, whereas the tropical shredders survived better on conditioned (77-90%) as compared with unconditioned (54-87%) leaves, although not significantly so. 5. With the exception of the temperate S. vittatum, shredders did not select or perform better on leaves to which they had previously been exposed, indicating a potential adaptation to native leaf species is over-ridden by intrinsic leaf properties. 6. Taken together, the results of this study suggest that tropical shredders may exhibit the same basic patterns of food exploitation as their temperate counterparts. Consequently, current concepts relating to the role of shredders in stream detritus dynamics may wen be applicable to tropical streams, although essentially derived from temperate systems.",BLACKWELL SCIENCE LTD,52,"P O BOX 88, OSNEY MEAD, OXFORD OX2 0NE, OXON, ENGLAND",OXFORD,11.0,460DX,"Graca, MAS; Cressa, C; Gessner, MO; Feio, MJ; Callies, KA; Barrios, C",213.0,201.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,,"Graca, MAS (corresponding author), Univ Coimbra, Dept Zool, P-3004517 Coimbra, Portugal.",RAIN-FOREST STREAM; LEAF-LITTER; ASELLUS-AQUATICUS; GAMMARUS-PULEX; INVERTEBRATES; BREAKDOWN; FUNGI; LEAVES; ECOLOGY; FRESH,,"Graca, Manuel A.S./0000-0002-7303-9382","Feio, Maria Joao/AAF-2628-2021; Graca, Manuel A.S./A-5785-2013",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,GENOME,2021-04-13,WOS:000169134300004,4,0,"Pelliccia, F; Barzotti, R; Bucciarelli, E; Rocchi, A",J,English,5S ribosomal and U1 small nuclear RNA genes: A new linkage type in the genome of a crustacean that has three different tandemly repeated units containing 5S ribosomal DNA sequences,2001.0,Biotechnology & Applied Microbiology; Genetics & Heredity,44,0831-2796,3,JUN,331,335,Asellus; Isopoda; Crustacea; 5S rDNA; U1 snDNA,"Univ La Sapienza, Dipartimento Genet & Biol Mol, I-00185 Rome, Italy","We investigated the 5S ribosomal RNA (rRNA) genes of the isopod crustacean Asellus aquaticus. Using PCR amplification, three different tandemly repeated units containing 5S rDNA were identified. Two of the three sequences were cloned and sequenced. One of them was 1842 bp and presented a 5S rRNA gene and a U1 small nuclear RNA (snRNA) gene. This type of linkage had never been observed before. The other repeat consisted of 477 bp and contained only an incomplete 5S rRNA gene lacking the first eight nucleotides and a spacer sequence. The third sequence was 6553 bp long and contained a 5S rRNA gene and the four core histone genes. The PCR products were used as probes in fluorescent in situ hybridization (FISH) experiments to locate them on chromosomes of A. aquaticus. The possible evolutionary origin of the three repeated units is discussed.",CANADIAN SCIENCE PUBLISHING,14,"65 AURIGA DR, SUITE 203, OTTAWA, ON K2E 7W6, CANADA",OTTAWA,5.0,439TU,"Pelliccia, F; Barzotti, R; Bucciarelli, E; Rocchi, A",31.0,31.0,Biotechnology & Applied Microbiology; Genetics & Heredity,GENOME,Genome,10.1139/gen-44-3-331,"Rocchi, A (corresponding author), Univ La Sapienza, Dipartimento Genet & Biol Mol, Ple Aldo Moro 5, I-00185 Rome, Italy.",NUCLEOTIDE-SEQUENCE; SNRNA GENES; ORGANIZATION; FAMILIES; HISTONE; RDNA,rocchi@axcasp.caspur.it,"PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",11444690.0,1480-3321,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY RESEARCH,2021-04-13,WOS:000168059200008,4,0,"Dezfuli, BS; Simoni, E; Mischiati, C",J,English,"The cement apparatus of larval and adult Acanthocephalus anguillae (Acanthocephala), with notes on the copulatory cap and origin of gland secretion",2001.0,Parasitology,87,0932-0113,4,APR,299,305,,"Univ Ferrara, Dept Biol, I-44100 Ferrara, Italy; Univ Ferrara, Dept Biochem & Mol Biol, I-44100 Ferrara, Italy","Light and electron microscopy were used to investigate the ultrastructure of the cement apparatus, namely cement glands and cement ducts, of mature specimens of the parasite Acanthocephalus anguillae (Muller, 1780) Luhe, 1911 recovered from the alimentary. canal of fish Leuciscus cephalus (Risso, 1826), In addition, the cement apparatus of immature ii. anguillae found within the body cavity of the crustacean Asellus aquaticus (L.) was examined. In immature and mature males of Acanthocephalus anguillae, there are six round cement glands and each of them has an outer cytoplasmic layer containing nuclei and surrounds a space for storage of the cement. The cytoplasmic layer produces round, membrane-bound secretory granules approximately 1 mum in diameter. Nuclei and other cellular organelles surrounded by secretory granules were noticed inside the luminal part of the gland of adult males. In some female Acanthocephalus anguillae, within the attached copulatory cap, eggs and spermatozoa were observed. A protein of about 23 kDa appeared to be the major component of proteins of isolated cement glands, as well as in detached copulatory caps.",SPRINGER,14,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,7.0,421HP,"Dezfuli, BS; Simoni, E; Mischiati, C",2.0,1.0,Parasitology,PARASITOL RES,Parasitol. Res.,10.1007/PL00008582,"Dezfuli, BS (corresponding author), Univ Ferrara, Dept Biol, Via L Borsari 46, I-44100 Ferrara, Italy.",POMPHORHYNCHUS-LAEVIS ACANTHOCEPHALA,dzb@dns.unife.it,"Sayyaf Dezfuli, Bahram/0000-0002-9778-5937; SIMONI, EDI/0000-0001-7336-5041; Mischiati, Carlo/0000-0002-0029-2205","Sayyaf Dezfuli, Bahram/G-4184-2015; Mischiati, Carlo/AAF-2016-2020",11355679.0,1432-1955,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH,2021-04-13,WOS:000167273500008,13,1,"Jungmann, D; Brust, K; Licht, O; Mahlmann, J; Schmidt, J; Nagel, R",J,English,Artificial indoor streams as a method to investigate the impact of chemicals on lotic communities,2001.0,Environmental Sciences & Ecology,8,0944-1344,1,,49,55,artificial indoor streams; Asellus aquaticus; aufwuchs; Gammarus fossarum; High Performance Liquid Chromatography; (HPLC); Lumbriculus variegatus; microcosms; periphyton; pigment analysis; population dynamics,"Dresden Univ Technol, Inst Hydrobiol, D-01062 Dresden, Germany","The potential hazard of chemicals on aquatic communities are generally evaluated by standardised single-species bioassays. Safety assessment is based on results gained from organisms adapted to lentic systems and biological interactions in ecosystems are neglected. While lotic communities are often at first in contact with chemicals, it is astonishing that microcosms with lentic communities are mainly used as a bridge between laboratory bioassays and outdoor aquatic systems. Hence, we established five artificial indoor streams to simulate abiotic factors of small rivers. The closed-circuit system was filled with nutrients added to tap water. Washed pebbles were used as sediment. The dynamics of a simple biocoenoses consisting of aufwuchs, Lumbriculus variegatus Asellus aquaticus and Gammarus fossarum was investigated. The dynamic of aufwuchs and periphyton was determined as dry weight and chlorophyll-a, respectively and qualitatively by pigment pattern. The abundance of different developmental stages of L. variegatus was determined at the end of the experiment as well as the population dynamics of G. fossarum and A. aquaticus. Survival rates of gammarids and juveniles per female were investigated and data were used for modelling the population dynamics. The experiment was carried out to investigate the performance of the established artificial streams and the developed approaches to investigate effects of chemicals on a basic lotic community The prime reason to establish this approach was to close a gap between complex artificial stream systems and laboratory single species tests to assess the impact of chemicals on the aquatic environment.",ECOMED PUBLISHERS,26,"RUDOLF-DIESEL-STR 3, D-86899 LANDSBERG, GERMANY",LANDSBERG,7.0,407LR,"Jungmann, D; Brust, K; Licht, O; Mahlmann, J; Schmidt, J; Nagel, R",12.0,11.0,Environmental Sciences,ENVIRON SCI POLLUT R,Environ. Sci. Pollut. Res.,10.1007/BF02987294,"Jungmann, D (corresponding author), Dresden Univ Technol, Inst Hydrobiol, Mommsenstr 13, D-01062 Dresden, Germany.",LABORATORY STREAMS; GAMMARUS-FOSSARUM; PERIPHYTON; SIZE; PHYTOPLANKTON; IRRADIANCE; ROESELI; GROWTH; TIME,,"Licht, Oliver/0000-0001-9463-7536",,11360793.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Proceedings Paper,"INTERNATIONAL ASSOCIATION OF THEORETICAL AND APPLIED LIMNOLOGY, VOL 27, PT 5, PROCEEDINGS",2021-04-13,WOS:000174899600126,6,0,"Dangles, OJ; Guerold, FA",S,English,Feeding activity of Gammarus fossarum (Crustacea : Amphipoda) in acidic and low mineralized streams,2001.0,Marine & Freshwater Biology,27,0368-0770,,,3062,3065,,"Uniz Metz, Ecotoxicol Biodiversite & Sante Env Equipe Ecotox, F-57040 Metz 01, France",,E SCHWEIZERBART'SCHE VERLAGSBUCHHANDLUNG,26,"JOHANNESTRASSE 3, W-7000 STUTTGART, GERMANY",STUTTGART,4.0,BU06W,"Dangles, OJ; Guerold, FA",0.0,0.0,Limnology,INT VER THEOR ANGEW,,,"Dangles, OJ (corresponding author), Umea Univ, Dept Ecol & Environm Sci, SE-90187 Umea, Sweden.",ASELLUS-AQUATICUS L; PULEX L; ACIDIFICATION; PH; MOUNTAINS,,"Dangles, Olivier/0000-0002-1987-8433","Dangles, Olivier/C-4924-2009",,,,,,27th Congress of the International-Association-of-Theoretical-and-Applied-Limnology,,1998,"DUBLIN, IRELAND",5,,Int Assoc Theoret & Appl Limnol,3-510-54056-5,,"Williams, WD",,INTERNATIONAL ASSOCIATION OF THEORETICAL AND APPLIED LIMNOLOGY - PROCEEDINGS,,,,,,,,,,,
Article; Proceedings Paper,INTERNATIONAL REVIEW OF HYDROBIOLOGY,2021-04-13,WOS:000170488300003,228,6,"Graca, MAS",J,English,The role of invertebrates on leaf litter decomposition in streams - A review,2001.0,Marine & Freshwater Biology,86,1434-2944,4-5,,383,393,decomposition; shredders; aquatic fungi; streams; detritus,"Univ Coimbra, Dept Zool, P-3004517 Coimbra, Portugal","Leaves entering low order streams are subject to physical abrasion, microbial degradation and invertebrate fragmentation. Aquatic invertebrates feeding on leaves are known as shredders and their densities tend to be correlated with the spatial and temporal accumulation of organic matter in streams. Shredders discriminate among the variety of leaves normally found in the stream; this discrimination may be related to differences in leaf toughness, plant nutrient content of leaves and the presence of secondary compounds. Shredders also consume leaves preferentially after the establishment of a well-developed microbial community. This preference may be the result of changes in leaf matrix carried out by the microbial community or the presence of fungal hyphae with a higher nutrition value than the leaves themselves. The immediate consequence of invertebrate feeding on leaves is the incorporation of plant material into secondary production and the fragmentation of leaves. The relative importance of fungi and invertebrates in the decomposition process depends upon the density of shredders, which, in turn, may depend on litter accumulation in streams. Therefore, the type of riparian vegetation has the potential to control the diversity and abundance of shredders and changes in riparian vegetation have the potential to affect the assemblages of aquatic invertebrates.",WILEY,102,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,463QG,"Graca, MAS",520.0,482.0,Marine & Freshwater Biology,INT REV HYDROBIOL,Int. Rev. Hydrobiol.,10.1002/1522-2632(200107)86:4/5<383::AID-IROH383>3.0.CO;2-D,"Graca, MAS (corresponding author), Univ Coimbra, Dept Zool, P-3004517 Coimbra, Portugal.",TIPULA-ABDOMINALIS DIPTERA; PARTICULATE ORGANIC-MATTER; ASELLUS-AQUATICUS; FUNGAL BIOMASS; NEW-ZEALAND; CELLULOSE DIGESTION; GAMMARUS-PULEX; BREAKDOWN; LEAVES; SHREDDER,mgraca@ci.uc.pt,"Graca, Manuel A.S./0000-0002-7303-9382; Graca, Manuel/0000-0002-6470-8919","Graca, Manuel A.S./A-5785-2013",,1522-2632,,,,2nd Meeting of the Plant-Litter-Processing-in-Freshwater-Group,,"SEP-OCT -, 1999","LUNZ AM SEE, AUSTRIA",,,Plant Litter Proc Freshwater Grp,,,,,,,,,,,,,,,,
Proceedings Paper,WATER SUPPLY AND WATER QUALITY,2021-04-13,WOS:000175400600026,0,0,"Oleszkiewicz, A; Geringer d'Oedenberg, M; Chapman, J",S,English,Experience in controlling Asellus aquaticus in water distribution systems,2001.0,Engineering; Environmental Sciences & Ecology; Water Resources,1,1606-9749,2,,217,223,Asellus aquaticus; crustacean; disinfestation; peracetic acid; pyrethrins; water distribution system; water main; water organisms; water quality,"Saur Neptun Gdansk S A, PL-80858 Gdansk, Poland","Asellus aquaticus is one of the nuisance organisms found in water distribution systems, Case studies of operations aimed at control of this crustacean and its disinfestation, carried out in two water distribution networks: in Pevensey Bay (Eastbourne, UK) and in Gdansk (Poland), are presented. Raw water reservoir receiving surface water was the source of infestation in Pevensey Bay. In Gdansk A. aquaticus probably penetrated the water distribution system with surface water getting into a leaky collecting well receiving groundwater from a chalk aquifer. The presence of organic matter in water entering the systems seemed to favour the infestation. Chemical treatment with pyrethrins (Pevensey Bay) and peracetic acid/hydrogen peroxide preparation (Gdansk) was used. The concentration of pyrethrins was 10 (g/dm(3) and the average dose of peracetic acid was 4 mg/dm(3). Both chemical treatments were found quite effective, however, some sections of the (much larger than Pevensey Bay) distribution network in Gdansk were not completely cleaned of the infestation.",I W A PUBLISHING,9,"ALLIANCE HOUSE, 12 CAXTON ST, LONDON SW1H 0QS, ENGLAND",LONDON,7.0,BU22T,"Oleszkiewicz, A; Geringer d'Oedenberg, M; Chapman, J",0.0,0.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WA SCI TECHNOL,,,"Oleszkiewicz, A (corresponding author), Saur Neptun Gdansk S A, Ul Walowa 46, PL-80858 Gdansk, Poland.",,,,,,,,,,International Conference on Water Supply and Water Quality,,"SEP 11-13, 2000","KRAKOW, POLAND",,,"Amer Soc Civil Engineers, Amer Water Works Assoc, Chartered Inst Water & Environm Management, Int Water Resources Assoc, Int Water Assoc, Univ Manitoba, Water Environm Federat, Anglian Water, Energoprojekt Katowice SA, Grundfos Pompy sp zoo, Hydrobudowa 9, KREVOX, PER AARSLEFF POLSKA S zoo, PoWoGaz SA, SAUR Int, Polish Acad Sci, Sanitary Sect Civil Engn Comm",1-900222-61-2,,"Oleszkiewicz, JA; Reimers, RS; Smith, DW",,WATER SCIENCE AND TECHNOLOGY: WATER SUPPLY,,,,,,,,,,,
Article,IZVESTIYA AKADEMII NAUK SERIYA BIOLOGICHESKAYA,2021-04-13,WOS:000166334100013,5,0,"Pashkova, IM; Korotneva, NV",J,Russian,Effects of elevated temperature on sex ratio in a population of hog slaters (Asellus aquaticus L.),2000.0,Life Sciences & Biomedicine - Other Topics,,0002-3329,6,NOV-DEC,758,761,,"Russian Acad Sci, Inst Cytol, St Petersburg 194064, Russia",Seasonal changes in the abundance and sex ratio in the hog slater were monitored in nature throughout the annual cycle. It was shown that the sex ratio was balanced at a relatively low abundance in the autumn-winter period. The number of males could exceed 1.5-fold that of females during the period of mass reproduction in spring and summer. The experimental results suggest that the summer shift of sex ratio towards males was due to their higher tolerance to elevated temperature at the early ontogenetic stages.,MEZHDUNARODNAYA KNIGA,15,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,4.0,391BK,"Pashkova, IM; Korotneva, NV",1.0,1.0,Biology,IZV AKAD NAUK BIOL+,Izv. Akad. Nauk Ser. Biol.,,"Pashkova, IM (corresponding author), Russian Acad Sci, Inst Cytol, Tikhoretskii Pr 4, St Petersburg 194064, Russia.",,,,,11149319.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:000089228300005,19,0,"Peeters, ETHM; De Jager, TJ; Beijer, JAJ; Koelmans, AA",J,English,Effects of benzo(a)pyrene and size of organic matter particles on bioaccumulation and growth of Asellus aquaticus,2000.0,Environmental Sciences & Ecology; Toxicology,39,0090-4341,3,OCT,307,314,,"Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, Dept Environm Sci, NL-6700 DD Wageningen, Netherlands","The effects of sediment-bound toxicants to aquatic invertebrates may vary due to differences in bioavailability, food quality, or food structure. The equilibrium partitioning theory (EPT) assumes that organic matter content of sediments and not structure of organic matter is relevant for biological effects of polycyclic aromatic hydrocarbons. To test this hypothesis effects of benzo(a)pyrene (B(a)P) and size of sediment organic matter particles on the bioaccumulation and growth of the waterlouse Asellus aquaticus were studied in laboratory microcosms. Sediments and A. aquaticus were both sampled in an unpolluted, spring-fed pond. The sampled sediment was divided into two portions. From one portion the size of the organic matter particles was mechanically reduced. One set of each sediment fraction (fine and coarse) was spiked with B(a)P and incubated for 3 weeks resulting in a concentration of 70 mg B(a)P per kg sediment. Bioassays of 32 days were performed in a 2 x 2 factorial design with four replicas of each treatment. The results showed that the growth of A. aquaticus was mainly influenced by the size of organic matter particles. Growth was significantly less (27%) on finer sediments than on coarser sediments. The increase in length was 9-14% lower in the spiked sediments, but this difference was not significant. The reduced growth of A. aquaticus on finer sediments may be due to a change in the availability and/or quality of food together with a change in feeding behavior. The coarse and fine spiked sediment types did not differ significantly with respect to the sediment water partition coefficient, the organic carbon water partition coefficient, and the bioconcentration factor. In contrast, the biota to sediment accumulation factors were significantly 15% higher in the cosms with coarse sediments than in cosms with fine sediments. However, this difference is too small to conflict with EPT.",SPRINGER-VERLAG,29,"175 FIFTH AVE, NEW YORK, NY 10010 USA",NEW YORK,8.0,352QA,"Peeters, ETHM; De Jager, TJ; Beijer, JAJ; Koelmans, AA",15.0,15.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,,"Peeters, ETHM (corresponding author), Univ Wageningen & Res Ctr, Aquat Ecol & Water Qual Management Grp, Dept Environm Sci, POB 8080, NL-6700 DD Wageningen, Netherlands.",POLYCYCLIC AROMATIC-HYDROCARBONS; PONTOPOREIA-HOYI; GAMMARUS-PULEX; SEDIMENT; TOXICOKINETICS; EXTRACTION; SELECTION; AMPHIPOD; ISOPODA; FOOD,,"Koelmans, Albert/0000-0001-7176-4356; Peeters, Edwin T.H.M./0000-0003-2541-1829","Koelmans, Albert A./D-8603-2014",10948280.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:000088591500003,19,2,"Mosslacher, F",J,English,Sensitivity of groundwater and surface water crustaceans to chemical pollutants and hypoxia: implications for pollution management,2000.0,Marine & Freshwater Biology,149,0003-9136,1,AUG,51,66,groundwater; crustaceans; toxicity tests; respiration; pollution,"Austrian Acad Sci, Inst Limnol, A-5310 Mondsee, Austria","In order to test the hypothesis that groundwater organisms are more sensitive to stressors than surface water organisms, this study compares the responses of surface and groundwater isopods, cyclopoid copepods and ostracods to inorganic chemicals (potassium chloride and potassium nitrate) and low oxygen concentration (10 % oxygen saturation, hypoxia) in laboratory experiments. Isopods displayed the highest sensitivity to the chemicals (LC50 values for KCl: Proasellus slavus vindobonensis = 285 mg/l, and Asellus aquaticus = 355 mg/l), ostracods turned out to be most tolerant (LC50 values for KCl: Fabaeformiscandona wegelini = 1932 mg/l, and Pseudocandona sp. = 2018 mg/l). Comparing the response of species within one taxonomic group (isopods, copepods, and ostracods), the exclusive groundwater species (stygobites) were more sensitive to the chemicals than closely related surface water species (see above). The stygobite species displayed no differences between the metabolism measured under normoxic and hypoxic conditions. A copepod, Acanthocyclops vernalis, collected in a hypoxic groundwater habitat, showed small metabolic differences (i.e., the metabolic rate measured in hypoxia amounted to 61.8 +/- 5.5 % of the metabolism in normoxia), compared to a copepod, Diacylops bicuspidatus, collected in a normoxic groundwater habitat (27.3 +/- 6.9 %). Due to the low difference between the metabolic rates, the stygobite organisms and A. vernalis were best adapted to low oxygen concentrations among the tested species. The hypothesis was supported by this study. The high sensitivity of the ground-water crustaceans to the chemical stressors suggests that existing groundwater quality criteria are insufficient to protect the groundwater biota and ecosystem, and further ecotoxicological studies with groundwater organisms are required.",E SCHWEIZERBARTSCHE VERLAGS,52,"NAEGELE U OBERMILLER JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,16.0,341LH,"Mosslacher, F",39.0,37.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,,"Mosslacher, F (corresponding author), Schrammstr 2, D-85055 Ingolstadt, Germany.",INVERTEBRATE COMMUNITY RESPONSES; AQUIFER INTERACTION ZONE; AQUATICUS L CRUSTACEA; ADAPTATIONS; ISOPODA; CITY; LYON,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:000088855600012,20,0,"Sherba, M; Dunham, DW; Harvey, HH",J,English,"Sublethal copper toxicity and food response in the freshwater crayfish Cambarus bartonii (Cambaridae, Decapoda, Crustacea)",2000.0,Environmental Sciences & Ecology; Toxicology,46,0147-6513,3,JUL,329,333,acute toxicity; Cambarus bartonii; chronic toxicity; copper; crayfish; Crustacea; decapod; food localization; physiological impairment,"Univ Toronto, Dept Zool, Toronto, ON M5S 3G5, Canada","Food response preceding and following exposure to Cu concentrations of 0.00, 0.02, and 0.2 mg/L mas observed in male and female Cambarus bartonii from an uncontaminated, freshwater lake, The animals were tested in a Y-maze. Control animals demonstrated food localization, and the treated animals, either no localization or slight food avoidance. The latency for localization in the Cu-exposed males increased. Females revealed slight increases in latency. There were no significant differences between the low and the high Cu concentration groups in food detection or latency, However, there mas an increase in mortality in the higher concentration group and significant difference in mortality among three copper concentrations (P < 0.02), Females seem to recover from Gu-induced impairment slightly faster than males, suggesting a more efficient mechanism for detoxifying copper. Female mortality, however, remained equally high in the high Cu concentration group. The toxic effects of copper persist after removal of the toxicant and occur at concentrations much lower than reported lethal levels. (C) 2000 Academic Press.",ACADEMIC PRESS INC,12,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,5.0,346DM,"Sherba, M; Dunham, DW; Harvey, HH",25.0,24.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1006/eesa.1999.1910,"Dunham, DW (corresponding author), Univ Toronto, Dept Zool, 110 St George St, Toronto, ON M5S 3G5, Canada.",ASELLUS-AQUATICUS L; GAMMARUS-PULEX L; ALTERS RESPONSE; WATER; CADMIUM,,,,10903830.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,GENOME,2021-04-13,WOS:000086581200016,6,0,"Barzotti, R; Pelliccia, F; Bucciarelli, E; Rocchi, A",J,English,"Organization, nucleotide sequence, and chromosomal mapping of a tandemly repeated unit containing the four core histone genes and a 5S rRNA gene in an isopod crustacean species",2000.0,Biotechnology & Applied Microbiology; Genetics & Heredity,43,0831-2796,2,APR,341,345,Asellus; Isopoda; Crustacea; histone genes; 5S rRNA gene,"Univ La Sapienza, Dipartimento Genet & Biol Mol, I-00185 Rome, Italy","A tandemly repeated unit of 6553 bp containing a copy of the four core histone genes H2B, H2A, H3, and H4, and also a 5S rRNA gene, was amplified by PCR from genomic DNA of the isopod crustacean Asellus aquaticus. The linkage between 5S rRNA genes and histone genes has been so far observed in only one other organism, the anostrac crustacean Artemia salina. The gene cluster was cloned and sequenced. The histone genes, in their 3' flanking region, have the interesting feature of possessing two different mRNA termination signals, the stem-loop structure and the AATAAA sequence. A part of the PCR product was used as a probe in FISH experiments to locate the gene cluster on an inter-individually variable number of chromosomes from 6 to 12 per diploid cell, always in a terminal position and never associated with the heterochromatic areas. Fluorescence in situ hybridization (FISH) was also performed on preparations of released chromatin and the reiteration level of the gene cluster was determined as approximately 200-300 copies per haploid genome.",NATL RESEARCH COUNCIL CANADA,20,"RESEARCH JOURNALS, MONTREAL RD, OTTAWA, ONTARIO K1A 0R6, CANADA",OTTAWA,5.0,306DL,"Barzotti, R; Pelliccia, F; Bucciarelli, E; Rocchi, A",34.0,31.0,Biotechnology & Applied Microbiology; Genetics & Heredity,GENOME,Genome,10.1139/gen-43-2-341,"Rocchi, A (corresponding author), Univ La Sapienza, Dipartimento Genet & Biol Mol, P Aldo Moro 5, I-00185 Rome, Italy.",RIBOSOMAL GENES; DROSOPHILA; CLUSTERS; ARTEMIA,,"PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",10791823.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:000085820100010,4,1,"Herkovits, J; Perez-Coll, CS; Herkovits, FD",J,English,Evaluation of nickel-zinc interactions by means of bioassays with amphibian embryos,2000.0,Environmental Sciences & Ecology; Toxicology,45,0147-6513,3,MAR,266,273,nickel toxicity; nickel-zinc interactions; amphibian embryos; endangered species; water quality,"Fdn PROSAMA, Inst Ciencias Ambientales & Salud, Programa Seguridad Quim, RA-1405 Buenos Aires, DF, Argentina","The nickel hazard was evaluated by means of a 7-day toxicity test with Bufo arenarum embryos, The LC50 values for this metal from 24 to 168 h diminished from about 26 to 1.8 mg Ni2+/L, respectively, but from 96 h onward, the LC50 varied very slightly, Although a noticeable difference among the LC50 and LC10 or LC90 was observed at 24 h of exposure, these parameters tended to a similar value at 168 h of exposure while the confidence intervals of LC50 overlapped all other confidence interval values. These results, plotted as toxicity profile curves, are useful for determining time and concentration thresholds for Ni, Nickel-zinc interactions on B. arenarum embryos were evaluated by means of simultaneous treatments with both cations (Ni: 5-35 mg Ni2+/L; Zn: 0.5-130 mg Zn2+/L). As a general pattern, low Zn concentrations (0.5 mg Zn2+/L) did not have a clear-cut effect on Ni toxicity, higher Zn concentrations (2-20 mg Zn2+/L) enhanced Ni toxicity, and concentrations of 30 mg Zn2+/L and higher had a beneficial effect in most cases. The metal interaction studies provide a scientific basis for the establishment of water quality criteria for wildlife protection purposes, (C) 2000 Academic Press.",ACADEMIC PRESS INC,70,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,8.0,292XF,"Herkovits, J; Perez-Coll, CS; Herkovits, FD",34.0,30.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1006/eesa.1999.1857,"Herkovits, J (corresponding author), Fdn PROSAMA, Inst Ciencias Ambientales & Salud, Programa Seguridad Quim, Paysandu 752-760, RA-1405 Buenos Aires, DF, Argentina.",BUFO-ARENARUM EMBRYOS; ASELLUS-AQUATICUS L; LIPID-PEROXIDATION; TOXICITY; CADMIUM; POPULATIONS; PROTECTION; SUSCEPTIBILITY; MUTAGENICITY; SENSITIVITY,,,,10702346.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BEHAVIORAL ECOLOGY AND SOCIOBIOLOGY,2021-04-13,WOS:000085378400005,7,0,"Sparkes, TC; Keogh, DP; Haskins, KE",J,English,Female resistance and male preference in a stream-dwelling isopod: effects of female molt characteristics,2000.0,Behavioral Sciences; Environmental Sciences & Ecology; Zoology,47,0340-5443,3,FEB,145,155,isopod; sexual conflict; male preference; female resistance; molting hormone,"Univ Kentucky, TH Morgan Sch Biol Sci, Ctr Ecol Evolut & Behav, Lexington, KY 40506 USA; Univ Kentucky, Grad Ctr Toxicol, Lexington, KY 40506 USA","In the stream-dwelling isopod, Lirceus fontinalis, mating contests between males and females occur prior to pair formation. We examined the relative contribution of male preference and female resistance to contest outcomes. We first quantified male and female behavior during typical mating interactions and examined the relationship between time until molt (TTM) and mating outcomes. We then examined the role of male preference and female resistance in determining mating outcomes when females differed in molt type (growth, egg deposition) and appeared to differ in TTM (due to hormone applications). Both male preference and female resistance contributed to different components of the mating sequence but female resistance ultimately determined whether or not pair formation occurred. Males expressed a preference for females that appeared to be close to molt, using variation in levels of molt hormone as a cue. However, males did not discriminate between females based on molt type.",SPRINGER,79,"ONE NEW YORK PLAZA, SUITE 4600, NEW YORK, NY, UNITED STATES",NEW YORK,11.0,285FE,"Sparkes, TC; Keogh, DP; Haskins, KE",33.0,33.0,Behavioral Sciences; Ecology; Zoology,BEHAV ECOL SOCIOBIOL,Behav. Ecol. Sociobiol.,10.1007/s002650050005,"Sparkes, TC (corresponding author), Univ Kentucky, TH Morgan Sch Biol Sci, Ctr Ecol Evolut & Behav, Lexington, KY 40506 USA.",NONSTEROIDAL ECDYSONE AGONIST; GAMMARUS-PULEX AMPHIPODA; INTER-SEXUAL CONFLICT; WATER STRIDERS; MATE-CHOICE; ASELLUS-AQUATICUS; PREDATION RISK; COURTSHIP SOLICITATION; ECDYSTEROID TITERS; ENERGETIC COSTS,tcspar2@pop.uky.edu,,,,1432-0762,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHROMOSOME RESEARCH,2021-04-13,WOS:000089606700001,3,0,"Barzotti, R; Pelliccia, F; Rocchi, A",J,English,Sex chromosome differentiation revealed by genomic in-situ hybridization,2000.0,Biochemistry & Molecular Biology; Genetics & Heredity,8,0967-3849,6,,459,464,Asellus; Crustacea; GISH; Isopoda; sex-chromosome,"Univ La Sapienza, Dipartimento Genet & Biol Mol, I-00185 Rome, Italy","In this work, genomic in-situ hybridization (GISH) was used to study the sex chromosome molecular differentiation on chromosomes of male and female individuals of the isopod crustacean Asellus aquaticus. As a composite hybridization probe, we contemporaneously used male and female whole genomic DNA differently labelled in the presence of an excess of unlabelled DNA of the female homogametic sex. The karyotype of A. aquaticus normally displays eight homomorphic chromosome pairs, but a heteromorphic sex chromosome pair is present in about a quarter of the males of a natural population previously identified by us. GISH did not reveal any sex chromosome molecular differentiation on the male and female homomorphic sex chromosome pair, and the karyotypes of these individuals were equally labelled by the male- and female-derived probe, while the heteromorphic Y chromosome showed a differentially labelled region only with the male-derived probe. This region evidently contains male-specific sequences but, because no similar hybridized region is observed on the male homomorphic chromosome pair, they are probably not important for sex determination but represent a molecular differentiation acquired from the Y chromosome.",KLUWER ACADEMIC PUBL,9,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,6.0,359JA,"Barzotti, R; Pelliccia, F; Rocchi, A",9.0,7.0,Biochemistry & Molecular Biology; Genetics & Heredity,CHROMOSOME RES,Chromosome Res.,10.1023/A:1009246520601,"Rocchi, A (corresponding author), Univ La Sapienza, Dipartimento Genet & Biol Mol, I-00185 Rome, Italy.",AQUATICUS CRUST-ISOP; ASELLUS-AQUATICUS; RIBOSOMAL GENES,,"PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",11032316.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,CRITICAL REVIEWS IN ENVIRONMENTAL SCIENCE AND TECHNOLOGY,2021-04-13,WOS:000165325500001,40,0,"Burton, GA; Pitt, R; Clark, S",J,English,The role of traditional and novel toxicity test methods in assessing stormwater and sediment contamination,2000.0,Environmental Sciences & Ecology,30,1064-3389,4,,413,447,stressors; indigenous communities; in situ; bioassays,"Wright State Univ, Inst Environm Qual, Dayton, OH 45435 USA; Univ Alabama Birmingham, Dept Civil & Environm Engn, Birmingham, AL USA","Traditional effluent and ambient water column toxicity tests have been used widely for evaluating the contamination of stormwaters and sediments. These assays consist of a routine bioassay exposure design of 1 to 9 days using freshwater and marine/estuarine species known to be sensitive to a wide range of toxicants. While effluent toxicity may be indicative of sediment or stormwater toxicity in the receiving system, the exposure is different, and therefore toxicity cannot be readily predicted. Traditional, standardized, whole effluent toxicity (WET) test methods have been used effectively and also misused in evaluations of whole sediments, pore (interstitial) water, elutriates (extracts), and stormwaters. Results show these methods to be very sensitive to sediment and stormwater toxicity. These traditional toxicity tests are predictive of instream sediment or stormwater effects where significant contamination exists or where exposure concentrations are similar. Modifications of these standardized test methods to include sediments or pore waters have been shown to be as sensitive as short-term, whole sediment toxicity tests using benthic species. However, the added complexity of sediments and stormwaters (e.g., partitioning, high Kow compound bioavailability, suspended solids, sporadic exposures, multiple exposure pathways) dictates that traditional toxicity test applications be integrated into a more comprehensive assessment of ecologically significant stressors. The limitations of the WET testing approach and optimized sample collection and exposure alternatives are frequently ignored when implemented. Exposure to sporadic pulses of contaminants (such as in stormwaters) often produce greater toxicity than exposure to constant concentrations. Lethality from short-term pulse exposures may not occur for weeks after the high flow event due to uptake dynamics. Pore water and elutriate exposures remove sediment ingestion routes of exposure and alter natural sorption/desorption dynamics. Traditional toxicity tests may not produce reliable conclusions when used to detect the adverse effects of: fluctuating stressor exposures, nutrients, suspended solids, temperature, UV light, flow, mutagenicity, carcinogenicity, teratogenicity, endocrine disruption, or other important subcellular responses. This reality and the fact that ecologically significant levels of high K-ow compounds may not produce short-term responses in exposures dictates that additional and novel assessment tools be utilized in order to protect aquatic ecosystems. This inablilty to predict effects is largely a result of the complex biological response patterns that result from various combinations of stressor magnitudes, duration, and frequency between exposures and also the interactions of stressor mixtures, such as syngergistic effects of certain pesticides, metals, and temperature. In watersheds receiving multiple sources of stressors, accurate assessments should define spatial-temporal profiles of exposure and effects using a range of laboratory (such as WET tests) and novel in sine toxicity and bioaccumulation assays, with simultaneous characterizations of physicochemical conditions and indigenous communities.",TAYLOR & FRANCIS INC,282,"530 WALNUT STREET, STE 850, PHILADELPHIA, PA 19106 USA",PHILADELPHIA,35.0,374BX,"Burton, GA; Pitt, R; Clark, S",56.0,55.0,Environmental Sciences,CRIT REV ENV SCI TEC,Crit. Rev. Environ. Sci. Technol.,10.1080/10643380091184228,"Burton, GA (corresponding author), Wright State Univ, Inst Environm Qual, 3640 Colonel Glenn Highway, Dayton, OH 45435 USA.",CLARK-FORK RIVER; BIOLOGICAL MONITORING-SYSTEM; MINNOWS PIMEPHALES-PROMELAS; WHOLE EFFLUENT TOXICITY; FRESH-WATER ECOSYSTEMS; ASELLUS-AQUATICUS L; IN-SITU; URBAN-RUNOFF; CERIODAPHNIA-DUBIA; MICROBIAL ACTIVITY,,,,,1547-6537,,,Green Published,,,,,,,,,,,,,,,,,,,,,,,
Article,FOLIA PARASITOLOGICA,2021-04-13,WOS:000088298300012,3,0,"Dezfuli, BS",J,English,Host-parasite interface between Asellus aquaticus (Isopoda) and larvae of Acanthocephalus anguillae (Acanthocephala),2000.0,Parasitology,47,0015-5683,2,,154,156,,"Univ Ferrara, Dept Biol, I-44100 Ferrara, Italy",,FOLIA PARASITOLOGICA,0,"BRANISOVSKA 31,, CESKE BUDEJOVICE, CZECH REPUBLIC 370 05",CESKE BUDEJOVICE,3.0,336JN,"Dezfuli, BS",10.0,8.0,Parasitology,FOLIA PARASIT,Folia Parasitol.,10.14411/fp.2000.030,"Dezfuli, BS (corresponding author), Univ Ferrara, Dept Biol, Via Borsari 46, I-44100 Ferrara, Italy.",,,"Sayyaf Dezfuli, Bahram/0000-0002-9778-5937","Sayyaf Dezfuli, Bahram/G-4184-2015",10945741.0,,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,CRUSTACEANA,2021-04-13,WOS:000084353800005,11,1,"Sket, B",J,English,"High biodiversity in hypogean waters and its endangerment - The situation in Slovenia, the Dinaric Karst, and Europe",1999.0,Marine & Freshwater Biology,72,0011-216X,,NOV,767,779,,"Univ Ljubljana, Biotehniska Fak, Oddelek Biol, Ljubljana 1001, Slovenia","Of approximately 12,600 aquatic animal species, registered in 1978 in Europe, more than 200 were facultative cave dwellers, approximately 1,000 species (in 1998 already 2,000 taxa) or 8%, were specialized stygobionts. More than half are Crustacea. The relatively high number of crustacean hypogean species is rendered possible mainly by (1) the absence of their insect competitors as well as (2) spatial partition due to the small distribution areas of most stygobionts. Slovenia, with approximately 200 taxa in its 20,000 km(2), has the highest density, and the Dinaric area with nearly 400 taxa in its only 153,400 km(2) has the highest absolute number of stygobiont taxa known in the world. The situation is similar for terrestrial cave faunas. The crustacean diversity is mostly a result of ecological and morphological diversification within a few genera (e.g., Niphargus, Proasellus, Monolistra). However, higher taxa (families, orders) are well represented. Besides some non-specialized newcomers to hypogean habitats, some ubiquitous species (e.g., Asellus aquaticus, Synurella ambulans) possess a number of isolated hypogean populations that are troglomorphic to varying degrees. Hypogean species are endangered by urbanization and other uses of the sensitive karst landscape. Although a slight organic pollution of the energy poor cave waters is favourable to their inhabitants, it may enable invaders from the surface to outcompete troglomorphic specialists in sinking rivers. Conservation of cave species is very demanding, since it requires protection of the whole drainage areas on the surface.",BRILL ACADEMIC PUBLISHERS,20,"PLANTIJNSTRAAT 2, P O BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,13.0,267JA,"Sket, B",74.0,70.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854099503951,"Sket, B (corresponding author), Univ Ljubljana, Biotehniska Fak, Oddelek Biol, POB 2995, Ljubljana 1001, Slovenia.",,,,,,,,,,4th International Crustacean Congress,,"JUL 20-24, 1998","AMSTERDAM, NETHERLANDS",8,,,,,,,,,,,,,,,,,,
Article,SCIENCE OF THE TOTAL ENVIRONMENT,2021-04-13,WOS:000082966700027,27,1,"Rauch, S; Morrison, GM",J,English,Platinum uptake by the freshwater isopod Asellus aquaticus in urban rivers,1999.0,Environmental Sciences & Ecology,235,0048-9697,1-3,SEP 1,261,268,platinum; urban rivers; bioaccumulation; Asellus aquaticus,"Chalmers Univ Technol, Dept Sanit Engn, S-41296 Gothenburg, Sweden","Platinum has been increasing in the environment as a result of emissions from catalytic converters. The platinum emitted is principally located in the vicinity of roads but might be transported to urban rivers through highway and urban run-off water. Platinum concentrations in the freshwater isopod Asellus aquaticus were measured for two urban rivers and a stormwater detention pond. Concentrations ranged from 0.04 to 12.4 mu g g(-1) for direct analysis and from 0.16 to 4.5 mu g g(-1) after depuration. Analyses of water, pore water and sediments indicate that platinum in urban rivers is mostly found in the sediments and these provide the major contribution of platinum to Asellus aquaticus. Exposure experiments showed the importance of platinum speciation for uptake. (C) 1999 Elsevier Science B.V. All rights reserved.",ELSEVIER SCIENCE BV,39,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,8.0,242XJ,"Rauch, S; Morrison, GM",88.0,83.0,Environmental Sciences,SCI TOTAL ENVIRON,Sci. Total Environ.,10.1016/S0048-9697(99)00203-X,"Rauch, S (corresponding author), Chalmers Univ Technol, Dept Sanit Engn, S-41296 Gothenburg, Sweden.",CATHODIC STRIPPING VOLTAMMETRY; CATALYTIC-CONVERTERS; TRACE-METALS; WATER; BIOACCUMULATION; TOXICITY; BLOOD; DUST; SOIL,,"Morrison, Gregory/0000-0002-2101-6525; Rauch, Sebastien/0000-0003-3636-0684",,10535125.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL SCIENCE & TECHNOLOGY,2021-04-13,WOS:000081480900015,23,0,"Van Hattum, B; Montanes, JFC",J,English,Toxicokinetics and bioconcentration of polycyclic aromatic hydrocarbons in freshwater isopods,1999.0,Engineering; Environmental Sciences & Ecology,33,0013-936X,14,JUL 15,2409,2417,,"Free Univ Amsterdam, Inst Environm Studies, NL-1081 HV Amsterdam, Netherlands","A novel method based on a first-order two-compartment model was used to determine the bioconcentration and toxicokinetic rate constants of six different polycyclic aromatic hydrocarbons (PAHs) in the freshwater isopod Asellus aquaticus, a common species in most European freshwater systems. Numerical integration and iterative parameter estimation techniques were applied to account for time-varying aqueous exposure concentrations. All PAHs exhibited a rapid uptake. Monophasic elimination patterns were observed for benzo[e]pyrene and benzo[a]pyrene (biological half-life t(0.5): 7-8 days). For the other PAHs (anthracene, phenanthrene, pyrene, benzo[ghi]perylene) typical biphasic patterns were encountered with rapidly (t(0.5): 0.6-2 days) and slowly (t(0.5): 99 to >1000 days) exchanging compartments. Some PAHs (pyrene and benzo[ghi]perylene) will hardly be eliminated during the normal life span of the organism. Bioconcentration factors (log BCF, wet weight; derived from rate constants) increased with molecular weight and K-ow (n-octanol/water partition coefficient) from 2.6 L kg(-1) (anthracene) to 5.7 L kg(-1) (benzo[ghi]perylene). A linear relationship was observed between log BCF and log K-ow. It is argued that biotransformation of PAHs in freshwater isopods seems to play a minor role and that this species may be suitable for the assessment of the bioavailability of PAHs in littoral freshwater environments.",AMER CHEMICAL SOC,70,"1155 16TH ST, NW, WASHINGTON, DC 20036 USA",WASHINGTON,9.0,217CA,"Van Hattum, B; Montanes, JFC",18.0,17.0,"Engineering, Environmental; Environmental Sciences",ENVIRON SCI TECHNOL,Environ. Sci. Technol.,10.1021/es9800479,"Van Hattum, B (corresponding author), Free Univ Amsterdam, Inst Environm Studies, De Boelelaan 1115, NL-1081 HV Amsterdam, Netherlands.",DIBENZO-PARA-DIOXINS; ASELLUS-AQUATICUS L; WATER ISOPODS; PARTITION-COEFFICIENT; HYDROPHOBIC COMPOUNDS; POECILIA-RETICULATA; ORGANIC XENOBIOTICS; PONTOPOREIA-HOYI; DAPHNIA-PULEX; TRACE-METALS,,,"van Hattum, Bert AGM/N-1706-2013",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:000079569600007,23,0,"Perdikaki, K; Mason, CF",J,English,Impact of road run-off on receiving streams in Eastern England,1999.0,Engineering; Environmental Sciences & Ecology; Water Resources,33,0043-1354,7,MAY,1627,1633,road run-off; BMWP; ASPT; Shannon index; heavy metals; sediments; macroinvertebrates,"Univ Essex, Dept Sci Biol, Colchester CO4 3SQ, Essex, England","Invertebrate samples from nine East Anglian rivers were collected above and below crossings of the A12 and A14 trunk roads in spring and summer 1996 to assess any impact due to road run-off discharges. The Biological Monitoring Working Party (BMWP) score, average score per taxon (ASPT) and Shannon diversity index values were compared between upstream and downstream sites. Only the BMWP score was significantly lower in summer at downstream sites in those rivers crossed by the A12. Zinc, lead and cadmium concentrations in sediments and invertebrates (Asellus aquaticus, Gammarus pulex, Sialis lutaria) did not differ significantly between upstream and downstream sites. There was a significant relationship between metal concentrations in sediments and invertebrates only for lead. Road run-off from these trunk roads appears to have no major impact on the receiving streams. (C) 1999 Elsevier Science Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,31,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,7.0,183TM,"Perdikaki, K; Mason, CF",38.0,25.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/S0043-1354(98)00396-0,"Mason, CF (corresponding author), Univ Essex, Dept Sci Biol, Colchester CO4 3SQ, Essex, England.",FRESH-WATER ECOSYSTEMS; HEAVY-METALS; MOTORWAY RUNOFF; RURAL HIGHWAY; RIVER; LEAD; SEDIMENTS; POLLUTION; MACROINVERTEBRATES; BIOAVAILABILITY,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ETHOLOGY,2021-04-13,WOS:000079413300004,9,0,"Jormalainen, V; Shuster, SM",J,English,"Female reproductive cycle and sexual conflict over precopulatory mate-guarding in Thermosphaeroma (Crustacea, Isopoda)",1999.0,Psychology; Behavioral Sciences; Zoology,105,0179-1613,3,MAR,233,246,,"No Arizona Univ, Dept Biol Sci, Flagstaff, AZ 86011 USA","In species with time-limited opportunities for insemination, precopulatory mate-guarding is expected to coevolve with the duration of female reproductive cycles. Despite this adaptation to female characteristics, it may also be advantageous for males to adjust the duration of guarding with respect to sex ratio because the benefits of guarding are dependent on the availability of females. If female fitness is reduced because of guarding, male guarding behavior leads to intersexual conflict. We studied these aspects of male mate-guarding behavior in two closely related, thermal-spring isopods (Thermosphaeroma). First, guarding duration showed species specificity which was related to the duration of reproductive cycle; cycle length for females and duration of guarding by males in T. milleri were twice as long as in T. thermophilum. Second, males in both species adjusted their guarding duration with sex ratio, guarding longer when a competing male was present. Third, in T. thermophilum, ovarian development began immediately after the birth of the previous brood and continued through guarding, sexual molt and post-molt periods until oviposition, whereas in T. miller i, ovarian development was largely postponed until the post-molt period. Because guarding during ovary provisioning periods may be costly for females, we tested the existence of intersexual conflict over guarding duration in T. thermophilum. We compared the duration of guarding of control pairs with those of pairs in which either male guarding ability or female ability to resist guarding was reduced experimentally. Guarding durations for manipulated and control males were equal, but manipulated females were guarded longer, suggesting that conflict exists and that females can effectively shorten guarding duration by their behavior. Moreover, we suggest that selection in the context of intersexual conflict may play an important role in the evolution of delayed oviposition and sperm-storage organs in mate-guarding crustaceans.",WILEY,41,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,14.0,180YK,"Jormalainen, V; Shuster, SM",26.0,26.0,"Psychology, Biological; Behavioral Sciences; Zoology",ETHOLOGY,Ethology,10.1046/j.1439-0310.1999.00386.x,"Jormalainen, V (corresponding author), Turku Univ, Dept Biol, Sect Ecol, FIN-20014 Turku, Finland.",TIME INVESTMENT STRATEGIES; ASELLUS-AQUATICUS L; INTERSEXUAL CONFLICT; SELECTION; EVOLUTION; DURATION; MODEL; THERMOPHILUM; RECEPTIVITY; COPULATION,veijor@utu.fi,"Jormalainen, Veijo/0000-0001-6346-2585","Jormalainen, Veijo/B-2073-2008",,1439-0310,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC INSECTS,2021-04-13,WOS:000079313000002,5,0,"Graca, MAS; Barlocher, F",J,English,Proteolytic gut enzymes in Tipula caloptera - Interaction with phenolics,1999.0,Entomology,21,0165-0424,1,JAN,11,18,shredders; proteases; Tipula; phenolics,"Univ Coimbra, Dept Zool, P-3000 Coimbra, Portugal; Mt Allison Univ, Dept Biol, Sackville, NB E0A 3C0, Canada","We compared the proteolytic capabilities of the stream dwelling invertebrates Tipula caloptera Lw. (shredder) and Hexatoma sp. (carnivore) and the effects of pH and polyphenolics on enzyme activity. For T. caloptera, higher proteolytic activity was observed at a pH of 10, whereas for Hexatoma maximum proteolytic activity was observed at a pH between 8 and 9. At a pH of 10, neither leaf extract with high polyphenolic content nor tannic acid (up to 1 mu g/ml) suppressed T. caloptera proteases. At a pH of 7, proteolytic activity of T. caloptera was significantly lowered by leaf extracts, and tannic acid. T. caloptera and Hexatoma sp. seem to differ in their digestive strategies. The proteinase activity of T. caloptera peaks at a highly alkaline pH, which is maintained in its midgut. It is therefore expected to be relatively unaffected by polyphenolics in leaves, which make up a major portion of its food. This problem is not encountered by the carnivorous Hexatoma larvae.",SWETS ZEITLINGER PUBLISHERS,31,"P O BOX 825, 2160 SZ LISSE, NETHERLANDS",LISSE,8.0,179EQ,"Graca, MAS; Barlocher, F",15.0,15.0,Entomology,AQUAT INSECT,Aquat. Insects,10.1076/aqin.21.1.11.4542,"Graca, MAS (corresponding author), Univ Coimbra, Dept Zool, P-3000 Coimbra, Portugal.",ABDOMINALIS DIPTERA; ASELLUS-AQUATICUS; CONIFER NEEDLES; GAMMARUS-PULEX; DIGESTION; LEAVES; INVERTEBRATES; DETRITIVORE; CELLULOSE; PROTEIN,,"Graca, Manuel A.S./0000-0002-7303-9382; Baerlocher, Felix/0000-0003-2404-625X; Graca, Manuel/0000-0002-6470-8919","Graca, Manuel A.S./A-5785-2013; Baerlocher, Felix/C-1307-2011",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000081741500001,7,0,"Elangovan, R; Ballance, S; White, KN; McCrohan, CR; Powell, JJ",J,English,Accumulation of aluminium by the freshwater crustacean Asellus aquaticus in neutral water,1999.0,Environmental Sciences & Ecology,106,0269-7491,3,,257,263,aluminium; Asellus aquaticus; neutral pH; bioaccumulation; crustacean,"Univ Manchester, Sch Biol Sci, Manchester M13 9PT, Lancs, England; St Thomas Hosp, Rayne Inst, London SE1 7EH, England","This study examined the accumulation of aluminium (Al), mostly as the insoluble (Al(OH)(3)) species, by the freshwater crustacean Asellus aquaticus at neutral pH. Animals were exposed to a range of Al concentrations (5-356 mu g l(-1)) in three experiments. The first two were of 30 and 50 days duration, respectively, followed by transfer of the A. aquaticus to water containing no Al for 20 days. The third used live and dead animals in order to investigate the contribution made by surface adsorption of Al to the total accumulated. Significant accumulation of Al in the whole tissues occurred by day 10 in all animals in the 30- and 50- day experiment. Peak concentrations of Al were measured in animals between days 10 and 20 with high concentration factors ranging from 1.4x10(4) to 5.5x10(3). By day 30, accumulated Al had fallen but was still significantly greater than the control in the 50- day exposure experiment. This 30- day increase followed by decreased accumulation of Al was repeated over the remaining exposure period (i.e. 30-50 days) although rates of uptake and loss and peak tissue levels of Al were higher. Proportionality between environmental (water) and tissue concentrations of Al occurred at day 20 but not at day 45. Significantly more Al was accumulated by dead animals than live animals at all Al exposure concentrations. These results suggest that Al is available to the crustacean at neutral pH and that the cuticle may provide an important site of uptake. (C) 1999 Elsevier Science Ltd. All rights reserved.",ELSEVIER SCI LTD,27,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,7.0,221TC,"Elangovan, R; Ballance, S; White, KN; McCrohan, CR; Powell, JJ",21.0,21.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/S0269-7491(99)00117-7,"McCrohan, CR (corresponding author), Univ Manchester, Sch Biol Sci, 1-124 Stopford Bldg,Oxford Rd, Manchester M13 9PT, Lancs, England.",SNAIL LYMNAEA-STAGNALIS; LEAD; PH; COPPER; ZINC,,"McCrohan, Catherine/0000-0002-8855-1194",,15093021.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000084893200015,10,1,"Savage, A; Hogarth, PJ",J,English,An analysis of temperature-induced fluctuating asymmetry in Asellus aquaticus (Linn.),1999.0,Marine & Freshwater Biology,411,0018-8158,,,139,143,fluctuating asymmetry; temperature stress; Asellus aquaticus,"Univ York, Dept Biol, York YO10 5YW, N Yorkshire, England","This study examines Fluctuating Asymmetry (FA) in the isopod Crustacean Asellus aquaticus (Linn.). FA occurs in bilaterally symmetrical traits not closely related to survival or fecundity and is the presence of small random deviations from perfect symmetry caused by environmental or genetic stress. These stresses perturb the developmental programme of the organism involved, resulting in asymmetry. FA was induced in the laboratory with temperature stress. Increasing levels of FA were found with increasing environmental temperature, but alteration between extremes of temperature was not found to be as stressful as simple increases in temperature. Extreme temperatures are, therefore, inferred to be an environmental stress for A. aquaticus.",KLUWER ACADEMIC PUBL,18,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,5.0,276TJ,"Savage, A; Hogarth, PJ",26.0,26.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1023/A:1003857919472,"Hogarth, PJ (corresponding author), Univ York, Dept Biol, POB 373, York YO10 5YW, N Yorkshire, England.",DEVELOPMENTAL STABILITY; CRUSTACEA; SYMMETRY; QUALITY; ISOPODA; STRESS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,HYDROBIOLOGIA,2021-04-13,WOS:000084892400013,17,1,"Wolfram-Wais, A; Wolfram, G; Auer, B; Mikschi, E; Hain, A",J,English,"Feeding habits of two introduced fish species (Lepomis gibbosus, Pseudorasbora parva) in Neusiedler See (Austria), with special reference to chironomid larvae (Diptera : Chironomidae)",1999.0,Marine & Freshwater Biology,408,0018-8158,,,123,129,benthivorous fishes; feeding habits; chironomid larvae; reed belt,"Donabaum & Wolfram OEG, A-1050 Vienna, Austria; Univ Cologne, Inst Zool, D-50723 Cologne, Germany; Nat Hist Museum Wien, A-1014 Vienna, Austria; Biol Stn Neusiedler See, A-7142 Illmitz, Austria","In Neusiedler See, a turbid shallow lake, Lepomis gibbosus (L.) and Pseudorasbora parva (Temminck & Schlegel) occur in large numbers within the reed belt. In April, June/July, August and September 1995, fishes were collected for gut analyses. The diet of both species consisted mainly of chironomid larvae. 0+ L. gibbosus whose total length exceeded 26 mm and 0+ P. parva larger than 32 mm preyed on chironomids almost exclusively. The food of > 0+ L. gibbosus, in addition to chironomids, was made up of other aquatic insects (e.g. Zygoptera nymphs, Corixidae and Trichoptera larvae), gastropods and Asellus aquaticus L. The diet of > 0+ L. gibbosus showed distinct seasonal variations. Detailed analyses of the chironomid larvae in the stomachs of the two fish species provided valuable information on their feeding grounds. Whereas L. gibbosus preyed mainly on sediment-dwelling chironomids, P. parva preferred epiphytic species. Diet overlaps between L. gibbosus and P. parva and other abundant fish species in the reed belt (Anguilla anguilla (L.), Blicca bjoerkna (L.), Gymnocephalus cernuus (L.)) are discussed.",SPRINGER,41,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,7.0,276TA,"Wolfram-Wais, A; Wolfram, G; Auer, B; Mikschi, E; Hain, A",39.0,37.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1023/A:1017014130103,"Wolfram-Wais, A (corresponding author), Donabaum & Wolfram OEG, Zentagasse 47-3, A-1050 Vienna, Austria.",PUMPKINSEED SUNFISH; LITTORAL-ZONE; BODY SIZE; GROWTH; ABUNDANCE; ZOOPLANKTON; CLADOCERA; PATTERNS; COPEPODA; BIOMASS,donabaum.wolfram@netway.at; donabaum.wolfram@netway.at,,,,1573-5117,,,,International Conference on Trophic Interactions in Shallow Freshwater and Brackish Waterbodies,,"AUG 03-08, 1998","BLOSSIN, GERMANY",,,"Inst Freshwater Ecol & Inland Fisher, Tech Univ Cottbus",,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000081035300011,23,0,"Hervant, F; Mathieu, J; Culver, DC",J,English,Comparative responses to severe hypoxia and subsequent recovery in closely related amphipod populations (Gammarus minus) from cave and surface habitats,1999.0,Marine & Freshwater Biology,392,0018-8158,2,,197,204,crustacean; subterranean environment; adaptation; metabolism; hypoxia; recovery,"Univ Lyon 1, CNRS, ESA 5023, F-69622 Villeurbanne, France; American Univ, Dept Biol, Washington, DC 20016 USA","The locomotory and ventilatory activities, oxygen consumption, and the intermediary and energy metabolism modifications of a spring and a cave population of the aquatic amphipod crustacean Gammarus minus were investigated in normoxia, severe hypoxia (P-O2 < 0.03 kPa) and subsequent recovery. The aims of this study were to compare (1) the reactions of both populations to these experimental conditions, (2) these results with those obtained on the hypogean amphipod Niphargus, and (3) the degree of adaptation to hypoxia showed by both populations of G. minus. Despite their different origins, both populations of G. minus presented identical responses in all experimental conditions. The lethal time for 50% of the population was about 6 h, and the oxygen consumption about 44 mu mol O-2/g dw per h in normoxic conditions. The metabolic effects of severe hypoxia and subsequent recovery were significant compared to normoxic conditions, but also similar between both populations for alanine, arginine phosphate, ATP, glycogen and lactate levels. This study (i) underlines the statement that a high resistance to lack of oxygen is not universally found in subterranean organisms, but is more related to oxygen availability and/or to the energetic state of each subterranean ecosystem, and (ii) highlight the diversity of adaptive responses to an environmental constraint expressed by hypogean crustaceans.",SPRINGER,33,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,8.0,209EM,"Hervant, F; Mathieu, J; Culver, DC",28.0,28.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1023/A:1003511416509,"Hervant, F (corresponding author), Univ Lyon 1, CNRS, ESA 5023, F-69622 Villeurbanne, France.",METABOLIC RESPONSES; OXYGEN-CONSUMPTION; ASELLUS-AQUATICUS; CRUSTACEA; INVERTEBRATES; ISOPODA; VIREI,hervant@cismsun.univ-lyon1.fr,,,,1573-5117,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000077818600007,0,0,"Roberts, GN; Chubb, JC",J,English,The distribution and location of the symbiont Lagenophrys aselli on the freshwater isopod Asellus aquaticus,1998.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,40,0046-5070,4,DEC,671,677,symbiont; epibiont; Lagenophrys; Asellus; location,"Univ Liverpool, Sch Biol Sci, Liverpool L69 3BX, Merseyside, England","1. The distribution and location of the ciliated protozoan Lagenophrys aselli on the freshwater isopod Asellus aquaticus were studied in relation to water now over the third pleopod surface. 2. At low densities L. aselli had a significant preference for the anterior centre of the pleopod; however, at the highest densities this preference was no longer significant. The distribution ranged from closer than random at low densities to further than random at the highest densities, and may have been a product of feeding and reproduction of L. aselli as well as the short intermoult period of the host. 3. An individual L. aselli has an effective area of both the lorica and the ciliated feeding disc. The ciliated feeding disc, when extended, may contribute to the presence of a small anterior-posterior gap being left between individuals.",WILEY,16,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,9.0,153DV,"Roberts, GN; Chubb, JC",10.0,9.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1046/j.1365-2427.1998.00365.x,"Roberts, GN (corresponding author), Univ Liverpool, Sch Biol Sci, Liverpool L69 3BX, Merseyside, England.",,guyr@liv.ac.uk,,,,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF HELMINTHOLOGY,2021-04-13,WOS:000077881300011,7,0,"Galli, P; Mariniello, L; Crosa, G; Ortis, M; Ambrogi, AO; D'Amelio, S",J,English,Populations of Acanthocephalus anguillae and Pomphorhynchus laevis in rivers with different pollution levels,1998.0,Parasitology; Zoology,72,0022-149X,4,DEC,331,335,,"Univ Milan, Dipartimento Sci Ambiente & Terr, I-20126 Milan, Italy; Univ Roma La Sapienza, Ist Parassitol, I-00185 Rome, Italy","The distribution of two acanthocephalan species (Pomphorhynchus laevis and Acanthocephalus anguillae) in the chub (Leuciscus cephalus) was studied in four river reaches characterized by different levels of pollution: the River Ticino near Abbiategrasso (unpolluted), the Naviglio Grande Canal, in Milano (slightly polluted), the River Lambro near Merone village (polluted) and the River Lambro near Monza (severely polluted). Pomphorhynchus laevis was restricted to the unpolluted and the slightly polluted sites, while the intensity of A. anguillae increased proportionally to water pollution. These differences were partially explained by the variation in abundance of their intermediate hosts (Echinogammarus stammeri for P. laevis and Asellus aquaticus for A. anguillae). Data on the occurrence of P. laevis and A, anguillae showed a significant negative binomial frequency distribution, suggesting their tendency to be aggregated within the host populations of L. cephalus.",CAMBRIDGE UNIV PRESS,19,"EDINBURGH BLDG, SHAFTESBURY RD, CB2 8RU CAMBRIDGE, ENGLAND",CAMBRIDGE,5.0,154GQ,"Galli, P; Mariniello, L; Crosa, G; Ortis, M; Ambrogi, AO; D'Amelio, S",9.0,8.0,Parasitology; Zoology,J HELMINTHOL,J. Helminthol.,10.1017/S0022149X00016692,"Galli, P (corresponding author), Univ Milan, Dipartimento Sci Ambiente & Terr, Via Emanueli 15, I-20126 Milan, Italy.",PARASITES; HYPOTHESIS,paolog@alpha.disat.unimi.it,"OCCHIPINTI, ANNA CARMEN/0000-0002-5737-8317; D'Amelio, Stefano/0000-0002-1871-9553",,9858630.0,1475-2697,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF CRUSTACEAN BIOLOGY,2021-04-13,WOS:000076902300017,2,0,"Turk-Prevorcnik, S; Blejec, A",J,English,"Asellus aquaticus infernus, new subspecies (Isopoda : Asellota : Asellidae), from Romanian hypogean waters",1998.0,Marine & Freshwater Biology; Zoology,18,0278-0372,4,NOV,763,773,,"Univ Ljubljana, Dept Biol, Biotech Fac, Ljubljana 1001, Slovenia; Natl Inst Biol, Ljubljana 1001, Slovenia","A new, troglomorphic subspecies of Asellus aquaticus, A. a. infernus, from Romania, is described and illustrated. The general architecture of the copulatory appendages, studied with SEM in Romanian and Slovenian hypogean and epigean populations, is compared and discussed. A difference in brood size was determined between Romanian hypogean and epigean populations. Extensive analysis of the data using multivariate discriminant function analysis (DFA) allowed the elucidation of racial differentiation patterns in A. aquaticus from Romania and Slovenia. The number of the initially measured morphometric characters was greatly reduced as the contribution of each character to each discriminant function was assessed. DFA divided the sample complex into distinct epigean-A. a. aquaticus, and hypogean forms-A. a. infernus (Romania) and A. a. cavernicolus (Slovenia). The size of pleopod V and its area as well as the isometric (short distal rami) uropod represent the most important discriminant characters. Distinct separation of Romanian and Slovenian cave populations, i.e., the low degree of convergent evolution toward troglomorphism, might be at least to some extent explained by a different origin of populations and by the considerable ecological differences between both habitats.",CRUSTACEAN SOC,23,"840 EAST MULBERRY, SAN ANTONIO, TX 78212 USA",SAN ANTONIO,11.0,137ER,"Turk-Prevorcnik, S; Blejec, A",11.0,10.0,Marine & Freshwater Biology; Zoology,J CRUSTACEAN BIOL,J. Crustac. Biol.,10.2307/1549153,"Turk-Prevorcnik, S (corresponding author), Univ Ljubljana, Dept Biol, Biotech Fac, POB 2995, Ljubljana 1001, Slovenia.",CRUSTACEA; POPULATIONS,,"Blejec, Andrej/0000-0001-7484-6031; Blejec, Andrej/0000-0001-7484-6031","Blejec, Andrej/A-8470-2010; Blejec, Andrej/M-5215-2019",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,QUARTERLY REVIEW OF BIOLOGY,2021-04-13,WOS:000075656400001,64,9,"Jormalainen, V",J,English,Precopulatory mate guarding in crustaceans: Male competitive strategy and intersexual conflict,1998.0,Life Sciences & Biomedicine - Other Topics,73,0033-5770,3,SEP,275,304,,"Turku Univ, Dept Biol, Sect Ecol, FIN-20014 Turku, Finland","Precopulatory mate guarding in crustaceans is a common male mating strategy when female receptivity for copulation is short. The decision to start guarding is not made by only males, however; it is commonly found that females resist the guarding attempts of males. Furthermore, experimental data show that males aim for longer guarding durations than females allow. Shorter guarding durations may be favored by females because of a number of potential costs of guarding. Precopulatory guarding therefore presents a model case of intersexual conflict where the fitness maximizing strategies of males and females differ. When the interests of the sexes are in conflict, the actual guarding duration may be a compromise between mat and female optima, resulting from the adjustment of contest behavior to the fitness gains of winning and to the fighting abilities of the parties. Intersexual conflicts are also likely to generate sexual selection on male and female traits related to the outcome of the contests.",UNIV CHICAGO PRESS,146,"1427 E 60TH ST, CHICAGO, IL 60637-2954 USA",CHICAGO,30.0,115GV,"Jormalainen, V",207.0,205.0,Biology,Q REV BIOL,Q. Rev. Biol.,10.1086/420306,"Jormalainen, V (corresponding author), Turku Univ, Dept Biol, Sect Ecol, FIN-20014 Turku, Finland.",GAMMARUS-PULEX AMPHIPODA; ISOPOD IDOTEA-BALTICA; TIME INVESTMENT STRATEGIES; ASELLUS-AQUATICUS L; SEXUAL SELECTION; MICRODEUTOPUS-GRYLLOTALPA; MICROHABITAT SEGREGATION; FEMALE RESISTANCE; MATING SYSTEMS; WATER STRIDER,VEIJO.JORMALAINEN@UTU.FI,"Jormalainen, Veijo/0000-0001-6346-2585","Jormalainen, Veijo/B-2073-2008",,1539-7718,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGICAL JOURNAL OF THE LINNEAN SOCIETY,2021-04-13,WOS:000074855600004,3,0,"Lonn, M; Sandberg, A; Redbo-Torstensson, P",J,English,Fitness-related traits of allozyme genotypes in Bromus hordeaceus L. (Poaceae) associated with field habitat and experimental flooding,1998.0,Evolutionary Biology,64,0024-4066,2,JUN,207,222,ADH; phenotypic plasticity; PGI; reaction norm; seed maturation; seed set,"Uppsala Univ, Dept Ecol Bot, S-75236 Uppsala, Sweden","Genetic variation at alcohol dehydrogenase and phosphoglucose isomerase loci in Bromus hordeaceus has in an earlier study been found to show substantial microgeographic spatial structuring. The present study reports differences in fitness related characters between the enzyme genotypes, both from a field study and a greenhouse experiment. The field study showed overall differences in seed set between allozyme genotypes and also that Pgi-1b genotypes differed in number of seeds set at different levels of herb cover in their habitat. In the greenhouse, dry, normal or flooded conditions were applied. Seeds from individuals with the Adh-1b-11 genotype matured faster in the dry and slower in the flooded treatments than did seeds from individuals with the Adh-1b-22 genotype. Individuals containing Pgi-1b-1f1f alleles and Adh-1b-11 alleles are more plastic than individuals with other allele combinations, meaning that allozyme variation could partly explain what could be seen as adaptive phenotypic plasticity. Mean seed weight was different between dry and flooding treatments for Pgi-1b genotypes. There were also direct effects of allozyme genotype on the probability of survival, total plant weight, weight of reproductive parts, seed weight, days to seed maturation and the percentage of reproductive parts out of the total plant weight. (C) 1998 The Linnean Society of London.",OXFORD UNIV PRESS,55,"GREAT CLARENDON ST, OXFORD OX2 6DP, ENGLAND",OXFORD,16.0,101EA,"Lonn, M; Sandberg, A; Redbo-Torstensson, P",8.0,8.0,Evolutionary Biology,BIOL J LINN SOC,Biol. J. Linnean Soc.,,"Lonn, M (corresponding author), Univ London Imperial Coll Sci Technol & Med, Dept Biol, Silwood Pk, Ascot SL5 7PY, Berks, England.",ASELLUS-AQUATICUS L; PHENOTYPIC PLASTICITY; PGI POLYMORPHISM; PHOSPHOGLUCOSE ISOMERASE; GYPSOPHILA-FASTIGIATA; FECUNDITY SELECTION; COLIAS BUTTERFLIES; GENETIC-STRUCTURE; ADAPTATION; LOCI,m.lonn@ic.ac.uk,,,,1095-8312,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,MARINE BIOLOGY,2021-04-13,WOS:000075378700014,5,0,"Jivoff, P; Hines, AH",J,English,Effect of female molt stage and sex ratio ion courtship behavior of the blue crab Callinectes sapidus,1998.0,Marine & Freshwater Biology,131,0025-3162,3,JUN,533,542,,"Univ Maryland, Dept Zool, College Pk, MD 20742 USA; Smithsonian Environm Res Ctr, Edgewater, MD 21037 USA","In many species, males and females actively participate in courtship, and the outcome of pre-mating interactions influences the mating success of both sexes, Female blue crabs, Callinectes sapidus, mate soon after their final molt to maturity. thus female molt stage dictates the timing of mating. In a field experiment, we manipulated female molt stage and sex ratio to test their effects on the courtship behavior of both sexes. if female behavior influences the behavior and pairing success of males, and if male courtship influences male pairing-success. Early-molt-stage females avoided males during courtship, whereas late-molt-stage females sought out males. As a result, males had to pursue and capture early-molt-stage females whereas males displayed to late-molt-stage females and more easily physically controlled them, Males sometimes abandoned late-molt-stage females. but this occurred more often when females were abundant. The rate at which females avoided males was positively correlated with that of males abandoning females. and males that were unsuccessful at pairing met with higher rates of female resistance than successful males, suggesting that female behavior influences male pairing-success. Unlike unsuccessful males. successful males more often made the transition between display and maintaining physical control of the female. At high male sex ratios, males initiated courtship more readily: thus both sexual competition and female behavior influence male courtship in this species.",SPRINGER HEIDELBERG,78,"TIERGARTENSTRASSE 17, D-69121 HEIDELBERG, GERMANY",HEIDELBERG,10.0,110JY,"Jivoff, P; Hines, AH",18.0,18.0,Marine & Freshwater Biology,MAR BIOL,Mar. Biol.,10.1007/s002270050345,"Jivoff, P (corresponding author), Rutgers State Univ, Marine Field Stn, 800 Great Bay Blvd, Tuckerton, NJ 08087 USA.",CENTRAL CHESAPEAKE BAY; MALE MATING SUCCESS; CHIONOECETES-OPILIO; ASELLUS-AQUATICUS; MATE CHOICE; ORCONECTES-RUSTICUS; HOMARUS-AMERICANUS; WATER STRIDER; SNOW CRAB; CRUSTACEA,,,,,1432-1793,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ANIMAL BEHAVIOUR,2021-04-13,WOS:000073943000025,5,0,"Salvanes, AGV; Hart, PJB",J,English,Individual variability in state-dependent feeding behaviour in three-spined sticklebacks,1998.0,Behavioral Sciences; Zoology,55,0003-3472,,MAY,1349,1359,,"Univ Bergen, Dept Fisheries & Marine Biol, Bergen High Technol Ctr, N-5020 Bergen, Norway; Univ Leicester, Dept Biol, Leicester LE1 7RH, Leics, England","We studied state-dependent feeding behaviour of three-spined sticklebacks, Gasterosteus aculeatus, during several trials of sequential encounters with 6-mm and 8-mm Asellus aquaticus prey. We used stomach fullness (the number of prey eaten previously) as an indicator for state, which we assumed to affect motivation for feeding. Dummy variable regression was used to study how the per trial energy consumption, the number of events experienced, feeding efficiency and the average time spent on each accepted prey depended on trial number, day and fish. A clear individual variability was found, Feeding behaviour was strongly related to the individual's recent feeding history (within a day). Legit regression models showed that the decision to accept or reject a prey encountered depended on the size of the fish as well as its state (stomach fullness). Although limited, our results demonstrate pronounced heterogeneity in feeding behaviour among individual fish. We discuss this phenomenon in the broader context of population regulatory mechanisms. (C) 1998 The Association For the Study of Animal Behaviour.",ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD,45,"24-28 OVAL RD, LONDON NW1 7DX, ENGLAND",LONDON,11.0,ZR156,"Salvanes, AGV; Hart, PJB",31.0,30.0,Behavioral Sciences; Zoology,ANIM BEHAV,Anim. Behav.,10.1006/anbe.1997.0707,"Salvanes, AGV (corresponding author), Univ Bergen, Dept Fisheries & Marine Biol, Bergen High Technol Ctr, N-5020 Bergen, Norway.",GADUS-MORHUA L; GASTEROSTEUS-ACULEATUS L; PREY SIZE; 3-SPINED STICKLEBACK; VERTICAL-DISTRIBUTION; DYNAMIC OPTIMIZATION; ENERGY-REQUIREMENTS; GASTRIC EVACUATION; JUVENILE SALMON; FISH SIZE,anne.salvanes@ifm.uib.no,,"Hart, Paul/A-1814-2008",9632518.0,1095-8282,,,,,,,,5,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000073798300003,6,0,"Cook, JA; Chubb, JC; Veltkamp, CJ",J,English,"Epibionts of Asellus aquaticus (L.) (Crustacea, Isopoda): an SEM study",1998.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,39,0046-5070,3,MAY,423,438,,"Univ Liverpool, Sch Biol Sci, Liverpool L69 3BX, Merseyside, England","1. This study presents a qualitative and quantitative survey of epibionts infesting two populations of the freshwater isopod Asellus aquaticus (L.). Using scanning electron microscopy, the prevalence, mean intensity, abundance, spatial preferences and distribution of organisms on various external surfaces were ascertained. 2. A diverse community, consisting primarily of protozoa and rotifers, utilised A. aquaticus as a substrate organism. Every individual A, aquaticus supported some form of epizoic life. Peritrich species comprised 89.2% of all epibionts. Carchesium polypinum, Pseudocarchesium aselli, Pseudocarchesium asellicola, Pseudocarchesium simulans and Opercularia hebes dominated the epifauna. 3. Highest epibiont burdens occurred on the mouthparts, the first few ventral segments and the gills and largely comprised the above peritrich species. Most epibionts exhibited some degree of site preference on the host. A distinct gill epifauna existed. Apart from Acineta tuberosa and Vorticella rotunda, which had equal prevalences on dorsal and ventral surfaces in one culture, most species largely avoided the dorsal surface. 4. Epibionts exhibited varying degrees of adaptation to life on a living substrate. They ranged from facultative species such as A. tuberosa, which are capable of colonising abiotic substrata, to Gymnodinoides aselli whose life cycle relies on interaction with A. aquaticus. Highly specialised species tended to exhibit the most pronounced and consistent site restriction. 5. Asellus aquaticus offers a highly tractable system for further study of substrate species-epibiont relationships.",BLACKWELL SCIENCE LTD,62,"P O BOX 88, OSNEY MEAD, OXFORD OX2 0NE, OXON, ENGLAND",OXFORD,22.0,ZP884,"Cook, JA; Chubb, JC; Veltkamp, CJ",39.0,35.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1046/j.1365-2427.1998.00286.x,"Chubb, JC (corresponding author), Univ Liverpool, Sch Biol Sci, Derby Bldg, Liverpool L69 3BX, Merseyside, England.",COMMUNITIES; ORGANIZATION; PROTOZOA; CILIATE; PONDS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:000073798300017,33,0,"Brodersen, KP; Dall, PC; Lindegaard, C",J,English,The fauna in the upper stony littoral of Danish lakes: macroinvertebrates as trophic indicators,1998.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,39,0046-5070,3,MAY,577,592,,"Univ Copenhagen, Freshwater Biol Lab, DK-3400 Hillerod, Denmark","1. The macroinvertebrate fauna living on stones in the exposed stony littorals of thirty-nine Danish lakes were examined by multivariate numerical methods. The data were derived from 125 semi-quantitative samples and a species list of 126 taxa. The mean number of individuals per sample was 960, and among the most common taxa were Asellus aquaticus, Gammarus, Oulimnius, Tinodes, Cricotopus and Dicrotendipes. 2. The total number of species and fourteen individual taxa were positively correlated to mean depth of the lakes and eleven taxa were correlated to the total phosphorus concentration. The Shannon diversity was negatively correlated to the chlorophyll a concentration ([Chl a]) 3. Community patterns were examined by detrended correspondence analysis (DCA), and the relationship between species data and selected environmental variables was analysed by canonical correspondence analysis (CCA). Mean lake depth was found to be the strongest environmental variable in explaining the species data. The [Chl a] and Secchi depth also explained significant variation in the distribution of the stony littoral invertebrates. Wind fetch and relative exposure did not explain any variation in the faunal composition among sites. 4. The abilities of the macroinvertebrates to predict the lake trophic state, expressed as log ([Chl a]), were explored by means of weighted averaging (WA) regression and calibration. Two tolerance-weighted WA models using inverse and classical regression for deshrinking are presented. The models were assessed by the root mean square error (RMSE) of prediction, using bootstrapping as cross validation, and by the correlation between observed and inferred log ([Chl a]) The model using inverse deshrinking had a RMSEboot = 0.41 and r(2) = 0.63. By using classical regression, the predictability in the ends of the gradient was improved but the RMSE increased: RMSEboot = 0.46. 5. Although the factors determining faunal distribution patterns in the Danish lowland lakes were highly multivariate and difficult to disentangle, it seems reasonable to use the WA estimated species optima and tolerances to [Chl a] ina bio-assessment model.",WILEY-BLACKWELL,50,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,16.0,ZP884,"Brodersen, KP; Dall, PC; Lindegaard, C",83.0,80.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1046/j.1365-2427.1998.00298.x,"Brodersen, KP (corresponding author), Univ Copenhagen, Freshwater Biol Lab, 51 Helsingorsgade, DK-3400 Hillerod, Denmark.",CANONICAL CORRESPONDENCE-ANALYSIS; GRADIENT ANALYSIS; ZOOBENTHOS; INVERTEBRATES; CHIRONOMIDAE; COMMUNITIES; ASSEMBLAGES; POLLUTION; DIATOMS; CANADA,,,,,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THERMAL BIOLOGY,2021-04-13,WOS:000076148700005,117,3,"Cuculescu, M; Hyde, D; Bowler, K",J,English,"Thermal tolerance of two species of marine crab, Cancer pagurus and Carcinus maenas",1998.0,Life Sciences & Biomedicine - Other Topics; Zoology,23,0306-4565,2,APR,107,110,acclimation; CTMax; crabs; Cancer pagurus; Carcinus maenas; season,"Univ Durham, Dept Biol Sci, Durham DH1 3LE, England","The critical thermal maxima of adult Carcinus maenas and Cancer pagurus have been determined. The CTMax for the eurythermal C. maenas were significantly higher than for the stenothermal C. pagurus at each acclimation condition, as would be predicted. Acclimation had a significant effect in both species, with 22 degrees C acclimated crabs having significantly higher CTMax than 8 degrees C acclimated crabs. The acclimation ability (AAR response) was greater in C. pagurus than in C. maenas, suggesting that the ability for acclimation is not directly related to eurythermicity. There was a marked seasonal effect on CTMax in both species. The CTMax of winter caught crabs was significantly lower than in summer or autumn caught animals, a difference that persisted irrespective of laboratory acclimation status. (C) 1998 Published by Elsevier Science Ltd. All rights reserved.",PERGAMON-ELSEVIER SCIENCE LTD,21,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND",OXFORD,4.0,123WN,"Cuculescu, M; Hyde, D; Bowler, K",88.0,85.0,Biology; Zoology,J THERM BIOL,J. Therm. Biol.,10.1016/S0306-4565(98)00008-4,"Cuculescu, M (corresponding author), Univ Durham, Dept Biol Sci, South Rd, Durham DH1 3LE, England.",ASELLUS-AQUATICUS; TEMPERATURE; ACCLIMATION; EXPRESSION; HSP70; FISH; FLUIDITY; STRESS,,"Cuculescu-Santana, Mirela/0000-0002-1096-2591",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:000071233600007,34,1,"Blockwell, SJ; Taylor, EJ; Jones, I; Pascoe, D",J,English,The influence of fresh water pollutants and interaction with Asellus aquaticus (L.) on the feeding activity of Gammarus pulex (L.),1998.0,Environmental Sciences & Ecology; Toxicology,34,0090-4341,1,JAN,41,47,,"Univ Wales Coll Cardiff, Sch Pure & Appl Biol, Cardiff CF1 3TL, S Glam, Wales","The feeding response of juvenile amphipod Gammarus pulex (L.) was investigated following exposure to freshwater pollutants. The method employed is nondestructive, provides a rapid indication of the status of groups of individuals, and is based on a time-response analysis of the consumption of the eggs of Artemia salina and the determination of median feeding times or FT50s. The feeding activity of juvenile G. pulex was found to be a sensitive response criterion for use in assessing the sublethal toxicity of copper, lindane, and 3,4-dichloroaniline (3,4-DCA). Reductions in grammarid feeding activity were identified following 96 hours exposure at 12.1 mu g/L copper or 8.4 mu g/L lindane and 240 hours exposure at 918 mu g/L 3,4-DCA. However, a significant increase was observed in the feeding rate of gammarids that had been exposed for 240 h at 0.09 mu g/L lindane in comparison with control values. The increase in feeding rate may be interpreted as a possible stimulatory effect associated with the toxicant action of lindane. Increases in gammarid feeding activity were not determined during the experiments conducted with either copper or 3,4-DCA. A sustained reduction in G. pulex feeding rates may cause growth inhibition and impaired reproduction which have previously been identified as sublethal responses of other freshwater organisms exposed to comparable concentrations of lindane, 3,4-DCA, or copper. The feeding bioassay was also used as a tool in an investigation of species interactions in toxicant systems. The feeding responses of G. pulex, which had been maintained in the presence of Asellus aquaticus (as interacting pairs) and exposed to a range of concentrations of lindane or 3,4-DCA, were recorded and compared. The findings illustrate the complex nature of test systems that integrate the stresses of toxicant and competition. In the lindane test system a reduction in gammarid feeding activity was observed following a 96-h exposure with A. aquaticus at 3.8 and 6.0 mu g/L lindane (mean measured concentrations). After a 240-h exposure period a decrease in feeding rate was recorded only for gammarids that had been exposed to 6.5 mu g/L lindane, however exposure to very low concentrations of lindane (0.1 and 0.9 mu g/L) resulted in a significant increase in gammarid feeding activity. In the experiment conducted with 3,4-DCA the calculation of median feeding times or FT50s of gammarids that had been exposed for 96 and 240 h in the toxicant treatment groups with A. aquaticus was largely precluded (in most groups less than 50% of the A. salina eggs were eaten). However, control group FT50 values were determined on each occasion the bioassay was performed, indicating that a substantial reduction in gammarid feeding activity had occurred in the majority of the 3,4-DCA treatment groups.",SPRINGER VERLAG,42,"175 FIFTH AVE, NEW YORK, NY 10010 USA",NEW YORK,7.0,YP024,"Blockwell, SJ; Taylor, EJ; Jones, I; Pascoe, D",40.0,38.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,10.1007/s002449900284,"Blockwell, SJ (corresponding author), Univ Wales Coll Cardiff, Sch Pure & Appl Biol, POB 915, Cardiff CF1 3TL, S Glam, Wales.",LIFE-HISTORY; AMPHIPOD; GROWTH; POPULATION; CRUSTACEA; TOXICITY; RIVER; MACROINVERTEBRATES; INVERTEBRATE; PARASITISM,,,,9419272.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:000074984400010,5,0,"Khatami, SH; Pascoe, D; Learner, MA",J,English,"The acute toxicity of phenol and unionized ammonia, separately and together, to the ephemeropteran Baetis rhodani (Pictet)",1998.0,Environmental Sciences & Ecology,99,0269-7491,3,,379,387,Baetis rhodani; ephemeroptera; macro-invertebrates; phenol; ammonia,"Univ Wales Coll Cardiff, Sch Pure & Appl Biol, Cardiff CF1 3TL, S Glam, Wales","The acute toxicity of phenol and ammonia, singly and in combination, to larvae of the ephemeropteran, Baetis rhodani, was examined using a computerized continuous flow system in the laboratory. The 24 h LC50 values (with 95% confidence intervals) were calculated to be 29.9 (17.3-51.5)mg phenol litre(-1) and 8.2 (2.0-33.0)mg un-ionized ammonia litre(-1). When phenol and ammonia were together in low concentration (<20 mg litre(-1) and <3 mg litre(-1) [un-ionized], respectively), they expressed their toxicity additively, but at higher concentrations they behaved in a greater-than-additive manner. When the 24 h LC50 values were used to predict the toxicity of a coking plant effluent, containing principally ammonia and phenol, it was found that the B. rhodani larvae died quicker than expected indicating the presence of other toxic chemicals. This exemplifies the value of using direct toxicity assessments to detect the presence of unknown toxicants. (C) 1998 Elsevier Science Ltd. All rights reserved.",ELSEVIER SCI LTD,21,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, OXON, ENGLAND",OXFORD,9.0,103YA,"Khatami, SH; Pascoe, D; Learner, MA",10.0,10.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/S0269-7491(98)00003-7,"Learner, MA (corresponding author), Univ Wales Coll Cardiff, Sch Pure & Appl Biol, POB 915, Cardiff CF1 3TL, S Glam, Wales.",ASELLUS-AQUATICUS L; EXPOSURE,,,,15093302.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:000076259700002,10,0,"Costantini, ML; Rossi, L",J,English,Competition between two aquatic detritivorous isopods - a laboratory study,1998.0,Marine & Freshwater Biology,368,0018-8158,,,17,27,,"Univ Rome, Dept Genet & Biol Mol, I-00161 Rome, Italy","The role of adult faeces in juvenile nutrition of two isopod species, Proasellus coxalis s.l. and Asellus aquaticus (L.), with similar trophic strategies and different reproductive output, has been studied in laboratory. Our aim was to consider the possible competitive mechanisms occurring at the beginning of the species coexistence using allopatric populations in single and mixed species experiments. Two series of competition experiments were performed. In the first, adult specimens were used for breeding and feeding trials. Both population dynamics and the percentage of ovigerous females and juveniles were evaluated during 10 months. Adult densities and juvenile percentage of A.aquaticus were lower in the presence of P. coxalis s.l. than when alone. At the end of the breeding experiments the dietary preferences of adults on a set of fungally conditioned leaf discs were not different among treatments. In the second series of experiments, the influence of coexistence on the feeding rates of young asellids and the relative importance of faeces and decaying plant material in their diet were investigated. Individual consumption by wild juveniles in multiple-choice laboratory experiments was measured by radioisotopes ((32)p). Juveniles of P. coxalis s.l. showed the highest ingestion rates. In co-occurrence, contrary to A.aquaticus, they were able to further increase feeding on parental faeces. The role of parental faeces in the diet of the two species juveniles and the competitive dominance of P. coxalis s.l. are discussed.",KLUWER ACADEMIC PUBL,32,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,11.0,125WH,"Costantini, ML; Rossi, L",19.0,17.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1023/A:1003296620693,"Costantini, ML (corresponding author), Univ Rome, Dept Genet & Biol Mol, Via Lancisi 29, I-00161 Rome, Italy.",ASELLUS-AQUATICUS; PROASELLUS-COXALIS; DETRITUS; STREAM; FECES,,"ROSSI, LORETO/0000-0001-8014-5397; Costantini, Maria Letizia/0000-0001-6242-558X",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONAL REVIEW OF HYDROBIOLOGY,2021-04-13,WOS:000073843200005,19,0,"Toman, MJ; Dall, PC",J,English,Respiratory levels and adaptations in four freshwater species of Gammarus (Crustacea : Amphipoda),1998.0,Marine & Freshwater Biology,83,1434-2944,3,,251,263,Gammarus species; respiration; respiratory adaptation; distribution,"Univ Ljubljana, Biotech FAc, Dept Biol, SI-1001 Ljubljana, Slovenia; Univ Copenhagen, Freshwater Biol Lab, DK-3400 Hillerod, Denmark","Respiration of four freshwater species of the amphipod crustacean Gammarus: G. fossurum, G. lacustris (river and lake), G. pulex and G. roeseli were measured in a closed, stirred respirometric chamber with a micro-electrode. Oxygen consumption, expressed as weight-specific oxygen uptake (R-s) in relation to decreasing oxygen concentration, varied at air saturation from 0.86 (G. lacustris, lake) to 2.06 mu l O-2 mg(-1) AFDW h(-1) (G. pulex). R-s also differed intra-specifically among the two populations of G. lacustris. G. lacustris (river), G. pulex and G. roeseli expressed moderate ability to regulate their oxygen consumption at decreasing oxygen concentrations, whereas the regulation ability was higher in G. lacustris (lake) and in G. fossarum, which maintain high oxygen uptake at oxygen levels >2 mg O-2 l(-1). All four Gammarus species are partial regulators in response to variations in oxygen concentration. The differences between species are considered too small to account for their natural distributions. It appears that the tolerances of Gammarus species to organic pollution depend only in part on oxygen conditions.",WILEY-BLACKWELL,46,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,13.0,ZQ291,"Toman, MJ; Dall, PC",14.0,14.0,Marine & Freshwater Biology,INT REV HYDROBIOL,Int. Rev. Hydrobiol.,10.1002/iroh.19980830308,"Toman, MJ (corresponding author), Univ Ljubljana, Biotech FAc, Dept Biol, 111 Vecna Pot, SI-1001 Ljubljana, Slovenia.",ASELLUS-AQUATICUS L; SUBSEQUENT RECOVERY; PULEX AMPHIPODA; METABOLIC RESPONSES; MICRO-DISTRIBUTION; SEVERE HYPOXIA; OXYGEN; MICRODISTRIBUTION; POPULATION; WATER,,,,,1522-2632,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONAL REVIEW OF HYDROBIOLOGY,2021-04-13,WOS:000077578900012,7,1,"Zauke, GP; Bohlke, J; Zytkowicz, R; Napiorkowski, P; Gizinski, A",J,English,"Trace metals in tripton, zooplankton, zoobenthos, reeds and sediments of selected lakes in north-central Poland",1998.0,Marine & Freshwater Biology,83,1434-2944,5-6,,501,526,metals; biomonitoring; sediments; tripton; assessment,"Univ Oldenburg, FB Biol, ICBM, D-26111 Oldenburg, Germany; Nicholas Copernicus Univ, Inst Biol Environm Protect, Dept Hydrobiol, PL-87100 Torun, Poland","The trace elements Pb, Cd, Cu and Zn were assayed in serving particles (tripton), biota (zooplankton, Asellus aquaticus, midge larvae, the moss Drepanocladius fluitans and the reed Phragmites australis) and profundal and littoral sediments from a dam reservoir of the Vistula River and a nearby forest lake and from six further lakes within the Masurian lake district and the Brodnica Park area. The amounts of metals in tripton differed greatly between lakes, while concentrations in zooplankton were almost homogeneous; only for an acidified clearwater lake (pH 4.8) were exceptional Pb and Cd levels recorded in zooplankton (56 mg Ph kg(-1) and 12.8 mg Cd kg(-1) d.w.). Similarly elevated levels were found in A. aquaticus, suggesting a metal-mediated retardation in growth of isopods in this lake. Great variability was also noted for profundal sediments, with highest concentrations in the Vistula dam reservoir, reaching 9-12 mg Cd kg(-1) and 580-730 mg Zn kg(-1) d.w. Apart from these exceptional values, most of our data were well within the reported literature range. Nevertheless, only Cu concentrations in profundal sediments of the lakes investigated are (with two exceptions) smaller than threshold effect levels below which biological effects are unlikely to occur.",WILEY-V C H VERLAG GMBH,94,"MUHLENSTRASSE 33-34, D-13187 BERLIN, GERMANY",BERLIN,26.0,147RB,"Zauke, GP; Bohlke, J; Zytkowicz, R; Napiorkowski, P; Gizinski, A",8.0,5.0,Marine & Freshwater Biology,INT REV HYDROBIOL,Int. Rev. Hydrobiol.,10.1002/iroh.19980830518,"Zauke, GP (corresponding author), Univ Oldenburg, FB Biol, ICBM, Postfach 2503, D-26111 Oldenburg, Germany.",CANADIAN SHIELD LAKES; HEAVY-METALS; CRUSTACEAN ZOOPLANKTON; CADMIUM CONCENTRATIONS; SURFICIAL SEDIMENTS; SETTLING PARTICLES; ECOLOGICAL RISK; AQUATIC INSECTS; POLLUTION; TOXICITY,,"Napiorkowski, Pawel/0000-0003-1987-9468","Napiorkowski, Pawel/G-6228-2014",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHROMOSOME RESEARCH,2021-04-13,WOS:000071066600002,2,0,"Barzotti, R; Pelliccia, F; Rocchi, A",J,English,Longitudinal differentiation of chromosomes of Asellus aquaticus (Crust. Isop.) by in situ nick translation using restriction enzymes and DNase I,1997.0,Biochemistry & Molecular Biology; Genetics & Heredity,5,0967-3849,8,DEC,521,526,Asellus; chromosome organization; crustacean; DNase I sensitivity; in situ nick translation,"Univ Rome La Sapienza, Dipartimento Genet & Biol Mol, I-00185 Rome, Italy; Univ Rome La Sapienza, CNR, Ctr Genet Evoluzionist, I-00185 Rome, Italy","Asellus aquaticus is an isopod crustacean whose chromosomes cannot be differentiated by G- or R-banding techniques. In this work, we have obtained a longitudinal differentiation of these chromosomes by in situ nick translation using restriction enzymes (HaeIII, DraI and BamHI) and DNase I digestions. The four nucleases, with different efficiencies, have produced similar labelling patterns. Staining with DAPI, Giemsa and chromomycin A(3) reveals that the DNA of the nick-translated regions is generally more resistant to extraction from the chromosome. The results obtained on the heteromorphic sex chromosome pair observed in about a quarter of the males of a natural population allow several hypotheses to be advanced on the nature and origin of chromosome dimorphism.",KLUWER ACADEMIC PUBL,15,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,6.0,YM469,"Barzotti, R; Pelliccia, F; Rocchi, A",4.0,4.0,Biochemistry & Molecular Biology; Genetics & Heredity,CHROMOSOME RES,Chromosome Res.,10.1023/A:1018437618242,"Rocchi, A (corresponding author), Univ Rome La Sapienza, Dipartimento Genet & Biol Mol, Ple A Moro 5, I-00185 Rome, Italy.",SEX-CHROMOSOME; RIBOSOMAL GENES; BANDS; PATTERNS; SENSITIVITY; METAPHASE,,"PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",9451951.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY A-MOLECULAR & INTEGRATIVE PHYSIOLOGY,2021-04-13,WOS:000071209300045,31,1,"Hervant, F; Mathieu, J; Barre, H; Simon, K; Pinon, C",J,English,"Comparative study on the behavioral, ventilatory, and respiratory responses of hypogean and epigean crustaceans to long-term starvation and subsequent feeding",1997.0,Biochemistry & Molecular Biology; Physiology; Zoology,118,1095-6433,4,DEC,1277,1283,starvation; re-feeding; respiration; locomotion; crustacean; hypogean; epigean,"Univ Lyon 1, ESA CNRS 5023, Hydrobiol & Ecol Souterraines, F-69622 Villeurbanne, France; Univ Lyon 1, UMR CNRS 5578, Physiol REgulat Energet Cellulaires & Mol, F-69622 Villeurbanne, France; Virginia Polytech Inst & State Univ, Dept Biol, Blacksburg, VA 24061 USA","Survival, oxygen consumption, locomotory activity and ventilatory activity were recorded during a 180-day starvation period and a subsequent 15-day feeding phase in 3 hypogean crustaceans, Niphargus rhenorhodanensis, Niphargus virei, and Stenasellus virei. For comparison, these parameters were also recorded during a 28-day starvation period and a subsequent 7-day feeding phase in two morphologically close epigean crustaceans, Gammarus fossarum and Asellus aquaticus. Hypogean crustaceans were better adapted to lack of food than epigean ones and all crustaceans previously studied, with survival times largely longer than 200 days. During long term starvation, the locomotory, ventilatory, and respiratory rates were drastically lowered in subterranean species, whereas surface species showed lower decreases in these rates and responded by a marked and transitory hyperactivity. The higher reduction in metabolic rate by hypogean species would ensure their survival during prolonged periods of food deprivation. We propose an energy strategy for food-limited hypogean crustaceans involving the ability 1) to withstand long-term starvation, and 2) to use the consumed food very efficiently. Resistance to starvation would probably involve a state of temporary torpor during which the subterranean crustaceans subsist on a high energy reserve, such as lipid stores.",ELSEVIER SCIENCE INC,38,"360 PARK AVE SOUTH, NEW YORK, NY 10010-1710 USA",NEW YORK,7.0,YN802,"Hervant, F; Mathieu, J; Barre, H; Simon, K; Pinon, C",94.0,90.0,Biochemistry & Molecular Biology; Physiology; Zoology,COMP BIOCHEM PHYS A,Comp. Biochem. Physiol. A-Mol. Integr. Physiol.,10.1016/S0300-9629(97)00047-9,"Hervant, F (corresponding author), Univ Lyon 1, ESA CNRS 5023, Hydrobiol & Ecol Souterraines, Bat 403, F-69622 Villeurbanne, France.",OXYGEN-CONSUMPTION; METABOLIC RESPONSES; SEVERE HYPOXIA; RECOVERY; AMPHIPODS; EXCRETION; ECOLOGY,mathieu@biomserv.univ-lyonl.fr,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,CANADIAN JOURNAL OF ZOOLOGY,2021-04-13,WOS:A1997YE06500002,163,9,"Lutterschmidt, WI; Hutchison, VH",J,English,The critical thermal maximum: history and critique,1997.0,Zoology,75,0008-4301,10,OCT,1561,1574,,,"We reviewed 725 papers published since Cowles and Bogert's paper on thermal tolerance (R.B. Cowles and C.M. Bogert. 1944. Bull. Am. Mus. Nat. Hist. 83: 261-296) to create a data base of studies that used critical thermal maximum or lethal-temperature methods. We found data from 388 of these papers to provide a historical and taxonomic review of various methodologies used in measuring tolerance of high temperature. We conducted this literature review of previous studies to (i) describe the history of the study of thermal tolerance and show the chronological trends in the use of lethal temperature and critical thermal maximum methods, (ii) illustrate the diversity of taxa used in thermal-tolerance studies, (iii) summarize the diversity of protocols (i.e., end points, heating rates, acclimations, etc.) used for determining thermal tolerance, (iv) provide physiological reasons why the onset of spasms is more meaningful biologically than the loss of righting response, and (v) discuss the difficulties in using data from studies in which widely divergent methods were used and the importance of obtaining comparative thermal-tolerance data for comparative physiology. The adoption of the onset of spasms as a standard end point would allow for valid comparisons of data from different studies and among taxa, an important consideration for current investigations of comparative physiology that use the comparative phylogenetic method.",CANADIAN SCIENCE PUBLISHING,185,"65 AURIGA DR, SUITE 203, OTTAWA, ON K2E 7W6, CANADA",OTTAWA,14.0,YE065,"Lutterschmidt, WI; Hutchison, VH",502.0,477.0,Zoology,CAN J ZOOL,Can. J. Zool.,10.1139/z97-783,"Lutterschmidt, WI (corresponding author), UNIV OKLAHOMA, DEPT ZOOL, NORMAN, OK 73019 USA.",HEAT-SHOCK PROTEINS; TEMPERATURE TOLERANCE; STREAM FISHES; DIFFERENT ELEVATIONS; NOTROPIS-LUTRENSIS; ASELLUS-AQUATICUS; WATER RELATIONS; CHICK-EMBRYOS; ACCLIMATION; PHYSIOLOGY,,,,,1480-3283,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:A1997YC68800004,22,2,"Cuppen, JGM; VandenBrink, PJ; VanderWoude, H; Zwaardemaker, N; Brock, TCM",J,English,Sensitivity of macrophyte-dominated freshwater microcosms to chronic levels of the herbicide linuron .2. Community metabolism and invertebrates,1997.0,Environmental Sciences & Ecology; Toxicology,38,0147-6513,1,OCT,25,35,,"WINAND STARING CTR INTEGRATED LAND SOIL & WATER R,DLO,NL-6700 AC WAGENINGEN,NETHERLANDS","Effects of a chronic application of the herbicide Afalon (active ingredient linuron) on physicochemical conditions, decomposition of plant litter, and densities of zooplankton and macroinvertebrates were studied in indoor microcosms intended to model drainage ditches, For 28 days, concentrations of 0, 0.5, 5, 15, 50, and 150 mu g/L linuron were maintained, each in two replicates, The microcosms were dominated by the macrophyte Elodea nuttallii. The functional response of the ecosystem is discussed in relation to shifts in community structure. Treatment effects of linuron on community metabolism, as a direct effect of the inhibition of the photosynthesis of macrophytes and algae, resulted in a decrease in dissolved oxygen and pH, and an increase in alkalinity and conductivity (NOEC 0.5 mu g/L). During the posttreatment period, differences between controls and highest dose fell gradually, but were still significant 7 weeks after the start of linuron application, Decomposition of particulate organic material in litter bags was not affected, despite decreases in DO, The negative effect of linuron on several algae (cryptophytes, diatoms) and the positive effect on the green alga Chlamydomonas resulted in a decrease of several Rotatoria and an increase in Copepoda, and, to a lesser extent, Cladocera, The complete disappearance of the macrophyte E. nuttallii in the 150 mu g/L microcosms and a 50% reduction of its biomass in the 50 mu g/L microcosms reduced the numbers of the snail Physella acuta, which normally inhabits macrophytes. Artificial substrates indicated a significant increase in the isopod Asellus aquaticus in the 50 and 150 mu g/L microcosms during the posttreatment period, This, however, was counteracted by a significant decrease in A. aquaticus at the final harvest, Changes in the ecosystem structure (decline in macrophyte biomass) made the artificial substrates more attractive. (C) 1997 Academic Press.",ACADEMIC PRESS INC JNL-COMP SUBSCRIPTIONS,34,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495",SAN DIEGO,11.0,YC688,"Cuppen, JGM; VandenBrink, PJ; VanderWoude, H; Zwaardemaker, N; Brock, TCM",42.0,38.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1006/eesa.1997.1556,"Cuppen, JGM (corresponding author), WAGENINGEN UNIV AGR,DEPT WATER QUAL MANAGEMENT & AQUAT ECOL,POB 8080,NL-6700 DD WAGENINGEN,NETHERLANDS.",INSECTICIDE DURSBAN(R) 4E; WATER MODEL-ECOSYSTEMS; ATRAZINE; CHLORPYRIFOS; ENCLOSURES; GROWTH; PONDS; FATE,,"van den brink, Paul/0000-0002-7241-4347","van den Brink, Paul J/E-8315-2013; van den brink, Paul/AAT-7144-2020",9352211.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,BIOLOGICAL REVIEWS OF THE CAMBRIDGE PHILOSOPHICAL SOCIETY,2021-04-13,WOS:A1997YA26000001,151,4,"MacNeil, C; Dick, JT; Elwood, RW",J,English,The trophic ecology of freshwater Gammarus spp. (Crustacea: Amphipoda): Problems and perspectives concerning the functional feeding group concept,1997.0,Life Sciences & Biomedicine - Other Topics,72,0006-3231,3,AUG,349,364,fish; freshwater; functional feeding group; Gammarus spp.; macroinvertebrate; predation; shredder; trophic,,"Gammarus spp. are widespread throughout a diverse range of freshwater habitats and can be the dominant part of many benthic macroinvertebrate assemblages, in terms of both numbers and/or biomass. Although the vast majority of studies have emphasized the herbivorous nature of Gammarus spp, and their 'shredder' functional feeding group (FFG) classification, we show that a far wider food base is exploited than has been previously acknowledged. This 'plasticity' as herbivore/predator is linked to the success of Gammarus spp. in persisting in and colonizing/invading disturbance-prone ecosystems. Intraguild predation and cannibalism are more common than previously realized. This behaviour appears to be a causal mechanism in many amphipod species replacements. Additionally, Gammarus spp. are major predators of other members of the macroinvertebrate community. Furthermore, while many studies have emphasized fish predation on Gammarus spp., we illustrate how this fish:amphipod, predator:prey interaction may be a two-way process, with Gammarus spp. themselves preying upon juvenile and wounded/trapped fish. We urge that a new realism be adopted towards the trophic ecology of Gammarus spp. and their role as predators and prey and that previously established FFG assumptions of both the food and the feeder be questioned critically.",CAMBRIDGE UNIV PRESS,152,"40 WEST 20TH STREET, NEW YORK, NY 10011-4211",NEW YORK,16.0,YA260,"MacNeil, C; Dick, JT; Elwood, RW",338.0,330.0,Biology,BIOL REV,Biol. Rev. Cambridge Philosophic. Soc.,10.1017/S0006323196005038,"MacNeil, C (corresponding author), QUEENS UNIV BELFAST,CTR MED BIOL,SCH BIOL & BIOCHEM,97 LISBURN RD,BELFAST BT9 7BL,ANTRIM,NORTH IRELAND.",ASELLUS-AQUATICUS L; PULEX L; MACROINVERTEBRATE COMMUNITIES; GAMMARIDEAN AMPHIPODS; DUEBENI-CELTICUS; LEAF LITTER; DIFFERENTIAL PREDATION; INTRAGUILD PREDATION; POPULATION-DYNAMICS; STREAM ECOSYSTEMS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,ENVIRONMENTAL TOXICOLOGY AND WATER QUALITY,2021-04-13,WOS:A1997WV37300004,47,0,"Pawlisz, AV; Kent, RA; Schneider, UA; Jefferson, C",J,English,Canadian Water Quality Guidelines for chromium,1997.0,Environmental Sciences & Ecology; Toxicology; Water Resources,12,1053-4725,2,MAY,123,183,Canadian Water Quality Guidelines; chromium,"ENVIRONM CANADA, ECOSYSTEM CONSERVAT DIRECTORATE, EVALUAT & INTERPRETAT BRANCH, OTTAWA, ON K1A 0H3, CANADA","Canadian Water Quality Guidelines (CWQG) are numerical or narrative limits that protect designated water uses. Development of CWQG is based on review of chromium's properties, uses, fate in the environment, ambient levels, accumulation in biota, and toxicity. Chromium's principal uses and entry into the environment include electroplating, production of paints and pigments, tanning, wood preservation, chromium chemicals production, metal smelting, and pulp and paper production. Concentrations of chromium in Canada range between 1 and 545,000 ng.m(-3) in air, 0.001 and 0.165 mg.L-1 in water, nondetectable and 31,000 mg.kg(-1) in sediments, 10 and 5000 mg.kg(-1) in soils, 0.006 and 18 mg.kg(-1) in plants, and 0.03 and 1.6 mg.kg(-1) in animals. In nature, trivalent chromium sorbs to various ligands and forms insoluble entities becoming unavailable for uptake by biota. Hexavalent chromium forms many soluble salts that can enter body membranes and induce a toxic response. Estimates of toxicity of hexavalent chromium to aquatic life range from 0.0006 mg.L-1 (reduction in algal growth) to 1000 mg.L-1 (decrease in rest time of Chironomus tentans). For trivalent chromium the toxicity ranges from 0.002 mg.L-1 (reduction in filtering rate of Perna perna) to 937 mg.L-1 (48-h LCS50 of Asellus aquaticus). Plants are affected by the concentrations of hexavalent chromium ranging from 0.16 mg.L-1 (growth reduction in lettuce) to 75 mg.L-1 (no effects in sweet orange). For trivalent chromium the toxicity ranges between 0.104 mg.L-1 (reduction in root growth of oats) and 50 mg.L-1 (stunted growth of corn and tomato). Terrestrial animals such as the beagle dog can be affected by concentrations exceeding 62.7 mg.L-1 (CrVI). Mice can tolerate 100 mg.L-1 of hexavalent chromium. Trivalent chromium has adverse effects on rats and mice at 28.0 mg.L-1. For freshwater life, guidelines of 0.001 (Cr VI; full) and 0.008 (Cr III; interim) mg.L-1 are recommended. For marine life, guidelines of 0.001 (Cr VI; draft) and 0.05 (Cr III; interim) mg.L-1 are recommended. Irrigation guidelines are set at 0.008 (Cr VI) and 0.005 (Cr III). A guideline of 0.05 mg.L-1 is recommended for drinking and livestock waters. (C) 1997 by John Wiley & Sons, Inc.",WILEY,370,"111 RIVER ST, HOBOKEN, NJ 07030 USA",HOBOKEN,61.0,WV373,"Pawlisz, AV; Kent, RA; Schneider, UA; Jefferson, C",68.0,63.0,Environmental Sciences; Toxicology; Water Resources,ENVIRON TOXIC WATER,Environ. Toxicol. Water Quality,,,TROUT SALMO-GAIRDNERI; EARLY-LIFE STAGES; NEANTHES-ARENACEODENTATA POLYCHAETA; AMPHIPOD ALLORCHESTES-COMPRESSA; DIATOM THALASSIOSIRA-PSEUDONANA; NEMATODE MONHYSTERA-DISJUNCTA; ESTIMATING CHRONIC TOXICITY; ATTACHED FILAMENTOUS ALGAE; HEXAVALENT CHROMIUM; HEAVY-METALS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OIKOS,2021-04-13,WOS:A1997WJ10900004,6,0,"Basset, A",J,English,Mechanisms relating biomass concentration in individuals to interspecific resource competition,1997.0,Environmental Sciences & Ecology,78,0030-1299,1,FEB,31,36,,,"This paper investigates the relationships between competition strength on individuals. as measured by food absorption variations, and competitor body size. To this end I analysed the feeding behaviour of individuals of the freshwater isopod Proasellus coxalis under laboratory manipulation of competitor biomass, number of competitors into which biomass was partitioned (i.e., degree of biomass concentration) and time lag among resource utilizations (i.e., co-occurrence vs temporal separation of competitors). The study was carried out in the home range of single P. coxalis utilizing P-32-labelled resources. In order to manipulate biomass concentration, competitors used were smaller mayflies (Caenis sp. gr. macrura), conspecifics or larger gastropods (Planorbarius corneus and Lymnaea truncatula). Under co-occurrence conditions, food absorption of the target P. coxalis individual did not change significantly with increasing body size of a single competitor, but it was reduced to less than 5% with several small competitors. On the contrary, in conditions of temporal separation, individual absorption rate decreased significantly with the increase of the overall biomass of competitors which already exploited the resources, but it was not affected by biomass concentration. These patterns emphasize the role of spatio-temporal size-related constraints on home-range resource harvesting as a coexistence mechanism in detritivorous guilds.",MUNKSGAARD INT PUBL LTD,18,"35 NORRE SOGADE, PO BOX 2148, DK-1016 COPENHAGEN, DENMARK",COPENHAGEN,6.0,WJ109,"Basset, A",17.0,17.0,Ecology,OIKOS,Oikos,10.2307/3545797,"Basset, A (corresponding author), UNIV CAGLIARI,DIPARTIMENTO BIOL ANIM & ECOL,VIALE POETTO 1,I-09126 CAGLIARI,ITALY.",ASELLUS-AQUATICUS L; GAMMARUS-PULEX L; POPULATION-DYNAMICS; DETRITIVORES; LIMITATION,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,HYDROBIOLOGIA,2021-04-13,WOS:A1996WJ83800033,16,0,"Monahan, C; Caffrey, JM",J,English,The effect of weed control practices on macroinvertebrate communities in Irish Canals,1996.0,Marine & Freshwater Biology,340,0018-8158,1-3,DEC 6,205,211,weed cutting; aquatic herbicides; dichlobenil; macrophyte-macroinvertebrate interrelationships,,"Macroinvertebrates in aquatic habitats form an integral part of the diet of many freshwater fish. It is therefore important to understand the effects that weed control practices have on this community in canal fishery watercourses. The principal forms of weed control operated in the Grand and Royal Canals include mechanical cutting, using a variety of boat-mounted and land-based apparatus, and chemical treatment using dichlobenil. The community composition and relative abundance of macroinvertebrates in control, mechanically cut and dichlobenil treated canal sites was recorded on three to five occasions between 1993 and 1994. The results indicated that Asellus aquaticus was the dominant organism at all canal locations. The land-based Mowing Bucket effected the greatest reduction in macroinvertebrate numbers in the immediate aftermath of the cut. This reflects the capacity of the machine to cut vegetation to canal bed level, thereby removing any substrate for colonisation. At all eight sites examined, macroinvertebrate numbers increased relatively rapidly following treatment and no adverse effect on dependent fish life resulted. The Office of Public Works policy of removing obstructive vegetation from a central navigation channel, while preserving weeded marginal fringes, minimises che impact of weed control operations on the macroinvertebrate fauna.",KLUWER ACADEMIC PUBL,25,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,7.0,WJ838,"Monahan, C; Caffrey, JM",26.0,25.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00012756,"Monahan, C (corresponding author), CENT FISHERIES BOARD,MOBHI RD,DUBLIN 9,IRELAND.",MACROPHYTES; MANAGEMENT; SYSTEM; LAKE,,,,,,,,,9th International Symposium on Aquatic Weeds,,1994,"DUBLIN, IRELAND",,,European Weed Res Soc,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:A1996VY76100004,4,0,"Mosslacher, F; desChatelliers, MC",J,English,"Physiological and behavioural adaptations of an epigean and a hypogean dwelling population of Asellus aquaticus (L) (Crustacea, Isopoda)",1996.0,Marine & Freshwater Biology,138,0003-9136,2,DEC,187,198,,"UNIV LYON 1,F-69622 VILLEURBANNE,FRANCE","An epigean living population of A. aquaticus was compared with an unpigmented and eyeless subterranean dwelling population of the same species. The latter was found in a karstic system in south-east Romania. The oxygen consumption of individuals of both populations was investigated with a closed respirometer. Movement and feeding activities were studied in infrared light using a video camera technique. Compared to the hypogean population, the epigean one feeds actively, its movement is limited, it has a low respiration rate, and the individual oxygen consumption is higher. The differences in the respiration, movement and feeding patterns are discussed using field and laboratory data. We conclude that the two different populations of A. aquaticus showed special adaptations to the habitats within which they were found. With further morphological and genetic investigations this subterranean population of A. aquaticus could be described as a new taxon.",E SCHWEIZERBART'SCHE VERLAGS,30,"NAEGELE U OBERMILLER JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,12.0,VY761,"Mosslacher, F; desChatelliers, MC",16.0,16.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,,"Mosslacher, F (corresponding author), AUSTRIAN ACAD SCI,INST LIMNOL,GAISBERG 116,A-5310 MONDSEE,AUSTRIA.",FUNGI,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS DE L ACADEMIE DES SCIENCES SERIE III-SCIENCES DE LA VIE-LIFE SCIENCES,2021-04-13,WOS:A1996WC75100001,5,0,"Hervant, F",J,English,The activities of enzymes associated with the intermediary and energy metabolism in hypogean and epigean crustaceans,1996.0,Life Sciences & Biomedicine - Other Topics; Science & Technology - Other Topics,319,0764-4469,12,DEC,1071,1077,crustacean; hypogean; epigean; enzyme activities; metabolism; anaerobiosis,,"The activities of 18 enzymes involved in the intermediary and energy metabolism were measured in certain widely-spread peracarid crustaceans: 3 hypogean (Niphargus virei, Niphargus rhenorhodanensis and Stenasellus virei) and 2 epigean (Gammarus fossarum and Asellus aquaticus) ones. The activities of numerous enzymes were correlated with the known metabolic rates of the 5 species. Such rates are reduced in hypogean organisms: levels of enzymatic activity in subterranean species were 1.2 to 8.6 times lower than in epigean species of the main key regulatory enzymes involved in the Krebs cycle and glycolysis (phosphofructokinase, pyruvate kinase, hexokinase and citrate synthetase). The relative activities of phosphofructokinase, glycogen phosphorylase and hexokinase clearly indicated that glycogen was the main fuel oxidized in both epigean and hypogean organisms. A higher glycogen phosphorylase/hexokinase ratio in hypogean than in epigean crustaceans showed that subterranean species has a greater ability to function anaerobically. The presence of high activities of glutamate-pyruvate transaminase and lactate dehydrogenase in all species (and of malate dehydrogenase and fumarase in hypogean species) was indicative of a coupled fermentation of glycogen and glutamate during anaerobiosis, with lactate and alanine as end-products (as well as succinate in hypogean species). A low fructose-1,6-bisphosphatase/phosphofructokinase ratio, associated with a low level of phosphoenolpyruvate carboxykinase activity, indicated that the glycolytic pathway was active and that gluconeogenic ability was limited in epigean crustaceans. In contrast, in hypogean species, association of a high ratio and a high level of phosphoenolpyruvate carboxykinase activity suggested a low glycolytic activity and a high gluconeogenic ability.",EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER,52,"141 RUE JAVEL, 75747 PARIS, FRANCE",PARIS,7.0,WC751,"Hervant, F",15.0,14.0,Biology; Multidisciplinary Sciences,CR ACAD SCI III-VIE,Comptes Rendus Acad. Sci. Ser. III-Sci. Vie-Life Sci.,,"Hervant, F (corresponding author), UNIV LYON 1,ESA CNRS 5023,BATIMENT 403,F-69622 VILLEURBANNE,FRANCE.",POSTERIOR ADDUCTOR MUSCLE; SUBSEQUENT RECOVERY; SCAPHARCA-INAEQUIVALVIS; LACTATE-DEHYDROGENASE; ANAEROBIC METABOLISM; SEVERE HYPOXIA; ANOXIA; INVERTEBRATES; PHOSPHOFRUCTOKINASE; PHOSPHORYLASE,,,,9091176.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EVOLUTIONARY ECOLOGY,2021-04-13,WOS:A1996VU44800006,4,0,"Yamamura, N; Jormalainen, V",J,English,Compromised strategy resolves intersexual conflict over pre-copulatory guarding duration,1996.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,10,0269-7653,6,NOV,661,680,pre-copulatory mate guarding; intersexual conflict; sex ratio; mating cycle synchronicity; compromised solution,"UNIV TURKU, DEPT BIOL, FIN-20500 TURKU, FINLAND","An evolutionarily stable strategy (ESS) on pre-copulatory mate-guarding duration is separately obtained for males and females, by assuming that either the male or female can control perfectly the timing of guarding. A difference between sexes in an ESS brings on an intersexual conflict, in particular when the ESS of the actively searching sex (usually male) is longer than that of the other. We analyse two extreme situations, in which the female mating stages are either perfectly synchronized or uniformly distributed. The analysis reveals that (1) the male ESS for guarding duration is longer than the female ESS in the synchronized case if the sex ratio is male-biased, (2) the difference in ESSs is higher for a more male-biased sex ratio, less guarding costs or a higher encounter rate, and (3) an asynchronous female mating cycle extends the conflict region towards female-biased sex ratios. We show by including conflict costs in fitnesses of both sexes that intersexual conflict may be resolved by a compromised solution, where the starting time of mate guarding is an intermediate value between the ESSs of the two sexes. This compromised strategy depends on both fitness increments of winning the conflict and physical power in controlling the opponent and tends to approach the ESS of the commoner sex in highly biased sex ratios. If both actors engaged in a conflict have enough information on each other, a compromise without an overt struggle may be reached.",SPRINGER,50,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,20.0,VU448,"Yamamura, N; Jormalainen, V",32.0,32.0,Ecology; Evolutionary Biology; Genetics & Heredity,EVOL ECOL,Evol. Ecol.,10.1007/BF01237713,"Yamamura, N (corresponding author), SAGA MED SCH, DEPT NAT SCI, NABESHIMA, SAGA 849, JAPAN.",PARENT-OFFSPRING CONFLICT; GAMMARUS-PULEX CRUSTACEA; SEXUAL CONFLICT; EVOLUTIONARY STABILITY; PRECOPULA DURATION; FEMALE RESISTANCE; ASELLUS-AQUATICUS; AMOROUS GAMMARUS; MATING PATTERNS; SIZE,,"Jormalainen, Veijo/0000-0001-6346-2585","Jormalainen, Veijo/B-2073-2008",,1573-8477,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1996WB14600016,9,0,"Turk, S; Sket, B; Sarbu, S",J,English,Comparison between some epigean and hypogean populations of Asellus aquaticus (Crustacea: Isopoda: Asellidae),1996.0,Marine & Freshwater Biology,337,0018-8158,1-3,NOV 1,161,170,Isopoda; Asellus aquaticus; morphology; cave adaptation; Slovenia; Romania,"UNIV CINCINNATI,DEPT BIOL SCI,CINCINNATI,OH 45221","Epigean and hypogean populations of Asellus aquaticus (Linne) from Slovenia (A. a. aquaticus, A. a. carniolicus Sket, A. a. cavernicolus Racovitza) were compared morphologically with those from Romania (A. a. aquaticus, A. a. ssp. from Mangalia). The highly troglomorphic Slovenian race (A. a. cavernicolus) was the reference for assessing the degree of troglomorphism in the Romanian cave population. Of 61 measured characters, most proved discriminative and many were classified according to their presumed nature (reductive and progressive troglomorphisms, paedomorphoses, K-strategy traits). In Slovenian hypogean population (A. a. cavernicolus), a combination of regressive and progressive troglomorphic traits is present: total depigmentation, eye and cuticular structural reduction, and body and appendage elongation. Some traits which might indicate paedomorphosis also occur. The most significant shared characters of the assumed sister taxa A. a. cavernicolus (cave) and A. a. carniolicus (epigean) are isometric uropods and pereiopods, as well as the size of pleopod V and its large 'area'. Although some progressive troglomorphisms (appendage elongation) are not present in the Romanian hypogean population (A. a. ssp.-Mangalia), a number of adaptive troglomorphic traits distinguish this population from the epigean one. It is totally depigmented, with reduced eyes and a smaller number of eggs. It also exhibits traits which might indicate paedomorphosis. Probable reasons for absence of the constructive troglomorphisms are discussed. The Romanian hypogean populations are not uniform. Specimens from Movile cave resemble some peltate asellids in head and pleotelson shape. In the peripheral range of this hypogean population, however, there are signs of an introgression with the epigean population. Details of the pleopods, as well as the biogeographical situation, support the conspecifity of A. a. ssp.-Mangalia with A. a. aquaticus.",KLUWER ACADEMIC PUBL,18,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,10.0,WB146,"Turk, S; Sket, B; Sarbu, S",36.0,33.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00028517,"Turk, S (corresponding author), UNIV LJUBLJANA,BIOTEHN FAK,ODDELEK BIOL,VECNA POT 111,PP 2995,LJUBLJANA 1001,SLOVENIA.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PHYSIOLOGICAL ZOOLOGY,2021-04-13,WOS:A1996VU67000001,14,1,"Hervant, F; Mathieu, J; Garin, D; Freminet, A",J,English,"Behavioral, ventilatory, and metabolic responses of the hypogean amphipod Niphargus virei and the epigean isopod Asellus aquaticus to severe hypoxia and subsequent recovery",1996.0,Physiology; Zoology,69,0031-935X,6,NOV-DEC,1277,1300,,"UNIV LYON 1,SERV PHYSIOL METAB INTERMEDIAIRE & ENERGET,F-69622 VILLEURBANNE,FRANCE","Tbe locomotory and ventilatory activities and the intermediary and energy metabolism modifications of the hypogean amphipod Niphargus virei and the epigean isopod Asellus aquaticus were compared during severe hypoxia (<0.03 kPa) and subsequent recovery. The aims of this study were (1) to determine why the subterranean species displayed a greater tolerance of hypoxia than A. aquaticus and numerous other epigean crustaceans, (2) to confirm previous results obtained with the hypogean amphipod Niphargus rhenorhodanensis and the epigean amphipod Gammarus fossarum, (3) to provide an interspecific comparison of epigean species in order to see if responses showed by epigean amphipods during hypoxia and recovery can be extended to epigean isopods, and (4) to better understand the ecological problems of the hypogean organism's survival and perennation in subterranean habitats. Both organisms responded to long-term experimental severe hypoxia with classical anaerobic metabolism, characterized by a decrease in ATP and phosphagen, the use of glycogen and glutamate, and the accumulation of lactate (with some alanine). In addition, some accumulation of succinate was found in N. virei. Lactate (and succinate for N. virei) was also largely excreted by both amphipods, which is unusual for the crustacea in general. Compared with A. aquaticus and most other epigean crustaceans, N. virei showed large amounts of stored glycogen and arginine phosphate. These differences in glycogen and phosphagen stores, and the ability to reduce glycolytic flux and energetic expenditures linked to locomotion and ventilation extended the survival of hypogean crustaceans under experimental anaerobiosis (LT(50) was 52.1 h for N. virei and 19.7 h for A. aquaticus during severe hypoxia at 11 degrees C). During recovery, both species displayed characteristic hyperventilation, slow locomotory activity, and predominantly aerobic metabolism. Asellus aquaticus excreted a large part of the lactate accumulated during severe hypoxia, whereas N. virei remetabolized it, as it had a higher lactate-derived glyconeogenesis capacity. The disposal of end products and replenishing of glycogen, ATP, and phosphagen required more than 24 h for both organisms. Niphargus virei showed a faster and more complete replenishment of ATP and arginine phosphate levels than A. aquaticus. Data concerning locomotory, ventilatory, and metabolic responses to hypoxia and subsequent recovery in N. virei and A. aquaticus are similar to those obtained with N. rhenorhodanensis and G. fossarum.",UNIV CHICAGO PRESS,54,"5720 S WOODLAWN AVE, CHICAGO, IL 60637",CHICAGO,24.0,VU670,"Hervant, F; Mathieu, J; Garin, D; Freminet, A",51.0,49.0,Physiology; Zoology,PHYSIOL ZOOL,Physiol. Zool.,10.1086/physzool.69.6.30164261,"Hervant, F (corresponding author), UNIV LYON 1,ESA CNRS 5023,43 BLVD 11 NOVEMBRE 1918,F-69622 VILLEURBANNE,FRANCE.",CARCINUS-MAENAS L; ENERGY-METABOLISM; ANAEROBIC METABOLISM; SCAPHARCA-INAEQUIVALVIS; ENVIRONMENTAL ANOXIA; MENIPPE-MERCENARIA; MUSCULAR WORK; LACTIC-ACID; STONE CRAB; CRUSTACEA,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1996VY79800003,9,1,"Savage, AA",J,English,Density dependent and density independent relationships during a twenty-seven year study of the population dynamics of the benthic macroinvertebrate community of a chemically unstable lake,1996.0,Marine & Freshwater Biology,335,0018-8158,2,OCT 18,115,131,density dependent; density independent; macroinvertebrates; communities; population dynamics; abiotic factors,,"Data are given on net precipitation, water chemistry, vegetation cover and the population dynamics of 20 taxa of benthic macroinvertebrates from the total of 40 recorded in the lake. The relationships between data sets were investigated by bivariate analysis. The relationships between abiotic factors are best described by linear equations as are some relationships between Sigara concinna, Sigara dorsalis, Potamopyrgus jenkinsi and environmental factors. The relationships of numbers of Gammarus tigrinus with temperature, Sigara stagnalis with conductivity, Corixidae with time and Sigara lateralis, Theromyzon tessulatum and Piscicola geometra with vegetation cover are best described by exponential equations. The relationships between the population dynamics of pairs of certain taxa viz. Gammarus tigrinus and G. duebeni, G. tigrinus and Asellus aquaticus, G. tigrinus and Corixidae, Sigara dorsalis and S. concinna, are best described by power equations. The relationship of vegetation cover with time and the population dynamics of many taxa are best described by logarithmic logistic equations. Both density dependent and density independent relationships appear to be responsible for changes in numbers and taxa within the total community. Density independent relationships are most important at times of environmental change while density dependent relationships, though operating continuously, are most important when conditions are stable.",KLUWER ACADEMIC PUBL,36,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,17.0,VY798,"Savage, AA",21.0,18.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00015273,"Savage, AA (corresponding author), UNIV KEELE,DEPT BIOL SCI,KEELE ST5 5BG,STAFFS,ENGLAND.",GAMMARUS-TIGRINUS SEXTON; INLAND SALINE LAKE; CRUSTACEA; AMPHIPODA; WATER; BUGS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:A1996VQ16200003,12,0,"vanHattum, B; vanStraalen, NM; Govers, HAJ",J,English,Trace metals in populations of freshwater isopods: Influence of biotic and abiotic variables,1996.0,Environmental Sciences & Ecology; Toxicology,31,0090-4341,3,OCT,303,318,,"FREE UNIV AMSTERDAM, DEPT ECOL & ECOTOXICOL, NL-1081 HV AMSTERDAM, NETHERLANDS; UNIV AMSTERDAM, DEPT ENVIRONM & TOXICOL CHEM, NL-1018 WV AMSTERDAM, NETHERLANDS","Trace metal levels in water, sediments and freshwater isopods from 28 different water systems in the Netherlands were measured during the period of 1986 to 1989. Distinct element-specific internal distribution patterns were present, with Cd and Cu stored mainly in the hepatopancreas (30-60% of total body burden) and Pb and Zn in the hindgut and exoskeleton with hemolymph. Mean whole-body concentrations of the non-essential elements Cd and Pb in individually analyzed isopods varied over three orders of magnitude between populations. The variability of Zn and Cn were within one order of magnitude difference. The variability of trace metal levels between populations exceeded within-population variability. Within-population variability was related to seasonal and biological factors such as body weight, sex, reproductive state, and species abundance. The highest concentrations were found in small juvenile animals compared to adults, females compared to males, and Proasellus meridianus compared to Asellus aquaticus. However, after correction for size effects using a power curve regression model no significant differences remained between sex and species. Seasonal fluctuations accounted for 33-79% of the within population variability. Trace metal levels in isopods were predicted from concentrations in water and sediments in combination with aqueous Ca, Cl-, DOC, and sediment characteristics (Org-C, clay, CaCO3) using a multiple regression model. With this predictive model 42-63% of the variance could be explained. In situ determined partitioning coefficients (apparent BCF, biota-sediment BSAE and sediment-water distribution coefficient Kd) varied between locations and covaried with factors related to trace metal bioavailability (aqueous Ca, Cl- and DOC, sediment Org-C, clay, and CaCO3). Especially for Cd and Cu field-derived BCF values were in agreement with previously reported experimental studies. It is concluded, that L. aquaticus may be a suitable candidate-organism for biomonitoring available trace metal levels in littoral freshwater systems. Finally, some practical recommendations are given for future field surveys with freshwater isopods with respect to sample size, allometric standardization, period of sampling and statistical design.",SPRINGER,43,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,16.0,VQ162,"vanHattum, B; vanStraalen, NM; Govers, HAJ",26.0,26.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,,"vanHattum, B (corresponding author), FREE UNIV AMSTERDAM, INST ENVIRONM STUDIES, DE BOELELAAN 1115, NL-1081 HV AMSTERDAM, NETHERLANDS.",BIVALVE MACOMA-BALTHICA; ASELLUS-AQUATICUS L; HEAVY-METALS; WATER; CADMIUM; COPPER; ACCUMULATION; ZINC; BIOACCUMULATION; SUBSTRATE,,,"van Hattum, Bert AGM/N-1706-2013",8854824.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CRUSTACEANA,2021-04-13,WOS:A1996WC59700002,0,0,"Natyaganova, AV; Kamaltynov, RM; Sherbakov, DY",J,English,"The chromosomes of Baicalasellus angarensis (Isopoda, Asellidae)",1996.0,Marine & Freshwater Biology,69,0011-216X,,SEP,696,702,,,"To elucidate the cytotaxonomic relationships of endemic Baicalian asellides, the mitotic and meiotic chromosome configurations of Baicalasellus angarensis (Isopoda) were investigated. It was shown that the haploid chromosome number of B. angarensis is: n = 8; sex chromosomes have not been found. The karyotype of B. angarensis was found to be strikingly similar to the karyotype of Asellus aquaticus. It differs from the latter only by the morphology of a single chromosome pair and the number of chiasmata in metaphase 1. On the other hand, it differs markedly from the Japanese Asellus hilgendorfi. Possible implications of this finding on the current view of the origin of Baicalian isopods are discussed.",E J BRILL,23,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,7.0,WC597,"Natyaganova, AV; Kamaltynov, RM; Sherbakov, DY",3.0,3.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854096X00718,"Natyaganova, AV (corresponding author), INST LIMNOL,POB 4199,IRKUTSK 664033,RUSSIA.",KARYOLOGY,,"Sherbakov, Dmitry/0000-0002-1410-392X","Sherbakov, Dmitry/ABD-9804-2020; Sherbakov, Dmitry/AAL-5260-2020",,,,,,,,,,6,,,,,,,,,,,,,,,,,,
Article,NATIONAL ACADEMY SCIENCE LETTERS-INDIA,2021-04-13,WOS:A1996WK39600004,10,0,"Kiran, U",J,English,Fungi and food preferences of aquatic invertebrates,1996.0,Science & Technology - Other Topics,19,0250-541X,9-10,SEP-OCT,188,190,fungi; decomposition; palatability; enzymes; plant-litter,,"Several stream detritus feeders prefer to eat partly decomposed leaves with a rich microbial population rather than sterile or freshly fallen leaves. Leaves may already bear inoculum of typical aquatic hyphomycetes when they enter the streams, and are in many cases soon extensively colonised by fungi. The food of leaf eating invertebrates actually consists of two main components; leaf material and fungal mycelium. Experiments conducted to investigate how individual fungi influence the palatability of leaves, demonstrate the influence of fungal population on the leaves on food selection by stream invertebrates, thereby potentially controlling and directing the turnover of leaf detritus.",NATL ACAD SCIENCES INDIA,8,"5 LAJPATRAI RD, ALLAHABAD 211002, INDIA",ALLAHABAD,3.0,WK396,"Kiran, U",4.0,4.0,Multidisciplinary Sciences,NATL ACAD SCI LETT,Natl. Acad. Sci. Lett.-India,,"Kiran, U (corresponding author), BANARAS HINDU UNIV,INST AGR SCI,DEPT MYCOL & PLANT PATHOL,VARANASI 221005,UTTAR PRADESH,INDIA.",GAMMARUS-PSEUDOLIMNAEUS; ASELLUS-AQUATICUS; DIET; PULEX,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1996VM11900008,31,0,"Dukan, S; Levi, Y; Piriou, P; Guyon, F; Villon, P",J,English,Dynamic modelling of bacterial growth in drinking water networks,1996.0,Engineering; Environmental Sciences & Ecology; Water Resources,30,0043-1354,9,SEP,1991,2002,bacterial regrowth; modelling; detachment; drinking water; biofilm; chlorine; distributions networks,"CIRSEE,F-78230 LE PECQ,FRANCE; UNIV TECHNOL COMPIEGNE,URA 1505 CNRS,LG2MS,F-60206 COMPIEGNE,FRANCE","Numerous biological and physicochemical reactions take place in drinking water distribution systems, and give rise to phenomena whereby the organoleptic or bacteriological characteristics of the distributed water are modified. Drinking water may contain residual biodegradable dissolved organic compounds which provide a primary source for the formation of a trophic chain inside the pipes. Bacterial biomasses develop mainly on the internal surface of the pipes, where they are relatively well protected from the action of chlorination agents. The detachment of these biomasses is responsible for most of the bacterial proliferation observed in water samples taken in distribution systems, and also contributes to the installation of undesirable metazoea such as Asellus aquaticus. Combatting these biological developments calls for the application of preventive and remedial treatments, and these can be studied more closely by the use of modelling. This article proposes a model for the study of the behaviour of bacterial biomasses in distribution networks, taking into account the various major parameters which govern their structure, such as the ratio of biodegradable dissolved organic carbon (BDOC), temperature, residual chlorine, pH and the hydraulic conditions of each pipe, The model makes use of the data supplied by the Piccolo hydraulic modelling software, which can provide predictive mapping of the situation of each section of the network. What is more, by taking into account the physiochemical and biological variations in the water at the intake to the network, this dynamic model forecasts the evolution of the variables depending on residence time but also on time, thus enabling better visualisation of a disruption in the system in real time. We discuss the influence of the expression of the detachment of fixed bacteria on solutions of the system of differential equations. Use of the model reveals threshold values of temperature and BDOC which can enable a natural limitation of bacterial biomasses in the network without the use of chlorine. Copyright (C) 1996 Elsevier Science Ltd",PERGAMON-ELSEVIER SCIENCE LTD,33,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,12.0,VM119,"Dukan, S; Levi, Y; Piriou, P; Guyon, F; Villon, P",63.0,54.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(96)00021-8,,ANTI-MICROBIAL SYSTEM; ESCHERICHIA-COLI; HYPOCHLOROUS ACID; BIOFILM DETACHMENT; HYDROGEN-PEROXIDE; MYELOPEROXIDASE,,,"Levi, Yves/E-4917-2010",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:A1996VF37100014,25,3,"Kiffney, PM; Clements, WH",J,English,Size-dependent response of macroinvertebrates to metals in experimental streams,1996.0,Environmental Sciences & Ecology; Toxicology,15,0730-7268,8,AUG,1352,1356,stream macroinvertebrates; metals; body size; sensitivity; microcosms,"COLORADO STATE UNIV, DEPT FISHERY & WILDLIFE BIOL, FT COLLINS, CO 80523 USA","Our previous research has shown that the effects of metals on stream benthic invertebrate populations and communities can vary within and between locations. With this in mind, we examined whether invertebrate body size could explain some of the variation in metal sensitivity within a species. Benthic macroinvertebrates from a pristine Rocky Mountain foothills' stream were collected using artificial substrates and exposed to a mixture of Cd, Cu, and Zn in stream microcosms for 10 d at their respective Colorado chronic criterion levels (4.0, 5.0, and 50 mu g/L). The effects of metals on the ephemeropterans Baetis tricaudatus (Baetidae), Ephemerella infrequens (Ephemerellidae), and Rhithrogena hageni (Heptageniidae) and the plecopteran Pteronarcella badia (Pteronarcyidae) were size dependent, as there was an inverse relationship between body size and survivorship. These results may have important implications for setting water-quality criteria for metals and For using benthic invertebrates in biological assessments.",WILEY,40,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,5.0,VF371,"Kiffney, PM; Clements, WH",55.0,54.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.5620150814,,ASELLUS-AQUATICUS L; HEAVY-METALS; CHRONIC TOXICITY; ARKANSAS RIVER; INSECTS; COLONIZATION; TEMPERATURE; CADMIUM; GROWTH; INFORMATION,,,"Clements, William/N-2686-2016",,1552-8618,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021-04-13,WOS:A1996VC43800004,29,0,"Caquet, T; Lagadic, L; Jonot, O; Baturo, W; Kilanda, M; Simon, P; LeBras, S; Echaubard, M; Ramade, F",J,English,Outdoor experimental ponds (mesocosms) designed for long-term ecotoxicological studies in aquatic environment,1996.0,Environmental Sciences & Ecology; Toxicology,34,0147-6513,2,JUL,125,133,,"INRA,UNITE ECOTOXICOL AQUAT,F-35042 RENNES,FRANCE; INA PG,ZOOL LAB,F-75231 PARIS 05,FRANCE","Outdoor artificial ponds (mesocosms) of 12 m(3) were designed for long-term ecotoxicological studies, Sediment, macrophytes (Typha angustifolia and Elodea canadensis), and free and caged freshwater snails [Lymnaea palustris (Muller)] and wood lice (Asellus aquaticus L.) were collected in nearby natural ecosystems and introduced in the mesocosms. Sixty goldfish (Carassius auratus L.) were caged in each pond, Introduced species developed and reproduced in every mesocosm, Animal species (mainly insects and amphibians) spontaneously colonized the ponds, developed, and reproduced, The resulting communities qualitatively resemble those living in natural lentic systems in the surrounding area, Homogenity in physical and chemical conditions and in abundance of phytoplanktonic, periphytic, and macroinvertebrate communities between the different mesocosms was assessed during the stabilization period (8 months), Except for periphyton biomass, no divergent evolution was observed between the ponds, Mesocosm water was slightly eutrophic, alkaline (mean pH: 8.47 +/- 0.09), and moderately hard and mineralized. The homogenous and realistic environmental conditions and high ecological representativity of the outdoor experimental ponds were suitable for extensive ecotoxicological studies, Considerations on the choice and origin of introduced species and on possible interactive effects of the transfer of organisms from natural environments, maintainance conditions, and pollutant exposure are discussed. (C) 1996 Academic Press, Inc.",ACADEMIC PRESS INC JNL-COMP SUBSCRIPTIONS,49,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495",SAN DIEGO,9.0,VC438,"Caquet, T; Lagadic, L; Jonot, O; Baturo, W; Kilanda, M; Simon, P; LeBras, S; Echaubard, M; Ramade, F",26.0,24.0,Environmental Sciences; Toxicology,ECOTOX ENVIRON SAFE,Ecotox. Environ. Safe.,10.1006/eesa.1996.0053,"Caquet, T (corresponding author), UNIV PARIS 11,LAB ECOL & ZOOL,URA CNRS 1492,BAT 442,F-91405 ORSAY,FRANCE.",FRESH-WATER MESOCOSMS; COMMUNITIES; DELTAMETHRIN; GASTROPODS; LINDANE; ECOLOGY; GROWTH; SHIELD; LAKES,,,,8812177.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CRUSTACEANA,2021-04-13,WOS:A1996UY39500004,11,1,"Vitagliano, E; Marchetti, E; Vitagliano, G",J,English,"Skewed sex-ratio, monogeny, and maternal sex determination in two geographical populations of Asellus aquaticus (L, 1758) (Isopoda)",1996.0,Marine & Freshwater Biology,69,0011-216X,,JUN,455,475,,,"For the great majority of the amphipods and isopods a biased sex ratio is attributed to photoperiod or to micro-organisms present in the cytoplasm of the oocytes. Since monogenous pairs are found in orders and species phylogenetically very far from each other, in order to try and clarify this phenomenon, two geographical populations of Asellus aquaticus (Isopoda) were collected in the Netherlands and in Italy, where the duration of the cold season and the photoperiods are very different. From these parental (P) populations, 200 females and 200 males per population were randomly subsampled and bred under standard conditions of temperature and nutrition. One half of each P generation was subjected to 18 hours light per day, the other to 14 hours light per day. New-born of each pair (laboratory F1) were grown up to differentiation of external sexual characters under the same photoperiod experienced by the parents. Also, hybrid F1 generation, born from mating between the two populations, was conceived in both photoperiods, but, after birth, one half of the new-born was maintained in the same photoperiod in which they were conceived, the other half was grown under the other photoperiod. No significant difference between the sex ratios was found in the two photoperiods, neither between Italian nor between Dutch Asellus. The sex ratio of Dutch F1 is female biased, while it is male biased in Italian Asellus. The female- or male-biased sex ratio can be ascribed to the high proportion of monogenous pairs in which offspring sex ratio is significantly biased towards females (in the Dutch population) and/or in which offspring sex ratio is significantly biased towards males (in the Italian population). On the basis of these results we can rule out the influence of photoperiod in sex determination for this species. The results shown by the hybrids suggest some form of maternal inheritance. In fact, the hybrids' sex ratio as indeed the frequency of pairs breeding one sex alone, was skewed towards the same sex for which the maternal population showed a bias. We therefore consider the possibility of sex determination associated with a cytoplasmic factor (a mitochondrial DNA?), which would inactivate only one of the two sets of genes governing sex determination.",BRILL ACADEMIC PUBLISHERS,58,"PLANTIJNSTRAAT 2, P O BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,21.0,UY395,"Vitagliano, E; Marchetti, E; Vitagliano, G",6.0,6.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854096X01041,"Vitagliano, E (corresponding author), UNIV ROMA LA SAPIENZA, DIPARTIMENTO GENET & BIOL MOLEC, PLE ALDO MORO 5, I-00185 ROME, ITALY.",DROSOPHILA-MELANOGASTER; ADAPTIVE SIGNIFICANCE; GAMMARUS-DUEBENI; EVOLUTION; CHROMOSOME; CRUSTACEA; ANIMALS; LETHAL; DIFFERENTIATION; MECHANISMS,,,,,1568-5403,,,,,,,,4,,,,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:A1996UT33100019,8,0,"Seaby, RMH; Martin, AJ; Young, JO",J,English,Food partitioning by lake-dwelling triclads and glossiphoniid leeches: Field and laboratory experiments,1996.0,Environmental Sciences & Ecology,106,0029-8549,4,JUN,544,550,triclads; leeches; lakes; food; competition,"UNIV LIVERPOOL,DEPT ENVIRONM & EVOLUTIONARY BIOL,LIVERPOOL L69 3BX,MERSEYSIDE,ENGLAND","The triclads Polycelis tenuis and Dugesia polychroa and the glossiphoniid leeches Glossiphonia complanata and Helobdella stagnalis are abundant on the stony shores of productive British lakes. All species are food limited and there is considerable overlap in the diets of these triclads and leeches. This paper investigates interactions between the two groups using field and laboratory experiments to try to identify the mechanism of their co-existence. Triclad and leech numbers were manipulated inside experimental enclosures, matched by controls, erected on the stony shore of an eutrophic English lake. Increasing the numbers of P. tenuis and D. polychroa prior to the reproductive season in spring resulted in a significant decrease in the numbers and body size of G. complanata and H. stagnalis compared with control populations in the summer months, and vice versa. However, increases and decreases were temporary with a readjustment of numbers and body size to control levels in the autumn after reproduction had ceased. It is suggested that increasing the numbers of either group elevated the severity of both intra- and interspecific competition for food. The ''condition'' of prey may, in part, determine the strength of competition, and this was examined in laboratory experiments in which different densities and ratios of P. tenuis and H. stagnalis were offered either live of recently crushed Asellus aquaticus. In monospecific controls, growth rates of P. tenuis were greater when fed on crushed than live Asellus, but there was no significant difference in the growth of H. stagnalis fed either live or crushed prey. In mixed cultures of predators, P. tenuis and H. stagnalis were the superior competitors when fed on crushed and live Asellus, respectively. However, when competitive pressure was low, at low densities of predators, the presence of H. stagnalis in mixed cultures fed on live prey was beneficial to the growth of P. tenuis. These results are explained in terms of the greater ability of triclads to detect damaged prey, leaking body fluids, due to their sophisticated chemosensory system, and the ability of leeches to capture live prey due to the presence of suckers. It is concluded that co-existence of the two groups in British lakes is assisted by the partitioning of food on a live or damaged basis.",SPRINGER VERLAG,21,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,7.0,UT331,"Seaby, RMH; Martin, AJ; Young, JO",7.0,7.0,Ecology,OECOLOGIA,Oecologia,10.1007/BF00329714,,TURBELLARIA; HIRUDINEA; NICHE,,,,28307456.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1996UM02700024,9,0,"Mulliss, RM; Revitt, DM; Shutes, RBE",J,English,A statistical approach for the assessment of the toxic influences on Gammarus pulex (Amphipoda) and Asellus aquaticus (Isopoda) exposed to urban aquatic discharges,1996.0,Engineering; Environmental Sciences & Ecology; Water Resources,30,0043-1354,5,MAY,1237,1243,caged macroinvertebrates; combined sewer overflow (CSO); mortality response; multiple regression; predictive equations; principal component analysis; surface water outfall (SWO); urban receiving waters,"MIDDLESEX POLYTECH,URBAN POLLUT RES CTR,LONDON N11 2NQ,ENGLAND","A statistical procedure has been developed to quantify the mortality response of caged macroinvertebrates in terms of measured environmental parameters. Populations of Gammarus pulex and Asellus aquaticus were caged in urban receiving waters downstream of a combined sewer overflow (CSO) and a surface water outfall (SWO) for 36 d. During this period of exposure, the mortality and heavy metal bioaccumulation responses of populations of both species, as well as seventeen different chemical and hydrological characteristics of the receiving watercourse were monitored. Multivariate statistical techniques, comprising principal component analysis (with VARIMAX rotation) and multiple regression analysis were used to determine the measured variables that influenced mortality. Certain parameters (BOD5, total aqueous copper concentration, flow rate and suspended solids) influenced the mortality responses of both species. Ammonia, total aqueous lead concentrations and dissolved aqueous concentrations of zinc and copper additionally affected the response of Gammarus pulex. Body concentrations of zinc, lead, cadmium and copper and dissolved aqueous concentrations of cadmium were found to be influential upon the mortality response of caged Asellus aquaticus. The relationships between the mortality responses of each species and the selected independent variables are expressed in the form of stable quantitative equations by regressing the dependent variable (ie mortality) against the principal components of the independent parameters. This statistical approach represents an important tool for interpreting large intercorrelated sets of environmental data obtained in situ. Copyright (C) 1996 Elsevier Science Ltd.",PERGAMON-ELSEVIER SCIENCE LTD,18,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,7.0,UM027,"Mulliss, RM; Revitt, DM; Shutes, RBE",15.0,15.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(95)00281-2,,POLLUTANTS; QUALITY; METALS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHROMOSOME RESEARCH,2021-04-13,WOS:A1996UW76000002,3,0,"Barzotti, R; Pelliccia, F; Rocchi, A",J,English,Heterochromatin and ribosomal genes in Asellus aquaticus (Crust Isop),1996.0,Biochemistry & Molecular Biology; Genetics & Heredity,4,0967-3849,3,APR,177,181,Asellus; crustacean; heterochromatin; ribosomal genes; silver staining,,"In the present investigation chromosomal preparations of Asellus aquaticus were sequentially stained with chromomycin A3 to reveal the heterochromatic areas, hybridized in situ with rDNA probes in order to map the ribosomal genes and finally silver stained to check the transcriptional activity of these genes. The results indicate the existence of a substantial correspondence of location and size among the heterochromatic regions and the regions over which the in situ hybridization signals spread. The ribosomal genes, quite independently of their location in the secondary constriction, can be silver stained and thus appear to be transcriptionally active. The ribosomal sequences also hybridize to the entire heterochromatic areas observed on the probable Y chromosome identified in some males of a natural population. These rRNA genes are only rarely transcriptionally active.",RAPID SCIENCE PUBLISHERS,16,"2-6 BOUNDARY ROW, LONDON, ENGLAND SE1 8NH",LONDON,5.0,UW760,"Barzotti, R; Pelliccia, F; Rocchi, A",12.0,12.0,Biochemistry & Molecular Biology; Genetics & Heredity,CHROMOSOME RES,Chromosome Res.,10.1007/BF02254955,"Barzotti, R (corresponding author), UNIV ROMA LA SAPIENZA,CTR GENET EVOLUZIONIST,DIPARTIMENTO GENET & BIOL MOLEC,CNR,5 PLE A MORO,I-00185 ROME,ITALY.",ORGANIZER ACTIVITY; SEX-CHROMOSOME; NUCLEOLUS; DIFFERENTIATION; LOCATION; CELLS; RNA,,"PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",8793199.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:A1996UJ21900004,11,0,"Sparkes, TC; Keogh, DP; Pary, RA",J,English,Energetic costs of mate guarding behavior in male stream-dwelling isopods,1996.0,Environmental Sciences & Ecology,106,0029-8549,2,APR,166,171,precopulatory mate guarding behavior; glycogen; lipid; refuge use; food deprivation,"UNIV KENTUCKY,GRAD CTR TOXICOL,LEXINGTON,KY 40506","In the stream-dwelling isopod Lirceus fontinalis, mates and females engage in a precopulatory mate guarding phase prior to mating. We examined the energetic costs of mate guarding behavior in males by separately assaying glycogen and lipid content at different time increments following mating. We found that males that had recently mated possessed reduced glycogen reserves and that these reserves were fully replenished within 36 h. Conversely, we found that male lipid reserves were unaffected by time since mating. We concluded that precopulatory mate guarding behavior is energetically costly to males and that glycogen is the energy source utilized to pay that cost. We also examined whether food deprivation during the mate guarding phase affected male energy reserves (glycogen) at the end of that phase, We found that males that were held in the laboratory and starved during mate guarding possessed reduced glycogen at the termination of the phase when compared to fed males. This reduced quantity was equivalent to the glycogen reserves of recently mated males collected from the field. We propose that food deprivation during the mate guarding phase explains the reduction in glycogen reserves at the termination of that phase. We discuss these results with reference to patterns of refuge use behavior during the mate guarding phase.",SPRINGER VERLAG,36,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,6.0,UJ219,"Sparkes, TC; Keogh, DP; Pary, RA",68.0,68.0,Ecology,OECOLOGIA,Oecologia,10.1007/BF00328595,"Sparkes, TC (corresponding author), UNIV KENTUCKY,TH MORGAN SCH BIOL SCI,DEPT ECOL EVOLUT & BEHAV,LEXINGTON,KY 40506, USA.",ASELLUS-AQUATICUS; RAPID-DETERMINATION; GAMMARUS-PULEX; CRUSTACEA; SIZE; INVESTMENT; PRECOPULA; MOSQUITOS; MODEL,,,,28307640.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TOXICOLOGY AND CHEMISTRY,2021-04-13,WOS:A1996TU20700009,1,0,"Drobne, D; Strus, J",J,English,"Moult frequency of the isopod Porcellio scaber, as a measure of zinc-contaminated food",1996.0,Environmental Sciences & Ecology; Toxicology,15,0730-7268,2,FEB,126,130,molting; zinc toxicity; toxicity testing; Porcellio scaber; crustacea,,"The effect of zinc-contaminated leaf litter (250-10,000 mu g/g dry wt.) diets on molting in Porcellio scaber, a terrestrial isopod was measured under controlled conditions. The duration of the premolt stage, the period between two successive ecdyses and the rare of molting, was followed during the exposure. Increased zinc concentration in the food caused prolongation of the molt cycle and decreased molt frequency. The duration of the premolt stage was not changed. Molt cycle was not affected drastically due to food deprivation. The application of molt cycle response to contaminated food in toxicity tests is discussed.",WILEY,31,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,5.0,TU207,"Drobne, D; Strus, J",37.0,35.0,Environmental Sciences; Toxicology,ENVIRON TOXICOL CHEM,Environ. Toxicol. Chem.,10.1002/etc.5620150209,"Drobne, D (corresponding author), UNIV LJUBLJANA, DEPT BIOL, VECNA 111, LJUBLJANA 61000, SLOVENIA.",ASELLUS-AQUATICUS L; CRUSTACEA; LITTER; SOIL; SENSITIVITY; TOXICITY; WOODLICE; CYCLE,,,"Strus, Jasna/I-4376-2019",,1552-8618,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THERMAL BIOLOGY,2021-04-13,WOS:A1996TM27500008,45,0,"Korhonen, IA; Lagerspetz, KYH",J,English,Heat shock response and thermal acclimation in Asellus aquaticus,1996.0,Life Sciences & Biomedicine - Other Topics; Zoology,21,0306-4565,1,FEB,49,56,heat shock; thermal acclimation; heat tolerance; stress proteins; Asellus aquaticus; crustacea,,"1. Three methods were used to assess the heat tolerance of adult Asellus aquaticus: critical thermal maximum (CTMax, loss of the righting reflex), temperature for the loss of pleopod movements (LTMax), and the time at 33 degrees C for the loss of pleopod activity (LT). All these measures are affected by heat shock and by thermal acclimation. 2. Heat shock (60 min at 28 degrees C) increased heat tolerance only for a period of 6-7 h after the shock. One h after the shock CTMax was increased by 2.2 degrees C, LTMax by 1.1 degrees C, and LT by 2.2 times on average. 3. Thermal acclimation after the transfer of animals from 10 degrees C to 23 degrees C caused an increase of thermal tolerance (distinct from the effects of heat shock) which began about 6 h after the transfer. This change continues for several days until a new steady level of heat tolerance has been acquired. Especially increased is CTMax; this depends on changes in the nervous function. 4. The heat shock used in this study induced the synthesis of about 50 kDa protein for at least 6 h. 5. The effects of heat shock are rapid and transient, the effects of thermal acclimation slow and cumulative. They are distinct phenomena with at least in part different mechanisms.",PERGAMON-ELSEVIER SCIENCE LTD,19,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,8.0,TM275,"Korhonen, IA; Lagerspetz, KYH",23.0,23.0,Biology; Zoology,J THERM BIOL,J. Therm. Biol.,,"Korhonen, IA (corresponding author), UNIV TURKU,DEPT BIOL,PHYSIOL ANIM LAB,SF-20500 TURKU,FINLAND.",COPEPOD EURYTEMORA-AFFINIS; BRINE SHRIMP ARTEMIA; PROTEINS; TOLERANCE; TISSUE,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Proceedings Paper,AQUATIC PREDATORS AND THEIR PREY,2021-04-13,WOS:A1996BG45D00005,2,0,"Lyndon, AR",B,English,The role of acanthocephalan parasites in the predation of freshwater isopods by fish,1996.0,Environmental Sciences & Ecology; Zoology,,,,,26,32,Acanthocephalus spp; Asellus aquaticus; behavioural alteration; colouration; transmission enhancement,"UNIV EXETER,DEPT BIOL SCI,HATHERLY LABS,EXETER EX4 4PS,DEVON,ENGLAND",,FISHING NEWS BOOKS LTD,0," FARNHAM, SURREY, ENGLAND",FARNHAM,7.0,BG45D,"Lyndon, AR",11.0,11.0,Ecology; Zoology,,,,,,,,,,,,,,Conference on Aquatic Predators and Their Prey,,"AUG, 1994","ABERDEEN, SCOTLAND",,,"European Commiss, Programme AIR, Scottish Off Agr & Fisheries Dept, Scottish Assoc Marine Sci, Atlantic Salmon Trust, Scottish Nat Heritage, Natl Rivers Authority, Salmon & Trout Assoc, World Wide Fund Nat",0-85238-230-8,,"Greenstreet, SPR; Tasker, ML",,,,,,,,,,,,,
Article,CONTRIBUTIONS TO ZOOLOGY,2021-04-13,WOS:A1996UE91800003,3,2,"Henry, JP; Magniez, G; Notenboom, J",J,French,Isopoda asellota from Turkey collected in 1987,1996.0,Zoology,66,0067-8546,1,,55,62,isopoda; Asellus; Proasellus n sp; Jaera; microparasellus sp; groundwaters; taxonomy; Turkey,"NATL INST PUBL HLTH & ENVIRONM PROTECT,LAB ECOTOXICOL,3720 BA BILTHOVEN,NETHERLANDS","Asellus aquaticus is present in 19 of about 100 Turkish ground-water stations prospected during biospeleological explorations. All specimens of these stygophilic populations remain oculate, even though their integumental pigmentation is more or less reduced. Proasellus lykaonicus Argano & Pesce, 1978 has been found again in a second cave, nearby the type locality. A large and endemic, stygobiont species, Proasellus pisidicus n. sp., from phreatic groundwater, Vilayet Burdur, and the minute Proasellus-pamphylicus n. sp. from interstitial waters of the eastern part of Vilayet Antalya are described. The stygobiont proasellids of Asia Minor, P. lykaonicus and P. pisidicus n. sp. belong to the same phylogenetic strain of Proasellus as those of Transcaucasia, Lebanon, and the Balkan Peninsula. Some Janiroidea of the genus Microparasellus are recorded from three inland groundwater localities. Finally, Jaera aff. massiliensis apparently enters fresh waters in a littoral psammic locality.",SPB ACADEMIC PUBLISHING BV,12,"PO BOX 11188, NL-1001 GD AMSTERDAM, NETHERLANDS",AMSTERDAM,8.0,UE918,"Henry, JP; Magniez, G; Notenboom, J",7.0,6.0,Zoology,CONTRIB ZOOL,Contrib. Zool.,,"Henry, JP (corresponding author), UNIV BOURGOGNE,DEPT BIOL ANIM,6 BD GABRIEL,F-21000 DIJON,FRANCE.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1995TU89900005,5,0,"Costantini, ML; Rossi, L",J,English,"Role of fungal patchiness on vegetal detritus in the trophic interactions between two brackish detritivores, Idotea baltica and Gammarus insensibilis",1995.0,Marine & Freshwater Biology,316,0018-8158,2,DEC 8,117,126,detritus; trophic niche; brackish pond; benthic invertebrates; coevolution,,"We investigated patterns of resource partitioning between two brackish crustaceans (I. baltica and G. insensibilis) on trophic mosaics of fungal species colonizing vegetal detritus. Laboratory feeding experiments were carried out to assess consumption rates and diet selection of single individuals belonging to five populations. Adults of two co-occurring population of both G. insensibilis and I. baltica and one population of G. insensibilis, occurring alone in another habitat patch, were studied. Each individual were offered both fragments of Cymodocea nodosa conditioned by 8 fungal species and sterilized fragments as sole food source for 7 days. Both species preferred 'conditioned' detritus but potential resource use was greater in G. insensibilis than in I. baltica. Individual niche breadth increased and phenotypic variability reduced in the allotopic sample. Trophic similarities were lower between individuals of co-occurring populations than between I. baltica and the allotopic G. insensibilis. The results suggest that co-occurrence is an important factor contributing to the enhancement of phenotypic variability and, consequently, to a trophic generalization at population level in G. insensibilis. It emphasizes the role of fungal patchiness on detritus in regulating resource partitioning between the two species.",SPRINGER,47,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,10.0,TU899,"Costantini, ML; Rossi, L",13.0,13.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,,"Costantini, ML (corresponding author), UNIV ROME, DIPARTIMENTO GENET & BIOL MOLEC, I-00161 ROME, ITALY.",MUD SNAILS HYDROBIIDAE; CHARACTER DISPLACEMENT; INTERSPECIFIC COMPETITION; ASELLUS-AQUATICUS; NICHE WIDTH; COEVOLUTION; DIGESTION; EVOLUTION; LIZARDS; ISOPODA,,"ROSSI, LORETO/0000-0001-8014-5397; Costantini, Maria Letizia/0000-0001-6242-558X",,,1573-5117,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1995TU89900006,8,0,"Basset, A; Glazier, DS",J,English,Resource limitation and intraspecific patterns of weight X length variation among spring detritivores,1995.0,Marine & Freshwater Biology,316,0018-8158,2,DEC 8,127,137,resource limitation; competition; weight per length; detritivores; Gammarus minus; springs; Pennsylvania,"JUNIATA COLL,DEPT BIOL,HUNTINGDON,PA 16652","This study examined the intraspecific variability of a phenotypic trait, the body weight/body length ratio, and its adequacy to provide unbiased information about patterns of resource availability among conspecific individuals. Individual body weight and length were measured for the amphipod Gammarus minus Say (and other detritivores) in samples from freshwater springs differing in expected resource availability, and from sites in which detritus abundance had been manipulated. Mean individual weight per length was lower: (a) in populations from low-richness than from high-richness detritivore guilds; (b) in populations with size-abundance distributions similar to that of the entire guild, rather than statistically different; (c) in population samples from outside than from inside the areas of detritus addition. Small-sized individuals (<3 mm) showed the largest variation among both populations and population samples. Similar differences were qualitatively observed for the other common detritivores cooccurring with G. minus in some springs. These observed patterns were in agreement with the variation of resource availability expected among field conditions, supporting the relevance of weight per length as a measure of food limitation.",KLUWER ACADEMIC PUBL,39,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,11.0,TU899,"Basset, A; Glazier, DS",23.0,23.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00016894,"Basset, A (corresponding author), UNIV CAGLIARI,DIPARTIMENTO BIOL ANIM & ECOL,I-09126 CAGLIARI,ITALY.",ASELLUS-AQUATICUS L; FOOD LIMITATION; TROPHIC NICHE; POPULATIONS; ECOSYSTEMS; STREAM; COMMUNITIES; STARVATION; CRUSTACEA; ISOPODA,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,MARINE BIOLOGY,2021-04-13,WOS:A1995TM30100007,3,0,"Iribarne, O; Fernandez, M; Armstrong, D",J,English,Precopulatory guarding-time of the male amphipod Eogammarus oclairi: Effect of population structure,1995.0,Marine & Freshwater Biology,124,0025-3162,2,DEC,219,223,,"UNIV WASHINGTON,SCH FISHERIES,SEATTLE,WA 98195; PONTIFICIA UNIV CATOLICA CHILE,DEPT BIOL,ESTAC LAS CRUCES C114D,SANTIAGO,CHILE","This study shows that population structure affects guarding time in the amphipod Eogammarus oclairi Bousfield. In the laboratory, mean guarding time depended on the male weight-frequency distribution, operational sex ratio, and male density. It was longer when the male population encompassed a broad range of weights than when the weight distribution was narrower; however, guarding time did not differ when the population's weight distribution was narrow and composed of either small or large males. Mean guarding time varied between a few hours when the operational sex ratio (male:female) was 1.3 to > 7d when the sex ratio was 2:1. It was also affected by male density, increasing as male density increased. The results suggest that the stimulus to guard depends on the intensity of male-male competition.",SPRINGER VERLAG,44,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,5.0,TM301,"Iribarne, O; Fernandez, M; Armstrong, D",22.0,22.0,Marine & Freshwater Biology,MAR BIOL,Mar. Biol.,10.1007/BF00347126,"Iribarne, O (corresponding author), UNIV MAR DEL PLATA,DEPT BIOL,FUNES 3250,RA-7600 MAR DEL PLATA,ARGENTINA.",GAMMARUS-PULEX CRUSTACEA; ASELLUS-AQUATICUS L; MATING SYSTEM; MICROHABITAT SEGREGATION; INVESTMENT STRATEGIES; SEXUAL SELECTION; REPRODUCTION; LAWRENCIANUS; BEHAVIOR; CHOICE,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,WATER AIR AND SOIL POLLUTION,2021-04-13,WOS:A1995UB05300083,12,0,"Lithner, G; Holm, K; Borg, H",J,English,Bioconcentration factors for metals in humic waters at different pH in the Ronnskar area (N Sweden),1995.0,Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences; Water Resources,85,0049-6979,2,DEC,785,790,,,"The metal content of bryophytes (Fontinalis antipyretica), invertebrates (Asellus aquaticus, Sialis lutaria, Libellulidae) and fish (Perca fluviatilis, Esox lucius) was measured along an aquatic concentration gradient of Zn, Cu, Cd, Pb, As, Hg, generated by air emissions from the Ronnskar smelters. The separation of pH effects on metal uptake, was facilitated by metal and pH vectors being mostly well separated from each others. The interpretation was facilitated by seasonal small variations in water metal content, which improved the calculation of bioconcentration factors (BCF) as a strict measure of bioavailability. It was found that BCF varied as function of element and taxon. When pH decreased, BCF also did so for Zn, Cd, Ni, Co in bryophytes, while BCF increased for Pb, Cu in in fish. We conclude and agree that one-sided focusing on total concentrations may overlook shifts in speciation due to pH in moderately acidified waters for elements like Cu and Pb.",KLUWER ACADEMIC PUBL,15,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,6.0,UB053,"Lithner, G; Holm, K; Borg, H",9.0,8.0,Environmental Sciences; Meteorology & Atmospheric Sciences; Water Resources,WATER AIR SOIL POLL,Water Air Soil Pollut.,10.1007/BF00476925,"Lithner, G (corresponding author), UNIV STOCKHOLM,INST APPL ENVIRONM RES,LAB AQUAT ENVIRONM CHEM,ITMSOLNA,S-10691 STOCKHOLM,SWEDEN.",TROUT SALVELINUS-FONTINALIS; 3 GENERATIONS; CADMIUM; BIOAVAILABILITY; TOXICITY; LEAD,,,,,,,,,5th International Conference on Acidic Deposition - Science and Policy: Acid Reign 95,,"JUN 26-30, 1995","GOTHENBURG, SWEDEN",,,"Swedish Environm Protect Agcy, Swedish Environm Res Inst, Provincial Govt Goteborg, Provincial Govt Bohus Ian",,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:A1995RR14800012,7,0,"HAM, L; QUINN, R; PASCOE, D",J,English,"EFFECTS OF CADMIUM ON THE PREDATOR-PREY INTERACTION BETWEEN THE TURBELLARIAN DENDROCOELUM-LACTEUM (MULLER, 1774) AND THE ISOPOD CRUSTACEAN ASELLUS-AQUATICUS (L)",1995.0,Environmental Sciences & Ecology; Toxicology,29,0090-4341,3,OCT,358,365,,"UNIV WALES COLL CARDIFF,SCH PURE & APPL BIOL,CARDIFF CF1 3TL,S GLAM,WALES","The toxicity of cadmium to the freshwater triclad turbellarian Dendrocoelum lacteum and the isopod crustacean Asellus aquaticus was determined for each species when maintained individually (96 h LC50 for D. lacteum, 23.22 mg Cd/L, and for A. aquaticus, 0. 16 mg Cd/L) and when kept together. When exposed together over a concentration range of 20-100 mu g Cd/L, the effect of this predator-prey system was, as expected, i.e., direct toxicity to A. aquaticus, but there was also a reduction in the predation rate by D. lacteum. Both responses increased with increasing toxicant concentration. The possible causes of these observed effects, including the diet of A. aquaticus, cannibalism by A. aquaticus, and speed of the predator, are discussed. The possible ecological consequences of removing either predator or prey from a freshwater ecosystem as a result of a pollution incident are also considered.",SPRINGER VERLAG,29,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,8.0,RR148,"HAM, L; QUINN, R; PASCOE, D",20.0,20.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,10.1007/BF00212501,,FRESH-WATER MACROINVERTEBRATES; ACUTE TOXICITY; POLLUTANTS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITY,2021-04-13,WOS:A1995RT52700005,2,0,"VOLPI, EV; PELLICCIA, F; LANZA, V; BARZOTTI, R; ROCCHI, A",J,English,"SIMPLE DNA REPEATS AND SEX-CHROMOSOME DIFFERENTIATION IN ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA)",1995.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,75,0018-067X,,SEP,267,272,ASELLUS; CRUSTACEAN; ISOPOD; SEX CHROMOSOME; SIMPLE REPEATS,"UNIV ROMA LA SAPIENZA,DIPARTIMENTO GENET & BIOL MOLEC,I-00185 ROME,ITALY; CNR,IST GENET MOLEC,PORTO CONTE RES & TRAINING LABS,ALGHERO,ITALY; UNIV ROMA LA SAPIENZA,CNR,CTR GENET EVOLUZ,ROME,ITALY",The crustacean isopod species Asellus aquaticus does not usually have recognizable sex chromosomes. We previously identified a Y chromosome marked by two heterochromatic bands in some males of a population from the Sarno river near Naples. In this work we used oligonucleotide probes to test the presence and possible sex-specific distribution of five simple repeat motifs in the genome of male and female individuals from the Sarno population The five oligonucleotide probes were hybridized to enzyme-restricted genomic DNAs and the chromosome location of two probes was tested using fluorescence in situ hybridization. Our results show that only the (TCC)(n) repetitive simple sequence has a sex-specific hybridization pattern and presents a significant accumulation on the Y chromosome in the region included between the two heterochromatic areas. Moreover the GGAAT sequence is not present in the genome of A. aquaticus in any detectable quantity.,BLACKWELL SCIENCE LTD,25,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,6.0,RT527,"VOLPI, EV; PELLICCIA, F; LANZA, V; BARZOTTI, R; ROCCHI, A",4.0,4.0,Ecology; Evolutionary Biology; Genetics & Heredity,HEREDITY,Heredity,10.1038/hdy.1995.134,,SEQUENCES; ORGANIZATION; EVOLUTION; GENOMES; FISH,,"Volpi, Emanuela/0000-0002-2422-9104; PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",,,,,Bronze,,,,,3,,,,,,,,,,,,,,,,,,
Article,ANIMAL BEHAVIOUR,2021-04-13,WOS:A1995RP91600008,18,0,"WELLBORN, GA",J,English,DETERMINANTS OF REPRODUCTIVE SUCCESS IN FRESH-WATER AMPHIPOD SPECIES THAT EXPERIENCE DIFFERENT MORTALITY REGIMES,1995.0,Behavioral Sciences; Zoology,50,0003-3472,,AUG,353,363,,"UNIV MICHIGAN,DEPT BIOL,ANN ARBOR,MI 48109","Selection on traits conferring enhanced mating success, and thus favoured through sexual selection, may be opposed by selection imposed by predators. This study compares determinants of reproductive success in two species of freshwater amphipods, Hyalella spp., that differ substantially in adult body size and other life-history traits, and occupy ecologically dissimilar habitats. The small-bodied ('lake') species occurs in a lake with size-selective fish predators, and experiences increasing mortality with increasing body size. The large-bodied ('marsh') species inhabits a fishless marsh, and experiences decreasing mortality with increasing size. Although male reproductive success increased with body size in both species, the form and degree of the relative mating advantage for large males appeared to differ between species. In the marsh species, male pairing success increased throughout the range of variation in male body size. In the lake species, small males had lower pairing success than males of intermediate and large sizes, but large males did not have greater pairing success than males of an intermediate size. Female reproductive success (through fecundity) increased with body size similarly in both species. Positive assortative mating by size was weak in the marsh species, but stronger in the lake species. Species also differed in the intensity and form of sexual selection acting on the size of male gnathopods, a pair of sexually dimorphic appendages. In the marsh species, sexual selection favoured larger gnathopod width (relative to body size) throughout its range of variation, but no sexual selection for gnathopod width was detected in the lake species. Species differences in the relative importance of large body and gnathopod size in males may reflect an evolutionary divergence in mating behaviour stemming from species differences in countervailing mortality selection. (C) 1995 The Association for the Study of Animal Behaviour",ACADEMIC PRESS (LONDON) LTD,49,"24-28 OVAL RD, LONDON, ENGLAND NW1 7DX",LONDON,11.0,RP916,"WELLBORN, GA",57.0,55.0,Behavioral Sciences; Zoology,ANIM BEHAV,Anim. Behav.,10.1006/anbe.1995.0251,,HYALELLA-AZTECA AMPHIPODA; GUPPY POECILIA-RETICULATA; GAMMARUS-PULEX AMPHIPODA; MALE PREDATION RISK; SEXUAL SELECTION; BODY SIZE; LOADING CONSTRAINTS; ASELLUS-AQUATICUS; FEMALE PREFERENCE; NATURAL-SELECTION,,,,,,,,,,,,,2,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:A1995RP22000002,17,0,"CUPPEN, JGM; GYLSTRA, R; VANBEUSEKOM, S; BUDDE, BJ; BROCK, TCM",J,English,"EFFECTS OF NUTRIENT LOADING AND INSECTICIDE APPLICATION ON THE ECOLOGY OF ELODEA-DOMINATED FRESH-WATER MICROCOSMS .3. RESPONSES OF MACROINVERTEBRATE DETRITIVORES, BREAKDOWN OF PLANT LITTER, AND FINAL CONCLUSIONS",1995.0,Marine & Freshwater Biology,134,0003-9136,2,AUG,157,177,,"DLO,WINAND STARING CTR INTEGRATED LAND SOIL & WATER R,6700 AC WAGENINGEN,NETHERLANDS","The effects of nutrient loading, and a combination of nutrient loading and insecticide application, on aspects of decomposition, densities of detritivorous macro-invertebrates and dissolved oxygen concentrations were studied in indoor microcosms intended to model drainage ditches. Nutrient additions hardly affected the breakdown of particulate organic matter (POM) in litter bags and only minor increases in the abundance of detritivorous macroinvertebrates were observed. Dissolved oxygen concentrations, however, increased for a prolonged period after the addition of a second high dose of nutrients. Application of the insecticide chlorpyrifos in nutrient enriched cosms caused an elimination of Gammarus pulex, and a collapse of the populations of Asellus aquaticus and Proasellus meridianus (primary effect). This Loss of shredder populations re suited in a decreased decomposition of POM in litter bags. Decomposition rates of POM rose again later in insecticide treated cosms, and were even the highest at the end of the experiment, probably due to the recovery of Proasellus meridianus and an increase in the numbers of the oligochaete Lumbriculus variegatus. Another, probably secondary, effect of chlorpyrifos application observed in the microcosms was a significant decrease in the oligochaete Dero digitata, which is explained by increased predation. Finally, a synthesis is given of the overall impact of nutrient loading and insecticide application on the structure and function of the microcosms by incorporating the conclusions of the present and two preceding papers.",E SCHWEIZERBART'SCHE VERLAGS,38,"NAEGELE U OBERMILLER JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,21.0,RP220,"CUPPEN, JGM; GYLSTRA, R; VANBEUSEKOM, S; BUDDE, BJ; BROCK, TCM",26.0,26.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,,"CUPPEN, JGM (corresponding author), AGR UNIV WAGENINGEN,DEPT WATER QUAL MANAGEMENT & AQUAT ECOL,POB 8080,6700 DD WAGENINGEN,NETHERLANDS.",WATER MODEL-ECOSYSTEMS; ASELLUS-AQUATICUS L; NYMPHAEA-ALBA L; DURSBAN(R) 4E; GAMMARUS-PULEX; DECOMPOSITION; FATE; INVERTEBRATES; CHLORPYRIFOS; LEAVES,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1995RP65400003,9,0,"SEABY, RMH; MARTIN, AJ; YOUNG, JO",J,English,THE REACTION-TIME OF LEECH AND TRICLAD SPECIES TO CRUSHED PREY AND THE SIGNIFICANCE OF THIS FOR THEIR COEXISTENCE IN BRITISH LAKES,1995.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,34,0046-5070,1,AUG,21,28,,"UNIV LIVERPOOL,DEPT ENVIRONM & EVOLUTIONARY BIOL,LIVERPOOL L69 3BX,MERSEYSIDE,ENGLAND","1. Three species of leeches, Erpobdella octoculata, Glossiphonia complanata and Helobdella stagnalis, and four species of triclads, Polycelis nigra, P. tenuis, Dugesia polychroa and Dendrocoelum lacteum, commonly coexist on stony shores in productive British lakes. All species are food limited and there is much overlap in their diet. For both leech and triclad communities, coexistence of species is through the occurrence of food refuges. Leeches are more successful than triclads at capturing live prey, whereas both groups feed on damaged prey, comprising incapacitated, live or dead animals that are leaking body fluids. If triclads are better than leeches at exploiting damaged prey, this could be a mechanism for their coexistence. 2. Laboratory experiments investigated the comparative speeds at which leeches and triclads responded to crushed prey. Young and adult predators were offered a crushed specimen of the oligochaete Tubifex tubifex, the snail Lymnaea peregra, the crustacean Asellus aquaticus or the chironomid Chironomus sp., and their reaction times recorded. These four prey groups constitute the main diet of the predators in the field. Only D. polychroa and D. lacteum showed a significantly different reaction time between young and adults to crushed prey, and the reason for this is unclear. All predators, except H. stagnalis and D. polychroa, showed a difference in reaction time to the four types of prey, presumably a consequence of differences in both the 'quality' and 'concentration' of the different prey fluids, and there were some differences between predators in their speed of reaction to the same prey type. The following sequence, from fastest to slowest, in general reaction time to prey was obtained: E. octoculata, D. polychroa, P. tenuis, D. lacteum, P. nigra, H. stagnalis and G. complanata. 3. The location of the damaged food by the predators can be explained partly in terms of their foraging behaviour, with E. octoculata, D. polychroa and P. tenuis exhibiting a more seek-out strategy than other species which have a more sit-and-wait behaviour, and partly on the level of sophistication of their chemosensory system used to detect leaked prey fluids. This system is highly developed in triclad species but poorly developed in leeches. 4. In a second type of experiment in which prey, L. peregra, A. aquaticus or Chironomus sp., were offered at different time intervals after crushing to H. stagnalis and P. tenuis, few predators fed on food crushed for 24 h or longer, although a few leeches fed on Chironomus crushed for up to 72 h. 5. It is concluded that coexistence of leech and triclad species on stony shores in lakes is assisted by partitioning of food on a damaged or live basis.",BLACKWELL SCIENCE LTD,36,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,8.0,RP654,"SEABY, RMH; MARTIN, AJ; YOUNG, JO",13.0,13.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1995.tb00419.x,,FRESH-WATER LEECH; DWELLING LEECHES; GLOSSIPHONIA-COMPLANATA; FOOD; MECHANORECEPTION; TURBELLARIA; NICHE,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF FISH BIOLOGY,2021-04-13,WOS:A1995RK16500012,4,0,"RAITANIEMI, J",J,English,THE GROWTH OF YOUNG PIKE IN SMALL FINNISH LAKES WITH DIFFERENT ACIDITY-RELATED WATER PROPERTIES AND FISH SPECIES COMPOSITION,1995.0,Fisheries; Marine & Freshwater Biology,47,0022-1112,1,JUL,115,125,ESOX LUCIUS; GROWTH; ACIDITY; WATER PROPERTIES; SMALL LAKES,,"Pike growth was generally slower in small Finnish lakes than has been reported from large lakes or brackish coastal waters. Growth was unrelated to pH, alkalinity, GOD, or conductivity of the water, but length of 1-2-year-old pike correlated positively with water colour (i.e. humic content), nitrogen content, and phosphorus content. These water properties also correlated with each other. Growth of 1-2-year-old pike was negatively correlated with lake area in lakes smaller than 20 ha. In lakes with a strong roach population or without ruffe the 0 group pike grew faster than in lakes without roach or with ruffe. The growth of pike aged 1-4 years in two very acid and practically fishless lakes did not differ clearly from the rest of the lakes, although the pike were forced to forage for abundant acid resistant invertebrates like dragonfly nymphs (Odonata) or Asellus aquaticus. The results of this work support earlier studies where the growth rate above all depends on water temperature and food availability. Acidity was not shown to affect the growth rate of pike. (C) 1995 The Fisheries Society of the British Isles",ACADEMIC PRESS (LONDON) LTD,29,"24-28 OVAL RD, LONDON, ENGLAND NW1 7DX",LONDON,11.0,RK165,"RAITANIEMI, J",7.0,7.0,Fisheries; Marine & Freshwater Biology,J FISH BIOL,J. Fish Biol.,10.1006/jfbi.1995.0116,"RAITANIEMI, J (corresponding author), FINNISH GAME & FISHERIES RES INST,POB 202,SF-00151 HELSINKI,FINLAND.",ESOX-LUCIUS L; NORTHERN PIKE; SOUTHERN FINLAND; SIZE; PERCH,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PARASITOLOGY RESEARCH,2021-04-13,WOS:A1995RK01500008,14,0,"SURES, B; TARASCHEWSKI, H",J,English,"CADMIUM CONCENTRATIONS IN 2 ADULT ACANTHOCEPHALANS, POMPHORHYNCHUS-LAEVIS AND ACANTHOCEPHALUS-LUCII, AS COMPARED WITH THEIR FISH HOSTS AND CADMIUM AND LEAD LEVELS IN LARVAE OF A-LUCII AS COMPARED WITH THEIR CRUSTACEAN HOST",1995.0,Parasitology,81,0044-3255,6,JUL,494,497,,,"Adults of Pomphorhynchus laevis and Acanthocephalus lucii were analyzed for cadmium by atomic absorption spectrometry. Their cadmium concentrations were compared with those found in different tissues (muscle, liver, and intestine) of their final hosts the chub and perch. Additionally, the cadmium and lead concentrations in larvae of A. lucii and their intermediate host Asellus aquaticus were determined. Regarding the adult acanthocephalans, the parasites showed several times more cadmium than did the tissues of their fish hosts. In contrast to this obvious accumulation capacity of adult A. lucii, the larvae contained less cadmium than did their crustacean host. Thus, the cadmium concentration in the larval stages was nearly 180 times lower than that measured in the adult worms. According to the present results, it appears that the heavy metals cadmium and lead are predominantly accumulated by the adult acanthocephalans inside the fish gut and not by the larvae inside the hemocoel of the crustaceans.",SPRINGER VERLAG,17,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,4.0,RK015,"SURES, B; TARASCHEWSKI, H",74.0,72.0,Parasitology,PARASITOL RES,Parasitol. Res.,10.1007/BF00931792,"SURES, B (corresponding author), UNIV KARLSRUHE,INST ZOOL OKOL,KAISERSTR 12,D-76128 KARLSRUHE,GERMANY.",GASTEROSTEUS-ACULEATUS L; 3-SPINED STICKLEBACK; PARASITISM; TOXICITY,,"Sures, Bernd/0000-0001-6865-6186","Sures, Bernd/B-6652-2013",7567908.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS DE L ACADEMIE DES SCIENCES SERIE III-SCIENCES DE LA VIE-LIFE SCIENCES,2021-04-13,WOS:A1995RB16400010,3,0,"HERVANT, F; MATHIEU, J",J,French,VENTILATORY AND LOCOMOTORY ACT IN ANOXIA AND SUBSEQUENT RECOVERY OF EPIGEAN AND HYPOGEAN CRUSTACEANS,1995.0,Life Sciences & Biomedicine - Other Topics; Science & Technology - Other Topics,318,0764-4469,5,MAY,585,592,CRUSTACEAN; HYPOGEAN; EPIGEAN; LOCOMOTION; VENTILATION; SURVIVAL; METABOLISM; ANAEROBIOSIS; RECOVERY,"LAB HYDROBIOL & ECOL SOUTERRAINES,CNRS,URA 1974,F-69622 VILLEURBANNE,FRANCE","Locomotory and ventilatory responses to severe hypoxia and subsequent recovery were investigated in 3 amphipod crustaceans: 2 hypogean species (1 interstitial species Niphargus rhenorhodanensis and 1 Karstic species N. virei) and 1 epigean species (Gammarus fossarum), and in an epigean population of 1 isopod crustacean (Asellus aquaticus). These species displayed respectively 46.7h, 52.1 h, 6.3 h and 19.7 h lethal times for 50% of the population (LT(50)) values for anoxic survival. The aim of this study was to determine why the hypogean species displayed a survival time during than that of Gammarus, Asellus and most other epigean crustaceans, and to better understand the ecological problems concerning Niphargus survival and perennation modalities in subterranean habitats which very often present hypoxic conditions during a hydrological cycle. The high resistance to severe hypoxia of hypogean animals partly results from an adaptation to the limitation of energetic expenditure linked to locomotion and ventilation in anaerobiosis, and from a decrease of general metabolism in severe hypoxia.",JOHN LIBBEY EUROTEXT LTD,35,"127 AVE DE LA REPUBLIQUE, 92120 MONTROUGE, FRANCE",MONTROUGE,8.0,RB164,"HERVANT, F; MATHIEU, J",24.0,22.0,Biology; Multidisciplinary Sciences,CR ACAD SCI III-VIE,Comptes Rendus Acad. Sci. Ser. III-Sci. Vie-Life Sci.,,,HYPOXIA; INVERTEBRATES; RESPONSES; OXYGEN,,,,7671005.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,INVERTEBRATE REPRODUCTION & DEVELOPMENT,2021-04-13,WOS:A1995RA19200002,36,2,"LECHER, P; DEFAYE, D; NOEL, P",J,English,CHROMOSOMES AND NUCLEAR-DNA OF CRUSTACEA,1995.0,Reproductive Biology; Zoology,27,0168-8170,2,MAY,85,114,CRUSTACEA; CHROMOSOMES; CYTOGENETICS; NUCLEUS; MITOSIS; MEIOSIS; REPRODUCTION; HETEROGAMETY; EVOLUTION; DNA; HETEROPLOIDY; POLYPLOIDY; SEX DETERMINATION; GENOME; PARTHENOGENESIS; HERMAPHRODITISM; CHROMATIN DIMINUTION; TRANSLOCATION; KARYOTYPE; CROSSING OVER,"MUSEUM NATL HIST NAT,ZOOL ARTHROPODES LAB,F-75005 PARIS,FRANCE; MUSEUM NATL HIST NAT,BIOL INVERTEBRES MARINS & MALACOL LAB,CNRS,URA 699,F-75005 PARIS,FRANCE","Present knowledge about chromosomes and nuclear DNA of Crustacea is reviewed. Haploid chromosome numbers range from 3 (Acanthocyclops) to 188 (Astacus). Chromosomes are generally small to medium in size (1-5 mu m) and punctiform or rod-shape. Nuclear DNA amounts show a large range, lying between 0.37 (Daphnia) and 22.6 pg (Decapoda) per haploid genome, 5.5 x 10(8) nt to 1.8 x 10(10) nt. Highly repetitive sequences may represent as much as 30% of the genome and show a high degree of conservation in Brachyura, while some intermediate repetitive sequences are under-represented. The relationship between taxonomy and cytogenetics appears very complex in some taxa, such as Artemia (Branchiopoda). This genus includes bisexual sibling species with female heterogamety and parthenogenetic populations with different levels of ploidy, up to triploid and pentaploid. Daphnia presents diploid and polyploid strains, and parthenogenetic reproduction. Chromatin diminution occurs in Copepoda; in this group male and female heterogamety coexist with a ZO-ZZ type, unique among animals. Evolution in Copepoda tends to the reduction of chromosome number. Some parthenogenetic, freshwater Ostracoda have supernumerary chromosomes; Ostracoda also present complex sex chromosomes mechanisms (XO and XY, with cases of multiple X's and multiple Y's). Within Rhizocephala, chromosome numbers can be used to distinguish species of parasitic Crustacea, such as Sacculina. Robertsonian translocations are known in some Isopoda. Jaera albifrons albifrons presents a dine, diminishing from north (n=13) to south (n=9) along N-E European coasts. As in Copepoda, female and male heterogamety are present. Cytogenetics of Amphipoda is not well known, and many species have the same number; as much as 9 supernumerary (B) chromosomes have been reported. One of the highest numbers of chromosomes known for animals occurs in crayfish Astacus (2n=376). DNA amount in shrimps has the highest range in Crustacea (3-22 pg/c) and one of the highest for animals. Within several Decapoda groups, viz. lobsters, crayfish, scyllarids and hermit crabs, polyploidy may have acted as an evolutionary factor. Chromosome evolution within Decapoda is difficult to understand because the chromosomes are numerous, very small and punctiform; differentiated sex chromosomes have sometimes been reported, the male being the heterogametic sex. Somatic endopolyploidy is present in many groups mainly in the digestive tract; polyploidy in germ cells might have occurred in different groups during evolution.",INT SCIENCE SERVICES/BALABAN PUBLISHERS,219,"PO BOX 2039, REHOVOT, ISRAEL",REHOVOT,30.0,RA192,"LECHER, P; DEFAYE, D; NOEL, P",88.0,83.0,Reproductive Biology; Zoology,INVERTEBR REPROD DEV,Invertebr. Reprod. Dev.,10.1080/07924259.1995.9672440,"LECHER, P (corresponding author), UNIV CLERMONT FERRAND,CNRS,UA 1940,ORG GENOME & REGULAT CELLULAIRES EUCARYOTES,BP 45,F-63177 CLERMONT FERRAND,FRANCE.",GENUS TISBE COPEPODA; CHROMATIN DIMINUTION; ACANTHOCYCLOPS-VERNALIS; ASELLUS-AQUATICUS; LARGE NUCLEOLUS; BRINE SHRIMP; GENOME SIZES; HARPACTICOIDA; KARYOLOGY; DECAPODA,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1995RB62600008,1,0,"COSTANTINI, ML; ROSSI, L",J,English,32 PHOSPHORUS TRANSFER IN SYSTEMS OF FISH AND AMPHIPODS EXPLOITING DETRITUS PARTICLES,1995.0,Marine & Freshwater Biology,302,0018-8158,1,MAR 31,81,87,DETRITUS; MULLETS; AMPHIPODS; RADIOPHOSPHORUS; MICROFUNGI; FOOD EXPLOITATION,,"Detrital size preferences of the fish Mugil sp. and the amphipod Echinogammarus veneris were determined in the laboratory by P-32. Three different size-classes of leaf-detritus particles, inoculated with a fungus, were offered separately in 24-h experiments. Detritus P-32 increased with particle size, depending on the growth of microflora. Both species preferred the largest size-class. In mixed-species experiments, P-32 uptake by Mugil was significantly less than when it was alone. A similar P-32 transfer was measured in Mugil fed on the largest particles, previously utilized by E. veneris. This indicates that the feeding activity of the amphipod indirectly affects the detrital utilization by Mugil sp. It is suggested that the influence might depend on the microbial impoverishment and the change in the particle size.",KLUWER ACADEMIC PUBL,26,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,7.0,RB626,"COSTANTINI, ML; ROSSI, L",6.0,6.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00006401,"COSTANTINI, ML (corresponding author), UNIV LECCE,DEPT BIOL,I-73100 LECCE,ITALY.",ASELLUS-AQUATICUS; WOODLAND STREAM; TROPHIC NICHE; COXALIS; FUNGI,,"ROSSI, LORETO/0000-0001-8014-5397; Costantini, Maria Letizia/0000-0001-6242-558X",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,HYDROBIOLOGIA,2021-04-13,WOS:A1995RB62500026,7,0,"JAMET, JL",J,English,"REPRODUCTION, CONDITION AND FOOD OF ADULT ARCTIC CHARR (SALVELINUS-ALPINUS, L) IN LAKE PAVIN (MASSIF-CENTRAL, FRANCE)",1995.0,Marine & Freshwater Biology,300,0018-8158,,MAR 24,279,288,FISH ECOLOGY; SALVELINUS ALPINUS; REPRODUCTION; CONDITION; TROPHIC RELATIONS,,"To determine the role and the importance of adult fish predation directly and indirectly in the food web of oligomesotrophic Lake Pavin, reproduction, condition, and feeding activity of the dominant adult arctic charr (Salvelinus alpinus, L.) were studied. Fish were caught by gillnets of different mesh sizes once a month from April to December 1992. The gonad cycle showed that the spawning period occurred between October to December. Relative fecundity is about 2509 ovules per kg of female fish and ovule mean diameter is 4.7 mm (+/-0.6 mm). Seasonal variations of the sex-ratio (Max. in April = 2.67 and Min. in October = 0.19) indicated the intralake migrations of females and males. The condition coefficients showed higher values for females than males; the maximum was observed in summer for both sexes and the minimum in April and in October for males and females, respectively. Low values of the condition were also observed during the spawning period. High feeding activity was recorded in spring and in December after reproduction; low feeding activity was observed in October during reproduction. Asellus aquaticus was quantitatively the dominant prey from April to September; during the spawning period, S. alpinus consumed its own eggs, particularly in large quantity in December. Daphnia longispina was numerically the dominant prey all over the studied cycle and the electivity (Ivlev Index) of arctic charr on the latter prey ranged from +0.79 to +0.16. During April more than 15 500 individuals of D. longispina per Lo nf fish were found in the guts contents. The selective predation of S. alpinus on benthic (A. aquaticus) and zooplankton prey (D. longispina) indicated that the fish immigrate during their feeding activity from benthic/littoral to the pelagic area.",SPRINGER,39,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,10.0,RB625,"JAMET, JL",6.0,5.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00024468,"JAMET, JL (corresponding author), UNIV CLERMONT FERRAND, ZOOL PROTISTOL BIOL COMPAREE PROTISTES LAB, CNRS, URA 138, F-63177 CLERMONT FERRAND, FRANCE.",ECOLOGICALLY DISTINCT FORMS; SALMO-CLARKI-CLARKI; LOCH RANNOCH; GROWTH; POPULATION; SEGREGATION; GREENLAND; SCOTLAND; HABITAT; MALMA,,"Jamet, Jean-Louis JLJ/0000-0002-2296-6231","Jamet, Jean-Louis JLJ/G-9893-2013",,,,,,2nd International Joint Conference on Limnology and Oceanography,,"MAY 25-28, 1993","EVIAN, FRANCE",,,"MINIST RECH & ESPACE, INRA, INST FRANCAISE RECH EXPLOITAT MER, ORSTOM, AGENCE EAU RHONE MEDITERRANEE CORSE, AGENCE EAU ARTOIS PICARDIE, CONSEIL SUPER PECHE, INST INTERDEPT BARRAGES RESERVOIRS BASSIN SEINE, CREDIT AGR SUD EST, AGENCE THONON THUYSET, S N COMPAGNIE RADIO MARITIME, GENNEVILLIERS, SEDASIS INFORMAT, ST GREGOIRE, ARNATRONIC, PAGNY MOSELLE, CARL ZEISS S A , LE PECQ",,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1995QG42600002,53,0,"MALTBY, L",J,English,SENSITIVITY OF THE CRUSTACEANS GAMMARUS-PULEX (L) AND ASELLUS-AQUATICUS (L) TO SHORT-TERM EXPOSURE TO HYPOXIA AND UNIONIZED AMMONIA - OBSERVATIONS AND POSSIBLE MECHANISMS,1995.0,Engineering; Environmental Sciences & Ecology; Water Resources,29,0043-1354,3,MAR,781,787,EPISODIC POLLUTION; TOXICITY; HYPOXIA; AMMONIA; RESPIRATORY PHYSIOLOGY; GAMMARUS PULEX; ASELLUS AQUATICUS,,"Episodic organic pollution results in short-term increases in the ammonia concentration and reductions in the dissolved oxygen (DO) concentration of receiving waters. This study provides information on the lethal effects of 24-h pulses of high ammonia and low DO on two common freshwater crustaceans. Both inter and intraspecific differences in sensitivity were observed. Asellus aquaticus was five times more resistant to hypoxia and two times more resistant to unionized ammonia and Gammarus pulex. Moreover, for both stressors, juveniles were less susceptible than adults. Interspecific differences in ventilation rate and blood characteristics (i.e. haemocyanin concentration and oxygen affinity) could explain interspecific differences in susceptibility to hypoxia, and possibly ammonia. Intraspecific differences in ventilation rate may partly explain the reduced susceptibility of juvenile G. pulex to these stressors.",PERGAMON-ELSEVIER SCIENCE LTD,45,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,7.0,QG426,"MALTBY, L",84.0,83.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(94)00231-U,"MALTBY, L (corresponding author), UNIV SHEFFIELD,DEPT ANIM & PLANT SCI,POB 601,SHEFFIELD S10 2UQ,S YORKSHIRE,ENGLAND.",TALITROIDEAN AMPHIPODS CRUSTACEA; HEMOCYANIN OXYGEN BINDING; GILL AREA RELATIONSHIPS; MACROINVERTEBRATE COMMUNITIES; PHYSIOLOGICAL ECOLOGY; EPISODIC POLLUTION; ACUTE TOXICITY; WATER-QUALITY; RAINBOW-TROUT; TEMPERATURE,,"Maltby, Lorraine/0000-0003-3817-4033","Maltby, Lorraine/A-6702-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1995QH47800012,28,3,"CRANE, M",J,English,EFFECT OF ZINC ON 4 POPULATIONS AND 2 GENERATIONS OF GAMMARUS-PULEX (L),1995.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,33,0046-5070,1,FEB,119,126,,"WATER RES CTR,ECOTOXICOL & BIODEGRADABIL GRP,MARLOW SL7 2HD,BUCKS,ENGLAND","1. The amphipod Gammarus pulex (L.) is increasingly used in toxicity assessments and is usually obtained from wild populations. Interpopulation variability in response to toxicants may be due to genetic or phenotypic differences and could be large in wild-caught organisms exposed to different environmental conditions. This paper describes an investigation designed to assess the extent of lethal and sublethal variability between four different G. pulex populations when exposed to zinc, and to determine whether differences observed in the parental generation were also apparent in offspring bred in the laboratory. 2. The mortality of G. pulex from one of the four field-caught populations (Crags Stream) was significantly lower than for animals from the other three populations for the first 2 days of exposure. After 6 days' exposure the LC(50) values for all four populations did not differ significantly, and were approximately 1.0 mg Zn l(-1). Sublethal effects on feeding rate after 6 days' exposure were also similar for all four populations (feeding rate EC(50) approximately 0.5 mg Zn l(-1)). 3. Lethal effects on the F-1 generation were similar among the four populations, in contrast to the short-term differences observed in the parental generation. These results suggest that interpopulation differences in zinc tolerance in G. pulex are short-lived, and phenotypically rather than genetically based.",BLACKWELL SCIENCE LTD,41,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,8.0,QH478,"CRANE, M",12.0,12.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1995.tb00392.x,,TERM EXPERIMENTAL ACIDIFICATION; INTRASPECIFIC VARIATION; ASELLUS-AQUATICUS; HEAVY-METALS; WELSH STREAM; L AMPHIPODA; TOXICITY; TOLERANCE; SENSITIVITY; ALUMINUM,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1995QB74700002,15,0,"TAYLOR, RM; WATSON, GD; ALIKHAN, MA",J,English,"COMPARATIVE SUBLETHAL AND LETHAL ACUTE TOXICITY OF COPPER TO THE FRESH-WATER CRAYFISH, CAMBARUS-ROBUSTUS (CAMBARIDAE, DECAPODA, CRUSTACEA) FROM AN ACIDIC METAL-CONTAMINATED LAKE AND A CIRCUMNEUTRAL UNCONTAMINATED STREAM",1995.0,Engineering; Environmental Sciences & Ecology; Water Resources,29,0043-1354,2,FEB,401,408,ACIDIC; ACUTE TOXICITY; CADMIUM; CAMBARUS ROBUSTUS; CIRCUMNEUTRAL; CONTAMINATED; COPPER; CRUSTACEA; DECAPOD; LEAD; NICKEL; STREAM; UNCONTAMINATED,"LAURENTIAN UNIV,DEPT BIOL,SUDBURY,ON P3E 2C6,CANADA","Comparative toxicological responses to Cu concentrations ranging from 0.61 to 24.06 mg l(-1) by Cambarus robustus (Girard) intermoult adult males, trapped from Wavy Lake, an acid-stressed (pH 4.6) metal-contaminated freshwater reservoir near Sudbury, Ontario [Cu, Ni, Pb and Cd body burden in whole crayfish (mean x +/- SD) 89.94 +/- 30.69, 2.60 +/- 2.07, 42.82 +/- 8.08, 4.08 +/- 0.60 mu g g(-1) dry wt] and Pike Creek, a circumneutral (pH 6.2) uncontaminated fast-flowing stream [Cu, Ni, Pb and Cd body burden in whole crayfish (mean x +/- SD) 43.68 +/- 24.98, 1.76 +/- 1.42, 13.53 +/- 8.52, 11.40 +/- 0.91 mu g g(-1) dry wt, respectively] in northeastern Ontario, were quantified using replicate standard 96-h static acute toxicity tests. In EC(50) comparisons, crayfish from the contaminated Wavy Lake were significantly more tolerant to all Cu concentrations during 24-h exposures than were those from Pike Creek; no significant differences (P > 0.05) in the response between the two populations were observed with increases in exposure periods beyond 24 h. In LC(50) comparisons, Pike Creek crayfish had a significantly lower mortality rate in 48-h exposure than did decapods from Wavy Lake; no significant differences (P > 0.05) in the response between the two populations were observed with increases in exposure periods beyond 48 h. The two populations, on the whole, did not show significant differences in their EC(50)-LC(50) values at various periods they were exposed to the toxicant. However, there were significant differences (P < 0.05) in Cu concentrations that caused behavioural impairment and mortality in animals from the two sites. In general, individuals from the contaminated Wavy Lake were better suited to resist short-term (less than or equal to 24 h) behavioural impairment than were crayfish from the uncontaminated Pike Creek, possibly because of the ability of the former to detoxify Cu at a comparatively quicker rate than the latter. However, once their behaviour was impaired, the crayfish from the contaminated lake were unable to withstand further Cu intake. The reason for the phenomenon may lie in the early saturation and subsequent failure of their copper regulatory mechanism because of comparatively high Cu body burdens associated with living in a metal-contaminated environment.",PERGAMON-ELSEVIER SCIENCE LTD,41,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,8.0,QB747,"TAYLOR, RM; WATSON, GD; ALIKHAN, MA",21.0,21.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(94)00192-A,,GAMMARUS-PULEX L; ASELLUS-AQUATICUS; INTRASPECIFIC VARIATION; LOW PH; CADMIUM; EXPOSURE; ZINC; METALLOTHIONEIN; INVERTEBRATES; ACCUMULATION,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BEHAVIORAL ECOLOGY AND SOCIOBIOLOGY,2021-04-13,WOS:A1995QD26100006,8,0,"JORMALAINEN, V; MERILAITA, S",J,English,FEMALE RESISTANCE AND DURATION OF MATE-GUARDING IN 3 AQUATIC PERACARIDS (CRUSTACEA),1995.0,Behavioral Sciences; Environmental Sciences & Ecology; Zoology,36,0340-5443,1,JAN,43,48,PRECOPULA; SEXUAL SELECTION; FEMALE RESISTANCE; ISOPODA; AMPHIPODA,"UNIV TURKU,SATAKUNTA ENVIRONM RES CTR,SF-28900 PORI,FINLAND","Both theoretical and empirical studies have treated mate-guarding in aquatic Crustacea purely as a male decision problem. However, male and female interests are rarely identical, as implied by observations of female resistance against guarding attempts. We tested experimentally the occurrence of sexual conflict over guarding duration in three crustacean species: Idotea baltica, Asellus aquaticus (Isopoda), and Gammarus zaddachi (Amphipoda). Specifically, we manipulated, by osmotic stress or a neuromuscular blocking agent, the female's ability to resist guarding attempts. Female manipulation, by both methods, roughly doubled precopula duration in I. baltica (Figs. 1 and 2) showing that female resistance effectively diminishes guarding duration. However, in A. aquaticus and G. zaddachi female manipulation had no effect on guarding duration, which also was longer than in I. baltica (Fig. 2). This implies either that male and female interests are equal or that the conflict is resolved according to the male interest in these species. The lack of female resistance in such species allows long precopulatory guarding. In I. baltica we also manipulated, by osmotic stress and by clipping nails, male ability to hold the female. These treatments had no effect on guarding duration (Figs. 1 and 2). Male size tended to correlate positively with guarding duration in control groups, but not in female manipulation groups (Fig. 3). Thus, conflict is mainly resolved according to the female interest in I. baltica. Results in this species also suggest that female resistance selects for large male size. Consequently, mechanisms of sexual selection may differ considerably between species with otherwise comparable mating patterns.",SPRINGER VERLAG,29,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,6.0,QD261,"JORMALAINEN, V; MERILAITA, S",75.0,74.0,Behavioral Sciences; Ecology; Zoology,BEHAV ECOL SOCIOBIOL,Behav. Ecol. Sociobiol.,,,GAMMARUS-PULEX AMPHIPODA; ASELLUS-AQUATICUS; SEXUAL SELECTION; MATING DECISIONS; SIZE; ISOPODA; CONSTRAINTS; DIMORPHISM; STRATEGIES; INVESTMENT,,"Jormalainen, Veijo/0000-0001-6346-2585","Jormalainen, Veijo/B-2073-2008",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CONTRIBUTIONS TO ZOOLOGY,2021-04-13,WOS:A1995RX73800003,1,0,"HENRY, JP; MAGNIEZ, G",J,French,"NEW DATA ON THE EPIGEAN FRESH-WATER ASELLIDS OF THE FAR-EAST (CRUSTACEA, ISOPODA, ASELLOTA)",1995.0,Zoology,65,0067-8546,2,,101,122,"ASELLUS (ASELLUS) LEVANIDOVORUM N SP; GEN ASELLUS N DEF; SAKHALIN AND KUNASHIR ISLANDS; SEM; STRUCTURE OF COPULATORY PLEOPODS; SUBGEN ASELLUS, SUBGEN ARCTASELLUS NOV",,"Numerous samples of oculate Asellus from eastern Siberia and the Japanese Islands, one from southern China, and one from Alaska, have been studied. The epigean fresh waters of this large Asiatic region generally harbour populations identified as Asellus (Asellus) hilgendorfii Bovallius, 1886, or some of its geographical forms previously considered as species, subspecies, or not yet named. The ''hilgendorfii'' complex seems to possess the dimension of a superspecies. A new pigmented-oculate species, Asellus (Asellus) levanidovorum is sympatric with A. (A.) hilgendorfii in the lake Bolon region (lower part of the Amur River basin) and is present also in the Sakhalin and Kunashir Islands. Its copulatory organ (endopodite of male 2nd pleopod) shows a large cannula and study with SEM allows us to understand the organizational pattern of this organ in all species belonging to the true genus Asellus, including the type-species Asellus (A.) aquaticus(Linnaeus, 1758) where the cannula is small and deeply hidden. Strong relationship between these species points to the existence of a subgenus Asellus inside the genus Asellus auct. The three Arctic species, A. latifrons Birstein, 1947, A. alaskensis Bowman & Holmquist, 1975 and A. birsteini Levanidov, 1976, represent a second subgenus, Arctasellus nov., inside the genus Asellus car. emend., characterized by their onisciform aspect, the reduction of the coxopodites of all pereiopods, and the structure of the different parts of the copulatory appendages, homologous with those of the subgenus Asellus, but simpler and exposed. The Asellidae appear to be a heterogeneous family, having taken origin from several marine ancestors, and having colonized independently the fresh waters of several remote continental sites. These separate elements evolved independently in the North Pacific (Japan Sea region), Baikal, the Mediterranean and Paratethys, southwestern Atlantic Europe, and Atlantic North America. All species of the far-eastern group (genera Asellus, Calasel-lus, Mesoasellus, Nipponasellus, Phreatoasellus, Sibirasellus, and Uenasellus) show a common general architecture of the copulatory appendages, with homologous elements (''Asellus pattern'') in each of them. This multigeneric group represents a distinct unit inside the family Asellidae. The presence of its main member, Asellus (A.) aqualicus, in Europe is the result of a recent and long-range migration westward inside the natural area of the autochthonous Mediterranean forms.",SPB ACADEMIC PUBLISHING BV,30,"PO BOX 11188, 1001 GD AMSTERDAM, NETHERLANDS",AMSTERDAM,22.0,RX738,"HENRY, JP; MAGNIEZ, G",14.0,12.0,Zoology,CONTRIB ZOOL,Contrib. Zool.,,"HENRY, JP (corresponding author), UNIV BOURGOGNE,DEPT BIOL ANIM,6 BD GABRIEL,F-21000 DIJON,FRANCE.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:A1995QG18000003,7,1,"MONTANES, JFC; VANHATTUM, B; DENEER, J",J,English,BIOCONCENTRATION OF CHLORPYRIFOS BY THE FRESH-WATER ISOPOD ASELLUS-AQUATICUS (L) IN OUTDOOR EXPERIMENTAL DITCHES,1995.0,Environmental Sciences & Ecology,88,0269-7491,2,,137,146,CHLORPYRIFOS; ASELLUS AQUATICUS (L); OUTDOOR DITCHES; BIOCONCENTRATION; TOXICOKINETICS,"INST ENVIRONM STUDIES,1081 HV AMSTERDAM,NETHERLANDS; DLO,WINAND STARING CTR INTEGRATED LAND SOIL,6700 AC WAGENINGEN,NETHERLANDS","The bioconcentration of the insecticide chlorpyrifos (CPF) [O,O-diethyl-O-(3,5,6-trichloro-2-pyridil) phosphorothioate] by the freshwater isopod Asellus aquaticus (L.) was investigated under time-varying exposure conditions in artificial outdoor ditches. The insecticide was applied as a single dose of Dursban 4ETM at nominal initial concentrations of the active ingredient of 0.7 and 5.0 mu g litre(-1). Toxicokinetic rate constants of CPF were estimated using three methods based on first-order one-compartment modelling. Aqueous concentrations of CPF showed a rapid exponential decrease. Tissue residues of CPF in Asellus, reached maximum values after two days with subsequent relatively rapid elimination in agreement with model predictions. Both uptake and elimination rate constants were dependent upon exposure level, with relatively low uptake and elimination rate constants (10 respectively 5-fold lower) at the high exposure level, which was attributed to toxic stress The time-dependent bioconcentration factor (BCF) of CPF did not show any dependence upon the exposure level, and reached a plateau after 2 days. Lipid-based BCF (1 kg(-1); mean +/- SE) values measured in the low and high treatments were 262 + 77 x 10(3) (n = 7) and 235 +/- 44 x 10(3) (n = 6), respectively, and were above ranges previously reported in the literature for fish. The feasibility of using freshwater isopods in biomonitoring programmes to assess the fate and effects of organophosphorus compounds is discussed.",ELSEVIER SCI LTD,56,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, OXON, ENGLAND OX5 1GB",OXFORD,10.0,QG180,"MONTANES, JFC; VANHATTUM, B; DENEER, J",25.0,24.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/0269-7491(95)91437-P,,GUPPY POECILIA-RETICULATA; PYRETHROID INSECTICIDE; TOXICITY; FISH; BIOACCUMULATION; ELIMINATION; KINETICS; LEVEL; MACROINVERTEBRATES; ACCUMULATION,,,"van Hattum, Bert AGM/N-1706-2013",15091553.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGICAL BULLETIN,2021-04-13,WOS:A1994PD17700011,16,0,"BROOK, HJ; RAWLINGS, TA; DAVIES, RW",J,English,"PROTOGYNOUS SEX-CHANGE IN THE INTERTIDAL ISOPOD GNORIMOSPHAEROMA OREGONENSE (CRUSTACEA, ISOPODA)",1994.0,Life Sciences & Biomedicine - Other Topics; Marine & Freshwater Biology,187,0006-3185,1,AUG,99,111,,"UNIV CALGARY,DEPT BIOL SCI,CALGARY T2N 1N4,AB,CANADA; BAMFIELD MARINE STN,BAMFIELD V0R 1B0,BC,CANADA; UNIV ALBERTA,EDMONTON T6G 2G9,AB,CANADA","In Crustacea, the dominant pattern of sequential hermaphroditism is protandry (sex change from male to female). Here we provide the first evidence from external morphology and population structure that Gnorimosphaeroma oregonense, an abundant, sexually dimorphic intertidal isopod, undergoes protogynous (female to male) sex change. In the held, 31% of females had rudimentary penes, suggesting sex change, and laboratory growth experiments confirmed that females produced one brood of juveniles, then passed through a variable number of molts as immature males before becoming sexually mature males. Contrary to reports for other protogynous Crustacea, this study suggests that in G. oregonense sex change is not socially mediated, although it may be facultative, because a large percentage of laboratory-reared juvenile isopods developed directly into males. Potential adaptive explanations for protogyny are discussed in relation to protandry-the more common strategy in Crustacea.",MARINE BIOLOGICAL LABORATORY,70,"BIOLOGICAL BULL MBL STREET, WOODS HOLE, MA 02543",WOODS HOLE,13.0,PD177,"BROOK, HJ; RAWLINGS, TA; DAVIES, RW",47.0,45.0,Biology; Marine & Freshwater Biology,BIOL BULL,Biol. Bull.,10.2307/1542169,,ASELLUS-AQUATICUS L; PANDALID SHRIMP; HISTORY; HERMAPHRODITISM; PERACARIDA; INVESTMENT; TANAIDACEA; ANIMALS; RATIO; SIZE,,,,29281308.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,HYDROBIOLOGIA,2021-04-13,WOS:A1994PD06700006,2,0,"SKET, B",J,English,"DISTRIBUTION OF ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA, ASELLIDAE) AND ITS HYPOGEAN POPULATIONS AT DIFFERENT GEOGRAPHIC SCALES, WITH A NOTE ON PROASELLUS-ISTRIANUS",1994.0,Marine & Freshwater Biology,287,0018-8158,1,JUL 15,39,47,ASELLUS-AQUATICUS; PROASELLUS-ISTRIANUS; ISOPODA; CAVE WATERS; BIOGEOGRAPHY; ADAPTATION,,"The pattern of Asellus aquaticus (L.) distribution is presented with lists of its hypogean populations. Of the races with small area on pleopods IV-V only an E Romanian population is homogeneously depigmented and blind. A characteristic group of races with enlarged pleopod areae is seen only in the Dinarides. Of these, the most troglomorphic race is A. a. cavernicolus Racovitza, in the hypogean parts of Pivka (SW Slovenia) and Reka-Timavo (NE Italy) systems. A secondary introgression with A. a. aquaticus in Postojna Caves has been observed. Some phylogenetic relationships are discussed based on morphological, hydrographical and paleogeographical data. A comparison with the endemic Proasellus istrianus (Stammer) is given, which lives on the surface in the Adriatic drainage basin only, but exhibits also a hypogean range beyond which it is similar to that of A. a. cavernicolus.",KLUWER ACADEMIC PUBL,53,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,9.0,PD067,"SKET, B",24.0,23.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00006895,"SKET, B (corresponding author), UNIV LJUBLJANI,FAK BIOTEHN,ODDELEK BIOL,VECNAPOT 111,LJUBLJANA 6111,SLOVENIA.",,,,,,,,,,"Symposium on Biogeography of Subterranean Crustaceans: The Effects of Different Scales, at the Summer Meeting of the Crustacean-Society",,"JUN, 1992","CHARLESTON, SC",,,CRUSTACEAN SOC,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1994NL94300003,32,0,"GRACA, MAS; MALTHY, L; CALOW, P",J,English,COMPARATIVE ECOLOGY OF GAMMARUS-PULEX (L) AND ASELLUS-AQUATICUS (L) .1. POPULATION-DYNAMICS AND MICRODISTRIBUTION,1994.0,Marine & Freshwater Biology,281,0018-8158,3,APR 22,155,162,ASELLUS-AQUATICUS; GAMMARUS-PULEX; POPULATION DYNAMICS; MICRODISTRIBUTION; COEXISTENCE; DETRIVORES,"UNIV SHEFFIELD,DEPT ANIM & PLANT SCI,SHEFFIELD S10 2TN,S YORKSHIRE,ENGLAND","Gammarus pulex and Asellus aquaticus generally occupy different zones in rivers; the former occurs in upper reaches but is 'replaced' by the latter in lower reaches. Microdistribution and life-history patterns of G. pulex and A. aquaticus in sympatry and allopatry, were analyzed. Both species exhibited similar patterns of microhabitat selection, with larger individuals associated predominantly with large-sized substratum particles, and juveniles with weed. Coexisting populations of G. pulex and A. aquaticus had similar densities and population dynamics. Within each species, differences in population dynamics of allopatric and sympatric populations were observed. Although variation in population dynamics of G. pulex may be explained in terms of competition between the two species, the evidence is weak and equivocal. Differences in the dynamics of the two A. aquaticus populations were possibly a consequence of coal-mine and organic pollution, reducing the survival of offspring in the allopatric population.",KLUWER ACADEMIC PUBL,35,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,8.0,NL943,"GRACA, MAS; MALTHY, L; CALOW, P",35.0,34.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00028678,"GRACA, MAS (corresponding author), UNIV COIMBRA,DEPT ZOOL,P-3049 COIMBRA,PORTUGAL.",LIFE-HISTORY; MICRO-DISTRIBUTION; AMPHIPOD; ISOPODA; STREAM; GROWTH; CRUSTACEA; POLLUTION; SELECTION; RIVER,,"Graca, Manuel A.S./0000-0002-7303-9382; Graca, Manuel/0000-0002-6470-8919; Maltby, Lorraine/0000-0003-3817-4033","Graca, Manuel A.S./A-5785-2013; Maltby, Lorraine/A-6702-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1994NL94300004,14,1,"GRACA, MAS; MALTBY, L; CALOW, P",J,English,COMPARATIVE ECOLOGY OF GAMMARUS-PULEX (L) AND ASELLUS-AQUATICUS (L) .2. FUNGAL PREFERENCES,1994.0,Marine & Freshwater Biology,281,0018-8158,3,APR 22,163,170,ASELLUS-AQUATICUS; GAMMARUS-PULEX; COEXISTENCE; DETRITIVORES; COMPETITION; AQUATIC HYPHOMYCETES; FOOD PREFERENCES,"UNIV SHEFFIELD,DEPT ANIM & PLANT SCI,SHEFFIELD S10 2TN,S YORKSHIRE,ENGLAND",This paper continues to explore niche differentiation in Gammarus pulex and Asellus aquaticus by analysis of their food preferences. Individuals from both species discriminated between leaf discs colonized by different fungal species and exhibited strong preferences for Anguillospora longissima and Heliscus lugdunensis. Fungal preferences were not correlated with the relative abundance of fungi in the field and there was considerable intra-population variability in food preferences - both between individuals and for the same individual through time. Niche overlap between animals from all four study populations was high and there was no evidence of differences in the potential trophic niches of animals from sympatric and allopatric populations.,KLUWER ACADEMIC PUBL,32,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,8.0,NL943,"GRACA, MAS; MALTBY, L; CALOW, P",32.0,31.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00028679,"GRACA, MAS (corresponding author), UNIV COIMBRA,DEPT ZOOL,P-3049 COIMBRA,PORTUGAL.",HYPHOMYCETE COMMUNITIES; TROPHIC NICHE; RIVER TEIGN; STREAM; LEAVES; PALATABILITY; COXALIS; GROWTH; DIET,,"Graca, Manuel A.S./0000-0002-7303-9382; Graca, Manuel/0000-0002-6470-8919; Maltby, Lorraine/0000-0003-3817-4033","Graca, Manuel A.S./A-5785-2013; Maltby, Lorraine/A-6702-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THE AMERICAN MOSQUITO CONTROL ASSOCIATION,2021-04-13,WOS:A1994NG68400010,4,0,"YIALLOUROS, M; STORCH, V; THIERY, I; BECKER, N",J,English,EFFICACY OF CLOSTRIDIUM-BIFERMENTANS SEROVAR MALAYSIA ON TARGET AND NONTARGET ORGANISMS,1994.0,Entomology,10,8756-971X,1,MAR,51,55,,"UNIV HEIDELBERG, D-69120 HEIDELBERG, GERMANY; INST PASTEUR, UNITE BACTERIES ENTOMOPATHOGENES, F-75724 PARIS 15, FRANCE","Clostridium bifermentans serovar malaysia (C.b.m.) is highly toxic to mosquito larvae. In this study, the following aquatic nontarget invertebrates were treated with high C.b.m. concentrations (up to 1,600-fold the toxic concentration for Anopheles stephensi) to study their susceptibility towards the bacterial toxin: Planorbis planorbis (Pulmonata); Asellus aquaticus (Isopoda); Daphnia pulex (Cladocera); Cloeon dipterum (Ephemeroptera); Plea leachi (Heteroptera); and Eristalis sp., Chaoborus crystallinus, Chironomus thummi, and Psychoda alternata (Diptera). In addition, bioassays were performed with mosquito larvae (Aedes aegypti, Anopheles stephensi, and Culex pipiens). Psychoda alternata larvae were very susceptible, with LC50/LC90 values comparable to those of mosquito larvae (about 10(3)-10(5) spores/ml). The tests with Chaoborus crystallinus larvae showed significant mortality rates at high concentrations, but generally not before 4 or 5 days after treatment. The remaining nontarget organisms did not show any susceptibility. The investigation confirms the specificity of Cb.m. to nematocerous Diptera.",AMER MOSQUITO CONTROL ASSOC,13,"15000 COMMERCE PARKWAY, SUITE C, MOUNT LAUREL, NJ 08054 USA",MOUNT LAUREL,5.0,NG684,"YIALLOUROS, M; STORCH, V; THIERY, I; BECKER, N",8.0,7.0,Entomology,J AM MOSQUITO CONTR,J. Am. Mosq. Control Assoc.,,"YIALLOUROS, M (corresponding author), GERMAN MOSQUITO CONTROL ASSOC, LUDWIGSTR 99, D-67165 WALDSEE, GERMANY.",,,,,7912261.0,1943-6270,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1994MX52900001,4,0,"MARTIN, AJ; SEABY, RMH; YOUNG, JO",J,English,DOES BODY-SIZE DIFFERENCE IN THE LEECHES GLOSSIPHONIA-COMPLANATA (L) AND HELOBDELLA-STAGNALIS (L) CONTRIBUTE TO COEXISTENCE,1994.0,Marine & Freshwater Biology,273,0018-8158,2,JAN 21,67,75,GLOSSIPHONIA-COMPLANATA; HELOBDELLA-STAGNALIS; LEECHES; LAKE; FOOD; COMPETITION,"UNIV LIVERPOOL,DEPT ENVIRONM & EVOLUTIONARY BIOL,POB 147,LIVERPOOL L69 3BX,ENGLAND","The effect of predator and prey body size on the feeding success of the British lake-dwelling leeches Glossiphonia complanata and Helobdella stagnalis was examined in the laboratory, and any involvement of size difference between the leeches in allowing coexistence in the field assessed. G. complanata breeds in advance of H. stagnalis and maintains a body size advantage throughout their annual life-cycle. In experiments, conducted at 14-degrees-C and a photoperiod of 16 hrs L: 8 hrs D, three size classes of leeches of each species were each exposed to each of three size classes of each of five prey species, viz. Tubifex sp., Chironomus sp., Asellus aquaticus, Lymnaea peregra and Potamopyrgus jenkinsi. For each prey species, three different types of experiments were performed: one leech exposed to four prey individuals; four leeches of the same species with sixteen prey; and two leeches of each species with sixteen prey. In the first experiment, all sizes of G. complanata were capable of feeding on all sizes of the prey types offered; the same was true for H. stagnalis with exceptions of feeding on large A. aquaticus and large L. peregra. For both species, but especially for G. complanata, there was a trend within each size class of leech for decreasing proportions of fed leeches with increasing prey size, and within each size class of prey for an increasing proportion of fed leeches with increasing leech size; however there were several exceptions to these trends. Both leeches fed extensively on Tubifex sp. but there were significant differences in the proportions feeding on other prey types; G. complanata fed more on A. aquaticus and the two snail species, and less on Chironomus, than H. stagnalis. The effect of increasing the number of leech individuals from one to four individuals, of the same or mixed species, had little effect on the proportion of leeches which had fed. It is concluded that large G. complanata will have access to large individuals of certain prey taxa denied H. stagnalis, which may lessen the intensity of interspecific competition.",KLUWER ACADEMIC PUBL,29,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,9.0,MX529,"MARTIN, AJ; SEABY, RMH; YOUNG, JO",7.0,7.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00006848,,LAKE-DWELLING LEECHES; FOOD RESOURCE; HIRUDINEA; RATIOS; PREY,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOCONTROL SCIENCE AND TECHNOLOGY,2021-04-13,WOS:A1994QA19500002,20,0,"CASAS, J; HULLIGER, B",J,English,STATISTICAL-ANALYSIS OF FUNCTIONAL-RESPONSE EXPERIMENTS,1994.0,Biotechnology & Applied Microbiology; Entomology,4,0958-3157,2,,133,145,FUNCTIONAL RESPONSE; PREDATION; GENERALIZED LINEAR MODELS; DATA ANALYSIS; DIAGNOSTICS; OVERDISPERSION,"SWISS FED STAT OFF,BERN,SWITZERLAND; SWISS FED INST TECHNOL,INST PLANT SCI,CH-8092 ZURICH,SWITZERLAND","The aim of this paper is to highlight the benefits of a full data analysis of a functional response data set, compared to the usual one-pass regression analysis. In a biological control setting where the choice of organism is often based on comparative studies of the functional responses, it is imperative to have both reliable estimates and a feeling of the degree of confidence one is willing to put on the figures. We analyzed a data set involving the freshwater predator Notonecta glauca (Hemiptera) preying on Asellus aquaticus during 24 h. The specific aim of the analysis was to test whether the functional response is of type II or type III. The different stages of a complete analysis are (1) a preliminary inspection of the data, (2) model building, (3) a model check and (4) a combination of the results with independent information. We argue that the analysis is best done with the predation rate as response and define a test for the location of its maximum. The existence of a maximum is typical for type III functional response. We explain why the binomial distribution is a natural error distribution, and how to implement the regression analysis within the family of generalized linear models using two competing link functions, the logit and the reciprocal. There is marked overdispersion which increases with increasing prey numbers. We use prior weights to take account of it. Using all available data, a type III functional response is warranted with the reciprocal link, but not with the logit link. Model checks using Pearson residuals and regression diagnostics based on point deletions show that three points have a particularly strong influence on the parameter estimates. If these are deleted, the functional response type III is then warranted for both link functions: The complete analysis enables us to determine the various degrees of uncertainty and to draw biological conclusions with corresponding confidence. We are convinced that the data set shows a type III functional response, but we are less sure about which link function to choose. Furthermore, the marked overdispersion at high density, the regression diagnostics, as well as independent information on a change in the behaviour of the prey at high density, indicate that the experimental conditions may have changed as a function of the prey density.",CARFAX PUBL CO,31,"PO BOX 25, ABINGDON, OXON, ENGLAND OX14 3UE",ABINGDON,13.0,QA195,"CASAS, J; HULLIGER, B",27.0,25.0,Biotechnology & Applied Microbiology; Entomology,BIOCONTROL SCI TECHN,Biocontrol Sci. Technol.,10.1080/09583159409355321,,DENSITY; MODELS; HYM; HOM,,"Casas, Jerome/0000-0003-1666-295X","Casas, Jerome/D-9620-2011",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BOLLETTINO DI ZOOLOGIA,2021-04-13,WOS:A1994NJ27300010,6,0,"DEZFULI, BS; ROSSETTI, E; FANO, EA; ROSSI, R",J,English,"OCCURRENCE OF LARVAL ACANTHOCEPHALUS-ANGUILLAE (ACANTHOCEPHALA) IN THE ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA) FROM THE RIVER BRENTA",1994.0,Zoology,61,0373-4137,1,,77,81,ACANTHOCEPHALANS; FRESH-WATER ISOPODS; PARASITISM; CYSTACANTH LARVAE,,"A total of 440 specimens of Asellus aquaticus were collected from the River Brenta (northern Italy) in a single sampling in August 1992, and examined for larval helminth parasites. From the hemocoels of 14 (3.1%) individuals of A. aquaticus, 17 acanthocephalan larvae were removed: of these 15 were well-developed cystacanths of Acanthocephalus anguillae (a new geographical recording for cystacanth); not more than two larvae were found in a single host. The sex-ratio among the parasitized isopods was approximately 1:1. In more than 64% of infected A. aquaticus, the integumental pigmentation was darker than that of non-parasitized individuals. Infected isopods were never observed in amplexus, and one parasitized female specimen carried 50 eggs in its brood pouch. In hosts with well-developed cystacanths, the displacement of isopod internal organs, such as the alimentary canal, was observed.",UNIONE ZOOLOGICA ITALIANA,0,"DIPARTIMENTO 62032 CAMERINO, ITALY           ANIMALE, UNIVERSITA CAMERINO,",CAMERINO,5.0,NJ273,"DEZFULI, BS; ROSSETTI, E; FANO, EA; ROSSI, R",19.0,18.0,Zoology,B ZOOL,Boll. Zool.,10.1080/11250009409355862,"DEZFULI, BS (corresponding author), UNIV FERRARA,DIPARTIMENTO BIOL EVOLUTIVA,VIA L BORSARI 46,I-44100 FERRARA,ITALY.",,,"Fano, Elisa Anna/0000-0001-8552-9621; Sayyaf Dezfuli, Bahram/0000-0002-9778-5937","Fano, Elisa Anna/M-6731-2015; Sayyaf Dezfuli, Bahram/G-4184-2015",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ETHOLOGY,2021-04-13,WOS:A1994NJ52500005,13,0,"JORMALAINEN, V; MERILAITA, S; TUOMI, J",J,English,"MALE CHOICE AND MALE-MALE COMPETITION IN IDOTEA-BALTICA (CRUSTACEA, ISOPODA)",1994.0,Psychology; Behavioral Sciences; Zoology,96,0179-1613,1,JAN,46,57,,"UNIV TURKU,SATAKUNTA ENVIRONM RES CTR,TURKU,FINLAND; LUND UNIV,DEPT ECOL,S-22362 LUND,SWEDEN","Sexual selection in mate-guarding Crustacea may involve several processes: male choice, male-male competition, and female choice. To evaluate the relative importance of the different processes in mate choice of the aquatic isopod I. baltica we studied 1) the mate-choice criteria of males, 2) effects of sex ratio on the outcome of the mating contest, and 3) the role of size in male-male interactions. When given a choice between a small and a large female, males most often chose the one that matured earlier for parturial ecdysis. Maturity was a more important choice criterion than female size, but these also correlated positively. Large males had a mating advantage in both male- and female-biased sex ratios; pairing was size-assortative only in the male-biased ratio where guarding was also longer. If an extra male was placed with a precopulatory pair, 30 % take-overs occurred, large males surpassing. Present and earlier work suggests that male size is an asset in both intra- and intersexual interactions. There is little or no direct phenotypic sexual selection on female size: sexual selection for large males presumably contributes to the evolution of sexual size dimorphism in I. baltica.",BLACKWELL WISSENSCHAFTS-VERLAG GMBH,27,"KURFURSTENDAMM 57, D-10707 BERLIN, GERMANY",BERLIN,12.0,NJ525,"JORMALAINEN, V; MERILAITA, S; TUOMI, J",45.0,45.0,"Psychology, Biological; Behavioral Sciences; Zoology",ETHOLOGY,Ethology,,,GAMMARUS-PULEX AMPHIPODA; TIME INVESTMENT STRATEGIES; ASELLUS-AQUATICUS L; AMOROUS GAMMARUS; SEXUAL SELECTION; MATE SELECTION; SIZE; LAWRENCIANUS; DECISIONS,,"Jormalainen, Veijo/0000-0001-6346-2585","Jormalainen, Veijo/B-2073-2008",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITY,2021-04-13,WOS:A1994MT15500009,2,0,"PELLICCIA, F; VOLPI, EV; LANZA, V; GADDINI, L; BALDINI, A; ROCCHI, A",J,English,TELOMERIC SEQUENCES OF ASELLUS-AQUATICUS (CRUST ISOP),1994.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,72,0018-067X,,JAN,78,80,ASELLUS; BAL31 NUCLEASE; CRUSTACEAN; IN SITU HYBRIDIZATION; ISOPOD; TELOMERE,"BAYLOR COLL MED,INST MOLEC GENET,HOUSTON,TX 77030",The repeated sequence TTAGGG is present at all tested vertebrate telomeres including those of humans and at the telomeres of evolutionarily very distant organisms such as trypanosomes and slime moulds. We tested for the presence of this sequence in the genome of the crustacean isopod Asellus aquaticus. Fluorescence in situ hybridization and BAL31 nuclease digestion demonstrate that the (TTAGGG)(n) sequence occurs at the extreme termini of the chromosomes and also at an interstitial site.,BLACKWELL SCIENCE LTD,9,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,3.0,MT155,"PELLICCIA, F; VOLPI, EV; LANZA, V; GADDINI, L; BALDINI, A; ROCCHI, A",19.0,18.0,Ecology; Evolutionary Biology; Genetics & Heredity,HEREDITY,Heredity,10.1038/hdy.1994.9,"PELLICCIA, F (corresponding author), UNIV ROMA LA SAPIENZA,DIPARTIMENTO GENET & BIOL MOLEC,CNR,CTR GENET EVOLUZIONIST,I-00185 ROME,ITALY.",SEX-CHROMOSOME; DIFFERENTIATION; (TTAGGG)N,,"Gaddini, Lucia/0000-0002-0729-8001; Volpi, Emanuela/0000-0002-2422-9104; Baldini, Antonio/0000-0002-5330-0256; PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014; Gaddini, Lucia/G-1410-2016; genes, anthony/F-2541-2012; Baldini, Antonio/M-2355-2015",,,,,Bronze,,,,,1,,,,,,,,,,,,,,,,,,
Article,INTERNATIONALE REVUE DER GESAMTEN HYDROBIOLOGIE,2021-04-13,WOS:A1994QA61500003,9,0,"KOSKENNIEMI, E",J,English,"COLONIZATION, SUCCESSION AND ENVIRONMENTAL-CONDITIONS OF THE MACROZOOBENTHOS IN A REGULATED, POLYHUMIC RESERVOIR, WESTERN FINLAND",1994.0,Marine & Freshwater Biology,79,0020-9309,4,,521,555,COLONIZATION; SUCCESSION; MACROZOOBENTHOS; RESERVOIRS; FINLAND; CHIRONOMUS; ASELLUS,,"The colonization and succession of the macrozoobenthos in a polyhumic, winter-regulated reservoir, Lake Kyrkosjarvi in Western Finland (62-degrees 45'N, 22-degrees 48'E, A = 6.4 km2 at summer HW, Z(mean) = 2.5 m and Z(max) = 7 m) was studied from its filling in 1981 until 1989 (in 1981-83, 1986 and 1989). The zoobenthos was sampled over the whole reservoir bottom using qualitative and quantitative methods during three open-water seasons and winter samples were taken in the regulated and submerged areas during the maximum draw down (2 m) in March-April. Colonization during the first summer revealed two phases. The first phase featured dominance of actively swimming and adult-dispersing taxa. The second phase was characterized by a mass occurrence (high abundance and biomass) of chironomids (Chironomus, Glyptotendipes) and the isopod Asellus aquaticus. Asellus originated in a small bog pond in the northern outlet basin, and it was the dominant zoobenthic species during the study period. The species of Chironomus, most of them pool inhabitants of natural waters, succeeded each other. In the later study years, when the zoobenthos at the sites was determined more by habitat (spatially) than by the succession (temporally), the reservoir bottom could be divided into three areas: a) deep areas, less-than-or-equal-to 3 m, with an increasing occurrence of lacustrine species (eutrophic or dystrophic), b) shallower organic bottoms, greater-than-or-equal-to 2 m, with many pool-inhabiting and eurytopic species, and c) some eroded areas in the shallow littoral, greater-than-or-equal-to 0.5 m, where lacustrine species became common. Water-level regulation in winter killed only a small proportion of the fauna in the organic-rich peatland and forest bottom areas representing the majority of the regulated zone. Hence, the regulated areas had almost everywhere high abundance and biomass values throughout the year, deviating from the results found by other authors in strongly regulated lakes, which have maximum values just below the draw down limit.",AKADEMIE VERLAG GMBH,92,"MUHLENSTRASSE 33-34, D-13187 BERLIN, GERMANY",BERLIN,35.0,QA615,"KOSKENNIEMI, E",17.0,16.0,Marine & Freshwater Biology,INT REV GES HYDROBIO,Int. Rev. Gesamten Hydrobiol.,10.1002/iroh.19940790405,"KOSKENNIEMI, E (corresponding author), VAASA WATER & ENVIRONM DIST,BOX 262,SF-65101 VAASA,FINLAND.",BENTHIC MACROINVERTEBRATES; LIFE-HISTORY; LAKE; DIPTERA; CHIRONOMIDAE; COMMUNITIES; BIOMASS; ISOPODA; FAUNA; PONDS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,WATER SCIENCE AND TECHNOLOGY,2021-04-13,WOS:A1994NR43500023,4,0,"MULLISS, R; ELLIS, JB; REVITT, DM; SHUTES, RBE",J,English,AN EVALUATION OF THE TOXIC INFLUENCES ON ASELLUS-AQUATICUS (L) IN AN URBAN STREAM ENVIRONMENT,1994.0,Engineering; Environmental Sciences & Ecology; Water Resources,29,0273-1223,1-2,,199,207,MACROINVERTEBRATES; BIOINDICATORS; METAL BIOACCUMULATION; WEIGHT CHANGE AND MORTALITY; PRINCIPAL COMPONENT ANALYSIS,,"Individually caged asellids placed in urban receiving waters were subjected to discharges from stormwater and combined sewer overflow outfalls. In each field trial the volume of precipitation and the number of dry days were recorded on a weekly basis and the metal (copper, zinc, cadmium. lead) body concentrations of caged organisms were measured. Using Principal Component Analysis (PCA), combinations of the measured parameters which explained much of the variation in organism mortality or changes in the weight of caged asellids were isolated. Three different sets of variable combinations were identified two of which explained significant independent sources of variation responsible for changes in organism weight and one which explained a significant source of the variation in assellid mortality. Organism mortality and weight change were selected as dependent variables and regressed against the principal components of the independent variable predictors to produce empirical first order regression equations. Changes in the weight of caged organisms were found to result from the joint interaction of a number of identified variables. Copper was identified as being the most important metal toxicant with respect to mortality. Meteorological variables were found to have a greater influence on organism mortality than upon changes in organism weight.",PERGAMON-ELSEVIER SCIENCE LTD,12,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,9.0,NR435,"MULLISS, R; ELLIS, JB; REVITT, DM; SHUTES, RBE",11.0,11.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER SCI TECHNOL,Water Sci. Technol.,,"MULLISS, R (corresponding author), MIDDLESEX UNIV,URBAN POLLUT RES CTR,BOUNDS GREEN RD,LONDON N11 2NQ,ENGLAND.",MULTIVARIATE-ANALYSIS; ECOSYSTEMS,,,,,,,,,6th International Conference on Urban Storm Drainage,,"SEP 12-17, 1993","NIAGARA FALLS, CANADA",,,"INT ASSOC HYDRAUL RES, INT ASSOC WATER QUAL, ENVIRONM CANADA, ENVIRONM ONTARIO, AMER SOC CIVIL ENGINEERS, GOVT CANADA, GREAT LAKE CLEANUP FUND",,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:A1993MP01200003,40,3,"GRACA, MAS; MALTBY, L; CALOW, P",J,English,"IMPORTANCE OF FUNGI IN THE DIET OF GAMMARUS-PULEX AND ASELLUS-AQUATICUS .2. EFFECTS ON GROWTH, REPRODUCTION AND PHYSIOLOGY",1993.0,Environmental Sciences & Ecology,96,0029-8549,3,DEC,304,309,FOOD QUALITY; GROWTH; ENERGY BUDGETS; GAMMARUS PULEX; ASELLUS AQUATICUS,"UNIV SHEFFIELD,DEPT ANIM & PLANT SCI,SHEFFIELD S10 2TN,ENGLAND","An important component of the interaction between macroinvertebrates and leaf litter in streams in the extent to which consumers can differentiate between undecomposed and decomposing leaves. The detritivores Gammarus pulex and Asellus aquaticus fed preferentially on conditioned rather on unconditioned leaf material. Growth in A. aquaticus was significantly reduced when unconditioned leaves were provided, but in G. pulex no significant effect of conditioning on growth was observed. The capacity of G. pulex to tolerate reductions in food quality seems to be a consequence of a compensatory system in which respiration rates change to compensate for reductions in food quality. In this way a constant growth rate is maintained. Increases in ingestion rates to compensate for low quality food were not observed.",SPRINGER VERLAG,23,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,6.0,MP012,"GRACA, MAS; MALTBY, L; CALOW, P",96.0,90.0,Ecology,OECOLOGIA,Oecologia,10.1007/BF00317498,"GRACA, MAS (corresponding author), UNIV COIMBRA,DEPT ZOOL,P-3049 COIMBRA,PORTUGAL.",WOODLAND STREAM; DETRITUS; DETRITIVORE; LEAVES,,"Graca, Manuel A.S./0000-0002-7303-9382; Graca, Manuel/0000-0002-6470-8919; Maltby, Lorraine/0000-0003-3817-4033","Graca, Manuel A.S./A-5785-2013; Maltby, Lorraine/A-6702-2012",28313643.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,BIOLOGICAL JOURNAL OF THE LINNEAN SOCIETY,2021-04-13,WOS:A1993MH26700001,11,0,"RIDDOCH, BJ",J,English,THE ADAPTIVE SIGNIFICANCE OF ELECTROPHORETIC MOBILITY IN PHOSPHOGLUCOSE ISOMERASE (PGI),1993.0,Evolutionary Biology,50,0024-4066,1,SEP,1,17,ELECTROPHORESIS; GPI; CHARGE; ALLOZYMES; ISOZYMES; NATURAL SELECTION,,,ACADEMIC PRESS LTD,164,"24-28 OVAL RD, LONDON, ENGLAND NW1 7DX",LONDON,17.0,MH267,"RIDDOCH, BJ",86.0,86.0,Evolutionary Biology,BIOL J LINN SOC,Biol. J. Linnean Soc.,,"RIDDOCH, BJ (corresponding author), UNIV BOTSWANA & SWAZILAND,DEPT BIOL,PRIVATE BAG 0022,GABORONE,BOTSWANA.",SPHAEROMA-RUGICAUDA LEACH; SPECIES ORYZA-RUFIPOGON; OIL-SURFACTANT MIXTURES; FUNDULUS-HETEROCLITUS L; EASTERN NORTH-AMERICA; LIFE-HISTORY TRAITS; ASELLUS-AQUATICUS L; GENETIC-VARIATION; PROTEIN POLYMORPHISM; ALLOZYME VARIATION,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,CRUSTACEANA,2021-04-13,WOS:A1993LV13900005,17,1,"JAZDZEWSKI, K; KONOPACKA, A",J,English,SURVEY AND DISTRIBUTION OF CRUSTACEA MALACOSTRACA IN POLAND,1993.0,Marine & Freshwater Biology,65,0011-216X,,SEP,176,191,,,"The paper presents a survey of Polish malacostracan fauna. In two tables the distribution of freshwater and Baltic species is presented according to the regionalization of the country used in ''Catalogus Faunae Poloniae''. Figures present some interesting distributions of freshwater malacostracan taxa. Own studies as well as the review of ample literature aimed at the preparation of the successive issues of ''Catalogus Faunae Poloniae'' allowed to present this survey of 121 malacostracan taxa, viz., Bathynellacea - 1 species, Mysidacea - 9, Amphipoda - 50, Isopoda - 47, Tanaidacea - 1, Cumacea - 1, Euphausiacea - 1, Decapoda - 11. In inland waters 31 species and subspecies do occur (Batynellacea - 1, Mysidacea - 1, Amphipoda - 22, Isopoda - 2, Decapoda - 5). In brackish waters of the Baltic Sea and its lagoons - 54 species (Mysidacea - 8, Amphipoda - 24, Isopoda - 12, Tanaidacea - 1, Cumacea - 1, Euphausiacea - 1, Decapoda - 8). Bi-environmental species are Asellus aquaticus and Eriocheir sinensis. The land malacostracan fauna of Poland includes 4 amphipod and 34 isopod (oniscoid) taxa. The Polish malacostracan fauna is composed mainly of species that have invaded this region of Europe in the postglacial period, but the oldest, preglacial elements are subterranean amphipods (niphargids, Crangonyx) and Bathynella natans, occurring only in southern Poland. The earliest postglacial invaders of the Baltic and/or the northern lakes were glacial relict species like the Mysis relicta group, Pallasiola quadrispinosa, Monoporeia affinis and Saduria entomon. The Southern Baltic malacostracan fauna is dominated by Boreal and Arctic/(Subarctic)-boreal elements but one third of this fauna is Mediterranean-boreal or Lusitanian-boreal in origin. Inland waters were probably settled next by Gammarus lacustris, G. pulex, Synurella ambulans, Asellus aquaticus and Astacus astacus, then by later incomers, like Gammarus balcanicus. Canal constructions in the XVIIIth century helped the immigration of Ponto-Caspian elements: Corophium curvispinum and Echinogammarus ischnus. Intentionally introduced to Polish waters are Astacus leptodactylus, Orconectes limosus and Pacifastacus leniusculus; unintentionally brought along were Eriocheir sinensis and Rhithropanopeus harrisii tridentatus, as well as Talitroides alluaudi and Trichorhina tomentosa to some greenhouses.",E J BRILL,71,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,16.0,LV139,"JAZDZEWSKI, K; KONOPACKA, A",22.0,20.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854093X00540,"JAZDZEWSKI, K (corresponding author), UNIV LODZ,DEPT INVERTEBRATE ZOOL & HYDROBIOL,PL-90131 LODZ,POLAND.",PONTOPOREIA; FAUNA; MYSIS,,,,,,,,,1ST EUROPEAN CRUSTACEAN CONF,,1992,"PARIS, FRANCE",2,,,,,,,,,,,,,,,,,,
Article,BEHAVIOUR,2021-04-13,WOS:A1993MN81700005,5,0,"JORMALAINEN, V; MERILAITA, S",J,English,FEMALE RESISTANCE AND PRECOPULATORY GUARDING IN THE ISOPOD IDOTEA BALTICA (PALLAS),1993.0,Behavioral Sciences; Zoology,125,0005-7959,,JUN,219,231,,"UNIV TURKU,DEPT BIOL,ANIM ECOL LAB,SF-20500 TURKU,FINLAND","In a laboratory experiment in I. baltica the precopulatory guarding was preceded by a period of struggles between the sexes as males continuously tried to initiate the precopulatory guarding and females resisted their guarding attempts. This struggling lasted for a few days, during which the females escaped from the males on the average 1.3 times per hour. While the females resisted, the males usually responded by kicking back. Once the precopula started, on the average 43 h before the completion of the female parturial ecdysis, the female resistance stopped. If the guarding male was replaced by another male, the female accepted the new male without resistance or resisted only weakly. Larger males were able to perform longer precopulas, and furthermore, when males were hunger stressed they performed shorter precopulas than control males. The female resistance and the existence of struggles imply a conflict between the sexes over whether or not to start the precopulatory phase. This conflict may occur either because of different optimum precopula duration of the sexes or because of the unwillingness of the females to pair with whatever male. By resisting, females may, at least to some extent, control the duration of the guarding, and the resistance may lead to selection among male candidates. Thus the female resistance, although for so far largely neglected, may have potential importance in the mate choice and sexual selection of aquatic crustaceans with precopulatory guarding.",E J BRILL,38,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,13.0,MN817,"JORMALAINEN, V; MERILAITA, S",47.0,47.0,Behavioral Sciences; Zoology,BEHAVIOUR,Behaviour,10.1163/156853993X00254,,GAMMARUS-PULEX AMPHIPODA; SEXUAL SELECTION; ASELLUS-AQUATICUS; BREEDING-BEHAVIOR; AMOROUS GAMMARUS; MATING DECISIONS; SIZE DIMORPHISM; MATE SELECTION; WATER STRIDER; CRUSTACEA,,"Jormalainen, Veijo/0000-0001-6346-2585","Jormalainen, Veijo/B-2073-2008",,,,,,,,,,3-4,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THERMAL BIOLOGY,2021-04-13,WOS:A1993LM78900003,27,0,"LAGERSPETZ, KYH; BOWLER, K",J,English,VARIATION IN HEAT TOLERANCE IN INDIVIDUAL ASELLUS-AQUATICUS DURING THERMAL-ACCLIMATION,1993.0,Life Sciences & Biomedicine - Other Topics; Zoology,18,0306-4565,3,JUN,137,143,THERMAL ACCLIMATION; CTMAX; HEAT DEATH; TOLERANCE; ACCLIMATION; ASELLUS-AQUATICUS; CRUSTACEA,"UNIV DURHAM,DEPT BIOL SCI,DURHAM DH1 3LE,ENGLAND","1. The thermal tolerance of adult Asellus aquaticus was determined during acclimation from 10 to 20-degrees-C and 20 to 10-degrees-C. 2. Thermal tolerance was established by imposing a temperature rise of 12-degrees-C/h. The temperature at which righting reflex was lost was considered to be the critical thermal maximum (CTMax). 3. This parameter can be determined repeatedly in the same individual, reliably and with constancy over time. 4. The CTMax increased by 4-5-degrees-C by acclimation at 20-degrees-C as compared with the same animals at 10-degrees-C, a change that was fully reversible by reacclimation to 10-degrees-C. The rate of attainment of acclimation was faster from 10 to 20-degrees-C than from 20 to 10-degrees-C. 5. No narrowing of the range of interindividual variation was found in the thermal acclimation of CTMax during the process of the gain or loss of acclimation. 6. No evidence was found to support the proposal [Ushakov B. P. and Pashkova I. M. (1984) J. therm. Biol. 9, 1-6] that a negative correlation occurred between the individual value of CTMax and the extent of its change during the process of acclimation.",PERGAMON-ELSEVIER SCIENCE LTD,20,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,7.0,LM789,"LAGERSPETZ, KYH; BOWLER, K",22.0,21.0,Biology; Zoology,J THERM BIOL,J. Therm. Biol.,10.1016/0306-4565(93)90027-Q,"LAGERSPETZ, KYH (corresponding author), UNIV TURKU,DEPT BIOL,ANIM PHYSIOL LAB,SF-20500 TURKU 50,FINLAND.",ORCONECTES-RUSTICUS; TEMPERATURE; CRAYFISH; EXPOSURE; MAXIMA; TIME,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EXPERIENTIA,2021-04-13,WOS:A1993KY75500017,0,0,"RODER, G; STEINLEIN, C; SCHMID, M; LINSENMAIR, KE",J,English,"KARYOTYPE AND CHROMOSOME-BANDING IN THE TURKISH DESERT WOODLOUSE DESERTELLIO-ELONGATUS (CRUSTACEA, ISOPODA, ONISCIDEA)",1993.0,Science & Technology - Other Topics,49,0014-4754,4,APR 15,339,341,KARYOTYPE; CHROMOSOME BANDING; DESERTELLIO-ELONGATUS; CRUSTACEA; ISOPODA; ONISCIDEA,"BIOZENTRUM,INST HUMANGENET,W-8700 WURZBURG,GERMANY","The karyotype of D. elongatus was investigated by means of C-banding, silver staining, and mithramycin- and quinacrine fluorescent staining. The diploid chromosome number is 2n = 50. C-banding shows pericentromerically localized constitutive heterochromatin in every chromosome. Two of the chromosome pairs carry two telomeric nucleolus organizer regions each. No heteromorphic sex chromosomes were found.",BIRKHAUSER VERLAG AG,19,"PO BOX 133 KLOSTERBERG 23, CH-4010 BASEL, SWITZERLAND",BASEL,3.0,KY755,"RODER, G; STEINLEIN, C; SCHMID, M; LINSENMAIR, KE",4.0,4.0,Multidisciplinary Sciences,EXPERIENTIA,Experientia,,"RODER, G (corresponding author), THEODOR BOVERI INST,LEHRSTUHL TIEROKOL & TROPENBIOL,HUBLAND,W-8700 WURZBURG,GERMANY.",ASELLUS-AQUATICUS CRUSTACEA,,"Linsenmair, Karl Eduard/0000-0002-2132-8721","Linsenmair, Karl Eduard/Q-2268-2018",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ECOGRAPHY,2021-04-13,WOS:A1993LG77100005,34,1,"HENRIKSON, BI",J,English,"SPHAGNUM MOSSES AS A MICROHABITAT FOR INVERTEBRATES IN ACIDIFIED LAKES AND THE COLOR ADAPTATION AND SUBSTRATE PREFERENCE IN LEUCORRHINIA-DUBIA (ODONATA, ANISOPTERA)",1993.0,Biodiversity & Conservation; Environmental Sciences & Ecology,16,0906-7590,2,APR-JUN,143,153,,,"The increase of peat mosses, Sphagnum spp., in acidified lakes leads to a changed microhabitat structure for benthic invertebrates. The importance of this change was investigated for some benthic invertebrates. Comparisons between quantitative samples of Sphagnum and debris within the acidified Lake Stora Hastevatten, in the Lake Gardsjon catchment of SW Sweden, showed significantly higher abundances of Chironomidae, Ceratopogonidae, Odonata, Trichoptera, Cladocera and Argyroneta aquatica (Araneae) in Sphagnum. For Chironomidae and Cladocera the differences were tenfold. Special reference was made to the libellulid Leucorrhinia dubia which is common in acid lakes. In a laboratory test, late instar larvae of L. dubia were shown to be able to change colour to correspond to the brown and green colour of Sphagnum. This result was completed with a field test where larvae of L. dubia were significantly more common in Sphagnum of the same colour as the larvae. The ability to change colour may have an adaptive value when coexisting with visual predators. Small larvae, 4-5 mm, were significantly more prevalent in Sphagnum and they also showed significant preference for this substrate in the laboratory test. For medium-sized larvae, 12-14 mm, a tendency to prefer Sphagnum was found in the laboratory test. Larvae of L. dubia were shown to be more successful as predators on Asellus aquaticus in Sphagnum substrate than in debris in the laboratory test. Laboratory predation tests with Notonecta glauca, Corixa dentipes, Acilius sulcatus, Hyphydrus ovatus and L. dubia showed that they could all feed on larvae of L. dubia. The complex habitat structure of Sphagnum is probably the reason for the high abundance of invertebrates since it may serve as both shelter against predation and as foraging sites. It is probably important as a key habitat for young instars of, for example, L, dubia. In lakes with large Sphagnum mats, L. dubia can coexist with fish. The expansion of Sphagnum due to acidification will probably benefit many acidtolerant invertebrate species.",MUNKSGAARD INT PUBL LTD,48,"35 NORRE SOGADE, PO BOX 2148, DK-1016 COPENHAGEN, DENMARK",COPENHAGEN,11.0,LG771,"HENRIKSON, BI",34.0,33.0,Biodiversity Conservation; Ecology,ECOGRAPHY,Ecography,10.1111/j.1600-0587.1993.tb00066.x,"HENRIKSON, BI (corresponding author), UNIV GOTEBORG,ANIM ECOL SECT,MEDICINAREG 18,S-41390 GOTHENBURG,SWEDEN.",LARVAL DRAGONFLIES; PREY; PREDATION; SELECTION; DEPOSITION; BEHAVIOR; FOOD; FISH,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1993KV32200016,25,0,"VANHATTUM, B; KORTHALS, G; VANSTRAALEN, NM; GOVERS, HAJ; JOOSSE, ENG",J,English,"ACCUMULATION PATTERNS OF TRACE-METALS IN FRESH-WATER ISOPODS IN SEDIMENT BIOASSAYS - INFLUENCE OF SUBSTRATE CHARACTERISTICS, TEMPERATURE AND PH",1993.0,Engineering; Environmental Sciences & Ecology; Water Resources,27,0043-1354,4,APR,669,684,ASELLUS-AQUATICUS (L); SEDIMENT BIOASSAY; TRACE METALS; UPTAKE; ELIMINATION; TOXICOKINETICS; TEMPERATURE,"FREE UNIV AMSTERDAM,DEPT ECOL & ECOTOXICOL,1081 HV AMSTERDAM,NETHERLANDS; UNIV AMSTERDAM,DEPT ENVIRONM & TOXICOL CHEM,1018 WV AMSTERDAM,NETHERLANDS","Asellus aquaticus (L.) was exposed in microcosms to littoral sediments from Lake Ketelmeer (River Rhine estuary) and from a control site in order to study effects of substrate characteristics, temperature and pH on the kinetics of trace metal accumulation. Elimination patterns were studied in parallel experiments with preloaded animals kept on control sediment or in test water. In a 50 day semistatic bioassay at three different temperatures (5, 10 and 20-degrees-C) and two pH levels (7.3 vs 8.1) a highly significant accumulation of Cd, Pb. Cu and Zn by the isopods was observed. No net uptake was recorded in animals kept on control substrates. The most marked accumulation by Asellus was noted for the non-essential trace metals Cd and Pb. Element-specific effects of sediment characteristics and temperature were encountered on sediment-water partitioning (Cd, Cu and Zn) and on accumulation and elimination kinetics (Cd, Cu and Pb). No significant effects were observed for the different pH levels. Accumulation of Cd and Cu increased significantly with temperature. Pb concentrations in animals exposed at 20-degrees-C were found to be significantly lower compared to other temperatures. The accumulation of Zn appeared to be unaffected by temperature. Two distinct elimination patterns were observed. Elimination of Cd and Cu was absent at the higher temperatures. A slight elimination of these metals was recorded only in some of the treatment groups at 5-degrees-C. Both elements seemed to be stored in stable body compartments. A relatively rapid elimination, not affected by temperature, was observed for Pb (biological half-life: 8-15 days) and Zn (half-life: 21-44 days): above the control sediments Asellus maintained a Zn concentration of c. 100-150 mug g-1 (dry wt). Several explanations for the observed accumulation patterns and temperature effects are presented. The results indicated that freshwater isopods could be suitable organisms for bioassays and biological monitoring studies on the bioavailability of sediment-bound trace metals.",PERGAMON-ELSEVIER SCIENCE LTD,67,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,16.0,KV322,"VANHATTUM, B; KORTHALS, G; VANSTRAALEN, NM; GOVERS, HAJ; JOOSSE, ENG",47.0,46.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(93)90177-J,"VANHATTUM, B (corresponding author), FREE UNIV AMSTERDAM,INST ENVIRONM STUDIES,DE BOELELAAN 1115,1081 HV AMSTERDAM,NETHERLANDS.",CADMIUM ACCUMULATION; PALAEMON-ELEGANS; ANODONTA-CYGNEA; BOUND LEAD; COPPER; WATER; ZINC; CRUSTACEA; BIOACCUMULATION; FOOD,,,"van Hattum, Bert AGM/N-1706-2013",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOCHEMICAL SYSTEMATICS AND ECOLOGY,2021-04-13,WOS:A1993KU40900001,13,0,"MCCLUSKEY, S; MATHER, PB; HUGHES, JM",J,English,THE RELATIONSHIP BETWEEN BEHAVIORAL-RESPONSES TO TEMPERATURE AND GENOTYPE AT A PGI LOCUS IN THE TERRESTRIAL ISOPOD PORCELLIO-LAEVIS,1993.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Evolutionary Biology,21,0305-1978,2,MAR,171,179,PORCELLIO-LAEVIS; PHOSPHOGLUCOSE ISOMERASE; GENETIC POLYMORPHISMS; BEHAVIORAL RESPONSES,"QUEENSLAND UNIV TECHNOL,CTR BIOL POPULAT MANAGEMENT,BRISBANE 4001,AUSTRALIA; GRIFFITH UNIV,FAC AUSTRALIAN ENVIRONM SCI,NATHAN,QLD 4111,AUSTRALIA",Genetic polymorphisms at individual enzyme loci have been widely studied. The relevance of the variation often however remains unexplained. Phosphoglucose isomerase or PGI is one enzyme that has received a large amount of attention in this regard with numerous reports of relationships between environmental variables (especially temperature) and PGI polymorphisms common in the literature. This study examines PGI variation in a common species of isopod in Australia (Porcellio laevis) and relates it to individual responses in imposed (stressful) and natural (choice) temperature conditions. Highly significant relationships are reported between allele/genotype and response of individuals with the PGI-S allele favoured in 'cool' conditions in the choice experiments and the PGI-F allele favoured in the stress experiments where individuals are exposed to 0-degrees-C for a short period of time.,PERGAMON-ELSEVIER SCIENCE LTD,33,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,9.0,KU409,"MCCLUSKEY, S; MATHER, PB; HUGHES, JM",9.0,9.0,Biochemistry & Molecular Biology; Ecology; Evolutionary Biology,BIOCHEM SYST ECOL,Biochem. Syst. Ecol.,10.1016/0305-1978(93)90034-O,,ASELLUS-AQUATICUS L; SPHAEROMA-RUGICAUDA LEACH; PHOSPHOGLUCOSE ISOMERASE; EVOLUTIONARY GENETICS; ENZYME POLYMORPHISM; NATURAL-SELECTION; FUNDULUS-HETEROCLITUS; ALLOZYME FREQUENCIES; FECUNDITY SELECTION; POPULATION-GENETICS,,"appleyard, sharon/0000-0002-3105-1690; Appleyard, Sharon/0000-0002-3105-1690","appleyard, sharon/D-6076-2012; hughes, jane m/C-5321-2008; Appleyard, Sharon/AAJ-9942-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:A1993KT66500002,8,0,"BASSET, A",J,English,RESOURCE-MEDIATED EFFECTS OF STREAM POLLUTION ON FOOD ABSORPTION OF ASELLUS-AQUATICUS (L) POPULATIONS,1993.0,Environmental Sciences & Ecology,93,0029-8549,3,MAR,315,321,ABSORPTION EFFICIENCY; ASELLUS-AQUATICUS; BIOLOGICAL INTERACTIONS; RADIOTRACERS; WATER POLLUTION,,The role of interactions between chemical perturbations and biological constraints on detritivores occurring in polluted streams were investigated by analysing food absorption variation with stress. Absorption rate and efficiency of four Asellus aquaticus (L.) populations from differently polluted habitats were quantified with respect to the microbial guilds colonizing detritus. A twin tracer method was used. Detritus was microbially colonized in standard conditions and on each stream bottom to control for potential resource-independent variations among individuals. The relationship between length and weight was also determined on a random sample of individuals of each population. Differences of 14.6% in potential absorption efficiency and 11.3% in potential absorption rate were observed between populations from the least and the most polluted habitat. Actual (''realized'') variations were much stronger: from a minimum of a 60.1% reduction in absorption efficiency to a maximum of 93.8% for the rate. The realized food absorption and the individual weight per length showed the same pattern of variation among populations. This suggested that the availability of energy to isopods in nature was related to stream pollution and resource quality. Bottom-up interactions appear to be the most relevant pathway through which chemical water pollution affects the Asellus populations studied. The potential resource-independent variations among individuals are also likely to be explained by temporal cascading of resource-mediated effects.,SPRINGER VERLAG,49,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,7.0,KT665,"BASSET, A",14.0,13.0,Ecology,OECOLOGIA,Oecologia,10.1007/BF00317872,"BASSET, A (corresponding author), UNIV CAGLIARI,DIPARTIMENTO BIOL ANIM & ECOL,VIALE POETTO 1,I-09126 CAGLIARI,ITALY.",GAMMARUS-PULEX L; TROPHIC NICHE; PSEUDOLIMNAEUS AMPHIPODA; INTRASPECIFIC VARIATION; WATER-QUALITY; ISOPODA; CRUSTACEA; DETRITIVORES; EFFICIENCY; ECOSYSTEMS,,,,28313429.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:A1993KL51200021,37,0,"GRACA, MAS; MALTBY, L; CALOW, P",J,English,IMPORTANCE OF FUNGI IN THE DIET OF GAMMARUS-PULEX AND ASELLUS-AQUATICUS .1. FEEDING STRATEGIES,1993.0,Environmental Sciences & Ecology,93,0029-8549,1,FEB,139,144,DETRITIVORES; TROPHIC BIOLOGY; GAMMARUS-PULEX; ASELLUS-AQUATICUS; FOOD CHOICES; NICHE BREADTH,"UNIV SHEFFIELD,DEPT ANIM & PLANT SCI,SHEFFIELD S10 2TN,S YORKSHIRE,ENGLAND","The importance of fungi in the trophic biology of the freshwater detritivores Gammarus pulex and Asellus aquaticus was investigated. Inspection of leaves used in feeding trials indicated that whereas A. aquaticus scrapes at the leaf surface, G. pulex bites through the leaf material. Both species discriminated between fungal mycelia, fungally colonized and uncolonized leaf material but, although A. aquaticus selectively consumed fungal mycelia, G. pulex fed preferentially on leaf material. Fungi appear to be an important food source for A. aquaticus and selection of food material was positively correlated with fungal biomass. In contrast, for G. pulex, fungi appear to be more important as modifiers of leaf material. However, no significant correlations were found between food preference and any of the leaf modifications measured.",SPRINGER VERLAG,39,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,6.0,KL512,"GRACA, MAS; MALTBY, L; CALOW, P",116.0,112.0,Ecology,OECOLOGIA,Oecologia,10.1007/BF00321203,"GRACA, MAS (corresponding author), UNIV COIMBRA,DEPT ZOOL,P-3049 COIMBRA,PORTUGAL.",STREAM INVERTEBRATES; LEAVES; PSEUDOLIMNAEUS; AMPHIPODA; GROWTH; CHITIN; PALATABILITY; PREFERENCES; DIGESTION; NUTRITION,,"Graca, Manuel A.S./0000-0002-7303-9382; Graca, Manuel/0000-0002-6470-8919; Maltby, Lorraine/0000-0003-3817-4033","Graca, Manuel A.S./A-5785-2013; Maltby, Lorraine/A-6702-2012",28313786.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONALE REVUE DER GESAMTEN HYDROBIOLOGIE,2021-04-13,WOS:A1993LR15800010,6,0,"ERBEN, R; PISL, Z",J,English,ACUTE TOXICITY FOR SOME EVAPORATING AROMATIC-HYDROCARBONS FOR FRESH-WATER SNAILS AND CRUSTACEANS,1993.0,Marine & Freshwater Biology,78,0020-9309,1,,161,167,AROMATIC HYDROCARBONS; ACUTE TOXICITY; FRESH-WATER SNAILS AND CRUSTACEANS; MORTALITY,"INST MED RES & OCCUPAT HLTH,ZAGREB 41000,CROATIA","Some typical and more frequent freshwater invertebrates of running waters were studied to examine the influence of styrene, xylene and benzene on their mortality. Snails Amphimelania holandri FER. and Lymnaea stagnalis L. and crustacenas Asellus aquaticus L. and Gammarus fossarum KOCH., were used in the semi-static test. Compounds were added in volume concentrations of 0.005 to 0.4% v/v. For all concentrations LC50 was calculated by probit method, which demonstrated that mortality depends much more on increased concentrations (depending on the initial concentration) than on the length of exposure. Styrene was the most toxic, followed by xylene and then benzene. The species G. fossarum showed marked sensitivity, followed by A. aquaticus, and the species A. holandri and L. stagnalis showed less sensitivity.",AKADEMIE VERLAG GMBH,24,"MUHLENSTRASSE 33-34, D-13187 BERLIN, GERMANY",BERLIN,7.0,LR158,"ERBEN, R; PISL, Z",5.0,4.0,Marine & Freshwater Biology,INT REV GES HYDROBIO,Int. Rev. Gesamten Hydrobiol.,10.1002/iroh.19930780118,"ERBEN, R (corresponding author), UNIV ZAGREB,FAC NAT SCI,DEPT ZOOL,ROOSEVELTOV TRG 6,41001 ZAGREB,CROATIA.",TESTS,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Proceedings Paper,"PROCEEDINGS OF THE SIXTH INTERNATIONAL CONFERENCE ON URBAN STORM DRAINAGE, VOLS 1 AND 2",2021-04-13,WOS:A1993BB96F00080,0,0,"MULLISS, R; ELLIS, JB; REVITT, DM; SHUTES, RBE",B,English,"THE ECOTOXICOLOGICAL IMPACT OF URBAN DISCHARGES UPON THE CAGED FRESHWATER MACROINVERTEBRATE, ASELLUS-AQUATICUS (L)",1993.0,Engineering; Water Resources,,,,,482,487,,"MIDDLESEX UNIV,URBAN POLLUT RES CTR,LONDON N11 2NQ,ENGLAND",,SEAPOINT PUBLISHING,0,"2880 SEAPOINT DR, VICTORIA BC V8N 1S8, CANADA",VICTORIA,6.0,BB96F,"MULLISS, R; ELLIS, JB; REVITT, DM; SHUTES, RBE",0.0,0.0,"Engineering, Environmental; Engineering, Civil; Water Resources",,,,,,,,,,,,,,6th International Conference on Urban Storm Drainage,,"SEP 12-17, 1993","NIAGARA FALLS, CANADA",,,"INT ASSOC HYDRAUL RES, INT ASSOC WATER QUAL, ENVIRONM CANADA, ENVIRONM ONTARIO, AMER SOC CIVIL ENGINEERS, GOVT CANADA, GREAT LAKE CLEANUP FUND",1-55056-253-3,,"Marsalek, J; Torno, HC",,,,,,,,,,,,,
Article,ANIMAL BEHAVIOUR,2021-04-13,WOS:A1992KF88900011,15,0,"LOVELAND, RE; BOTTON, ML",J,English,"SIZE DIMORPHISM AND THE MATING SYSTEM IN HORSESHOE CRABS, LIMULUS-POLYPHEMUS-L",1992.0,Behavioral Sciences; Zoology,44,0003-3472,5,NOV,907,916,,"RUTGERS STATE UNIV,FAS,DEPT BIOL SCI,NEW BRUNSWICK,NJ 08903; RUTGERS STATE UNIV,BUR BIOL RES,NEW BRUNSWICK,NJ 08903; FORDHAM UNIV COLL,LINCOLN CTR,DIV SCI & MATH,NEW YORK,NY 10023; COOK COLL SHELLFISH RES LAB,PORT NORRIS,NJ 08349",,ACADEMIC PRESS LTD,35,"24-28 OVAL RD, LONDON, ENGLAND NW1 7DX",LONDON,10.0,KF889,"LOVELAND, RE; BOTTON, ML",26.0,26.0,Behavioral Sciences; Zoology,ANIM BEHAV,Anim. Behav.,10.1016/S0003-3472(05)80586-X,,ASELLUS-AQUATICUS; SEXUAL SELECTION; DELAWARE BAY; ECOLOGY; MIGRATION; EVOLUTION; CRUSTACEA; BEHAVIOR; SUCCESS; UCA,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITY,2021-04-13,WOS:A1992JV14100013,0,0,"VOLPI, EV; PELLICCIA, F; LANZA, V; DICASTRO, M; ROCCHI, A",J,English,MORPHOLOGICAL-DIFFERENTIATION OF A SEX-CHROMOSOME AND RIBOSOMAL GENES IN ASELLUS-AQUATICUS (CRUST ISOP),1992.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,69,0018-067X,,NOV,478,482,ASELLUS; CRUSTACEANS; DIGOXIGENIN; HETEROCHROMATIN; RIBOSOMAL GENES; SEX-CHROMOSOME,"UNIV ROME LA SAPIENZA,DIPARTIMENTO GENET & BIOL MOLEC,I-00185 ROME,ITALY; UNIV ROME LA SAPIENZA,CTR GENET EVOLUZIONIST,CNR,DIP GENET & BIOL MOL,I-00185 ROME,ITALY","The karyotype of the isopod crustacean Asellus aquaticus does not normally display any heteromorphic sex chromosome pair. Some of the males in a wild population of A. aquaticus collected in the Sarno river near Naples do display a heteromorphic chromosome pair. The heteromorphism is due to the presence of two intercalary heterochromatic areas on one chromosome. This chromosome is inherited through the male line as a normal Y chromosome. The heteromorphic pair has retained the capacity to recombine during meiosis. In-situ hybridization of ribosomal probes, labelled with digoxigenin-dUTP, reveals that ribosomal sequences are associated with both intercalary heterochromatic areas of the heterochromosome. The ribosomal genes are normally telomeric and associated with heterochromatin. After digestion of genomic DNA with BamHI, EcoRI and HindIII restriction endonucleases and hybridization with ribosomal probes, the hybridization patterns of the males with the heterochromosome differ from those of the males without the heterochromosome, as well as from those of the females, which are identical. The possible origin of the morphological differentiation of the heterochromosome, and the causes of the differences in the ribosomal DNA restriction patterns linked to the presence of this chromosome, are discussed.",BLACKWELL SCIENCE LTD,14,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,5.0,JV141,"VOLPI, EV; PELLICCIA, F; LANZA, V; DICASTRO, M; ROCCHI, A",7.0,7.0,Ecology; Evolutionary Biology; Genetics & Heredity,HEREDITY,Heredity,10.1038/hdy.1992.153,,EVOLUTION,,"PELLICCIA, Franca/0000-0001-7676-4398; Volpi, Emanuela/0000-0002-2422-9104","Pelliccia, Franca/B-7586-2014",,,,,Bronze,,,,,5,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1992KB16000002,13,0,"GLAZIER, DS; HORNE, MT; LEHMAN, ME",J,English,"ABUNDANCE, BODY-COMPOSITION AND REPRODUCTIVE OUTPUT OF GAMMARUS-MINUS (CRUSTACEA, AMPHIPODA) IN 10 COLD SPRINGS DIFFERING IN PH AND IONIC CONTENT",1992.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,28,0046-5070,2,OCT,149,163,,,"1. A survey of thirty-two rheocrene springs in central Pennsylvania revealed that, like Gammarus in lakes and streams, Gammarus minus is absent from springs with pH < 6.0 and conductivity <25 muS cm-1 (total range in pH = 4.6-7.7, and in conductivity =14-411 muS cm-1). 2. In ten springs G. minus density was positively correlated with Ca2+ and Mg2+ hardness, but not with pH, unless three springs with either an exceptionally high velocity or extremely high densities of the potentially competing snail Fontigens nickliniana were omitted. 3. Adults were larger in the springs with few or no large predators than in those with more predators. In all ten springs, adult dry mass was unrelated to spring pH and ionic content, but brooding female dry mass covaried positively with Ca2+ and Mg2+ hardness in the five predator-poor springs. 4. Body water, Na and Ca contents and body mass/length ratios varied independently of spring pH and ionic content. Water content was inversely correlated with fat content, but even when expressed as a percentage of fat-free wet mass, it was unrelated to water chemistry. 5. In juveniles, males and non-brooding females, fat content varied independently of spring pH and ionic content, but in brooding females it was correlated with alkalinity and Ca2+ and Mg2+ hardness. The cost of reproduction in brooding females may have been a factor here; they had significantly lower per cent fat than did non-brooding females. juvenile fat content did not differ significantly among spring populations, whereas adult fat content did. The per cent fat of brooding females covaried positively with body size among springs, and this was marginally true for non-brooding females, as well. The residuals of brooding female per cent fat against dry mass were not related to water chemistry. 6. Brood size (number of embryos in a brood) and brood mass varied significantly among populations, but independently of spring pH and ionic content. Both covaried positively with maternal body size among springs. The residuals of these relationships were unrelated to water chemistry, as was the percentage of females brooding. 7. G. minus from a pH 6 spring survived better and lost less body mass in acidic soft water than did those from a pH 7.6 spring. However, although G. minus has apparently been able to adapt (or acclimate) to pH 6 water it has failed to adapt to more acidic waters. A physiological or structural constraint may be involved because this species has probably had ample opportunity to evolve resistance to dilute acidic water. This hypothesis is consistent with the threshold effect observed: above pH 6 G. minus shows very little evidence of osmotic or metabolic stress, but below pH 6 viable populations apparently cannot survive at all. However, the gradual linear decrease in population density of G. minus with decreasing affinity and Ca2+ and Mg2+ hardness suggests that other factors may also be involved (e.g. a decrease in food quality).",BLACKWELL SCIENCE LTD,53,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,15.0,KB160,"GLAZIER, DS; HORNE, MT; LEHMAN, ME",35.0,35.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1992.tb00572.x,"GLAZIER, DS (corresponding author), JUNIATA COLL,DEPT BIOL,HUNTINGDON,PA 16652, USA.",PULEX L; HYALELLA-AZTECA; ASELLUS-AQUATICUS; ACID TOLERANCE; HYDROGEN-IONS; STREAMS; ALUMINUM; FOOD; INVERTEBRATES; ACIDIFICATION,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:A1992JM47300004,7,0,"BATTEGAZZORE, M; PETERSEN, RC; MORETTI, G; ROSSARO, B",J,English,AN EVALUATION OF THE ENVIRONMENTAL-QUALITY OF THE RIVER PO USING BENTHIC MACROINVERTEBRATES,1992.0,Marine & Freshwater Biology,125,0003-9136,2,AUG,175,206,,"UNIV PARMA,IST ECOL,I-43100 PARMA,ITALY; UNIV LUND,INST LIMNOL,BENTH ECOL GRP,S-22100 LUND,SWEDEN; FAC SCI PERUGIA,IST ZOL,I-06100 PERUGIA,ITALY; UNIV LAQUILA,DIPARTIMENTO SCI AMBIENTALI,I-67100 LAQUILA,ITALY","A comprehensive sampling by means of multi-plate artificial substrates and analysis of the macroinvertebrate benthic community was undertaken at monthly intervals during 1989-1990 in the lower section of the Po River at Pontelagoscuro, near the city of Ferrara. This was followed by a second study of the benthic community in June/July 1990 at 10 stations along the Po extending from above the city of Torino at Villafranca Piemonte to Pontelagoscuro. When possible, taxonomy was determined to the species level, with special emphasis placed on the Chironomidae and Hydropsychidae. A total of 131 species were identified. In the monthly study at Pontelagoscuro, species richness ranged from 10 (Dec. 88) to 35 (Aug. 89) with abundances dominated by Echinogammarus veneris, various species of Dipterans, and Hydropsyche bulgaromanorum. In the longitudinal study, species richness varied from a low of 15 at Valenza Po to a high of 29 at Somaglia, and abundance was dominated by various Dipterans, Echinogammarus veneris, Asellus aquaticus, Bithynia tentaculata and Erpobdella testacea (the latter three species being particularly dominant below the Lambro River confluence). Using SORENSEN'S Quotient of Similarity, the River Po stations could be placed into a potamon cluster consisting of most of the downstream stations. This group was distinctly different from the group of the upper stations, and from the station directly below the point of entry of the Lambro River. The differences in species composition and the various indices of community diversity and biological integrity all suggest that the River Lambro is a major source (and perhaps the principal single source) of disturbance along the river Po.",E SCHWEIZERBART'SCHE VERLAGS,22,"NAEGELE U OBERMILLER JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,32.0,JM473,"BATTEGAZZORE, M; PETERSEN, RC; MORETTI, G; ROSSARO, B",15.0,14.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,,,,,"Rossaro, Bruno/0000-0001-6154-1191","Rossaro, Bruno/G-4999-2015",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:A1992JJ70000012,10,0,"KOK, CJ; HOF, CHJ; LENSSEN, JPM; VANDERVELDE, G",J,English,THE INFLUENCE OF PH ON CONCENTRATIONS OF PROTEIN AND PHENOLICS AND RESOURCE QUALITY OF DECOMPOSING FLOATING LEAF MATERIAL OF NYMPHAEA-ALBA L (NYMPHAEACEAE) FOR THE DETRITIVORE ASELLUS-AQUATICUS (L),1992.0,Environmental Sciences & Ecology,91,0029-8549,2,AUG,229,234,DECOMPOSITION; FEEDING CUES; PROTEIN; PHENOLICS; ACIDIFICATION,"CATHOLIC UNIV NIJMEGEN,AQUAT ECOL LAB,TOERNOOIVELD,6525 ED NIJMEGEN,NETHERLANDS","Senescent floating leaf material of Nymphaea alba L., collected in an acidified moorland pool, was used in decomposition studies in two aquatic systems that differed greatly in pH, alkalinity and nutrient concentration. Concentrations of extractable protein and phenolics in the decomposing leaf material were measured during the incubation period. Protein levels were not significantly different in the leaf material from the two study sites, whereas the concentrations of phenolics in the degrading leaf blades from the acid site remained higher than in the material from the alkaline site. The resource quality of the decomposing leaf material was estimated by feeding tests using Asellus aquaticus (L.) in the laboratory. The effect of an artificially increased level of tannin on the feeding activity of A. aquaticus was also studied. Material from the acid system was consumed at a lower rate than material from the other system. The phenolic content of the material was found to be the most important feeding cue. The protein level of the leaf blade detritus seems to be of less importance. The structure of the decomposing leaf blades may have influenced the resource quality in the later stages of the experiment.",SPRINGER VERLAG,42,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,6.0,JJ700,"KOK, CJ; HOF, CHJ; LENSSEN, JPM; VANDERVELDE, G",15.0,14.0,Ecology,OECOLOGIA,Oecologia,10.1007/BF00317788,,ENGLISH-LAKE-DISTRICT; GAMMARUS-PSEUDOLIMNAEUS; LABORATORY EXPERIMENTS; MICROBIAL-DEGRADATION; CHEMICAL-COMPOSITION; 7 STREAMS; DETRITUS; LITTER; LEAVES; MARSH,,,"van der Velde, Gerard/C-7776-2011",28313461.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:A1992HY12700011,20,0,"BROCK, TCM; CRUM, SJH; VANWIJNGAARDEN, R; BUDDE, BJ; TIJINK, J; ZUPPELLI, A; LEEUWANGH, P",J,English,FATE AND EFFECTS OF THE INSECTICIDE DURSBAN(R) 4E IN INDOOR ELODEA-DOMINATED AND MACROPHYTE-FREE FRESH-WATER MODEL-ECOSYSTEMS .1. FATE AND PRIMARY EFFECTS OF THE ACTIVE INGREDIENT CHLORPYRIFOS,1992.0,Environmental Sciences & Ecology; Toxicology,23,0090-4341,1,JUL,69,84,,"AGR UNIV WAGENINGEN,DEPT NATURE CONSERVAT,6700 HB WAGENINGEN,NETHERLANDS; AGR UNIV WAGENINGEN,DEPT TOXICOL,6700 HB WAGENINGEN,NETHERLANDS","The fate of the insecticide Dursban(R) 4E (active ingredient chlorpyrifos) and its effect on crustaceans and insects was studied in indoor experimental freshwater ecosystems that intended to mimick drainage ditches. A single dose (simulating aerial drift) was applied to achieve nominal chlorpyrifos concentrations of 5 or 35-mu-g/L. Two experiments were performed, one in which all model ecosystems were dominated by the macrophyte Elodea nuttallii, and one using systems devoid of macrophytes. In macrophyte-dominated systems, Elodea vegetation adsorbed a large proportion of the dose applied and hampered the mixing of the insecticide in the water (at least up till day 8). Only a small proportion became incorporated in the sediment. In open water systems the insecticide was rapidly mixed in the water, and the sediment played a very significant role as sink for chlorpyrifos, In both Elodea-dominated and open water systems 50% of the dose applied had disappeared on day 8 post-treatment. The rate of disappearance of chlorpyrifos was relatively rapid in water and macrophytes, and relatively slow in the sediment. Of the arthropods in the zooplankton Cladocera were more susceptible than Copepoda. Significant effects (p less-than-or-equal-to 0.05) on Cladocera occurred relatively late in Elodea-dominated systems (in week 4 post-application) in contrast to open water systems (week 1), which is in accordance with the observed differences in the fate of chlorpyrifos. Daphnia pulex, D. longispina and Simocephalus vetulus recovered in the model ecosystems when chlorpyrifos concentrations were lower than 0.1-0.2-mu-g/L, which is in agreement with results of laboratory protocol tests performed with these cladocerans. Among the macroscopic Arthropoda the apparent order of susceptibility was amphipods > insects > isopods. The isopod Asellus aquaticus was more sensitive to the application of the Insecticide than the closely related species Proasellus coxalis. in treated open water systems the latter even increased significantly in numbers. Cage experiments in the model ecosystems performed with several species of Arthropoda indicate that laboratory protocol tests may give a reasonable prediction of short-term direct effects of chlorpyrifos for the same species inhabiting more complex aquatic systems.",SPRINGER VERLAG,46,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,16.0,HY127,"BROCK, TCM; CRUM, SJH; VANWIJNGAARDEN, R; BUDDE, BJ; TIJINK, J; ZUPPELLI, A; LEEUWANGH, P",76.0,72.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,10.1007/BF00225998,"BROCK, TCM (corresponding author), DLO WINAND STARING CTR INTEGRATED LAND SOIL & WATER RES,POB 125,6700 AC WAGENINGEN,NETHERLANDS.",METHYL PARATHION; TOXICITY TESTS; OUTDOOR PONDS; PERSISTENCE; RESPONSES; PESTICIDE; STREAM,,,,1379031.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,MARINE BIOLOGY,2021-04-13,WOS:A1992HJ52200008,8,0,"BOTTON, ML; LOVELAND, RE",J,English,"BODY SIZE, MORPHOLOGICAL CONSTRAINTS, AND MATED PAIR FORMATION IN 4 POPULATIONS OF HORSESHOE CRABS (LIMULUS-POLYPHEMUS) ALONG A GEOGRAPHIC CLINE",1992.0,Marine & Freshwater Biology,112,0025-3162,3,MAR,409,415,,"RUTGERS STATE UNIV, COOK COLL, SHELLFISH RES LAB, PORT NORRIS, NJ USA; RUTGERS STATE UNIV, DEPT BIOL SCI, NEW BRUNSWICK, NJ 08349 USA; RUTGERS STATE UNIV, BUR BIOL RES, NEW BRUNSWICK, NJ 08349 USA","The relationship of body size to mating success was studied in four populations of horseshoe crabs, Limulus polyphemus L., along the east coast of the U.S.A. in the spring and summer from 1986 to 1989. Crabs of both sexes from Great Bay, New Hampshire, were significantly smaller than crabs from three middle Atlantic coast populations: Sandy Hook Bay and Delaware Bay, New Jersey, and Chincoteague Bay, Virginia. The formation of mated pairs was independent of body size in each population, there were no significant size differences between mated and single individuals, and size assortative mating did not occur. A comparison of male clasper dimensions with the corresponding point of attachment on the female indicates that there are no morphological constraints limiting amplexus between any male and any female within a population. The ratios of male to female prosoma width within amplexed mated pairs averaged from 0.78 to 0.80 in each population, despite the large difference in absolute size between southern and northern populations. This may suggest a role for natural selection in regulating the relative sizes of each sex.",SPRINGER HEIDELBERG,51,"TIERGARTENSTRASSE 17, D-69121 HEIDELBERG, GERMANY",HEIDELBERG,7.0,HJ522,"BOTTON, ML; LOVELAND, RE",16.0,16.0,Marine & Freshwater Biology,MAR BIOL,Mar. Biol.,10.1007/BF00356286,"BOTTON, ML (corresponding author), FORDHAM UNIV COLL, LINCOLN CTR, DIV SCI & MATH, NEW YORK, NY 10023 USA.",SEXUAL SELECTION; BRACHYURAN CRABS; DELAWARE BAY; ASELLUS-AQUATICUS; GAMMARUS-PULEX; DIMORPHISM; EVOLUTION; AMPHIPODA; BEHAVIOR; SUCCESS,,,,,1432-1793,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ANNALES ZOOLOGICI FENNICI,2021-04-13,WOS:A1992KD37900003,8,1,"JORMALAINEN, V; TUOMI, J; MERILAITA, S",J,English,MATE CHOICE FOR MALE AND FEMALE SIZE IN AQUATIC ISOPOD IDOTEA-BALTHICA,1992.0,Environmental Sciences & Ecology; Zoology,29,0003-455X,3,,161,167,,"UNIV LUND,DEPT ECOL THEORET ECOL,S-22362 LUND,SWEDEN","In laboratory tests the pair formation of the sexually size dimorphic and colour polymorphic isopod Idotea balthica was non-random with respect to size, whereas colouration had hardly any effect on mate choice. When given a choice of two females, 70% of the males selected the larger female for precopula. In experimental populations, however, female size had no evident effect on mate choice, so that further confounding effects may complicate the pair formation in natural heterogenous habitats. Precopulatory males were larger than solitary males in the experimental populations, both in female- and male-biased populations. The larger size of precopulatory males may at least partly result from male-male competition, but the females may also affect the precopulatory success of the males in a size-dependent manner. Consequently, presumably both intrasexual and intersexual interactions favour larger males in I. balthica. Female size, on the other hand, may be only a second choice after female maturity. The male-biased sex ratio in early summer may in particular discourage males from being too size selective.",FINNISH ZOOLOGICAL BOTANICAL PUBLISHING BOARD,29,"UNIV HELSINKI P O BOX 17 (P. RAUTATIEKATU 13), FIN-00014 HELSINKI, FINLAND",HELSINKI,7.0,KD379,"JORMALAINEN, V; TUOMI, J; MERILAITA, S",27.0,25.0,Ecology; Zoology,ANN ZOOL FENN,Ann. Zool. Fenn.,,"JORMALAINEN, V (corresponding author), UNIV TURKU,DEPT BIOL,ANIM ECOL LAB,SF-20500 TURKU 50,FINLAND.",GAMMARUS-PULEX AMPHIPODA; SEXUAL SELECTION; ASELLUS-AQUATICUS; MALE DISCRIMINATION; AMOROUS GAMMARUS; CRUSTACEA; PRECOPULA; LAWRENCIANUS; DIMORPHISM; INVESTMENT,,"Jormalainen, Veijo/0000-0001-6346-2585","Jormalainen, Veijo/B-2073-2008",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONALE REVUE DER GESAMTEN HYDROBIOLOGIE,2021-04-13,WOS:A1992JD29000006,4,0,"RUPPRECHT, R",J,German,REASONS FOR THE DIFFERENT PH-SENSITIVITY OF GAMMARUS-PULEX L GAMMARUS-FOSSARUM KOCH (AMPHIPODA) AND ASELLUS-AQUATICUS L (ISOPODA),1992.0,Marine & Freshwater Biology,77,0020-9309,2,,255,264,PH-SENSITIVITY; ION EXCHANGE; GAMMARUS-PULEX; GAMMARUS-FOSSARUM; ASELLUS-AQUATICUS,,"By means of ion chromatography the extensive and significantly higher loss of ions of G. pulex and G. fossarum in acid water (pH 3,0) as compared to neutral water is proved. While cations are being accumulated in the water, some ions (Na+, Cl-) leave the hemolymph in important percentage, others increase highly after being set free from the cells (K+ and Ca2+). The loss of cations with Asellus aquaticus in acid water (pH 3) is clearly lower than with Gammarus, and it is not significantly higher than when the animals are put into neutral water.",AKADEMIE VERLAG GMBH,13,"MUHLENSTRASSE 33-34, D-13187 BERLIN, GERMANY",BERLIN,10.0,JD290,"RUPPRECHT, R",8.0,8.0,Marine & Freshwater Biology,INT REV GES HYDROBIO,Int. Rev. Gesamten Hydrobiol.,10.1002/iroh.19920770207,"RUPPRECHT, R (corresponding author), UNIV MAINZ,INST ZOOL,SAARSTR 21,W-6500 MAINZ,GERMANY.",PREDICT STREAM ACIDITY; MACROINVERTEBRATE ASSEMBLAGES; UPLAND WALES; CLASSIFICATION; ORDINATION,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY,2021-04-13,WOS:A1992HW82600005,9,1,"MATTILA, J",J,English,THE EFFECT OF HABITAT COMPLEXITY ON PREDATION EFFICIENCY OF PERCH PERCA-FLUVIATILIS L AND RUFFE GYMNOCEPHALUS-CERNUUS (L),1992.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,157,0022-0981,1,,55,67,CRUSTACEAN PREY; GYMNOCEPHALUS-CERNUUS; HABITAT COMPLEXITY; PERCA-FLUVIATILIS; PREDATION EFFICIENCY,"ABO AKAD UNIV,HUSO BIOL STN,TURKU,FINLAND","Aquarium experiments were conducted to test the hypothesis that a slight increase in habitat complexity significantly increases the survival of the amphipods Corophium volutator Pallas and the isopod Asellus aquaticus (L.) when preyed upon by perch Perca fluviatilis L. and ruffe Gymnocephalus cernuus (L.), respectively. Artificial reed, stones, and natural plants were tested in different combinations. A slight increase in habitat complexity (e.g., small amount of stones) did not increase Corophium survival. However, artificial reeds in different forms, and natural plants, did increase the survival of both Asellus and Corophium. Survival increased with increasing habitat complexity. At low complexity levels the survival of the prey seemed to be higher when the elements used to provide complexity were in bigger integrated patches. Tall, shading elements like reeds or aquatic plants gave the best shelter against fish that feed visually.",ELSEVIER SCIENCE BV,47,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,13.0,HW826,"MATTILA, J",43.0,42.0,Ecology; Marine & Freshwater Biology,J EXP MAR BIOL ECOL,J. Exp. Mar. Biol. Ecol.,10.1016/0022-0981(92)90074-K,"MATTILA, J (corresponding author), ABO AKAD UNIV,DEPT BIOL,SF-20500 TURKU,FINLAND.",FISH PREDATION; STRUCTURAL COMPLEXITY; AQUATIC MACROPHYTES; COROPHIUM-VOLUTATOR; FORAGING SUCCESS; PREY; BEHAVIOR; DENSITY; INVERTEBRATES; COMPETITION,,"Mattila, Johanna/0000-0003-3265-5514",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER AIR AND SOIL POLLUTION,2021-04-13,WOS:A1991HB30900011,2,0,"MCCAHON, CP; PASCOE, D",J,English,BRIEF-EXPOSURE OF 1ST AND 4TH INSTAR CHIRONOMUS-RIPARIUS LARVAE TO EQUIVALENT ASSUMED DOSES OF CADMIUM - EFFECTS ON ADULT EMERGENCE,1991.0,Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences; Water Resources,60,0049-6979,3-4,DEC,395,403,,"UNIV WALES COLL CARDIFF, SCH PURE & APPL BIOL, CARDIFF CF1 3TL, WALES","First and fourth instar C. riparius larvae hatched from the same egg mass were briefly exposed to equivalent assumed doses (mg hr) of Cd and adult emergence monitored for up to 50 days post hatch. Significantly more animals survived to emerge from control conditions than from any of the test solutions. For fourth instar larvae the presence of absence of artificial sediment during testing had no significant effect upon subsequent emergence. In terms of equivalent assumed doses, exposure to a high concentration for a short time resulted in a reduced emergence in comparison to exposure at a lower concentration for a longer time. There was a delay of several days between the time from hatch to first emergence and median emergence time for larvae exposed as fourth instars but not for those exposed at the first instar stage.",SPRINGER,45,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,9.0,HB309,"MCCAHON, CP; PASCOE, D",29.0,27.0,Environmental Sciences; Meteorology & Atmospheric Sciences; Water Resources,WATER AIR SOIL POLL,Water Air Soil Pollut.,10.1007/BF00282634,,METAL CONTAMINATED SEDIMENT; ASELLUS-AQUATICUS L; EPISODIC EXPOSURE; CHRONIC TOXICITY; ECOLOGICAL SIGNIFICANCE; EGG VIABILITY; WELSH STREAM; WATER; INVERTEBRATES; ALUMINUM,,,,,1573-2932,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:A1991GM20600012,2,0,"WRIGHT, DA; WELBOURN, PM",J,English,EFFECT OF MERCURY ON UNIDIRECTIONAL SODIUM AND CALCIUM INFLUX IN ASELLUS-AQUATICUS,1991.0,Environmental Sciences & Ecology; Toxicology,21,0090-4341,4,NOV,567,570,,"UNIV TORONTO,INST ENVIRONM STUDIES,TORONTO M5S 1A8,ONTARIO,CANADA","The effect of mercuric chloride (HgCl2) and monomethyl mercury chloride (CH3HgCl) on unidirectional Na-22 and Ca-45 influx were measured in the freshwater isopod Asellus aquaticus. Flux measurements involved short-term (20 min) exposure to Na-22 or Ca-45 following 2 h pre-exposure to Hg. Experiments were conducted at two different Na and Ca concentrations, 0.025 mmol L-1 and 0.25 mmol L-1. HgCl2 and CH3HgCl inhibited Na influx at both Na concentrations although Na influx at 0.25 mmol L-1 was always higher. This reflected the uptake kinetics of the Na pump which was determined to be saturable with a k(max) values of 32-mu-mol Na g-1 h-1 and a Km value of 0.8 mmol L-1. CH3HgCl generally resulted in relatively greater inhibition of Na influx. At 0.025 mmol Na L-1 all CH3HgCl concentrations tested were inhibitory to Na influx, i.e., the lowest observed effect concentration (LOEC) was < 0.04-mu-mol L-1. Ca influx was inhibited by HgCl2 at all concentrations tested (LOEC < 0.04). The degree of inhibition was unaffected by Ca concentration, which was seen as evidence for non-competitive inhibition. However, CH3HgCl, which inhibited Ca influx from 0.025 mmol Ca L-1 by > 68% at molar Hg concentrations greater-than-or-equal-to 1-mu-mol L-1 showed no significant inhibitory affect at 0.25 mmol Ca L-1. Elimination of CH3HgCl inhibition at the higher Ca concentration suggests competition in this case, possibly at the level of access to the Ca pump.",SPRINGER VERLAG,11,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,4.0,GM206,"WRIGHT, DA; WELBOURN, PM",7.0,7.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,10.1007/BF01183879,"WRIGHT, DA (corresponding author), UNIV MARYLAND SYST,CTR ENVIRONM & ESTUARINE STUDIES,CHESAPEAKE BIOL LAB,SOLOMONS,MD 20688, USA.",CRAB CARCINUS-MAENAS; CADMIUM UPTAKE; OSMOREGULATION; ION,,,,1662029.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER AIR AND SOIL POLLUTION,2021-04-13,WOS:A1991GP46500005,2,0,"ALENAS, I; ANDERSSON, BI; HULTBERG, H; ROSEMARIN, A",J,English,"LIMING AND REACIDIFICATION REACTIONS OF A FOREST LAKE ECOSYSTEM, LAKE LYSEVATTEN, IN SW SWEDEN",1991.0,Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences; Water Resources,59,0049-6979,1-2,SEP,55,77,,"SWEDISH ENVIRONM RES INST,S-40258 GOTHENBURG,SWEDEN; STOCKHOLM ENVIRONM INST,S-10314 STOCKHOLM,SWEDEN","Long-term monitoring, 1973 to 1987, of reactions to liming and reacidification of a forest lake ecosystem near the Swedish west coast is reported in this study. Treatment of Lake Lysevatten with a slag product of limestone in 1974 resulted in neutralization and a positive alkalinity. Prolonged dissolution proceeded for about 7 yr whereby 86% dissolved. During 1984-86 Lake Lysevatten approached maximum reacidification with high Al concentrations and an affected biota. Asellus aquaticus L. decreased and dominance within chironomid groups approached preliming conditions. However, the most obvious biological change was the development of the filamentous algal genus Mougeotia and increased growth of Sphagnum. Populations of both plants increased notably when pH declined to about 5. Our study suggests that extensive reacidification (pH < 6.0) of limed lakes should be avoided by successive treatments to prevent development of destabilized lake ecosystems.",KLUWER ACADEMIC PUBL,45,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,23.0,GP465,"ALENAS, I; ANDERSSON, BI; HULTBERG, H; ROSEMARIN, A",15.0,15.0,Environmental Sciences; Meteorology & Atmospheric Sciences; Water Resources,WATER AIR SOIL POLL,Water Air Soil Pollut.,,"ALENAS, I (corresponding author), PUBL OFF ENVIRONM & HLTH,S-31180 FALKENBERG,SWEDEN.",ACIDIFIED LAKES; SOUTHWESTERN SWEDEN; TERM CHANGES; ACIDIFICATION; FISH; DEPOSITION; CHEMISTRY; RESPONSES; PROJECT; CALCITE,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Review,RESEARCH JOURNAL OF THE WATER POLLUTION CONTROL FEDERATION,2021-04-13,WOS:A1991FR36800044,11,1,"SHEEDY, BR; LAZORCHAK, JM; GRUNWALD, DJ; PICKERING, QH; PILLI, A; HALL, D; WEBB, R",J,English,EFFECTS OF POLLUTION ON FRESH-WATER ORGANISMS,1991.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Water Resources,63,1047-7624,4,JUN,619,696,,"US EPA, ENVIRONM MONITORING SYST LAB, AQUAT BIOL BRANCH, 3411 CHURCH ST, CINCINNATI, OH 45244 USA; ASC CORP, DULUTH, MN USA; COMP SCI CORP, DULUTH, MN USA; TECHNOL APPLICAT INC, CINCINNATI, OH USA",,WATER ENVIRONMENT FEDERATION,816,"601 WYTHE ST, ALEXANDRIA, VA 22314-1994 USA",ALEXANDRIA,78.0,FR368,"SHEEDY, BR; LAZORCHAK, JM; GRUNWALD, DJ; PICKERING, QH; PILLI, A; HALL, D; WEBB, R",16.0,15.0,Environmental Sciences; Limnology; Water Resources,RES J WATER POLLUT C,,,,TROUT SALMO-GAIRDNERI; MEDAKA ORYZIAS-LATIPES; CHANNA-PUNCTATUS BLOCH; CARP CYPRINUS-CARPIO; CATFISH HETEROPNEUSTES-FOSSILIS; MINNOW PIMEPHALES-PROMELAS; QUANTITATIVE STRUCTURE-ACTIVITY; DAPHNIA-MAGNA STRAUS; ASELLUS-AQUATICUS L; EARLY LIFE STAGES,,"Lazorchak, James/0000-0002-7354-7571","Lazorchak, James/E-2363-2016",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1991FP90200005,19,0,"MCCAHON, CP; POULTON, MJ; THOMAS, PC; XU, Q; PASCOE, D; TURNER, C",J,English,LETHAL AND SUBLETHAL TOXICITY OF FIELD SIMULATED FARM WASTE EPISODES TO SEVERAL FRESH-WATER INVERTEBRATE SPECIES,1991.0,Engineering; Environmental Sciences & Ecology; Water Resources,25,0043-1354,6,JUN,661,671,EPISODIC POLLUTION; FARM WASTE; FIELD EXPERIMENTS; FRESH-WATER INVERTEBRATES; MORTALITY; FEEDING RATE; PRECOPULATORY BEHAVIOR; PARASITISM,"UNIV COLL CARDIFF,COLL CARDIFF,SCH PURE & APPL BIOL,CARDIFF CF1 3TL,WALES","Four field experiments designed to simulate the effects of the individual components of farm waste effluent (increased ammonia, reduced dissolved oxygen concentrations) on the invertebrate fauna of receiving waters were carried out on two second order streams in South Wales. In two studies the dissolved oxygen concentration was reduced to 2 and 1 mgl-1 by the oxidation of sodium sulphite, and in a further two studies ammonia concentrations were raised to 5 and 7 mgl-1 by dosing with ammonium chloride and the toxicant maintained in the unionized state by the simultaneous addition of sodium hydroxide to raise pH to approx. pH 9. During each simulation (6-24 h in duration) the response of several invertebrate species placed in the downstream treatment zone(s) was compared with that of animals maintained in an upstream untreated reference zone. Significant invertebrate mortalities were recorded only under conditions of reduced dissolved oxygen. The feeding rate of Gammarus pulex was significantly reduced during dosing with ammonia but recovered post-exposure. Parasitism of G. pulex with Pomphorhynchus laevis resulted in a reduced feeding rate and an increased mortality in comparison to unifected animals. The disruption of precopula in G. pulex was a sensitive and rapid indicator of stress under both reduced dissolved oxygen and increased ammonia concentrations.",PERGAMON-ELSEVIER SCIENCE LTD,38,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,11.0,FP902,"MCCAHON, CP; POULTON, MJ; THOMAS, PC; XU, Q; PASCOE, D; TURNER, C",50.0,49.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(91)90041-N,,ASELLUS-AQUATICUS L; AMPHIPOD GAMMARUS-PULEX; WELSH STREAM; AMMONIA; FISH; CRUSTACEA; EXPOSURE; ALUMINUM; CADMIUM; PHENOL,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OIKOS,2021-04-13,WOS:A1991FR48500002,24,0,"MALTBY, L",J,English,POLLUTION AS A PROBE OF LIFE-HISTORY ADAPTATION IN ASELLUS-AQUATICUS (ISOPODA),1991.0,Environmental Sciences & Ecology,61,0030-1299,1,MAY,11,18,,,"Habitat classification schemes attempt to predict the types of life-history patterns that should be selected for in particular habitats. Several such schemes have been proposed, all of which are based on habitat characteristics relating to productivity, disturbance and/or biotic interactions. As environmental pollution may impact one or all of these habitat characteristics, it should act as a selection pressure resulting in life-history modification and could therefore be used to test predictions arising from life-history theory. Two populations of the freshwater isopod, Asellus aquaticus (L.), separated by an effluent discharge from a disused coal mine, were studied to investigate whether they had adapted to the pollution by modifying their life history in accordance with the predictions of life-history theory. Using the classification scheme proposed by Sibly and Calow it was predicted that asellids below the discharge should invest less in reproduction and allocate this investment into fewer, larger offspring than asellids at the site above the discharge. Both these predictions were supported by field observations. Laboratory studies indicated that the observed differences in reproductive biology had a genetic basis and were therefore due to adaptation and not acclimation.",MUNKSGAARD INT PUBL LTD,40,"35 NORRE SOGADE, PO BOX 2148, DK-1016 COPENHAGEN, DENMARK",COPENHAGEN,8.0,FR485,"MALTBY, L",45.0,43.0,Ecology,OIKOS,Oikos,10.2307/3545402,"MALTBY, L (corresponding author), UNIV SHEFFIELD,DEPT ANIM & PLANT SCI,SHEFFIELD S10 2TN,S YORKSHIRE,ENGLAND.",ERPOBDELLA-OCTOCULATA HIRUDINEA; INTRASPECIFIC VARIATION; TOXICITY TESTS; GAMMARUS-PULEX; CRUSTACEA; INVERTEBRATES; EVOLUTION; GROWTH; FOOD; SIZE,,"Maltby, Lorraine/0000-0003-3817-4033","Maltby, Lorraine/A-6702-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHROMOSOMA,2021-04-13,WOS:A1991FC29300003,2,0,"PELLICCIA, F; DICASTRO, M; LANZA, V; VOLPI, EV; ROCCHI, A",J,English,"GATA REPEATS IN THE GENOME OF ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA)",1991.0,Biochemistry & Molecular Biology; Genetics & Heredity,100,0009-5915,3,MAR,152,155,,"UNIV ROME LA SAPIENZA,DIPARTIMENTO GENET & BIOL MOLEC,CNR,CTR GENET EVOLUT,I-00185 ROME,ITALY","A 500 bp fragment of Drosophila genomic DNA containing 37 copies of the tetranucleotide GATA was used to probe, by Southern DNA blotting and in situ hybridization, two natural populations of the isopod crustacean Asellus aquaticus collected from the Sarno and Tiber rivers. This species does not have a recognizable sex chromosome pair. In a number of males from the Sarno population chromomycin A3 staining reveals a heteromorphic chromosome pair. The heterochromosome has two blocks of heterochromatin. After digestion of genomic DNA with six restriction endonucleases and hybridization with the GATA probe, the two populations exhibit different fragment length patterns. No sex-linked pattern was observed in either population. In situ hybridization to chromosomes of males and females from the Sarno population does not reveal any sex-specific pattern of labelling and indicates a scattered distribution of GATA sequences on most chromosomes with some areas of preferential concentration. The heterochromatic areas of the male heterochromosome are not labelled.",SPRINGER VERLAG,16,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,4.0,FC293,"PELLICCIA, F; DICASTRO, M; LANZA, V; VOLPI, EV; ROCCHI, A",16.0,14.0,Biochemistry & Molecular Biology; Genetics & Heredity,CHROMOSOMA,Chromosoma,10.1007/BF00337243,,BKM SEQUENCES; CHROMOSOME; MOUSE; EVOLUTION,,"Volpi, Emanuela/0000-0002-2422-9104; PELLICCIA, Franca/0000-0001-7676-4398","Pelliccia, Franca/B-7586-2014",2040203.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1991FD21300013,24,0,"WHITEHURST, IT",J,English,THE GAMMARUS - ASELLUS RATIO AS AN INDEX OF ORGANIC POLLUTION,1991.0,Engineering; Environmental Sciences & Ecology; Water Resources,25,0043-1354,3,MAR,333,339,GAMMARUS-PULEX; ASELLUS-AQUATICUS; FRESH-WATER ECOLOGY; RIVER WATER QUALITY ASSESSMENT; BIOTIC INDEXES; GAMMARUS - ASELLUS RATIO; ROUTINE RIVER SURVEILLANCE,"BRIGHTON POLYTECH,DEPT CIVIL ENGN,BRIGHTON BN2 4AT,E SUSSEX,ENGLAND","Macroinvertebrate populations including Gammarus pulex and Asellus aquaticus were surveyed at riffle sites on four lowland rivers, i.e. the Rivers Adur and Ouse and the Chess Stream, Sussex, and the Eridge Stream, Kent. Sites were situated both upstream and downstream of sewage treatment works. Macroinvertebrates were collected using a Surber sampler and at some sites the water analysed for the main chemical constituents. Poor water quality is characteristically associated with low biotic scores and in this respect the Gammarus:Asellus ratio applied to riffle data corresponded with the Chandler Biotic Score Index and the Extended Trent Biotic Index. The Gammarus:Asellus ratio showed the closest correlations with concentrations of BOD, ammonia-nitrogen (NH3-N), nitrite-nitrogen (NO2-N) and phosphate-phosphorus (PO4-P) being sensitive to changes in water quality brought about by organic enrichment in the four rivers investigated. It is proposed that the Gammarus:Asellus ratio may provide a simple biological tool which could be used by anglers and other non-professional river users to routinely monitor water quality.",PERGAMON-ELSEVIER SCIENCE LTD,16,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,7.0,FD213,"WHITEHURST, IT",48.0,46.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(91)90014-H,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BOLLETTINO DI ZOOLOGIA,2021-04-13,WOS:A1991GH16900003,7,0,"VITAGLIANO, G; FANO, EA; MARCHETTI, E; COLANGELO, MA; VITAGLIANO, E",J,English,"IMPORTANCE OF LONGEVITY, GROWTH, AND DIAPAUSE IN THE EVOLUTION OF ASELLUS-AQUATICUS",1991.0,Zoology,58,0373-4137,2,,113,117,ADAPTATION; GENE FLOW; LIFE SPAN; REPRODUCTIVE DIAPAUSE; ISOPODS,,"In Asellus aquaticus it was shown that: (1) populations of South Europe have embryos/larvae resistant to 4-degrees-C, a life span of 9 months, small body size, and lack of reproductive diapause; (2) populations of North Europe have a life span of 20 months, large body size, long reproductive diapause, and embryos/larvae not resistant to 4-degrees-C; (3) life span and reproductive diapause are genetic characters; and (4) body size is determined by indeterminate growth.",UNIONE ZOOLOGICA ITALIANA,0,"DIPARTIMENTO 62032 CAMERINO, ITALY           ANIMALE, UNIVERSITA CAMERINO,",CAMERINO,5.0,GH169,"VITAGLIANO, G; FANO, EA; MARCHETTI, E; COLANGELO, MA; VITAGLIANO, E",4.0,4.0,Zoology,B ZOOL,Boll. Zool.,10.1080/11250009109355740,"VITAGLIANO, G (corresponding author), UNIV ROME LA SAPIENZA,DIPARTIMENTO GENET & BIOL MOLEC,P LE ALDO MORO 5,I-00185 ROME,ITALY.",,,"Fano, Elisa Anna/0000-0001-8552-9621","Fano, Elisa Anna/M-6731-2015",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,STYGOLOGIA,2021-04-13,WOS:A1991GX58900004,0,0,"HENRY, JP; MAGNIEZ, G",J,French,SOME STYGOBITIC ASELLOTA (ISOPODA) FROM SE KOREA,1991.0,Marine & Freshwater Biology; Water Resources,6,0169-3662,4,,217,225,ASELLUS; PHREATOASELLUS; MACKINIA; BIOGEOGRAPHY AND INSULARITY; MORPHOLOGY OF COPULATORY PLEOPODS; SEM,,"Sampling in a well in the extreme S.E. of South Korea (Pusan City) allowed the discovery of 3 species of Asellota: the oculated Asellidae Asellus (Asellus) hilgendorfii Bovallius, 1886, the copulatory organs of which have been studied with S.E.M., a comparison with Asellus aquaticus being made; a new stygobitic species, Asellus (Phreatoasellus) joianus n. sp., first continental member of this subgenus previously known from the Japanese archipelago; and a new species of the freshwater Janiridae genus Mackinia: M. birsteini n. sp.",S P B ACADEMIC PUBLISHING BV,0,"PLATINASTRAAT 33, 8211 AR LELYSTAD, NETHERLANDS",LELYSTAD,9.0,GX589,"HENRY, JP; MAGNIEZ, G",1.0,1.0,Limnology; Marine & Freshwater Biology; Water Resources,STYGOLOGIA,,,"HENRY, JP (corresponding author), UNIV BOURGOGNE,6 BD GABRIEL,F-21000 DIJON,FRANCE.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,TSITOLOGIYA,2021-04-13,WOS:A1991HV32200002,0,0,"DREGOLSKAYA, IN",J,Russian,CYTOLOGICAL STUDIES OF THE THERMAL POLLUTION EFFECT ON THE MOLLUSKS LIVING IN THE EASTERN PART OF THE FINNISH GULF,1991.0,Cell Biology,33,0041-3771,10,,32,&,,,"A study was made of the fauna of molluscs and of the temperature reactions of various molluscan species living both in the normal environment and in condition of thermal discharge produced by an atomic electric station. The temperature reactions were studied on the intact individuals, being at various stages of ontogenesis, and on somatic and sex cells. In the thermal discharge zone, thermophylic species, originating from the Black Sea and Australia, were registered; unlike, relatively psychrophylic molluscan species were absent. This evidence may suggest a considerable and prolonged thermal pollution in this zone. In summer, during the warmest season, some species of molluscs displayed the disappearance of definitive organisms, a high embryonic death, and the reproductive system degeneration. The latter involves reduced acinus areas in the ovary and oocyte resorption. The muscle thermostability in these molluscs became also different showingan abrupt change in the angle of slope in the curve characterizing the relation between the Survival time (logarithmic scale) of muscle tissue to the test temperature. Thus, among the bioindicators of thermal pollution most sensitive are to be considered the cytoecological indices, in particular, the cell thermoresistance.",MEZHDUNARODNAYA KNIGA,89,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,0.0,HV322,"DREGOLSKAYA, IN",0.0,0.0,Cell Biology,TSITOLOGIYA+,,,"DREGOLSKAYA, IN (corresponding author), ACAD SCI USSR,INST CYTOL,ST PETERSBURG,USSR.",BITHYNIA-TENTACULATA L; LYMNAEA-PEREGRA MULLER; HEAT-RESISTANCE; ASELLUS-AQUATICUS; PECTEN-MAXIMUS; GASTROPODA; ORGANISM; TEMPERATURE; PULMONATA; GROWTH,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:A1990EF80600020,0,0,"MCCAHON, CP; BARTON, SF; PASCOE, D",J,English,THE TOXICITY OF PHENOL TO THE FRESH-WATER CRUSTACEAN ASELLUS-AQUATICUS (L) DURING EPISODIC EXPOSURE - RELATIONSHIP BETWEEN SUBLETHAL RESPONSES AND BODY PHENOL CONCENTRATIONS,1990.0,Environmental Sciences & Ecology; Toxicology,19,0090-4341,6,NOV-DEC,926,929,,,,SPRINGER VERLAG,43,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,4.0,EF806,"MCCAHON, CP; BARTON, SF; PASCOE, D",12.0,12.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,10.1007/BF01055063,"MCCAHON, CP (corresponding author), UNIV COLL CARDIFF,COLL CARDIFF,SCH PURE & APPL BIOL,POB 915,CARDIFF CF1 3TL,WALES.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,GENETICA,2021-04-13,WOS:A1990ER87800012,3,1,"VALENTINO, F; VOLPI, EV; ANTOLINI, R; MIGLIORE, L",J,English,"LIGHT-DARK CYCLE AND MITOTIC INDEX IN ASELLUS-AQUATICUS (L) (CRUSTACEA, ISOPODA)",1990.0,Genetics & Heredity,82,0016-6707,2,NOV,147,150,,"DIPARTIMENTO GENET BIOL GEN & MOLEC, I-80134 NAPLES, ITALY",The circadian variation of the mitotic index during spermiohistogenesis was studied in Asellus aquaticus (L.). The actual number of metaphases and prometaphases was determined at the end of each hour of light or darkness over a 24 h period in animals bred under LD 12:12. The number of the metaphases and prometaphases decreases during the light period and sharply increases in the last 3 hrs of the dark period. This variation in the proliferative activity suggests that photoperiod can play a role in the synchronization of mitosis.,SPRINGER,15,"VAN GODEWIJCKSTRAAT 30, 3311 GZ DORDRECHT, NETHERLANDS",DORDRECHT,4.0,ER878,"VALENTINO, F; VOLPI, EV; ANTOLINI, R; MIGLIORE, L",1.0,1.0,Genetics & Heredity,GENETICA,Genetica,10.1007/BF00124645,"VALENTINO, F (corresponding author), UNIV LA SAPIENZA, DIPARTIMENTO GENET & BIOL MOLEC, CNR, CTR STUDI GENET EVOLUZIONIST, I-00185 ROME, ITALY.",CIRCADIAN VARIATION; CORNEAL EPITHELIUM; RHYTHM; PROLIFERATION; COMPARTMENT; CARCINOMA; SIZE; RAT,,"Migliore, Luciana/0000-0003-3554-3841; Volpi, Emanuela/0000-0002-2422-9104","Migliore, Luciana/AAB-4245-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1990EC83700005,12,0,"MIGLIORE, L; GIUDICI, MD",J,English,"TOXICITY OF HEAVY-METALS TO ASELLUS-AQUATICUS (L) (CRUSTACEA, ISOPODA)",1990.0,Marine & Freshwater Biology,203,0018-8158,3,SEP 21,155,164,,,,KLUWER ACADEMIC PUBL,27,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,10.0,EC837,"MIGLIORE, L; GIUDICI, MD",22.0,22.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00005684,"MIGLIORE, L (corresponding author), DIPARTIMENTO GENET BIOL GEN & MOLEC,VIA MEZZOCANNONE 8,I-80134 NAPLES,ITALY.",,,"Migliore, Luciana/0000-0003-3554-3841","Migliore, Luciana/AAB-4245-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF MORPHOLOGY,2021-04-13,WOS:A1990DK69000005,5,0,"WALTER, U; WAGELE, JW",J,English,"ULTRASTRUCTURE OF THE MAXILLARY GLAND OF ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA)",1990.0,Anatomy & Morphology,204,0362-2525,3,JUN,281,293,,,,WILEY-LISS,45,"DIV JOHN WILEY & SONS INC 605 THIRD AVE, NEW YORK, NY 10158-0012",NEW YORK,13.0,DK690,"WALTER, U; WAGELE, JW",9.0,9.0,Anatomy & Morphology,J MORPHOL,J. Morphol.,10.1002/jmor.1052040306,"WALTER, U (corresponding author), UNIV OLDENBURG,FACHBEREICH BIOL,W-2900 OLDENBURG,GERMANY.",,,,,29865727.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1990DM34300011,12,1,"NAYLOR, C; PINDAR, L; CALOW, P",J,English,INTERSPECIFIC AND INTRASPECIFIC VARIATION IN SENSITIVITY TO TOXINS - THE EFFECTS OF ACIDITY AND ZINC ON THE FRESH-WATER CRUSTACEANS ASELLUS-AQUATICUS (L) AND GAMMARUS-PULEX (L),1990.0,Engineering; Environmental Sciences & Ecology; Water Resources,24,0043-1354,6,JUN,757,762,,"UNIV SHEFFIELD,DEPT ANIM & PLANT SCI,SHEFFIELD S10 2TN,S YORKSHIRE,ENGLAND",,PERGAMON-ELSEVIER SCIENCE LTD,24,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,6.0,DM343,"NAYLOR, C; PINDAR, L; CALOW, P",47.0,46.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(90)90032-2,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1990DB76100005,0,0,"PETRIDIS, D",J,English,UTILIZATION OF GRASS CARP FECES BY THE ISOPOD ASELLUS-AQUATICUS (L) IN THE LABORATORY,1990.0,Marine & Freshwater Biology,194.0,0018-8158,1,APR 9,47,56,,"UNIV LIVERPOOL,DEPT ZOOL,LIVERPOOL L69 3BX,ENGLAND",,KLUWER ACADEMIC PUBL,25,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,10.0,DB761,"PETRIDIS, D",4.0,4.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00012111,,,,"PETRIDIS, DIMITRIS/0000-0002-7106-6811",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:A1990CW96200007,3,0,"PETRIDIS, D",J,English,INFLUENCE OF GRASS CARP AND TENCH ON THE ECOLOGY OF ASELLUS-AQUATICUS,1990.0,Marine & Freshwater Biology,118.0,0003-9136,1,MAR,105,124,,"UNIV LIVERPOOL,DEPT ZOOL,LIVERPOOL L69 3BX,ENGLAND",,E SCHWEIZERBART'SCHE VERLAGS,48,"NAEGELE U OBERMILLER JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,20.0,CW962,"PETRIDIS, D",6.0,5.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CRUSTACEANA,2021-04-13,WOS:A1990CZ64200004,3,0,"MARCUS, JH",J,English,"MOLTING AS AN INDICATOR OF GROWTH IN ASELLUS-AQUATICUS (L 1758) AND A-MERIDIANUS-RACOVITZA, 1919 (ISOPODA)",1990.0,Marine & Freshwater Biology,58.0,0011-216X,,MAR,136,143,,,,E J BRILL,21,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,8.0,CZ642,"MARCUS, JH",3.0,3.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854090X00048,"MARCUS, JH (corresponding author), CONSULTING ENGN SCI INC,7520 RED RD,SUITE 200,S MIAMI,FL 33143, USA.",,,,,,,,,,,,,,2,,,,,,,,,,,,,,,,,,
Article; Proceedings Paper,ANNALES ZOOLOGICI FENNICI,2021-04-13,WOS:A1990ER36200018,4,0,"SANDBERG, E; BONSDORFF, E",J,English,ON THE STRUCTURING ROLE OF SADURIA-ENTOMON (L) ON SHALLOW-WATER ZOOBENTHOS,1990.0,Environmental Sciences & Ecology; Zoology,27.0,0003-455X,3,,279,284,,"ABO AKAD UNIV,HUSO BIOL STN,SF-20500 TURKU,FINLAND","In shallow, northern Baltic archipelago waters, predatory epibenthic invertebrates are rare in relation to fully marine environments. One such predator is the relict isopod Saduria entomon L., which is faced with a choice of prey organisms of varying ecological origin, including marine or estuarine species on the one hand, and ""limnic"" species on the other. In clearly sublittoral areas S. entomon has no principal invertebrate competitors for food, but in shallow water regions odonata larvae may play a similar regulatory role on the benthic community. Against this background, the structuring role of S. entomon for the benthic infauna in shallow brackish waters was tested in relation to (a) one major invertebrate food competitor (Libellula quadrimaculata; Odonata), and (b) prey species of varying ecological origin (marine or estuarine, exemplified by Macoma balthica and Corophium volutator, and ""limnic"", e.g. Asellus aquaticus and larval chironomids). Field and aquarium experiments illustrated that S. entomon is technically capable by predation to exhibit a regulatory pressure on all prey items offered, but that the effects at community level are difficult to distinguish from the natural variation within the ecosystem. On shallow bottoms S. entomon exhibits similar predatory effects to the larvae of the dragonfly L. quadrimaculata. It is concluded that S. entomon in shallow Baltic archipelagoes is something of a ""universal competitor"", capable of affecting populations regardless of their functional origin.",FINNISH ZOOLOGICAL BOTANICAL PUBLISHING BOARD,33,"UNIV HELSINKI P O BOX 17 (P. RAUTATIEKATU 13), FIN-00014 HELSINKI, FINLAND",HELSINKI,6.0,ER362,"SANDBERG, E; BONSDORFF, E",12.0,12.0,Ecology; Zoology,ANN ZOOL FENN,Ann. Zool. Fenn.,,"SANDBERG, E (corresponding author), ABO AKAD UNIV,DEPT BIOL,SF-20500 TURKU,FINLAND.",INTERSPECIFIC COMPETITION; FIELD EXPERIMENTS; PREDATION; COMMUNITIES; ODONATA; ISOPODA,,"Bonsdorff, Erik/0000-0001-5070-4880",,,,,,,NORDIC RESEARCH CONF ON THE BIOLOGY AND ECOLOGY OF GLACIAL RELICT CRUSTACEA,,"APR 20-23, 1988","UNIV HELSINKI, TVARMINNE ZOOL STN, TVARMINNE, FINLAND",,,,,,,,,,"UNIV HELSINKI, TVARMINNE ZOOL STN",,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:A1990CW65400010,14,0,"HARGEBY, A",J,English,"EFFECTS OF PH, HUMIC SUBSTANCES AND ANIMAL INTERACTIONS ON SURVIVAL AND PHYSIOLOGICAL STATUS OF ASELLUS-AQUATICUS L AND GAMMARUS-PULEX (L) - A FIELD EXPERIMENT",1990.0,Environmental Sciences & Ecology,82.0,0029-8549,3,,348,354,,,,SPRINGER VERLAG,42,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,7.0,CW654,"HARGEBY, A",31.0,31.0,Ecology,OECOLOGIA,Oecologia,10.1007/BF00317482,"HARGEBY, A (corresponding author), UNIV LUND,DEPT ECOL LIMNOL,STREAM & BENTH ECOL GRP,S-22101 LUND,SWEDEN.",,,,,28312710.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Note,IZVESTIYA AKADEMII NAUK SSSR SERIYA BIOLOGICHESKAYA,2021-04-13,WOS:A1989T919800025,2,0,"PASHKOVA, IM",J,Russian,A RATE OF EMBRYONAL DEVELOPMENT AND HEAT-RESISTANCE OF ASELLUS-AQUATICUS L,1989.0,Life Sciences & Biomedicine - Other Topics,,0002-3329,2,MAR-APR,314,317,,,,MEZHDUNARODNAYA KNIGA,15,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,4.0,T9198,"PASHKOVA, IM",2.0,2.0,Biology,IZV AN SSSR BIOL+,,,"PASHKOVA, IM (corresponding author), ACAD SCI USSR,INST CYTOL,LENINGRAD,USSR.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:A1989CG78000004,9,0,"VANHATTUM, B; DEVOOGT, P; VANDENBOSCH, L; VANSTRAALEN, NM; JOOSSE, ENG",J,English,BIOACCUMULATION OF CADMIUM BY THE FRESH-WATER ISOPOD ASELLUS-AQUATICUS (L) FROM AQUEOUS AND DIETARY SOURCES,1989.0,Environmental Sciences & Ecology,62.0,0269-7491,2-3,,129,151,,"FREE UNIV AMSTERDAM,BIOL LAB,1007 MC AMSTERDAM,NETHERLANDS",,ELSEVIER SCI LTD,64,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, OXON, ENGLAND OX5 1GB",OXFORD,23.0,CG780,"VANHATTUM, B; DEVOOGT, P; VANDENBOSCH, L; VANSTRAALEN, NM; JOOSSE, ENG",72.0,72.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/0269-7491(89)90183-8,"VANHATTUM, B (corresponding author), FREE UNIV AMSTERDAM,INST ENVIRONM STUDIES,POB 7161,1007 MC AMSTERDAM,NETHERLANDS.",,,"de Voogt, Pim/0000-0001-9065-9797","van Hattum, Bert AGM/N-1706-2013; de Voogt, Pim/C-5683-2017",15092341.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Proceedings Paper,PHENOTYPIC RESPONSES AND INDIVIDUALITY IN AQUATIC ECTOTHERMS,2021-04-13,WOS:A1989BR76J00015,0,0,"LAGERSPETZ, KYH; BOWLER, K",B,English,"INTERINDIVIDUAL VARIATION IN HEAT TOLERANCE IN ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA) DURING THERMAL-ACCLIMATION",1989.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Physiology; Zoology,,,,,127,135,,,,JAPAGA,0,ASHFORD,ASHFORD,9.0,BR76J,"LAGERSPETZ, KYH; BOWLER, K",3.0,3.0,Ecology; Marine & Freshwater Biology; Physiology; Zoology,,,,,,,,,,,,,,CONF ON PHENOTYPIC RESPONSES AND INDIVIDUALITY IN AQUATIC ECTOTHERMS,,"SEP 12-16, 1988","UNIV DUBLIN, TRINITY COLL, DEPT ZOOL, DUBLIN, IRELAND",,,"UNIV DUBLIN, BANK IRELAND, GUINNESS, IRISH DISTILLERS, IRISH TOURIST BOARD, LORD MAYOR DUBLIN",0-9514437-0-4,,"ALDRICH, JC",,,,"UNIV DUBLIN, TRINITY COLL, DEPT ZOOL",,,,,,,,,
Article,BULLETIN OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:A1988N146100017,1,0,"THYBAUD, E; LEBRAS, S",J,English,"ABSORPTION AND ELIMINATION OF LINDANE BY ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA)",1988.0,Environmental Sciences & Ecology; Toxicology,40.0,0007-4861,5,MAY,731,735,,,,SPRINGER VERLAG,11,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,5.0,N1461,"THYBAUD, E; LEBRAS, S",9.0,8.0,Environmental Sciences; Toxicology,B ENVIRON CONTAM TOX,Bull. Environ. Contam. Toxicol.,10.1007/BF01697523,"THYBAUD, E (corresponding author), UNIV PARIS 11,ZOOL & ECOL LAB,CNRS,UNITE 690,F-91405 ORSAY,FRANCE.",,,,,2454694.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1988M343700012,1,0,"GREEN, DWJ; WILLIAMS, KA; HUGHES, DRL; SHAIK, GAR; PASCOE, D",J,English,TOXICITY OF PHENOL TO ASELLUS-AQUATICUS (L) EFFECTS OF TEMPERATURE AND EPISODIC EXPOSURE,1988.0,Engineering; Environmental Sciences & Ecology; Water Resources,22.0,0043-1354,2,FEB,225,231,,"UWIST,DEPT APPL BIOL,POB 13,CARDIFF CF1 3XF,WALES",,PERGAMON-ELSEVIER SCIENCE LTD,25,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,7.0,M3437,"GREEN, DWJ; WILLIAMS, KA; HUGHES, DRL; SHAIK, GAR; PASCOE, D",25.0,24.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(88)90082-6,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1988M085600006,6,0,"GIUDICI, MD; MIGLIORE, L; GAMBARDELLA, C; MAROTTA, A",J,English,"EFFECT OF CHRONIC EXPOSURE TO CADMIUM AND COPPER ON ASELLUS-AQUATICUS (L) (CRUSTACEA, ISOPODA)",1988.0,Marine & Freshwater Biology,157.0,0018-8158,3,JAN 22,265,269,,,,KLUWER ACADEMIC PUBL,11,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,5.0,M0856,"GIUDICI, MD; MIGLIORE, L; GAMBARDELLA, C; MAROTTA, A",13.0,13.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,,"GIUDICI, MD (corresponding author), DIPARTIMENTO GENET,VIA MEZZOCANNONE 8,I-80134 NAPOLI,ITALY.",,,"Migliore, Luciana/0000-0003-3554-3841","Migliore, Luciana/AAB-4245-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONALE REVUE DER GESAMTEN HYDROBIOLOGIE,2021-04-13,WOS:A1988R576700006,6,0,"IVERSEN, TM; THORUP, J",J,English,"A 3 YEARS STUDY OF LIFE-CYCLE, POPULATION-DYNAMICS AND PRODUCTION OF ASELLUS-AQUATICUS L IN A MACROPHYTE RICH STREAM",1988.0,Marine & Freshwater Biology,73.0,0020-9309,1,,73,94,,,,AKAD VERLAG GMBH,32,"PALISADENSTR 40, D-10243 BERLIN, GERMANY",BERLIN,22.0,R5767,"IVERSEN, TM; THORUP, J",9.0,9.0,Marine & Freshwater Biology,INT REV GES HYDROBIO,Int. Rev. Gesamten Hydrobiol.,10.1002/iroh.19880730107,"IVERSEN, TM (corresponding author), UNIV COPENHAGEN, FRESHWATER BIOL LAB, 51 HELSINGORSGADE, DK-3400 HILLEROD, DENMARK.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1987H660900003,3,0,"LEBRAS, S",J,French,EFFECTS OF LINDANE ON ASELLUS-AQUATICUS-L. RESPIRATORY-METABOLISM - CORRELATION OF CONCENTRATION WITH METABOLIC-PATHOLOGY,1987.0,Marine & Freshwater Biology,148.0,0018-8158,2,MAY 20,115,122,,,,KLUWER ACADEMIC PUBL,15,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,8.0,H6609,"LEBRAS, S",2.0,2.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00008396,"LEBRAS, S (corresponding author), UNIV PARIS 11,ZOOL & ECOL LAB,CNRS,UA 040690,BATIMENT 442,F-91405 ORSAY,FRANCE.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Note,TSITOLOGIYA,2021-04-13,WOS:A1987J511000014,0,0,"PASHKOVA, IM",J,Russian,THE EFFECT OF HEATING OF ASELLUS-AQUATICUS OVA WITH IN THE WHOLE ORGANISM SYSTEM ON THE PROGENY HEAT-RESISTANCE,1987.0,Cell Biology,29.0,0041-3771,5,MAY,603,606,,,,MEZHDUNARODNAYA KNIGA,13,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,4.0,J5110,"PASHKOVA, IM",1.0,1.0,Cell Biology,TSITOLOGIYA+,,,"PASHKOVA, IM (corresponding author), ACAD SCI USSR,INST CYTOL,LENINGRAD,USSR.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITY,2021-04-13,WOS:A1987G871000015,5,0,"SHIHAB, AF; HEATH, DJ",J,English,COMPONENTS OF FITNESS AND THE PGI POLYMORPHISM IN THE FRESH-WATER ISOPOD ASELLUS-AQUATICUS (L) .2. ZYGOTIC SELECTION,1987.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,58.0,0018-067X,,APR,289,295,,"UNIV ESSEX, DEPT BIOL, COLCHESTER CO4 3SQ, ESSEX, ENGLAND",,BLACKWELL SCIENCE LTD,19,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,7.0,G8710,"SHIHAB, AF; HEATH, DJ",15.0,15.0,Ecology; Evolutionary Biology; Genetics & Heredity,HEREDITY,Heredity,10.1038/hdy.1987.43,"SHIHAB, AF (corresponding author), UNIV BASRAH, COLL SCI, DEPT BIOL, BASRAH, IRAQ.",,,"shehab, Adil Fawzi/0000-0002-5881-7334","shehab, Adil Fawzi/N-5945-2019",,,,,Bronze,,,,,2,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1987G689700005,4,0,"GIUDICI, MD; MIGLIORE, L; GUARINO, SM",J,English,"SENSITIVITY OF ASELLUS-AQUATICUS (L) AND PROASELLUS-COXALIS DOLLF (CRUSTACEA, ISOPODA) TO COPPER",1987.0,Marine & Freshwater Biology,146.0,0018-8158,1,MAR 10,63,69,,,,KLUWER ACADEMIC PUBL,16,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,7.0,G6897,"GIUDICI, MD; MIGLIORE, L; GUARINO, SM",12.0,11.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,,"GIUDICI, MD (corresponding author), DIPARTIMENTO GENET BIOL GEN & MOLEC,VIA MEZZOCANNONE 8,I-80134 NAPOLI,ITALY.",,,"Migliore, Luciana/0000-0003-3554-3841","Migliore, Luciana/AAB-4245-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITY,2021-04-13,WOS:A1987G332500010,2,0,"SHIHAB, AF; HEATH, DJ",J,English,COMPONENTS OF FITNESS AND THE PGI POLYMORPHISM IN THE FRESH-WATER ISOPOD ASELLUS-AQUATICUS (L) .1. FECUNDITY SELECTION,1987.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,58.0,0018-067X,,FEB,69,73,,"UNIV ESSEX, DEPT BIOL, COLCHESTER CO4 3SQ, ESSEX, ENGLAND",,BLACKWELL SCIENCE LTD,18,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,5.0,G3325,"SHIHAB, AF; HEATH, DJ",7.0,7.0,Ecology; Evolutionary Biology; Genetics & Heredity,HEREDITY,Heredity,10.1038/hdy.1987.10,,,,,,,,,,Bronze,,,,,1,,,,,,,,,,,,,,,,,,
Article,ACTA OECOLOGICA-OECOLOGIA APPLICATA,2021-04-13,WOS:A1987L218700006,6,0,"THYBAUD, E; LEBRAS, S; COSSON, RP",J,French,"ACUTE TOXICITY OF VARIOUS INSECTICIDES AND HEAVY-METALS TO ASELLUS-AQUATICUS L (CRUSTACEA, ISOPODA)",1987.0,Environmental Sciences & Ecology,8.0,0243-7678,4,,355,361,,,,GAUTHIER-VILLARS,23,"S P E S-JOURNAL DEPT, 120 BD ST GERMAIN, F-75006 PARIS, FRANCE",PARIS,7.0,L2187,"THYBAUD, E; LEBRAS, S; COSSON, RP",1.0,1.0,Ecology,ACTA OECOL-OEC APPL,,,"THYBAUD, E (corresponding author), UNIV PARIS 11,CNRS,UNITE 690,ZOOL & ECOL LAB,BATIMENT 442,F-91405 ORSAY,FRANCE.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL POLLUTION,2021-04-13,WOS:A1987G329300003,2,0,"MALTBY, L; SNART, JOH; CALOW, P",J,English,"ACUTE TOXICITY TESTS ON THE FRESH-WATER ISOPOD, ASELLUS-AQUATICUS USING FESO4.7H2O, WITH SPECIAL REFERENCE TO TECHNIQUES AND THE POSSIBILITY OF INTRASPECIFIC VARIATION",1987.0,Environmental Sciences & Ecology,43.0,0269-7491,4,,271,279,,,,ELSEVIER SCI LTD,18,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, OXON, ENGLAND OX5 1GB",OXFORD,9.0,G3293,"MALTBY, L; SNART, JOH; CALOW, P",19.0,18.0,Environmental Sciences,ENVIRON POLLUT,Environ. Pollut.,10.1016/0269-7491(87)90180-1,"MALTBY, L (corresponding author), UNIV SHEFFIELD,DEPT ZOOL,SHEFFIELD S10 2TN,S YORKSHIRE,ENGLAND.",,,"Maltby, Lorraine/0000-0003-3817-4033","Maltby, Lorraine/A-6702-2012",15092790.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CRUSTACEANA,2021-04-13,WOS:A1986E859900004,6,1,"THOMPSON, DJ",J,English,HERITABILITY FOR BODY SIZE IN THE ISOPOD ASELLUS-AQUATICUS (L),1986.0,Marine & Freshwater Biology,51.0,0011-216X,,NOV,241,244,,,,BRILL,12,"PLANTIJNSTRAAT 2, P O BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,4.0,E8599,"THOMPSON, DJ",5.0,5.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854086X00386,"THOMPSON, DJ (corresponding author), UNIV LIVERPOOL, DEPT ZOOL, POB 147, LIVERPOOL L69 3BX, ENGLAND.",,,,"Thompson, David J/C-3520-2008",,1568-5403,,,,,,,,3,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF PARASITOLOGY,2021-04-13,WOS:A1986F719200002,6,0,"BRATTEY, J",J,English,"LIFE-HISTORY AND POPULATION BIOLOGY OF LARVAL ACANTHOCEPHALUS-LUCII (ACANTHOCEPHALA, ECHINORHYNCHIDAE) IN THE ISOPOD ASELLUS-AQUATICUS",1986.0,Parasitology,72.0,0022-3395,5,OCT,633,645,,"UNIV LIVERPOOL, DEPT ZOOL, LIVERPOOL L69 3BX, ENGLAND",,ALLEN PRESS INC,65,"810 E 10TH ST, LAWRENCE, KS 66044 USA",LAWRENCE,13.0,F7192,"BRATTEY, J",32.0,31.0,Parasitology,J PARASITOL,J. Parasitol.,10.2307/3281450,,,,,,3806315.0,1937-2345,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY,2021-04-13,WOS:A1986D542900001,6,2,"GREEN, DWJ; WILLIAMS, KA; PASCOE, D",J,English,THE ACUTE AND CHRONIC TOXICITY OF CADMIUM TO DIFFERENT LIFE-HISTORY STAGES OF THE FRESH-WATER CRUSTACEAN ASELLUS-AQUATICUS (L),1986.0,Environmental Sciences & Ecology; Toxicology,15.0,0090-4341,5,,465,471,,,,SPRINGER VERLAG,42,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,7.0,D5429,"GREEN, DWJ; WILLIAMS, KA; PASCOE, D",50.0,50.0,Environmental Sciences; Toxicology,ARCH ENVIRON CON TOX,Arch. Environ. Contam. Toxicol.,10.1007/BF01056557,"GREEN, DWJ (corresponding author), UWIST,DEPT APPL BIOL,CATHAYS PK,CARDIFF,WALES.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOCHEMICAL SYSTEMATICS AND ECOLOGY,2021-04-13,WOS:A1986A812200010,1,0,"VERSPOOR, E",J,English,A MANNOSE PHOSPHATE ISOMERASE POLYMORPHISM IN THE ISOPOD ASELLUS-AQUATICUS,1986.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology; Evolutionary Biology,14.0,0305-1978,2,,211,213,,,,PERGAMON-ELSEVIER SCIENCE LTD,8,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,3.0,A8122,"VERSPOOR, E",0.0,0.0,Biochemistry & Molecular Biology; Ecology; Evolutionary Biology,BIOCHEM SYST ECOL,Biochem. Syst. Ecol.,10.1016/0305-1978(86)90065-7,"VERSPOOR, E (corresponding author), NW ATLANTIC FISHERIES CTR,BOX 5667,ST JOHNS A1C 5X1,NEWFOUNDLAND,CANADA.",,,,"Verspoor, Eric/AAI-2362-2019",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ENVIRONMENTAL TECHNOLOGY LETTERS,2021-04-13,WOS:A1986A052800006,4,0,"GIUDICI, MD; MIGLIORE, L; GUARINO, SM",J,English,"EFFECTS OF CADMIUM ON THE LIFE-CYCLE OF ASELLUS-AQUATICUS (L) AND PROASELLUS-COXALIS DOLLF (CRUSTACEA, ISOPODA)",1986.0,Environmental Sciences & Ecology,7.0,0143-2060,1,JAN,45,54,,,,"SELPER LTD, PUBLICATIONS DIV",16,"79 RUSTHALL AVENUE, LONDON, ENGLAND W4 1BN",LONDON,10.0,A0528,"GIUDICI, MD; MIGLIORE, L; GUARINO, SM",13.0,13.0,Environmental Sciences,ENVIRON TECHNOL LETT,,,"GIUDICI, MD (corresponding author), UNIV NAPLES,DIPARTIMENTO GENET BIOL GEN & MOLEC,VIA MEZZOCANNONE 8,I-80134 NAPLES,ITALY.",,,"Migliore, Luciana/0000-0003-3554-3841","Migliore, Luciana/AAB-4245-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BEHAVIOUR,2021-04-13,WOS:A1985A025400002,0,0,"VERRELL, PA",J,English,PREDATION AND THE EVOLUTION OF PRECOPULA IN THE ISOPOD ASELLUS-AQUATICUS,1985.0,Behavioral Sciences; Zoology,95.0,0005-7959,,,198,202,,,,E J BRILL,8,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,5.0,A0254,"VERRELL, PA",18.0,18.0,Behavioral Sciences; Zoology,BEHAVIOUR,Behaviour,10.1163/156853985X00127,"VERRELL, PA (corresponding author), OPEN UNIV,DEPT BIOL,WALTON HALL,MILTON KEYNES MK7 6AA,BUCKS,ENGLAND.",,,,,,,,,,,,,,3-4,,,,,,,,,,,,,,,,,,
Article,BEHAVIOUR,2021-04-13,WOS:A1985AGL8500005,2,0,"ADAMS, J; GREENWOOD, P; POLLITT, R; YONOW, T",J,English,LOADING CONSTRAINTS AND SEXUAL SIZE DIMORPHISM IN ASELLUS-AQUATICUS,1985.0,Behavioral Sciences; Zoology,92.0,0005-7959,,,277,287,,"UNIV DURHAM,DEPT ZOOL,DURHAM DH1 3HP,ENGLAND; UNIV DURHAM,DEPT ADULT EDUC,DURHAM DH1 3HP,ENGLAND; UNIV NEWCASTLE UPON TYNE,DEPT ZOOL,NEWCASTLE TYNE NE1 7RU,TYNE & WEAR,ENGLAND",,E J BRILL,24,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,11.0,AGL85,"ADAMS, J; GREENWOOD, P; POLLITT, R; YONOW, T",38.0,36.0,Behavioral Sciences; Zoology,BEHAVIOUR,Behaviour,,,,,"Adams, Jonathan/0000-0002-0325-4431","Adams, Jonathan/A-5224-2009",,,,,,,,,,3-4,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1985ADD2900004,5,1,"RASK, M; HIISIVUORI, C",J,English,"THE PREDATION ON ASELLUS-AQUATICUS (L) BY PERCH, PERCA-FLUVIATILIS (L), IN A SMALL FOREST LAKE",1985.0,Marine & Freshwater Biology,121.0,0018-8158,1,,27,33,,,,KLUWER ACADEMIC PUBL,30,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,7.0,ADD29,"RASK, M; HIISIVUORI, C",37.0,36.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00035226,"RASK, M (corresponding author), UNIV HELSINKI,LAMMI BIOL STN,SF-16900 LAMMI,FINLAND.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CELL AND TISSUE RESEARCH,2021-04-13,WOS:A1984RY87700016,4,0,"HEIMANN, P",J,English,"FINE-STRUCTURE AND MOLTING OF AESTHETASC SENSE-ORGANS ON THE ANTENNULES OF THE ISOPOD, ASELLUS-AQUATICUS (CRUSTACEA)",1984.0,Cell Biology,235.0,0302-766X,1,,117,128,,,,SPRINGER VERLAG,38,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,12.0,RY877,"HEIMANN, P",60.0,59.0,Cell Biology,CELL TISSUE RES,Cell Tissue Res.,,"HEIMANN, P (corresponding author), UNIV REGENSBURG,INST ZOOL,D-8400 REGENSBURG,FED REP GER.",,,,,6697375.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CHROMOSOMA,2021-04-13,WOS:A1984SL39300003,4,1,"ROCCHI, A; PRANTERA, G; LANZA, V; DICASTRO, M",J,English,"INCIPIENT SEX-CHROMOSOME DIFFERENTIATION IN AN ISOPOD CRUSTACEAN SPECIES, ASELLUS-AQUATICUS",1984.0,Biochemistry & Molecular Biology; Genetics & Heredity,89.0,0009-5915,3,,193,196,,"CNR,CTR GENET EVOLUZ,ROME,ITALY",,SPRINGER VERLAG,12,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,4.0,SL393,"ROCCHI, A; PRANTERA, G; LANZA, V; DICASTRO, M",18.0,18.0,Biochemistry & Molecular Biology; Genetics & Heredity,CHROMOSOMA,Chromosoma,10.1007/BF00294998,"ROCCHI, A (corresponding author), UNIV ROME,DIPARTIMENTO GENET & BIOL MOLEC,I-00185 ROME,ITALY.",,,"Prantera, Giorgio/0000-0003-0970-9561",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,IZVESTIYA AKADEMII NAUK SSSR SERIYA BIOLOGICHESKAYA,2021-04-13,WOS:A1984TT22100010,0,0,"USHAKOV, BP; DREGOLSKAYA, IN; PASHKOVA, IM",J,Russian,CORRELATION BETWEEN THE HEAT-RESISTANCE OF THE ORGANISM AND THE FERTILITY IN HYDRA-OLIGACTIS AND ASELLUS-AQUATICUS,1984.0,Life Sciences & Biomedicine - Other Topics,,0002-3329,6,,887,893,,,,MEZHDUNARODNAYA KNIGA,9,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,7.0,TT221,"USHAKOV, BP; DREGOLSKAYA, IN; PASHKOVA, IM",10.0,9.0,Biology,IZV AN SSSR BIOL+,,,"USHAKOV, BP (corresponding author), ACAD SCI USSR,INST CYTOL,LENINGRAD,USSR.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THERMAL BIOLOGY,2021-04-13,WOS:A1984TY28500013,2,1,"USHAKOV, BP; PASHKOVA, IM",J,English,THE RELATION OF CHANGES IN THE INDIVIDUAL LEVELS OF HEAT-RESISTANCE OF MUSCLE-TISSUE TO THEIR INITIAL VALUES DURING HEAT ACCLIMATION OF ASELLUS-AQUATICUS,1984.0,Life Sciences & Biomedicine - Other Topics; Zoology,9.0,0306-4565,4,,303,309,,,,PERGAMON-ELSEVIER SCIENCE LTD,26,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,7.0,TY285,"USHAKOV, BP; PASHKOVA, IM",9.0,9.0,Biology; Zoology,J THERM BIOL,J. Therm. Biol.,10.1016/0306-4565(84)90013-5,"USHAKOV, BP (corresponding author), ACAD SCI USSR,INST CYTOL,COMPARAT CYTOL LAB,LENINGRAD 190121,USSR.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ZHURNAL OBSHCHEI BIOLOGII,2021-04-13,WOS:A1984SL62600011,0,0,"PASHKOVA, IM",J,Russian,CHANGES IN REACTION OF ASELLUS-AQUATICUS L (ISOPODA) POPULATION TO THE THERMAL SELECTION IN THE PROCESS OF THE ECDYSIS CYCLE,1984.0,Life Sciences & Biomedicine - Other Topics,45.0,0044-4596,2,,239,245,,,,MEZHDUNARODNAYA KNIGA,20,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,7.0,SL626,"PASHKOVA, IM",3.0,3.0,Biology,ZH OBSHCH BIOL,Zhurnal Obshchei Biol.,,"PASHKOVA, IM (corresponding author), ACAD SCI USSR,INST CYTOL,LENINGRAD,USSR.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOLOGICAL JOURNAL OF THE LINNEAN SOCIETY,2021-04-13,WOS:A1983QS04200004,4,0,"VERSPOOR, E",J,English,ALLOZYME FREQUENCIES IN WESTERN EUROPEAN POPULATIONS OF ASELLUS-AQUATICUS (L) ISOPODA AND THEIR ASSOCIATION WITH WATER-POLLUTION,1983.0,Evolutionary Biology,19.0,0024-4066,3,,275,293,,"UNIV NOTTINGHAM,DEPT GENET,NOTTINGHAM NG7 2RD,ENGLAND",,ACADEMIC PRESS LTD,28,"24-28 OVAL RD, LONDON, ENGLAND NW1 7DX",LONDON,19.0,QS042,"VERSPOOR, E",10.0,10.0,Evolutionary Biology,BIOL J LINN SOC,Biol. J. Linnean Soc.,10.1111/j.1095-8312.1983.tb00787.x,,,,,"Verspoor, Eric/AAI-2362-2019",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EVOLUTION,2021-04-13,WOS:A1983RD22900014,4,1,"ROSSI, L; BASSET, A; NOBILE, L",J,English,A COADAPTED TROPHIC NICHE IN 2 SPECIES OF CRUSTACEA (ISOPODA) - ASELLUS-AQUATICUS (L) AND PROASELLUS-COXALIS DOLFF,1983.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,37.0,0014-3820,4,,810,820,,,,SOC STUDY EVOLUTION,25,"810 E 10TH STREET, LAWRENCE, KS 66044",LAWRENCE,11.0,RD229,"ROSSI, L; BASSET, A; NOBILE, L",8.0,8.0,Ecology; Evolutionary Biology; Genetics & Heredity,EVOLUTION,Evolution,10.2307/2407921,"ROSSI, L (corresponding author), UNIV ROME,IST GENET,REPARTO ECOL,I-00185 ROME,ITALY.",,,"ROSSI, LORETO/0000-0001-8014-5397",,28568120.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,GENETICA,2021-04-13,WOS:A1983QW67300002,1,0,"DICASTRO, M; PRANTERA, G; CIPRIANI, L; ROCCHI, A",J,English,"SILVER STAINING ANALYSIS OF NUCLEOLAR-ORGANIZER ACTIVITY DURING SPERMATOGENESIS OF ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA)",1983.0,Genetics & Heredity,60.0,0016-6707,3,,163,166,,"UNIV ROME,CNR,CTR GENET EVOLUZ,I-00100 ROME,ITALY",,KLUWER ACADEMIC PUBL,15,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,4.0,QW673,"DICASTRO, M; PRANTERA, G; CIPRIANI, L; ROCCHI, A",19.0,19.0,Genetics & Heredity,GENETICA,Genetica,10.1007/BF00122370,"DICASTRO, M (corresponding author), UNIV ROME,IST GENET,I-00100 ROME,ITALY.",,,"Prantera, Giorgio/0000-0003-0970-9561",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Note,JOURNAL OF PARASITOLOGY,2021-04-13,WOS:A1983ST01700036,9,0,"BRATTEY, J",J,English,"THE EFFECTS OF LARVAL ACANTHOCEPHALUS-LUCII ON THE PIGMENTATION, REPRODUCTION, AND SUSCEPTIBILITY TO PREDATION OF THE ISOPOD ASELLUS-AQUATICUS",1983.0,Parasitology,69.0,0022-3395,6,,1172,1173,,"UNIV LIVERPOOL,DEPT ZOOL,LIVERPOOL L69 3BX,ENGLAND",,AMER SOC PARASITOLOGISTS,9,"810 EAST 10TH STREET, LAWRENCE, KS 66044",LAWRENCE,2.0,ST017,"BRATTEY, J",35.0,35.0,Parasitology,J PARASITOL,J. Parasitol.,10.2307/3280892,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OIKOS,2021-04-13,WOS:A1983QD38500007,4,0,"ROSSI, L; FANO, EA; BASSET, A",J,English,"SYMPATRIC COEVOLUTION OF THE TROPHIC NICHE OF 2 DETRITIVOROUS ISOPODS, ASELLUS-AQUATICUS AND PROASELLUS-COXALIS",1983.0,Environmental Sciences & Ecology,40.0,0030-1299,2,,208,215,,,,MUNKSGAARD INT PUBL LTD,23,"35 NORRE SOGADE, PO BOX 2148, DK-1016 COPENHAGEN, DENMARK",COPENHAGEN,8.0,QD385,"ROSSI, L; FANO, EA; BASSET, A",15.0,13.0,Ecology,OIKOS,Oikos,10.2307/3544584,"ROSSI, L (corresponding author), UNIV ROME,IST GENET,REPARTO ECOL,I-00185 ROME,ITALY.",,,"Fano, Elisa Anna/0000-0001-8552-9621; ROSSI, LORETO/0000-0001-8014-5397","Fano, Elisa Anna/M-6731-2015",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ZEITSCHRIFT FUR ZOOLOGISCHE SYSTEMATIK UND EVOLUTIONSFORSCHUNG,2021-04-13,WOS:A1983RV46800003,1,0,"VALENTINO, F; DELMARCO, A; ROCCHI, A",J,English,NUCLEAR-DNA CONTENT OF ASELLUS-AQUATICUS AND PROASELLUS-COXALIS,1983.0,Zoology,21.0,0044-3808,4,,262,265,,"UNIV ROME,IST BIOL GEN,I-00185 ROME,ITALY",,BLACKWELL WISSENSCHAFTS-VERLAG GMBH,20,"KURFURSTENDAMM 57, D-10707 BERLIN, GERMANY",BERLIN,4.0,RV468,"VALENTINO, F; DELMARCO, A; ROCCHI, A",4.0,2.0,Zoology,Z ZOOL SYST EVOL,,,"VALENTINO, F (corresponding author), UNIV ROME,FAC SCI MAT FIS NAT,IST GENET,CNR,CTR GENET EVOLUZIONIST,I-00185 ROME,ITALY.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,ATTI ASSOCIAZIONE GENETICA ITALIANA,2021-04-13,WOS:A1982RP53900043,0,0,"DICASTRO, M; PRANTERA, G; CIPRIANI, L; CANZA, V; ROCCHI, A",J,English,THE ACTIVITY OF THE NUCLEOLUS ORGANIZERS DURING SPERMATOGENESIS OF ASELLUS-AQUATICUS STUDIED BY AG-STAINING,1982.0,Genetics & Heredity,28.0,0066-9830,,,150,151,,"UNIV ROME,CNR,CTR GENET EVOLUZIONIST,I-00100 ROME,ITALY; UNIV ROME,IST GENET,I-00100 ROME,ITALY",,"ASSN GENETICA ITALIANA PROF GA DANIELI, SEC GEN",4,"UNIV PADOVA, IST BIOL ANIMALE VIA LOREDAN 10, 35100 PADUA, ITALY",PADUA,2.0,RP539,"DICASTRO, M; PRANTERA, G; CIPRIANI, L; CANZA, V; ROCCHI, A",0.0,0.0,Genetics & Heredity,ATTI ASSOC GENET IT,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BIOCHEMICAL GENETICS,2021-04-13,WOS:A1982PP85100008,4,0,"VERSPOOR, E",J,English,DESCRIPTION AND GENETICS OF GLUCOSE PHOSPHATE ISOMERASE (GPI) AND PHOSPHOGLUCOMUTASE (PGM) POLYMORPHISMS IN ASELLUS-AQUATICUS (L),1982.0,Biochemistry & Molecular Biology; Genetics & Heredity,20.0,0006-2928,9-10,,891,905,,"DEP GENET,NOTTINGHAM NG7 2RD,ENGLAND",,PLENUM PUBL CORP,31,"233 SPRING ST, NEW YORK, NY 10013",NEW YORK,15.0,PP851,"VERSPOOR, E",5.0,5.0,Biochemistry & Molecular Biology; Genetics & Heredity,BIOCHEM GENET,Biochem. Genet.,10.1007/BF00484067,,,,,"Verspoor, Eric/AAI-2362-2019",6217812.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Note,CRUSTACEANA,2021-04-13,WOS:A1982PJ58600015,6,0,"VERSPOOR, E",J,English,ASSORTATIVE MATING FOR SIZE IN ASELLUS-AQUATICUS (L) (ISOPODA),1982.0,Marine & Freshwater Biology,43.0,0011-216X,SEP,,216,219,,,,E J BRILL,7,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,4.0,PJ586,"VERSPOOR, E",8.0,8.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854082X00579,"VERSPOOR, E (corresponding author), UNIV CALGARY,FAC ENVIRONM DESIGN,CALGARY T2N 1N4,ALBERTA,CANADA.",,,,"Verspoor, Eric/AAI-2362-2019",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1982NQ73000006,12,0,"ADCOCK, JA",J,English,"ENERGETICS OF A POPULATION OF ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA) - RESPIRATION AND ENERGY BUDGETS",1982.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,12.0,0046-5070,3,,257,269,,"UNIV LEICESTER,DEPT ZOOL,LEICESTER LE1 7RH,ENGLAND",,BLACKWELL SCIENCE LTD,26,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,13.0,NQ730,"ADCOCK, JA",18.0,18.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1982.tb00620.x,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1982PH94700005,14,0,"MURPHY, PM; LEARNER, MA",J,English,"THE LIFE-HISTORY AND PRODUCTION OF ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA) IN THE RIVER ELY, SOUTH-WALES",1982.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,12.0,0046-5070,5,,435,444,,"UWIST,DEPT APPL BIOL,CARDIFF CF1 3NU,S GLAM,WALES",,BLACKWELL SCIENCE LTD,28,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,10.0,PH947,"MURPHY, PM; LEARNER, MA",37.0,37.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1982.tb00638.x,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,INTERNATIONAL JOURNAL OF INVERTEBRATE REPRODUCTION,2021-04-13,WOS:A1982NV24300002,5,0,"MIGLIORE, L; PALUZZI, R; VITAGLIANOTADINI, G",J,English,"REPRODUCTIVE ACTIVITY IN ASELLUS-AQUATICUS L (CRUSTACEA, ISOPODA) FROM SOUTHERN ITALY",1982.0,Zoology,4.0,0165-1269,6,,359,367,,,,ELSEVIER SCIENCE BV,30,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,9.0,NV243,"MIGLIORE, L; PALUZZI, R; VITAGLIANOTADINI, G",7.0,7.0,Zoology,INT J INVER REP DEV,,,"MIGLIORE, L (corresponding author), UNIV ROME,CATTEDRA ECOL,IST GENET,I-00185 ROME,ITALY.",,,"Migliore, Luciana/0000-0003-3554-3841","Migliore, Luciana/AAB-4245-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF CHEMICAL ECOLOGY,2021-04-13,WOS:A1982PG35500003,3,0,"BENGTSSON, G",J,English,ENERGETIC COSTS OF AMINO-ACIDS EXUDATION IN THE INTERACTION BETWEEN THE PREDATOR GAMMARUS-PULEX L AND THE PREY ASELLUS-AQUATICUS L,1982.0,Biochemistry & Molecular Biology; Environmental Sciences & Ecology,8.0,0098-0331,10,,1271,1281,,,,PLENUM PUBL CORP,22,"233 SPRING ST, NEW YORK, NY 10013",NEW YORK,11.0,PG355,"BENGTSSON, G",16.0,16.0,Biochemistry & Molecular Biology; Ecology,J CHEM ECOL,J. Chem. Ecol.,10.1007/BF00987760,"BENGTSSON, G (corresponding author), UNIV LUND,ECOL CHEM LAB,S-22362 LUND,SWEDEN.",,,,,24414733.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ZEITSCHRIFT FUR ZOOLOGISCHE SYSTEMATIK UND EVOLUTIONSFORSCHUNG,2021-04-13,WOS:A1982NY18900006,6,0,"TADINIVITAGLIANO, G; VALENTINO, F; MIGLIORE, L",J,English,IS THE MECHANISM PRESENT IN ASELLUS-AQUATICUS (L) AN EVOLUTIONARY STAGE TOWARDS AN ENDOGENOUS CALENDAR,1982.0,Zoology,20.0,0044-3808,2,,144,155,,,,BLACKWELL VERLAG GMBH,0,"KURFURSTENDAMM 58, D-10707 BERLIN, GERMANY",BERLIN,12.0,NY189,"TADINIVITAGLIANO, G; VALENTINO, F; MIGLIORE, L",7.0,6.0,Zoology,Z ZOOL SYST EVOL,,,"TADINIVITAGLIANO, G (corresponding author), UNIV ROME, IST GENET, CATTEDRA ECOL, I-00185 ROME, ITALY.",,,"Migliore, Luciana/0000-0003-3554-3841","Migliore, Luciana/AAB-4245-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,AQUATIC TOXICOLOGY,2021-04-13,WOS:A1981MM75800002,5,0,"TOLBA, MR; HOLDICH, DM",J,English,"THE EFFECT OF WATER-QUALITY ON THE SIZE AND FECUNDITY OF ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA)",1981.0,Marine & Freshwater Biology; Toxicology,1.0,0166-445X,2,,101,112,,,,ELSEVIER SCIENCE BV,0,"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS",AMSTERDAM,12.0,MM758,"TOLBA, MR; HOLDICH, DM",21.0,21.0,Marine & Freshwater Biology; Toxicology,AQUAT TOXICOL,Aquat. Toxicol.,10.1016/0166-445X(81)90033-3,"TOLBA, MR (corresponding author), UNIV NOTTINGHAM,DEPT ZOOL,NOTTINGHAM NG7 2RD,ENGLAND.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CELL AND TISSUE RESEARCH,2021-04-13,WOS:A1981KZ08900004,0,0,"LIEBICH, HO",J,English,"THE ULTRASTRUCTURE OF THE HEART OF ONISCUS-ASELLUS L AND ASELLUS-AQUATICUS L (CRUSTACEA, ISOPODA)",1981.0,Cell Biology,214.0,0302-766X,1,,43,50,,,,SPRINGER VERLAG,18,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,8.0,KZ089,"LIEBICH, HO",13.0,13.0,Cell Biology,CELL TISSUE RES,Cell Tissue Res.,,"LIEBICH, HO (corresponding author), UNIV BERGEN,ZOOL LAB,CELLULAR CARDIOL RES GRP,N-5014 BERGEN,NORWAY.",,,,,7471175.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS DE L ACADEMIE DES SCIENCES SERIE III-SCIENCES DE LA VIE-LIFE SCIENCES,2021-04-13,WOS:A1981LL29100002,1,0,"RAPENNE, F",J,French,"GENETIC-CONTROL OF DIFFERENTIATION AND METABOLISM OF ZENKER ORGANS (URIC-ACID CELLS) IN ASELLUS-AQUATICUS L (CRUSTACEA, ISOPODA) - RELATION BETWEEN PARTIAL REGRESSION OF PIGMENTATION (PANACHED PHENOTYPE) AND PARTIAL REGRESSION OF THESE ORGANS",1981.0,Life Sciences & Biomedicine - Other Topics; Science & Technology - Other Topics,292.0,0764-4469,9,,589,&,,,,EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER,3,"141 RUE JAVEL, 75747 PARIS CEDEX 15, FRANCE",PARIS CEDEX 15,0.0,LL291,"RAPENNE, F",0.0,0.0,Biology; Multidisciplinary Sciences,CR ACAD SCI III-VIE,Comptes Rendus Acad. Sci. Ser. III-Sci. Vie-Life Sci.,,"RAPENNE, F (corresponding author), UNIV NANCY 1,CTR 2 CYCLE,BIOL ANIM LAB,F-54037 NANCY,FRANCE.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1981LJ61000005,5,0,"HOLDICH, DM; TOLBA, MR",J,English,"THE EFFECT OF TEMPERATURE AND WATER-QUALITY ON THE INVITRO DEVELOPMENT AND SURVIVAL OF ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA) EGGS",1981.0,Marine & Freshwater Biology,78.0,0018-8158,3,,227,236,,,,KLUWER ACADEMIC PUBL,35,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,10.0,LJ610,"HOLDICH, DM; TOLBA, MR",15.0,15.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00008519,"HOLDICH, DM (corresponding author), UNIV NOTTINGHAM,DEPT ZOOL,NOTTINGHAM NG7 2RD,ENGLAND.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,ATTI ASSOCIAZIONE GENETICA ITALIANA,2021-04-13,WOS:A1980LV78700085,0,0,"ROCCHI, A; PRANTERA, G; DICASTRO, M",J,English,PRELIMINARY-STUDY OF HETEROCHROMATIN OF ASELLUS-AQUATICUS (CRUST ISOP),1980.0,Genetics & Heredity,25.0,0066-9830,,,230,231,,"CNR,CTR GENET EVOLUZ,ROME,ITALY",,"ASSN GENETICA ITALIANA PROF GA DANIELI, SEC GEN",1,"UNIV PADOVA, IST BIOL ANIMALE VIA LOREDAN 10, 35100 PADUA, ITALY",PADUA,2.0,LV787,"ROCCHI, A; PRANTERA, G; DICASTRO, M",0.0,0.0,Genetics & Heredity,ATTI ASSOC GENET IT,,,"ROCCHI, A (corresponding author), UNIV ROME,IST GENET,I-00100 ROME,ITALY.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BEHAVIOUR,2021-04-13,WOS:A1980KP86100003,2,0,"MANNING, JT",J,English,SEX-RATIO AND OPTIMAL MALE TIME INVESTMENT STRATEGIES IN ASELLUS-AQUATICUS (L) AND ASELLUS-MERIDIANUS RACOVITZA,1980.0,Behavioral Sciences; Zoology,74.0,0005-7959,,,264,273,,,,E J BRILL,10,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,10.0,KP861,"MANNING, JT",34.0,34.0,Behavioral Sciences; Zoology,BEHAVIOUR,Behaviour,10.1163/156853980X00483,"MANNING, JT (corresponding author), UNIV LIVERPOOL,INST EXTENS STUDIES,LIVERPOOL L69 3BX,MERSEYSIDE,ENGLAND.",,,,,,,,,,,,,,3-4,,,,,,,,,,,,,,,,,,
Article,CARYOLOGIA,2021-04-13,WOS:A1980LR20800009,0,0,"ROCCHI, A; PRANTERA, G; DICASTRO, M",J,English,A STUDY OF THE HETEROCHROMATIN OF ASELLUS-AQUATICUS (CRUST ISOP),1980.0,Plant Sciences; Genetics & Heredity,33.0,0008-7114,3,,401,409,,"CNR,CTR GENET EVOLUZIONIST,I-00131 ROME,ITALY",,UNIV FLORENCE BOTANY INST,20,"VIA LAMARMORA 4, 50121 FLORENCE, ITALY",FLORENCE,9.0,LR208,"ROCCHI, A; PRANTERA, G; DICASTRO, M",17.0,17.0,Plant Sciences; Genetics & Heredity,CARYOLOGIA,Caryologia,10.1080/00087114.1980.10796853,"ROCCHI, A (corresponding author), UNIV ROME,IST GENET,I-00100 ROME,ITALY.",,,"Prantera, Giorgio/0000-0003-0970-9561",,,,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,DOKLADY AKADEMII NAUK SSSR,2021-04-13,WOS:A1980KM71200068,0,0,"KAUFMAN, BZ",J,Russian,EFFECT OF CAROTINOIDS ON THE PHOTOREACTION OF DAPHNIA-PULEX-DE-GEER AND ASELLUS-AQUATICUS L,1980.0,Science & Technology - Other Topics,253.0,0002-3264,5,,1276,1277,,,,MEZHDUNARODNAYA KNIGA,9,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,2.0,KM712,"KAUFMAN, BZ",3.0,3.0,Multidisciplinary Sciences,DOKL AKAD NAUK SSSR+,,,"KAUFMAN, BZ (corresponding author), ACAD SCI USSR,INST BIOL,PETROZAVODSK,USSR.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1980JD55800001,2,0,"ASTON, RJ; MILNER, AGP",J,English,COMPARISON OF POPULATIONS OF THE ISOPOD ASELLUS-AQUATICUS ABOVE AND BELOW POWER-STATIONS IN ORGANICALLY POLLUTED REACHES OF THE RIVER TRENT,1980.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,10.0,0046-5070,1,,1,14,,,,BLACKWELL SCIENCE LTD,14,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,14.0,JD558,"ASTON, RJ; MILNER, AGP",27.0,27.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1980.tb01175.x,"ASTON, RJ (corresponding author), CENT ELECT RES LABS,SCI SERV CTR,FRESHWATER BIOL UNIT,RATCLIFFE SOAR NG11 0EE,NOTTINGHAMSHIRE,ENGLAND.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OECOLOGIA,2021-04-13,WOS:A1980KA29200022,1,0,"FRASER, J",J,English,ACCLIMATION TO LEAD IN THE FRESH-WATER ISOPOD ASELLUS-AQUATICUS,1980.0,Environmental Sciences & Ecology,45.0,0029-8549,3,,419,420,,,,SPRINGER,13,"233 SPRING ST, NEW YORK, NY 10013 USA",NEW YORK,2.0,KA292,"FRASER, J",28.0,28.0,Ecology,OECOLOGIA,Oecologia,10.1007/BF00540216,"FRASER, J (corresponding author), PRESTON POLYTECH, DIV BIOL, CORP ST, PRESTON PR1 2TQ, LANCASHIRE, ENGLAND.",,,,,28309574.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,PARASITOLOGY,2021-04-13,WOS:A1980KS66500117,1,0,"BRATTEY, J",J,English,"PRELIMINARY-OBSERVATIONS ON LARVAL ACANTHOCEPHALUS-LUCII (MULLER, 1776) (ACANTHOCEPHALA, ECHINORHYNCHIDAE) IN THE ISOPOD ASELLUS-AQUATICUS (L)",1980.0,Parasitology,81.0,0031-1820,OCT,,R49,R50,,"UNIV LIVERPOOL,DEPT ZOOL,LIVERPOOL L69 3BX,MERSEYSIDE,ENGLAND",,CAMBRIDGE UNIV PRESS,0,"40 WEST 20TH STREET, NEW YORK, NY 10011-4211",NEW YORK,2.0,KS665,"BRATTEY, J",7.0,7.0,Parasitology,PARASITOLOGY,Parasitology,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,ACTA MEDICA POLONA,2021-04-13,WOS:A1979JJ72000007,0,0,"BABULA, A",J,English,ULTRASTRUCTURE OF RESPIRATORY EPITHELIUM IN FRESH-WATER ISOPOD ASELLUS-AQUATICUS L (CRUSTACEA),1979.0,General & Internal Medicine,20.0,0001-608X,4,,355,356,,,,POLISH SCIENTIFIC PUBL,0,"MIODOWA 10, 00-251 WARSAW, POLAND",WARSAW,2.0,JJ720,"BABULA, A",0.0,0.0,"Medicine, General & Internal",ACTA MED POL,,,"BABULA, A (corresponding author), A MICKIEWICZ UNIV,INST BIOL,DEPT CYTOL & HISTOL,PL-61701 POZNAN,POLAND.",,,,,546083.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:A1979HE64200007,3,0,"MACAN, TT; KUMARIDESILVA, P",J,English,OCCURRENCE OF DENDROCOELUM-LACTEUM (MULLER) AND ASELLUS-AQUATICUS (L) AS PREDATOR AND PREY IN THE STONY SUBSTRATUM OF WINDERMERE,1979.0,Marine & Freshwater Biology,86.0,0003-9136,1,,95,111,,"UNIV SRI LANKA,DEPT ZOOL,PERADENIYA,SRI LANKA",,E SCHWEIZERBART'SCHE VERLAGS,10,"NAEGELE U OBERMILLER JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,17.0,HE642,"MACAN, TT; KUMARIDESILVA, P",8.0,8.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CARYOLOGIA,2021-04-13,WOS:A1979HS48800008,0,0,"DICASTRO, M; PRANTERA, G; MARCHETTI, E; ROCCHI, A",J,English,CHARACTERIZATION OF THE CHROMATIN OF ASELLUS-AQUATICUS (CRUST ISOP) BY TREATMENT INVIVO WITH BRDU AND HOECHST-33258,1979.0,Plant Sciences; Genetics & Heredity,32.0,0008-7114,1,,81,88,,"UNIV ROME,IST GENET,I-00100 ROME,ITALY",,UNIV FLORENCE BOTANY INST,20,"VIA LAMARMORA 4, 50121 FLORENCE, ITALY",FLORENCE,8.0,HS488,"DICASTRO, M; PRANTERA, G; MARCHETTI, E; ROCCHI, A",10.0,10.0,Plant Sciences; Genetics & Heredity,CARYOLOGIA,Caryologia,10.1080/00087114.1979.10796778,"DICASTRO, M (corresponding author), CNR,CTR GENET EVOLUZIONIST,ROME,ITALY.",,,"Prantera, Giorgio/0000-0003-0970-9561",,,,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY B-BIOCHEMISTRY & MOLECULAR BIOLOGY,2021-04-13,WOS:A1979GS50300033,0,0,"ROBSON, CM",J,English,"PURIFICATION AND PROPERTIES OF THE DIGESTIVE AMYLASE OF ASELLUS-AQUATICUS (L) (CRUSTACEA, ISOPODA)",1979.0,Biochemistry & Molecular Biology; Zoology,62.0,0305-0491,4,,501,505,,"ODENSE UNIV,INST BIOCHEM,DK-5230 ODENSE M,DENMARK",,PERGAMON-ELSEVIER SCIENCE LTD,25,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,5.0,GS503,"ROBSON, CM",12.0,12.0,Biochemistry & Molecular Biology; Zoology,COMP BIOCHEM PHYS B,Comp. Biochem. Physiol. B-Biochem. Mol. Biol.,10.1016/0305-0491(79)90124-X,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CRUSTACEANA,2021-04-13,WOS:A1979HN44800006,0,0,"DEMASSIEUX, C",J,French,NEUROSECRETORY-SYSTEM OF ISOPOD CRUSTACEAN ASELLUS-AQUATICUS (LINNAEUS),1979.0,Marine & Freshwater Biology,37.0,0011-216X,JUL,,71,&,,,,E J BRILL,23,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,0.0,HN448,"DEMASSIEUX, C",7.0,7.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854079X00069,"DEMASSIEUX, C (corresponding author), UNIV NANCY 1,BIOL ANIM 2 LAB,F-54037 NANCY,FRANCE.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Note,CRUSTACEANA,2021-04-13,WOS:A1979HJ76000013,0,0,"SALEMAA, H",J,English,CHROMOSOMES OF ASELLUS-AQUATICUS (L) - TECHNIQUE FOR ISOPOD KARYOLOGY,1979.0,Marine & Freshwater Biology,36.0,0011-216X,MAY,,316,+,,,,BRILL ACADEMIC PUBLISHERS,9,"PLANTIJNSTRAAT 2, P O BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,0.0,HJ760,"SALEMAA, H",12.0,12.0,Marine & Freshwater Biology,CRUSTACEANA,Crustaceana,10.1163/156854079X00799,"SALEMAA, H (corresponding author), UNIV HELSINKI, DEPT GENET, SF-00100 HELSINKI 10, FINLAND.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1979HC33500007,13,0,"ADCOCK, JA",J,English,ENERGETICS OF A POPULATION OF THE ISOPOD ASELLUS-AQUATICUS - LIFE-HISTORY AND PRODUCTION,1979.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,9.0,0046-5070,4,,343,355,,"UNIV LEICESTER,DEPT ZOOL,LEICESTER LE1 7RH,ENGLAND",,BLACKWELL SCIENCE LTD,11,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,13.0,HC335,"ADCOCK, JA",30.0,30.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1979.tb01519.x,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1979HM73000005,7,0,"WILLOUGHBY, LG; MARCUS, JH",J,English,"FEEDING AND GROWTH OF THE ISOPOD ASELLUS-AQUATICUS ON ACTINOMYCETES, CONSIDERED AS MODEL FILAMENTOUS BACTERIA",1979.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,9.0,0046-5070,5,,441,&,,,,BLACKWELL SCIENCE LTD,23,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,0.0,HM730,"WILLOUGHBY, LG; MARCUS, JH",17.0,17.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1979.tb01528.x,"WILLOUGHBY, LG (corresponding author), FRESHWATER BIOL ASSOC,WINDERMERE LAB,AMBLESIDE LA22 0LP,CUMBRIA,ENGLAND.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1979HM73000010,3,0,"WILLIAMS, WD",J,English,"DISTRIBUTION OF ASELLUS-AQUATICUS AND ASELLUS-MERIDIANUS (CRUSTACEA, ISOPODA) IN BRITAIN",1979.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,9.0,0046-5070,5,,491,501,,,,WILEY-BLACKWELL,20,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,11.0,HM730,"WILLIAMS, WD",12.0,12.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1979.tb01533.x,"WILLIAMS, WD (corresponding author), UNIV ADELAIDE, DEPT ZOOL, ADELAIDE 5001, S AUSTRALIA, AUSTRALIA.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OIKOS,2021-04-13,WOS:A1979HK33200009,4,0,"ROSSI, L; FANO, AE",J,English,ROLE OF FUNGI IN THE TROPHIC NICHE OF THE CONGENERIC DETRITIVOROUS ASELLUS-AQUATICUS AND ASELLUS-COXALIS (ISOPODA),1979.0,Environmental Sciences & Ecology,32.0,0030-1299,3,,380,385,,,,MUNKSGAARD INT PUBL LTD,28,"35 NORRE SOGADE, PO BOX 2148, DK-1016 COPENHAGEN, DENMARK",COPENHAGEN,6.0,HK332,"ROSSI, L; FANO, AE",52.0,51.0,Ecology,OIKOS,Oikos,10.2307/3544749,"ROSSI, L (corresponding author), UNIV ROME,IST GENET,ECOL LAB,I-00185 ROME,ITALY.",,,"Fano, Elisa Anna/0000-0001-8552-9621","Fano, Elisa Anna/M-6731-2015",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ZEITSCHRIFT FUR TIERPSYCHOLOGIE-JOURNAL OF COMPARATIVE ETHOLOGY,2021-04-13,WOS:A1979JK51400004,20,2,"RIDLEY, M; THOMPSON, DJ",J,English,"SIZE AND MATING IN ASELLUS-AQUATICUS (CRUSTACEA, ISOPODA)",1979.0,Behavioral Sciences; Zoology,51.0,0044-3573,4,,380,397,,,,VERLAG PAUL PAREY,62,"SPITALERST. 12, D-2000 HAMBURG 1, GERMANY",HAMBURG 1,18.0,JK514,"RIDLEY, M; THOMPSON, DJ",115.0,115.0,Behavioral Sciences; Zoology,Z TIERPSYCHOL,,,"RIDLEY, M (corresponding author), UNIV OXFORD,DEPT ZOOL,ANIM BEHAV RES GRP,OXFORD OX1 3PS,ENGLAND.",,,,"Thompson, David J/C-3520-2008",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ACTA ZOOLOGICA,2021-04-13,WOS:A1978FQ88100001,2,1,"NILSSON, HL",J,English,"FINE-STRUCTURE OF COMPOUND EYES OF SHALLOW-WATER ASELLOTES, JAERA-ALBIFRONS LEACH AND ASELLUS-AQUATICUS L (CRUSTACEA-ISOPODA)",1978.0,Anatomy & Morphology; Zoology,59.0,0001-7272,2,,69,84,,,,PERGAMON-ELSEVIER SCIENCE LTD,0,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,16.0,FQ881,"NILSSON, HL",13.0,13.0,Anatomy & Morphology; Zoology,ACTA ZOOL-STOCKHOLM,Acta Zool.,10.1111/j.1463-6395.1978.tb00114.x,"NILSSON, HL (corresponding author), UNIV LUND,DEPT ZOOL,S-22362 LUND,SWEDEN.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIVES OF BIOLOGY,2021-04-13,WOS:A1978GD31800005,0,0,"DEMASSIEUX, C; BALESDENT, ML",J,French,CYCLIC VARIATIONS OF THE BETA-PROTOCEREBRAL NEUROSECRETORY CELLS RELATED WITH SEXUAL PHYSIOLOGY IN THE FEMALE OF THE CRUSTACEA ISOPOD ASELLUS-AQUATICUS L,1978.0,Life Sciences & Biomedicine - Other Topics,89.0,0773-6185,1,,89,105,,,,VAILLANT-CARMANNE S A,0,"RUE FOND ST-SERVAIS 4 BP 22, B-4000 LIEGE, BELGIUM",LIEGE,17.0,GD318,"DEMASSIEUX, C; BALESDENT, ML",0.0,0.0,Biology,ARCH BIOL,,,"DEMASSIEUX, C (corresponding author), UNIV NANCY 1,FAC SCI,BIOL ANIM LAB 2,F-54037 NANCY,FRANCE.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,ATTI ASSOCIAZIONE GENETICA ITALIANA,2021-04-13,WOS:A1978FV50500030,1,0,"DICASTRO, M; PRANTERA, G; MARCHETTI, E; ROCCHI, A",J,English,NUCLEOLAR ORGANIZERS IN ASELLUS-AQUATICUS (CRUST-ISOP),1978.0,Genetics & Heredity,23.0,0066-9830,,,105,106,,"CNR,CTR GENET EVOLUZ,ROME,ITALY; UNIV ROME,IST GENET,I-00100 ROME,ITALY",,"ASSN GENETICA ITALIANA PROF GA DANIELI, SEC GEN",0,"UNIV PADOVA, IST BIOL ANIMALE VIA LOREDAN 10, 35100 PADUA, ITALY",PADUA,2.0,FV505,"DICASTRO, M; PRANTERA, G; MARCHETTI, E; ROCCHI, A",0.0,0.0,Genetics & Heredity,ATTI ASSOC GENET IT,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,FRESHWATER BIOLOGY,2021-04-13,WOS:A1978GD70500001,18,0,"MARCUS, JH; SUTCLIFFE, DW; WILLOUGHBY, LG",J,English,"FEEDING AND GROWTH OF ASELLUS-AQUATICUS (ISOPODA) ON FOOD ITEMS FROM THE LITTORAL OF WINDERMERE, INCLUDING GREEN LEAVES OF ELODEA-CANADENSIS",1978.0,Environmental Sciences & Ecology; Marine & Freshwater Biology,8.0,0046-5070,6,,505,+,,"FRESHWATER BIOL ASSOC, WINDERMERE LAB, AMBLESIDE LA22 0LP, CUMBRIA, ENGLAND",,WILEY,49,"111 RIVER ST, HOBOKEN 07030-5774, NJ USA",HOBOKEN,1.0,GD705,"MARCUS, JH; SUTCLIFFE, DW; WILLOUGHBY, LG",69.0,68.0,Ecology; Marine & Freshwater Biology,FRESHWATER BIOL,Freshw. Biol.,10.1111/j.1365-2427.1978.tb01473.x,,,,,,,1365-2427,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1978FE58300012,15,0,"OKLAND, KA",J,English,LIFE-HISTORY AND GROWTH OF ASELLUS-AQUATICUS (L) IN RELATION TO ENVIRONMENT IN A EUTROPHIC LAKE IN NORWAY,1978.0,Marine & Freshwater Biology,59.0,0018-8158,3,,243,259,,,,KLUWER ACADEMIC PUBL,33,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,17.0,FE583,"OKLAND, KA",34.0,32.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00036504,"OKLAND, KA (corresponding author), UNIV OSLO,DEPT MARINE BIOL & LIMNOL,LIMNOL SECT,OSLO,NORWAY.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF THERMAL BIOLOGY,2021-04-13,WOS:A1978FL66100004,9,0,"SALIH, TM; GRAINGER, JNR",J,English,EFFECT OF RATE OF CHANGE OF TEMPERATURE ON RESISTANCE OF ASELLUS-AQUATICUS (L) TO HIGH LETHAL TEMPERATURES,1978.0,Life Sciences & Biomedicine - Other Topics; Zoology,3.0,0306-4565,3,,121,123,,"UNIV DUBLIN,TRINITY COLL,DEPT ZOOL,DUBLIN,IRELAND",,PERGAMON-ELSEVIER SCIENCE LTD,6,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,3.0,FL661,"SALIH, TM; GRAINGER, JNR",3.0,3.0,Biology; Zoology,J THERM BIOL,J. Therm. Biol.,10.1016/0306-4565(78)90004-9,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,MONITORE ZOOLOGICO ITALIANO-ITALIAN JOURNAL OF ZOOLOGY,2021-04-13,WOS:A1978FB64700021,2,0,"VITAGLIANOTADINI, G; FANO, EA; VALENTINO, F; MIGLIORE, L",J,English,ENDOGENOUS CIRCANNUAL RHYTHM OF ASELLUS-AQUATICUS (L) (CRUSTACEA-ISOPODA),1978.0,Zoology,12.0,0026-9786,1,,74,75,,,,UNIV FIRENZE ETHOLOGY ECOLOGY & EVOLUTION,0,"ATTN: PROF. F. DESSI-FULGHERI VIA ROMANA 17, 50125 FLORENCE, ITALY",FLORENCE,2.0,FB647,"VITAGLIANOTADINI, G; FANO, EA; VALENTINO, F; MIGLIORE, L",0.0,0.0,Zoology,MONIT ZOOL ITAL,,,"VITAGLIANOTADINI, G (corresponding author), UNIV ROME,IST GENET ECOL,I-00100 ROME,ITALY.",,,"Migliore, Luciana/0000-0003-3554-3841","Migliore, Luciana/AAB-4245-2020",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,OIKOS,2021-04-13,WOS:A1978FK62400013,2,0,"ROSSI, L; VITAGLIANOTADINI, G",J,English,ROLE OF ADULT FECES IN NUTRITION OF LARVAE OF ASELLUS-AQUATICUS (ISOPODA),1978.0,Environmental Sciences & Ecology,30.0,0030-1299,1,,109,113,,,,MUNKSGAARD INT PUBL LTD,19,"35 NORRE SOGADE, PO BOX 2148, DK-1016 COPENHAGEN, DENMARK",COPENHAGEN,5.0,FK624,"ROSSI, L; VITAGLIANOTADINI, G",22.0,22.0,Ecology,OIKOS,Oikos,10.2307/3543530,"ROSSI, L (corresponding author), UNIV ROME,IST GENET,CTR GENET EVOLUZIONISTICA,I-00185 ROME,ITALY.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Note,TRANSACTIONS OF THE BRITISH MYCOLOGICAL SOCIETY,2021-04-13,WOS:A1978EL81000024,7,0,"MARCUS, JH; WILLOUGHBY, LG",J,English,FUNGI AS FOOD FOR AQUATIC INVERTEBRATE ASELLUS-AQUATICUS,1978.0,Mycology,70.0,0007-1536,FEB,,143,146,,,,CAMBRIDGE UNIV PRESS,6,"40 WEST 20TH STREET, NEW YORK, NY 10011-4211",NEW YORK,4.0,EL810,"MARCUS, JH; WILLOUGHBY, LG",17.0,17.0,Mycology,T BRIT MYCOL SOC,,10.1016/S0007-1536(78)80186-7,"MARCUS, JH (corresponding author), FRESHWATER BIOL ASSOC,AMBLESIDE,CUMBRIA,ENGLAND.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,TSITOLOGIYA,2021-04-13,WOS:A1978FU01200014,3,0,"PASHKOVA, IM",J,Russian,CHANGES IN PATERNAL AND MATERNAL SHARES IN HERITABILITY OF HEAT-RESISTANCE OF ORGANISM AND MUSCLES OF ASELLUS AQUATICUS DURING HEAT ACCLIMATION,1978.0,Cell Biology,20.0,0041-3771,10,,1197,1202,,,,MEZHDUNARODNAYA KNIGA,12,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,6.0,FU012,"PASHKOVA, IM",19.0,19.0,Cell Biology,TSITOLOGIYA+,,,"PASHKOVA, IM (corresponding author), ACAD SCI USSR,INST CYTOL,COMPARAT CYTOL LAB,LENINGRAD,USSR.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,WATER RESEARCH,2021-04-13,WOS:A1978FQ24500020,1,0,"FRASER, J; PARKIN, DT; VERSPOOR, E",J,English,TOLERANCE TO LEAD IN FRESHWATER ISOPOD ASELLUS-AQUATICUS,1978.0,Engineering; Environmental Sciences & Ecology; Water Resources,12.0,0043-1354,8,,637,641,,"UNIV NOTTINGHAM,DEPT GENET,NOTTINGHAM NG7 2RD,ENGLAND",,PERGAMON-ELSEVIER SCIENCE LTD,13,"THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD, ENGLAND OX5 1GB",OXFORD,5.0,FQ245,"FRASER, J; PARKIN, DT; VERSPOOR, E",36.0,36.0,"Engineering, Environmental; Environmental Sciences; Water Resources",WATER RES,Water Res.,10.1016/0043-1354(78)90145-8,,,,,"Verspoor, Eric/AAI-2362-2019",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES SERIE D,2021-04-13,WOS:A1977CW26000015,0,0,"DEMASSIEUX, C; BALESDENT, ML",J,French,CEREBRAL AND NERVOUS CORD GANGLIONS NEUROSECRETORY CELLS OF ISOPODA CRUSTACEA ASELLUS-AQUATICUS L BETA-TYPE CELLS CYCLIC VARIATIONS IN FUNCTION OF REPRODUCTION,1977.0,Science & Technology - Other Topics,284.0,,3,,207,210,,"UNIV NANCY 1,BIOL ANIM LAB 1,F-54037 NANCY,FRANCE; UNIV NANCY 1,BIOL ANIM LAB 2,F-54037 NANCY,FRANCE",,GAUTHIER-VILLARS,17,"120 BLVD SAINT-GERMAIN, 75280 PARIS, FRANCE",PARIS,4.0,CW260,"DEMASSIEUX, C; BALESDENT, ML",6.0,6.0,Multidisciplinary Sciences,CR ACAD SCI D NAT,,,,,,,,66995.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EKOLOGIA POLSKA-POLISH JOURNAL OF ECOLOGY,2021-04-13,WOS:A1977EE41200005,0,0,"PRUS, T",J,English,EXPERIMENTAL AND FIELD STUDIES ON ECOLOGICAL ENERGETICS OF ASELLUS-AQUATICUS L (ISOPODA) .3. POPULATION-DYNAMICS ON BACKGROUND OF MACROBENTHOS OCCURRENCE IN LITTORAL ZONE OF POWSINSKIE LAKE,1977.0,Environmental Sciences & Ecology,25.0,0070-9557,1,,59,74,,"POLISH ACAD SCI,INST ECOL,DEPT ECOL BIOENERGET,PL-05150 LOMIANKI,POLAND",,POLISH ACAD SCIENCES INST ECOLOGY,0,"DZIEKANOW LESNY NEAR WARSAW, 05-150 LOMIANKI, POLAND",LOMIANKI,16.0,EE412,"PRUS, T",5.0,5.0,Ecology,EKOL POL-POL J ECOL,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EKOLOGIA POLSKA-POLISH JOURNAL OF ECOLOGY,2021-04-13,WOS:A1977EY02200003,3,0,"PRUS, T",J,English,EXPERIMENTAL AND FIELD STUDIES ON ECOLOGICAL ENERGETICS OF ASELLUS-AQUATICUS L (ISOPODA) .4. ENERGY BUDGET OF A POPULATION IN LITTORAL ZONE OF POWSINSKIE LAKE,1977.0,Environmental Sciences & Ecology,25.0,0070-9557,4,,593,623,,,,POLISH ACAD SCIENCES INST ECOLOGY,0,"DZIEKANOW LESNY NEAR WARSAW, 05-150 LOMIANKI, POLAND",LOMIANKI,31.0,EY022,"PRUS, T",7.0,6.0,Ecology,EKOL POL-POL J ECOL,,,"PRUS, T (corresponding author), POLISH ACAD SCI,INST ECOL,DEPT ECOL BIOENERGET,PL-05150 LOMIANKI,POLAND.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITAS,2021-04-13,WOS:A1977EG27000003,9,0,"CHRISTENSEN, B",J,English,HABITAT PREFERENCE AMONG AMYLASE GENOTYPES IN ASELLUS-AQUATICUS (ISOPODA CRUSTACEA),1977.0,Genetics & Heredity,87.0,0018-0661,1,,21,26,,,,HEREDITAS-DISTRIBUTION,8,"GJORLOFFSGATAN 121, 261 34 LANDSKRONA, SWEDEN",LANDSKRONA,6.0,EG270,"CHRISTENSEN, B",42.0,42.0,Genetics & Heredity,HEREDITAS,Hereditas,,"CHRISTENSEN, B (corresponding author), UNIV COPENHAGEN,ZOOL LAB,DK-2100 COPENHAGEN 0,DENMARK.",,,,,591355.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITY,2021-04-13,WOS:A1977DZ24000006,0,0,"DICASTRO, M; PRANTERA, G; MARCHETTI, E; ROCCHI, A",J,English,N-BANDING AND NUCLEOLUS ORGANIZERS IN ASELLUS-AQUATICUS-(CRUST-ISOP),1977.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,39.0,0018-067X,OCT,,259,&,,"CNR,CTR GENET EVOLUZ,ROME,ITALY; UNIV ROME,INST GENET,I-00100 ROME,ITALY",,BLACKWELL SCIENCE LTD,22,"OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0EL",OXFORD,0.0,DZ240,"DICASTRO, M; PRANTERA, G; MARCHETTI, E; ROCCHI, A",17.0,17.0,Ecology; Evolutionary Biology; Genetics & Heredity,HEREDITY,Heredity,10.1038/hdy.1977.66,,,,"Prantera, Giorgio/0000-0003-0970-9561",,72056.0,,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1977DC22200007,6,0,"CHAMBERS, MR",J,English,COMPARISON OF POPULATION ECOLOGY OF ASELLUS-AQUATICUS L AND ASELLUS MERIDIANUS RAC IN REED BEDS OF TJEUKEMEER,1977.0,Marine & Freshwater Biology,53.0,0018-8158,2,,147,154,,"UNIV LIVERPOOL,DEPT ZOOL,LIVERPOOL L69 3BX,LANCASHIRE,ENGLAND",,KLUWER ACADEMIC PUBL,20,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,8.0,DC222,"CHAMBERS, MR",27.0,26.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00029293,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Note,TSITOLOGIYA,2021-04-13,WOS:A1977DM98900018,0,0,"PASHKOVA, IM",J,Russian,MUSCLE HEAT-RESISTANCE AND SURVIVAL OF ASELLUS AQUATICUS DURING SELECTION CAUSED BY INJURIOUS TEMPERATURE,1977.0,Cell Biology,19.0,0041-3771,6,,689,691,,"ACAD SCI USSR,INST CYTOL,COMPARAT CYTOL LAB,LENINGRAD,USSR",,MEZHDUNARODNAYA KNIGA,8,"39 DIMITROVA UL., 113095 MOSCOW, RUSSIA",MOSCOW,3.0,DM989,"PASHKOVA, IM",7.0,7.0,Cell Biology,TSITOLOGIYA+,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR HYDROBIOLOGIE,2021-04-13,WOS:A1976BV69800004,0,0,"DESILVA, PK",J,English,"FACTORS AFFECTING FEEDING OF DENDROCOELUM-LACTEUM [MULLER] (TURBELLARIA, TRICLADIDA) ON ASELLUS-AQUATICUS (L) (CRUSTACEA, ISOPODA)",1976.0,Marine & Freshwater Biology,77.0,0003-9136,3,,347,374,,"UNIV SRI LANKA,DEPT ZOOL,PERADENIYA,SRI LANKA",,E SCHWEIZERBART'SCHE VERLAGS,22,"NAEGELE U OBERMILLER JOHANNESSTRASSE 3A, D 70176 STUTTGART, GERMANY",STUTTGART,28.0,BV698,"DESILVA, PK",25.0,25.0,Limnology; Marine & Freshwater Biology,ARCH HYDROBIOL,Arch. Hydrobiol.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BULLETIN DE L ACADEMIE POLONAISE DES SCIENCES-SERIE DES SCIENCES BIOLOGIQUES,2021-04-13,WOS:A1976CG58200010,0,0,"SZCZEPANOWSKI, P",J,English,"CARCHESIUM-MATTHESI N-SP - NEW SPECIES OF CILIATA (CILIATA, PERITRICHA) ON ASELLUS-AQUATICUS L",1976.0,Life Sciences & Biomedicine - Other Topics,24.0,0001-4087,8,,479,482,,"ADAM MICKIEWICZ UNIV,DEPT ANIM MORPHOL,PL-61701 POZNAN,POLAND",,POLISH BIOCHEMICAL SOC,7,"DISTRIB CENTER SCI PUBL PALAC KULTURY I NAUKI, 20 POB WARSAW, POLAND",POB WARSAW,4.0,CG582,"SZCZEPANOWSKI, P",2.0,1.0,Biology,B ACAD POL SCI BIOL,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EKOLOGIA POLSKA-POLISH JOURNAL OF ECOLOGY,2021-04-13,WOS:A1976DH73100007,8,0,"PRUS, T",J,English,EXPERIMENTAL AND FIELD STUDIES ON ECOLOGICAL ENERGETICS OF ASELLUS-AQUATICUS L (ISOPODA) .2. RESPIRATION AT VARIOUS TEMPERATURES AS AN ELEMENT OF ENERGY BUDGET,1976.0,Environmental Sciences & Ecology,24.0,0070-9557,4,,607,621,,"POLISH ACAD SCI,INST ECOL,DEPT ECOL BIOENERGET,PL-05150 LOMIANKI,POLAND",,POLISH ACAD SCIENCES INST ECOLOGY,0,"DZIEKANOW LESNY NEAR WARSAW, 05-150 LOMIANKI, POLAND",LOMIANKI,15.0,DH731,"PRUS, T",7.0,7.0,Ecology,EKOL POL-POL J ECOL,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,BEHAVIOUR,2021-04-13,WOS:A1975AX28700001,3,0,"MANNING, JT",J,English,MALE DISCRIMINATION AND INVESTMENT IN ASELLUS-AQUATICUS (L) AND ASELLUS-MERIDIANUS RACOVITSZA (CRUSTACEA-ISOPODA),1975.0,Behavioral Sciences; Zoology,55.0,0005-7959,,,1,14,,"UNIV LIVERPOOL,DEPT ZOOL,LIVERPOOL,ENGLAND",,E J BRILL,13,"PO BOX 9000, 2300 PA LEIDEN, NETHERLANDS",LEIDEN,14.0,AX287,"MANNING, JT",96.0,96.0,Behavioral Sciences; Zoology,BEHAVIOUR,Behaviour,10.1163/156853975X00380,,,,,,1191211.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF ANIMAL ECOLOGY,2021-04-13,WOS:A1975AT25300003,17,0,"MOORE, JW",J,English,ROLE OF ALGAE IN DIET OF ASELLUS-AQUATICUS L AND GAMMARUS-PULEX L,1975.0,Environmental Sciences & Ecology; Zoology,44.0,0021-8790,3,,719,730,,"UNIV BATH,SCH BIOL SCI,BATH,ENGLAND",,BLACKWELL SCIENCE LTD,37,"P O BOX 88, OSNEY MEAD, OXFORD, OXON, ENGLAND OX2 0NE",OXFORD,12.0,AT253,"MOORE, JW",107.0,106.0,Ecology; Zoology,J ANIM ECOL,J. Anim. Ecol.,10.2307/3714,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ATTI DELLA ACCADEMIA NAZIONALE DEI LINCEI RENDICONTI-CLASSE DI SCIENZE FISICHE-MATEMATICHE & NATURALI,2021-04-13,WOS:A1974U977800018,1,0,"DICASTRO, M; MARCHETT.E; ROCCHIBR.A",J,Italian,KARYOTYPE OF ASELLUS-AQUATICUS - STUDY USING TRYPSIN AND FLUORESCENCE BANDING TECHNIQUES,1974.0,Mathematics; Science & Technology - Other Topics; Physics; Zoology,55.0,0392-7881,1-2,,116,&,,"UNIV ROME,FAC SCI,IST GENET,00185 ROME,ITALY",,ACCAD NAZIONALE LINCEI,8,"UFFICIO PUBBLICAZIONI VIA DELLA LUNGARA 10, ROME, ITALY",ROME,0.0,U9778,"DICASTRO, M; MARCHETT.E; ROCCHIBR.A",0.0,0.0,"Mathematics; Multidisciplinary Sciences; Physics, Multidisciplinary; Zoology",ATTI ACCAD NAZ LIN,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CARYOLOGIA,2021-04-13,WOS:A1974U733500009,0,0,"BRASIELLO, AR; DICASTRO, M",J,English,ACTINOMYCIN-D-BINDING IN SPERMATOGENESIS CELLS OF ASELLUS-AQUATICUS,1974.0,Plant Sciences; Genetics & Heredity,27.0,0008-7114,3,,339,347,,"UNIV ROME, IST GENET, ROME, ITALY; UNIV ROME, CNR, CENTRO GENET EVOL, ROME, ITALY",,UNIV FLORENCE BOTANY INST,22,"VIA LAMARMORA 4, 50121 FLORENCE, ITALY",FLORENCE,9.0,U7335,"BRASIELLO, AR; DICASTRO, M",0.0,0.0,Plant Sciences; Genetics & Heredity,CARYOLOGIA,Caryologia,10.1080/00087114.1974.10796587,,,,,,,2165-5391,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITAS,2021-04-13,WOS:A1974U747900009,1,0,"CHRISTENSEN, B; LOMHOLT, B; JELNES, JE",J,English,"SELECTION AND MECHANICAL MIXING OPERATING ON A 2-ALLELE AMYLASE SYSTEM IN ASELLUS-AQUATICUS (ISOPODA, CRUSTACEA)",1974.0,Genetics & Heredity,77.0,1601-5223,2,,255,262,,"UNIV COPENHAGEN, ZOOL LAB, UNIV PK 15, DK-2100 COPENHAGEN 0, DENMARK",,BIOMED CENTRAL LTD,9,"236 GRAYS INN RD, FLOOR 6, LONDON WC1X 8HL, ENGLAND",LONDON,8.0,U7479,"CHRISTENSEN, B; LOMHOLT, B; JELNES, JE",15.0,15.0,Genetics & Heredity,HEREDITAS,Hereditas,,,,,,,4448687.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES SERIE D,2021-04-13,WOS:A1973O957500028,0,0,"RAPENNE, F",J,French,"PRELIMINARY STUDY ON PRECOCIOUSNESS OF SATELLITE CHROMOSOMES IN MEIOSIS IN MALE ASELLUS-AQUATICUS LINNEUS (CRUSTACEA, ISOPODA)",1973.0,Science & Technology - Other Topics,276.0,,7,,1197,&,,"FAC SCI NANCY,LAB BIOL ANIM 2,NANCY 54000,FRANCE",,GAUTHIER-VILLARS/EDITIONS ELSEVIER,4,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,0.0,O9575,"RAPENNE, F",0.0,0.0,Multidisciplinary Sciences,CR ACAD SCI D NAT,,,,,,,,4196614.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES SERIE D,2021-04-13,WOS:A1973Q118900023,2,0,"RAPENNE, F",J,French,STUDY ON BEHAVIOR OF NUCLEOLIGENIC CHROMOSOMES IN ASELLUS (PROASELLUS) MERIDIANUS RACOVITZA AND ASELLUS-AQUATICUS LINNEUS,1973.0,Science & Technology - Other Topics,276.0,,25,,3331,&,,"UNIV NANCY 1,LAB BIOL ANIM 1,CO 140,54037 NANCY,FRANCE",,GAUTHIER-VILLARS/EDITIONS ELSEVIER,8,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,0.0,Q1189,"RAPENNE, F",2.0,2.0,Multidisciplinary Sciences,CR ACAD SCI D NAT,,,,,,,,4199062.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Meeting Abstract,GENERAL AND COMPARATIVE ENDOCRINOLOGY,2021-04-13,WOS:A1973Q547200031,1,0,"BALESDENT, ML",J,French,SEXUALITY AND REPRODUCTION IN CRUSTACEAN ISOPOD ASELLUS-AQUATICUS L - STUDY OF FEMALES PARASITIZED BY ACANTHOCEPHALUS,1973.0,Endocrinology & Metabolism; Zoology,21.0,0016-6480,1,,216,216,,"UNIV NANCY I, LAB BIOL ANIM 1, NANCY 54, FRANCE",,ACADEMIC PRESS INC ELSEVIER SCIENCE,0,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,1.0,Q5472,"BALESDENT, ML",0.0,0.0,Endocrinology & Metabolism; Zoology,GEN COMP ENDOCR,Gen. Comp. Endocrinol.,,,,,,,,1095-6840,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HYDROBIOLOGIA,2021-04-13,WOS:A1973Q540600002,4,0,"WOLFF, WJ",J,English,DISTRIBUTION OF ASELLUS-AQUATICUS (L) AND PROASELLUS-MERIDIANUS (RAC) IN SOUTHWESTERN PART OF NETHERLANDS,1973.0,Marine & Freshwater Biology,42.0,0018-8158,4,,381,392,,"DELTA INST HYDROBIOL ONDERZOEK,YERSEKE,NETHERLANDS",,KLUWER ACADEMIC PUBL,22,"SPUIBOULEVARD 50, PO BOX 17, 3300 AA DORDRECHT, NETHERLANDS",DORDRECHT,12.0,Q5406,"WOLFF, WJ",13.0,13.0,Marine & Freshwater Biology,HYDROBIOLOGIA,Hydrobiologia,10.1007/BF00047014,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES SERIE D,2021-04-13,WOS:A1971K988400021,0,0,BALESDEN.ML,J,French,ACTION OF SYNTHETIC ECDYSONE ON MOLTING AND SEXUALITY OF FEMALE ISOPOD CRUSTACEA ASELLUS-AQUATICUS L,1971.0,Science & Technology - Other Topics,273.0,,21,,1972,&,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,4,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,0.0,K9884,BALESDEN.ML,9.0,9.0,Multidisciplinary Sciences,CR ACAD SCI D NAT,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EXPERIMENTAL CELL RESEARCH,2021-04-13,WOS:A1971K305800003,0,0,ROCCHIBR.A,J,English,PROTEIN SYNTHESIS DURING SPERMATOGENESIS OF ASELLUS-AQUATICUS,1971.0,Oncology; Cell Biology,67.0,0014-4827,2,,279,+,,,,ELSEVIER INC,30,"525 B STREET, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,1.0,K3058,ROCCHIBR.A,1.0,1.0,Oncology; Cell Biology,EXP CELL RES,Exp. Cell Res.,,,,,,,4106458.0,1090-2422,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ATTI DELLA ACCADEMIA NAZIONALE DEI LINCEI RENDICONTI-CLASSE DI SCIENZE FISICHE-MATEMATICHE & NATURALI,2021-04-13,WOS:A1970H035400013,0,0,"ROCCHIBRASIELLO, AR",J,Italian,VARIATIONS IN NUCLEAR HISTONES DURING SPERMATOGENESIS OF ASELLUS-AQUATICUS,1970.0,Mathematics; Science & Technology - Other Topics; Physics; Zoology,48.0,0392-7881,3,,365,+,,,,ACCAD NAZIONALE LINCEI,15,"UFFICIO PUBBLICAZIONI VIA DELLA LUNGARA 10, ROME, ITALY",ROME,1.0,H0354,"ROCCHIBRASIELLO, AR",1.0,1.0,"Mathematics; Multidisciplinary Sciences; Physics, Multidisciplinary; Zoology",ATTI ACCAD NAZ LIN,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITAS-GENETISKT ARKIV,2021-04-13,WOS:A1970G516400002,0,0,"LOMHOLT, B; CHRISTENSEN, B",J,English,"AMYLASE POLYMORPHISM IN WATERBUG, ASELLUS-AQUATICUS, REVEALED BY CELLULOSE ACETATE ELECTROPHORESIS",1970.0,Genetics & Heredity,64.0,,2,,177,+,,,,HEREDITAS-DISTRIBUTION,5,"GJORLOFFSGATAN 121, 261 34 LANDSKRONA, SWEDEN",LANDSKRONA,1.0,G5164,"LOMHOLT, B; CHRISTENSEN, B",11.0,11.0,Genetics & Heredity,HEREDITAS-GENETISK A,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ATTI DELLA ACCADEMIA NAZIONALE DEI LINCEI RENDICONTI-CLASSE DI SCIENZE FISICHE-MATEMATICHE & NATURALI,2021-04-13,WOS:A1969D698500017,0,0,VITAGLIA.TG; VALENTIN.F,J,Italian,EFFECT OF ACTINOMYCIN-D ON INTERRUPTION OF REPRODUCTIVE STASIS IN ASELLUS AQUATICUS,1969.0,Mathematics; Science & Technology - Other Topics; Physics; Zoology,46.0,0392-7881,2,,217,&,,,,ACCAD NAZIONALE LINCEI,5,"UFFICIO PUBBLICAZIONI VIA DELLA LUNGARA 10, ROME, ITALY",ROME,0.0,D6985,VITAGLIA.TG; VALENTIN.F,0.0,0.0,"Mathematics; Multidisciplinary Sciences; Physics, Multidisciplinary; Zoology",ATTI ACCAD NAZ LIN,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CARYOLOGIA,2021-04-13,WOS:A1969F323500003,0,0,ROCCHIBR.A; VITAGLIA.G,J,English,AUTORADIOGRAPHIC STUDY OF SPERMATOGENESIS IN ASELLUS-AQUATICUS DURING REPRODUCTIVE STASIS,1969.0,Plant Sciences; Genetics & Heredity,22.0,0008-7114,4,,323,+,,,,UNIV FLORENCE BOTANY INST,12,"VIA LAMARMORA 4, 50121 FLORENCE, ITALY",FLORENCE,1.0,F3235,ROCCHIBR.A; VITAGLIA.G,7.0,7.0,Plant Sciences; Genetics & Heredity,CARYOLOGIA,Caryologia,,,,,,,,2165-5391,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EXPERIMENTAL CELL RESEARCH,2021-04-13,WOS:A1968C499700026,0,0,"BRASIELLO, AR",J,English,AUTORADIOGRAPHIC STUDY OF RIBONUCLEIC ACID SYNTHESIS DURING SPERMATOGENESIS OF ASELLUS AQUATICUS (CRUST ISOPODA),1968.0,Oncology; Cell Biology,53.0,0014-4827,1,,252,+,,,,ELSEVIER INC,25,"525 B STREET, STE 1900, SAN DIEGO, CA 92101-4495 USA",SAN DIEGO,1.0,C4997,"BRASIELLO, AR",22.0,22.0,Oncology; Cell Biology,EXP CELL RES,Exp. Cell Res.,10.1016/0014-4827(68)90371-6,,,,,,5724932.0,1090-2422,,,,,,,,,,,,,,,,,,,,,,,,,,
Letter,NATURE,2021-04-13,WOS:A19648820B00420,0,0,LABORDUS.WJ; VANDENBR.CJ,J,English,LABELLING OF EGGS BY INJECTION OF TRITIATED THYMIDINE INTO ASELLUS AQUATICUS FEMALES,1964.0,Science & Technology - Other Topics,202.0,0028-0836,493,,1020,&,,,,MACMILLAN MAGAZINES LTD,7,"PORTERS SOUTH, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,0.0,8820B,LABORDUS.WJ; VANDENBR.CJ,0.0,0.0,Multidisciplinary Sciences,NATURE,Nature,10.1038/2021020a0,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES,2021-04-13,WOS:A19629174A00032,0,0,"HENRY, JP; MAGNIEZ, G",J,English,BIOLOGIE - VARIABILITE DE LA REPARTITION PIGMENTAIRE CEPHALIQUE CHEZ ASELLUS AQUATICUS L.,1962.0,Science & Technology - Other Topics,254.0,,2,,363,&,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,5,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,0.0,9174A,"HENRY, JP; MAGNIEZ, G",1.0,1.0,Multidisciplinary Sciences,CR HEBD ACAD SCI,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,EXPERIMENTAL CELL RESEARCH,2021-04-13,WOS:A19611429B00019,0,0,"VDBROEK, CJ; TATES, AD",J,English,INCORPORATION OF 14C-ADENINE INTO OOCYTES OF ASELLUS AQUATICUS AS STUDIED BY AUTORADIOGRAPHY,1961.0,Oncology; Cell Biology,24.0,0014-4827,2,,201,&,,,,ACADEMIC PRESS INC,32,"525 B ST, STE 1900, SAN DIEGO, CA 92101-4495",SAN DIEGO,0.0,1429B,"VDBROEK, CJ; TATES, AD",0.0,0.0,Oncology; Cell Biology,EXP CELL RES,Exp. Cell Res.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL BIOLOGY,2021-04-13,WOS:A1960WW14100016,4,0,"LOCKWOOD, APM",J,English,SOME EFFECTS OF TEMPERATURE AND CONCENTRATION OF THE MEDIUM ON THE IONIC REGULATION OF THE ISOPOD ASELLUS-AQUATICUS (L),1960.0,Life Sciences & Biomedicine - Other Topics,37.0,0022-0949,3,,614,630,,,,COMPANY OF BIOLOGISTS LTD,20,"BIDDER BUILDING CAMBRIDGE COMMERCIAL PARK COWLEY RD, CAMBRIDGE CB4 4DL, CAMBS, ENGLAND",CAMBRIDGE,17.0,WW141,"LOCKWOOD, APM",29.0,29.0,Biology,J EXP BIOL,J. Exp. Biol.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL BIOLOGY,2021-04-13,WOS:A1959WX08200010,1,0,"LOCKWOOD, APM",J,English,THE OSMOTIC AND IONIC REGULATION OF ASELLUS-AQUATICUS (L),1959.0,Life Sciences & Biomedicine - Other Topics,36.0,0022-0949,3,,546,555,,,,COMPANY OF BIOLOGISTS LTD,14,"BIDDER BUILDING CAMBRIDGE COMMERCIAL PARK COWLEY RD, CAMBRIDGE CB4 4DL, CAMBS, ENGLAND",CAMBRIDGE,10.0,WX082,"LOCKWOOD, APM",27.0,27.0,Biology,J EXP BIOL,J. Exp. Biol.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL BIOLOGY,2021-04-13,WOS:A1959WX08200011,0,0,"LOCKWOOD, APM",J,English,THE REGULATION OF THE INTERNAL SODIUM CONCENTRATION OF ASELLUS-AQUATICUS IN THE ABSENCE OF SODIUM CHLORIDE IN THE MEDIUM,1959.0,Life Sciences & Biomedicine - Other Topics,36.0,0022-0949,3,,556,561,,,,COMPANY OF BIOLOGISTS LTD,6,"BIDDER BUILDING CAMBRIDGE COMMERCIAL PARK COWLEY RD, CAMBRIDGE CB4 4DL, CAMBS, ENGLAND",CAMBRIDGE,6.0,WX082,"LOCKWOOD, APM",8.0,8.0,Biology,J EXP BIOL,J. Exp. Biol.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL BIOLOGY,2021-04-13,WOS:A1959WX08200012,0,0,"LOCKWOOD, APM",J,English,THE EXTRA-HAEMOLYMPH SODIUM OF ASELLUS-AQUATICUS (L),1959.0,Life Sciences & Biomedicine - Other Topics,36.0,0022-0949,3,,562,565,,,,COMPANY OF BIOLOGISTS LTD,6,"BIDDER BUILDING CAMBRIDGE COMMERCIAL PARK COWLEY RD, CAMBRIDGE CB4 4DL, CAMBS, ENGLAND",CAMBRIDGE,4.0,WX082,"LOCKWOOD, APM",8.0,8.0,Biology,J EXP BIOL,J. Exp. Biol.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES,2021-04-13,WOS:A1958WT26300059,0,0,"BALESDENTMARQUET, ML",J,English,PRESENCE DUNE GLANDE ANDROGENE CHEZ LE CRUSTACE ISOPODE ASELLUS AQUATICUS L,1958.0,Science & Technology - Other Topics,247.0,,4,,534,536,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,6,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,3.0,WT263,"BALESDENTMARQUET, ML",19.0,19.0,Multidisciplinary Sciences,CR HEBD ACAD SCI,,,,,,,,13573718.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES,2021-04-13,WOS:A1958WU20200047,0,0,"BALESDENTMARQUET, ML; VEILLET, A",J,English,"CASTRATION CHIRURGICALE, IRRADIATIONS LOCALISEES AUX RAYONS-X ET DETERMINISME DES CARACTERES SEXUELS EXTERNES CHEZ LE CRUSTACE ISOPODE ASELLUS-AQUATICUS L FEMELLE",1958.0,Science & Technology - Other Topics,246.0,,11,,1753,1756,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,5,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,4.0,WU202,"BALESDENTMARQUET, ML; VEILLET, A",3.0,3.0,Multidisciplinary Sciences,CR HEBD ACAD SCI,,,,,,,,13537424.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES,2021-04-13,WOS:A1955WQ62100013,0,0,"BALESDENTMARQUET, ML",J,English,IRRADIATIONS LOCALISEES AUX RAYONS X ET DETERMINISME DES CARACTERES SEXUELS TEMPORAIRES CHEZ LE CRUSTACE ISOPODE ASELLUS AQUATICUS L FEMELLE,1955.0,Science & Technology - Other Topics,241.0,,7,,609,610,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,5,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,2.0,WQ621,"BALESDENTMARQUET, ML",4.0,4.0,Multidisciplinary Sciences,CR HEBD ACAD SCI,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES,2021-04-13,WOS:A1955WN90000052,0,0,"BALESDENTMARQUET, ML",J,English,CASTRATION TEMPORAIRE AUX RAYONS-X ET DETERMINISME DES CARACTERES SEXUELS TEMPORAIRES CHEZ LE CRUSTACE ISOPODE ASELLUS-AQUATICUS L,1955.0,Science & Technology - Other Topics,240.0,,11,,1275,1277,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,3,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,3.0,WN900,"BALESDENTMARQUET, ML",3.0,3.0,Multidisciplinary Sciences,CR HEBD ACAD SCI,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES,2021-04-13,WOS:A1955WN90100041,0,0,"BALESDENTMARQUET, ML",J,English,"INFLUENCE DE LA TEMPERATURE SUR LA MUE, LACTIVITE OVARIENNE ET LES CARACTERES SEXUELS TEMPORAIRES DU CRUSTACE ISOPODE ASELLUS-AQUATICUS L",1955.0,Science & Technology - Other Topics,240.0,,12,,1372,1374,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,2,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,3.0,WN901,"BALESDENTMARQUET, ML",6.0,6.0,Multidisciplinary Sciences,CR HEBD ACAD SCI,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES,2021-04-13,WOS:A1954UF76400064,0,0,"BALESDENTMARQUET, ML",J,English,REMARQUES SUR LE DETERMINISME DE LA POCHE INCUBATRICE CHEZ LE CRUSTACE ISOPODE ASELLUS-AQUATICUS,1954.0,Science & Technology - Other Topics,239.0,,25,,1872,1874,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,4,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,3.0,UF764,"BALESDENTMARQUET, ML",3.0,3.0,Multidisciplinary Sciences,CR HEBD ACAD SCI,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Letter,NATURE,2021-04-13,WOS:A1954UA37100038,0,0,"NEEDHAM, AE",J,English,PHYSIOLOGY OF THE HEART OF ASELLUS-AQUATICUS L,1954.0,Science & Technology - Other Topics,173.0,0028-0836,4397,,272,272,,,,MACMILLAN MAGAZINES LTD,5,"PORTERS SOUTH, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,1.0,UA371,"NEEDHAM, AE",9.0,9.0,Multidisciplinary Sciences,NATURE,Nature,10.1038/173272a0,,,,,,13144744.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES,2021-04-13,WOS:A1953UF64800050,0,0,"BALESDENTMARQUET, ML",J,English,"REMARQUES SUR LE CYCLE OVARIEN, LE CYCLE DES MUES ET LES CARACTERES SEXUELS SECONDAIRES CHEZ LE CRUSTACE ISOPODE ASELLUS-AQUATICUS LINNE",1953.0,Science & Technology - Other Topics,236.0,,10,,1086,1088,,,,GAUTHIER-VILLARS/EDITIONS ELSEVIER,2,"23 RUE LINOIS, 75015 PARIS, FRANCE",PARIS,3.0,UF648,"BALESDENTMARQUET, ML",2.0,2.0,Multidisciplinary Sciences,CR HEBD ACAD SCI,,,,,,,,13059945.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Letter,NATURE,2021-04-13,WOS:A1953UA55400039,0,0,"MUNRO, WR",J,English,INTERSEXUALITY IN ASELLUS-AQUATICUS L PARASITIZED BY A LARVAL ACANTHOCEPHALAN,1953.0,Science & Technology - Other Topics,172.0,0028-0836,4372,,313,313,,,,MACMILLAN MAGAZINES LTD,6,"PORTERS SOUTH, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,1.0,UA554,"MUNRO, WR",16.0,16.0,Multidisciplinary Sciences,NATURE,Nature,10.1038/172313a0,,,,,,13087211.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Note,NATURWISSENSCHAFTEN,2021-04-13,WOS:A1953UJ25100017,0,0,"SEITZ, I",J,English,UBER DAS VORKOMMEN VON MONOGENIE BEI DER WASSERASSEL ASELLUS-AQUATICUS L (CRUST ISOP),1953.0,Science & Technology - Other Topics,40.0,0028-1042,14,,394,394,,,,SPRINGER VERLAG,7,"175 FIFTH AVE, NEW YORK, NY 10010",NEW YORK,1.0,UJ251,"SEITZ, I",3.0,3.0,Multidisciplinary Sciences,NATURWISSENSCHAFTEN,Naturwissenschaften,10.1007/BF00589310,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,HEREDITY,2021-04-13,WOS:A1950YB42300005,0,0,"MONTALENTI, G; VITAGLIANO, G; DENICOLA, M",J,English,THE SUPPLY OF RIBONUCLEIC ACID TO THE MALE GERM CELLS DURING MEIOSIS IN ASELLUS-AQUATICUS,1950.0,Environmental Sciences & Ecology; Evolutionary Biology; Genetics & Heredity,4.0,0018-067X,1,,75,&,,,,BLACKWELL SCIENCE LTD,35,"P O BOX 88, OSNEY MEAD, OXFORD OX2 0NE, OXON, ENGLAND",OXFORD,0.0,YB423,"MONTALENTI, G; VITAGLIANO, G; DENICOLA, M",23.0,23.0,Ecology; Evolutionary Biology; Genetics & Heredity,HEREDITY,Heredity,10.1038/hdy.1950.5,,,,,,15415006.0,,,,Bronze,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNALS OF GERONTOLOGY,2021-04-13,WOS:000203189700002,1,0,"Needham, AE",J,English,"Growth and Regeneration Rates in Relation to Age in the Crustacea With Special Reference to the Isopod, Asellus aquaticus (Linn.)",1950.0,Geriatrics & Gerontology,5.0,0022-1422,1,JAN,5,16,,"Univ Oxford, Dept Zool & Comparat Anat, Oxford, England",,GERONTOLOGICAL SOC AMER,83,"1030 15TH ST NW, STE 250, WASHINGTON, DC 20005202-842 USA",WASHINGTON,12.0,V47EV,"Needham, A. E.",0.0,0.0,Gerontology,J GERONTOL,J. Gerontol.,,,DAPHNIA-MAGNA; LONGEVITY; FORM,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNALS OF GERONTOLOGY,2021-04-13,WOS:A1950YD31100002,0,0,"NEEDHAM, AE",J,English,"GROWTH AND REGENERATION RATES IN RELATION TO AGE IN THE CRUSTACEA - WITH SPECIAL REFERENCE TO THE ISOPOD, ASELLUS-AQUATICUS (LINN)",1950.0,Geriatrics & Gerontology,5.0,0022-1422,1,,5,16,,,,GERONTOLOGICAL SOC AMER,80,"1030 15TH ST NW, STE 250, WASHINGTON, DC 20005202-842 USA",WASHINGTON,12.0,YD311,"NEEDHAM, AE",0.0,0.0,Gerontology,J GERONTOL,J. Gerontol.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,QUARTERLY JOURNAL OF MICROSCOPICAL SCIENCE,2021-04-13,WOS:A1950UZ80500004,0,0,"NEEDHAM, AE",J,English,DETERMINATION OF THE FORM OF REGENERATING LIMBS IN ASELLUS-AQUATICUS,1950.0,Microscopy,91.0,0370-2952,4,,401,418,,,,COMPANY OF BIOLOGISTS LTD,29,"BIDDER BUILDING CAMBRIDGE COMMERCIAL PARK COWLEY RD, CAMBRIDGE CB4 4DL, CAMBS, ENGLAND",CAMBRIDGE,18.0,UZ805,"NEEDHAM, AE",8.0,8.0,Microscopy,Q J MICROSC SCI,Q. J. Microsc. Sci.,,,,,,,24540164.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,JOURNAL OF EXPERIMENTAL ZOOLOGY,2021-04-13,WOS:A1949YE12800004,1,0,"NEEDHAM, AE",J,English,"GROWTH AND REGENERATION IN ASELLUS AQUATICUS (L) IN RELATION TO AGE, SEX AND SEASON",1949.0,Zoology,112.0,0022-104X,1,,49,78,,,,WILEY-LISS,23,"DIV JOHN WILEY & SONS INC, 111 RIVER ST, HOBOKEN, NJ 07030 USA",HOBOKEN,30.0,YE128,"NEEDHAM, AE",8.0,8.0,Zoology,J EXP ZOOL,J. Exp. Zool.,10.1002/jez.1401120106,,,,,,15396603.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Letter,NATURE,2021-04-13,WOS:A1948UA15500016,0,0,"VITAGLIANO, G; DENICOLA, M",J,English,RIBONUCLEIC ACID SUPPLY AND PHOSPHATASE DISTRIBUTION DURING THE SPERMATOGENESIS OF ASELLUS-AQUATICUS,1948.0,Science & Technology - Other Topics,162.0,0028-0836,4129,,965,966,,,,MACMILLAN MAGAZINES LTD,7,"PORTERS SOUTH, 4 CRINAN ST, LONDON N1 9XW, ENGLAND",LONDON,2.0,UA155,"VITAGLIANO, G; DENICOLA, M",3.0,3.0,Multidisciplinary Sciences,NATURE,Nature,10.1038/162965b0,,,,,,18106131.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PROCEEDINGS OF THE ZOOLOGICAL SOCIETY OF LONDON SERIES A-GENERAL AND EXPERIMENTAL,2021-04-13,WOS:000200397200005,1,0,"Needham, AE",J,English,On relative growth in asellus aquaticus - II,1943.0,Zoology,113.0,,,JUN,44,75,,"Univ Manchester, Dept Physiol, Manchester, UK",,CAMBRIDGE UNIV PRESS,29,"32 AVENUE OF THE AMERICAS, NEW YORK, NY 10013-2473 USA",NEW YORK,32.0,V05WU,"Needham, AE",20.0,20.0,Zoology,P ZOOL SOC LOND A-GE,,,,,,,,,,,,,,,,,1-2,,,,,,SERIES A,,,,,,,,,,,,
Article,QUARTERLY JOURNAL OF MICROSCOPICAL SCIENCE,2021-04-13,WOS:000201473900005,0,0,"Needham, AE",J,English,The structure and development of the segmental excretory organs of asellus aquaticus (Linne).,1942.0,Microscopy,83.0,0370-2952,330,FEB,205,243,,,,COMPANY OF BIOLOGISTS LTD,74,"BIDDER BUILDING CAMBRIDGE COMMERCIAL PARK COWLEY RD, CAMBRIDGE CB4 4DL, CAMBS, ENGLAND",CAMBRIDGE,39.0,V21UX,"Needham, AE",12.0,12.0,Microscopy,Q J MICROSC SCI,Q. J. Microsc. Sci.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,PROCEEDINGS OF THE ZOOLOGICAL SOCIETY OF LONDON SERIES A-GENERAL AND EXPERIMENTAL,2021-04-13,WOS:000200392200007,0,0,"Needham, AE",J,English,On relative growth in Asellus aquaticus,1937.0,Zoology,107.0,,,SEP,289,313,,"Queens Univ Belfast, Dept Zool, Belfast, UK",,CAMBRIDGE UNIV PRESS,17,"40 WEST 20TH ST, NEW YORK, NY 10011-4211 USA",NEW YORK,25.0,V05UW,"Needham, AE",19.0,19.0,Zoology,P ZOOL SOC LOND A-GE,,10.1111/j.1096-3642.1937.tb00813.x,,,,,,,,,,,,,,,3,,,,,,SERIES A,,,,,,,,,,,,
Article,ARCHIV FUR ENTWICKLUNGSMECHANIK DER ORGANISMEN,2021-04-13,WOS:000201438900008,1,0,"Hanko, B",J,German,"Concerning the influence of a solution on the skin, regeneration and growth of asellus aquaticus.",1912.0,Life Sciences & Biomedicine - Other Topics,34.0,0374-5155,3,MAY,477,488,,,,SPRINGER,4,"233 SPRING STREET, NEW YORK, NY 10013 USA",NEW YORK,12.0,V21HL,"Hanko, B",3.0,3.0,Biology,ARCH ENTWICKLUNG ORG,Arch. Entwicklungsmech. Org.,10.1007/BF02287907,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,ARCHIV FUR ENTWICKLUNGSMECHANIK DER ORGANISMEN,2021-04-13,WOS:000201435800014,1,0,"Zuelzer, M",J,German,Concerning the influence of regeneration on the rate of development of Asellus aquaticus L.,1907.0,Life Sciences & Biomedicine - Other Topics,25.0,0374-5155,1/2,DEC,361,397,,,,SPRINGER,8,"233 SPRING STREET, NEW YORK, NY 10013 USA",NEW YORK,37.0,V21GG,"Zuelzer, M",3.0,3.0,Biology,ARCH ENTWICKLUNG ORG,Arch. Entwicklungsmech. Org.,10.1007/BF02292172,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,International Journal of Environmental Research and Public Health,2021-04-13,FSTA:2013-07-Ht3987,0,0,"Christensen, S. C. B.; Arvin, E.; Nissen, E.; Albrechtsen, H. J.",J,English,Asellus aquaticus as a potential carrier of Escherichia coli and other coliform bacteria into drinking water distribution systems.,2013.0,Food Science & Technology (provided by Clarivate Analytics),10,1660-4601,3,,845,855,,"DTU Environment, Technical University of Denmark, 2800 Kgs. Lyngby, Denmark. Tel. +45-452-51691. Fax +45-459-32850. E-mail scch@env.dtu.dk","Individuals of the water louse, Asellus aquaticus, enter drinking water distribution systems in temperate parts of the world, where they establish breeding populations. Populations of A. aquaticus in surface water from 2 ponds were analysed for associated faecal indicator bacteria and the risk of A. aquaticus transporting bacteria into distribution systems was assessed. Concn. of ≤2 Escherichia coliand 5 total coliforms ml-1 were measured in the water and 200E. coliand >240 total coliforms ml-1 in the sediments of the investigated ponds. Concn. of A. aquaticusassociated bacteria never exceeded 3 E. coli and 6 total coliformsA. aquaticus-1. During exposure to high concn. of coliforms, concn. reached 350 coliforms A. aquaticus-1. A. aquaticus associated E. coli were only detected as long as E. coliwere present in the water and sediment. The calculated probability of exceeding drinking water guideline values in non-disinfected systems by intrusion of A. aquaticus was low. Only in scenarios with narrow pipes and low flows, did total coliforms exceed guideline values, implying that the probability of detection by routine monitoring is also low. The study may expand the knowledge base for evaluating incidents with the presence of coliform indicators in drinking water by showing that intruding A. aquaticus are not important carriers of E. coli or other coliform bacteria even when emerging from faecally contaminated waters.",,31 ref.,,,11.0,,,,,,,,,,COLIFORMS; DRINKING WATER; ESCHERICHIA; ESCHERICHIA COLI; FOOD SAFETY BEVERAGES; PIPES; WATER; WATER SUPPLIES,,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,Water Research,2021-04-13,FSTA:2011-09-Ht4525,0,0,"Christensen, S. C. B.; Nissen, E.; Arvin, E.; Albrechtsen, H. J.",J,English,Distribution of Asellus aquaticus and microinvertebrates in a non-chlorinated drinking water supply system - effects of pipe material and sedimentation.,2011.0,Food Science & Technology (provided by Clarivate Analytics),45,0043-1354,10,,3215,3224,,"DTU Environment, Technical University of Denmark, Bygningstorvet B115, 2800 Kgs. Lyngby, Denmark. Tel. +45 45251600. Fax +45 932850. E-mail scch@env.dtu.dk","Danish drinking water supplies based on ground water without chlorination were investigated for the presence of the water louse, Asellus aquaticus, microinvertebrates (<2 mm) and annelida. In total, 52 water samples were collected from fire hydrants at 31 locations, and two elevated tanks (6000 and 36,000 m3) as well as one clean water tank at a waterworks (700 m3) were inspected. Several types of invertebrates from the phyla: arthropoda, annelida (worms), plathyhelminthes (flatworms) and mollusca (snails) were found. Invertebrates were found at 94% of the sampling sites in the piped system with A. aquaticus present at 55% of the sampling sites. Populations of A. aquaticus were present in the two investigated elevated tanks but not in the clean water tank at a waterworks. Both adult and juvenile A. aquaticus (length of 2-10 mm) were found in tanks as well as in pipes. A. aquaticus was found only in samples collected from two of seven investigated distribution zones (zone 1 and 2), each supplied directly by one of the two investigated elevated tanks containing A. aquaticus. Microinvertebrates were distributed throughout all zones. The distribution pattern of A. aquaticus had not changed considerably over 20 years when compared to data from samples collected in 1988-89. Centrifugal pumps have separated the distribution zones during the whole period and may have functioned as physical barriers in the distribution systems, preventing large invertebrates such as A. aquaticus to pass alive. Another factor characterising zone 1 and 2 was the presence of cast iron pipes. The frequency of A. aquaticus was significantly higher in cast iron pipes than in plastic pipes. A. aquaticus caught from plastic pipes were mainly single living specimens or dead specimens, which may have been transported passively trough by the water flow, while cast iron pipes provided an environment suitable for relatively large populations of A. aquaticus. Sediment volume for each sample was measured and our study described for the first time a clear connection between sediment volume and living A. aquaticus since living A. aquaticus were nearly only found in samples with sediment contents higher than 100 ml/m3 sample. Presence of A. aquaticus was not correlated to turbidity of the water. Measurements by ATP, heterotrophic plate counting and Colilert showed that the microbial quality of the water was high at all locations with or without animals. Four other large Danish drinking water supplies were additionally sampled (nine pipe samples and one elevated tank), and invertebrates were found in all systems, three of four containing A. aquaticus, indicating a nationwide occurrence. All rights reserved, Elsevier.",,0,,,10.0,,,,,,,,,,DENMARK; FOOD SAFETY BEVERAGES; MICROBIOLOGICAL QUALITY; WATER; WATER SUPPLIES,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,Chemosphere,2021-04-13,MEDLINE:33092821,1,1,"Theys, Charlotte; Verheyen, Julie; Tuzun, Nedim; Stoks, Robby",J,English,Higher mean and fluctuating temperatures jointly determine the impact of the pesticide chlorpyrifos on the growth rate and leaf consumption of a freshwater isopod.,2020.0,,,1879-1298,,2020 Oct 08 (Epub 2020 Oct 08),,,,"Laboratory of Evolutionary Stress Ecology and Ecotoxicology, University of Leuven, Charles Deberiotstraat 32, B-3000, Leuven, Belgium. Electronic address: theys.charlotte@kuleuven.be.; Laboratory of Evolutionary Stress Ecology and Ecotoxicology, University of Leuven, Charles Deberiotstraat 32, B-3000, Leuven, Belgium.","Copyright © 2020 Elsevier Ltd. All rights reserved.There is growing evidence that both increases in mean temperature and the widespread daily temperature fluctuations (DTF) may increase pesticide toxicity. Nevertheless, the likely more stressful, realistic combination of the two warming-related stressors has rarely been considered in ecotoxicology. Moreover, we have little knowledge on whether these stressor combinations could impair ecosystem functioning. We examined the effect of the pesticide chlorpyrifos under an increased mean temperature (+4°C, from 18°C to 22°C) and in the presence of DTF (constant and 8°C) on two life-history traits (mortality and growth rate) and one ecologically important behavioural trait (feeding rate) in the freshwater isopod Asellus aquaticus. The chlorpyrifos concentration used, 0.2mug/L, did not cause mortality in any thermal condition, nor did it cause sublethal effects at the mean temperature of 18°C. A key finding was that growth rate was strongly reduced by the pesticide only under the combination of both a higher mean temperature and DTF, highlighting the importance of testing toxicity under this realistic thermal scenario. The leaf consumption of chlorpyrifos-exposed isopods increased at the higher mean temperature when this was kept constant, however, it lowered again towards control levels when DTF was induced, thereby contributing to the growth reduction at this most stressful condition. These alterations of growth and leaf degradation rates may impact nutrient recycling, a key ecosystem function. Our results highlight the importance of integrating both increases in mean temperature and in DTF to improve current and future ecological risk assessment of pesticides.",,,England,,,,,,,,,,10.1016/j.chemosphere.2020.128528,,Climate-induced toxicant sensitivity (CITS) concept; Ecosystem process; Multiple stressors; Organophosphate pesticide; Temperature variability,,"Theys, Charlotte/0000-0002-8247-3228; Verheyen, Julie/0000-0001-7496-5137",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
English Abstract; Journal Article,Tsitologiia,2021-04-13,MEDLINE:10953864,0,0,"Pashkova, I M; Korotneva, N V",J,Russian,"[Sensitivity of the hog slater Asellus aquaticus to the toxic effects of heavy metals during different periods of ontogenesis, during different seasons and at different temperatures].",2000.0,"Zoology; Pharmacology & Pharmacy; Toxicology; Environmental Sciences & Ecology; Public, Environmental & Occupational Health (provided by Clarivate Analytics)",42,0041-3771,6,2000 ,,,,"Institute of Cytology RAS, St. Petersburg.","A study was made of acute toxic effects of Cd+, Cu+, Al+, Pb+, Ni+, Mn+ and Zn+ ions on embryos, juveniles, and adults of Asellus aquaticus L. at 19 and 29 degrees C, when examined in different seasons of the same year. The highest sensitivity to heavy metals was displayed by embryos. The metal sensitivity commonly decreases with age, however, during hormonal rearrangements associated with reproduction this was seen to increase again. For all age groups the heavy metal toxicity increases with increased temperature rises. The importance of a more strict control of water quality in the system of lakes and rivers is suggested, especially in spring and summer time when the mass reproduction of hydrobionts occurs.",,,Russia (Federation),,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
English Abstract; Journal Article,Roczniki Panstwowego Zakladu Higieny,2021-04-13,MEDLINE:2637484,0,0,"Przybylski, Z; Rogoz, H",J,Polish,[Toxic action of carbendazim on aquatic animals].,1989.0,"Toxicology; Zoology; Public, Environmental & Occupational Health; Environmental Sciences & Ecology (provided by Clarivate Analytics)",40,0035-7715,4-6,1989 ,,,,,"The toxic effect of carbendazim was studied using as biologic indicators, Lebistes reticulatus Peters, Asellus aquaticus Racov and Daphnia magna (Cladocera) in the Laboratory of Human Epidemiology and Ecology in Rzeszow. The experiments were done in crystallizers of from 150 ml capacity for Aselius to 250 ml for young Lebistes and in tubes of 30 ml capacity for Daphnia. Each experiment was done in triplicate with 10 animals in each repetition. The observation of carbendazim toxicity was carried out after 1, 2, 3, 6, 24, 48 and 96 hours and after 5, 6 and 24 days. The method used for this purpose had been evolved by the Institute of Metereology and Hydrology in Wroclaw. For all tested aquatic organisms in acute toxicity tests of carbendazim (LC50) confidence intervals were calculated for various concentrations of the solution and time spent by the organisms in toxic environment. The study showed that carbendazim was practically non-toxic for young Lebistes and Asellus. The detailed results are presented in tables I, II and III.",,,Poland,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,Bollettino della Societa italiana di biologia sperimentale,2021-04-13,MEDLINE:3718749,0,0,"de Nicola Giudici, M; Migliore, L; Gambardella, C",J,English,"Toxicity of mercury on different stages of the biological cycle of Asellus aquaticus (L.) and Proasellus coxalis Dollf (Crustacea, Isopoda).",1986.0,Zoology; Pharmacology & Pharmacy; Toxicology (provided by Clarivate Analytics),62,0037-8771,3,1986 Mar 31,,,,,,,,Italy,,,,,,,,,,,,,,"Migliore, Luciana/0000-0003-3554-3841",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,Rivista di biologia,2021-04-13,MEDLINE:14269802,0,0,"VITAGLIANOTADINI, G; VALENTINO, F",J,Italian,[THE REPRODUCTIVE CYCLE IN VARIOUS STRAINS OF ASELLUS AQUATICUS OF VARIOUS GEOGRAPHIC ORIGINS].,1964.0,Zoology; Reproductive Biology (provided by Clarivate Analytics),57,0035-6050,,1964 ,,,,,,,,Italy,,,,,,,,,,,,CRUSTACEA; EXPERIMENTAL LAB STUDY; REPRODUCTION,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,Zeitschrift fur die gesamte Hygiene und ihre Grenzgebiete,2021-04-13,MEDLINE:14291350,0,0,"GUENTHER, B",J,German,[TESTS FOR TOXICITY OF SEWAGE FOR ASELLUS AQUATICUS AND STYLARIA LACUSTRIS].,1964.0,"Zoology; Public, Environmental & Occupational Health; Environmental Sciences & Ecology (provided by Clarivate Analytics)",10,0049-8610,,1964 Feb,,,,,,,,Germany,,,,,,,,,,,,"ANNELIDA; CRUSTACEA; GERMANY, EAST; SEWAGE",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,Archives de biologie,2021-04-13,MEDLINE:14934273,0,0,"ROCHE, A",J,Undetermined,[Histochemical data on the distribution of alkaline phosphatases in Asellus aquaticus L..].,1951.0,Biochemistry & Molecular Biology; Zoology; Food Science & Technology (provided by Clarivate Analytics),62,0003-9624,4,1951 ,,,,,,,,Belgium,,,,,,,,,,,,PHOSPHATASES; SHELLFISH,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,Journal of gerontology,2021-04-13,MEDLINE:15404052,1,0,"NEEDHAM, A E",J,English,"Growth and regeneration in relation to age in the Crustacea with special reference to the Isopod, Asellus aquaticus Linn.",1950.0,Zoology; Physiology (provided by Clarivate Analytics),5,0022-1422,1,1950 Jan,,,,,,,,United States,,,,,,,,,,,,CRUSTACEA,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Journal Article,La Ricerca scientifica,2021-04-13,MEDLINE:18100279,0,0,"DE NICOLA, M",J,Italian,Distribution of alkaline phosphatases in the polyploid nuclei of the coating cells of the testicles of Asellus aquaticus.,1948.0,,18,0035-5011,8-9,1948 ,,,,,,,,Italy,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Knowledge and Management of Aquatic Ecosystems,2021-04-13,ZOOREC:ZOOR15605031757,0,0,"Manenti, Raoul; Barzaghi, Benedetta",J,English,Is landscape of fear of macroinvertebrate communities a major determinant of mesopredator and prey activity?,2020.0,Zoology; Environmental Sciences & Ecology; Mathematics; Nutrition & Dietetics; Behavioral Sciences,421,1961-9502,,Jan 28 2020,,,Asellus aquaticus [Population density / Abundance / predation risk] [Crustacean predators / Procambarus clarkii / ] [Piscean predators / Esox lucius / ] [ / Gobio gobio / ] [ / Padogobius bonelli / ] [ / Perca fluviatilis / ] [ / Telestes souffia muticellus / ] [Platyhelminth predators / Dendrocoelum lacteum / ] [ / Polycelis nigra / ] [Italy / Lombardy / ]. Dendrocoelum lacteum; Esox lucius; Gobio gobio; Padogobius bonelli; Perca fluviatilis; Polycelis nigra; Procambarus clarkii; Telestes souffia muticellus [Mathematical techniques / Linear Mixed Model / predation risk; comparative study] [Crustacean prey / Asellus aquaticus / ] [Activity patterns /  / ] [Population density / Abundance / ] [Italy / Lombardy / ]. ,"Manenti, Raoul; Univ Milano, Dept Environm Sci & Policy, Via Celoria 26, Milan, I-20133, Italy, Italy.","Macroinvertebrate foragers play an important role on the trophic structures of freshwater environments, and multiple trophic levels occur among macroinvertebrate communities providing very interesting scenarios for testing scientific hypotheses. One of the most intriguing aspect to understand is the role played by the landscape of fear (LOF) on macrobenthos density and activity. With this pilot study we wanted to test if LOF at the macrobenthos community levels plays a role in determining the density of both prey and mesopredators. During two consecutive years, we evaluated, with both day and night surveys, the density of two mesopredator triclad species and of one detritivore prey crustacean species, and we compared them to the number of respective predators occurring in the macroinvertebrate community. LOF levels at the macroinvertebrate community did not reduce the abundance of the target taxa. One of the triclad species was instead positively related to the levels of LOF assessed for it on the basis of the available knowledge. The broad implication of the research is that the abundance of freshwater macroinvertebrates is not mainly linked to the predation risk at the community level, suggesting that also for researches on macrobenthos LOF analyses should take in consideration the role of top predators.",,,,,,,,,,,,,,,,raoulmanenti@gmail.com,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Scientific Reports,2021-04-13,ZOOREC:ZOOR15502007535,0,0,"Mojaddidi, Hafasa; Fernandez, Franco E.; Erickson, Priscilla A.; Protas, Meredith E.",J,English,Embryonic origin and genetic basis of cave associated phenotypes in the isopod crustacean Asellus aquaticus.,2018.0,Zoology; Anatomy & Morphology; Developmental Biology; Genetics & Heredity; Environmental Sciences & Ecology,8,2045-2322,,Nov 8 2018,,,Asellus aquaticus [General morphology /  / ] [Embryo development /  / ] [Genotype /  / ] [Hybridization /  / ] [Life habit / Cave vs surface dwellers / ] [Slovenia /  / ]. ,"Protas, Meredith E.; Dominican Univ Calif, 50 Acacia Ave, San Rafael, CA, 94901, USA, USA.","Characteristics common to animals living in subterranean environments include the reduction or absence of eyes, lessened pigmentation and enhanced sensory systems. How these characteristics have evolved is poorly understood for the majority of cave dwelling species. In order to understand the evolution of these changes, this study uses an invertebrate model system, the freshwater isopod crustacean, Asellus aquaticus, to examine whether adult differences between cave and surface dwelling individuals first appear during embryonic development. We hypothesized that antennal elaboration, as well as eye reduction and pigment loss, would be apparent during embryonic development. We found that differences in pigmentation, eye formation, and number of segments of antenna II were all present by the end of embryonic development. In addition, we found that cave and surface hatchlings do not significantly differ in the relative size of antenna II and the duration of embryonic development. To investigate whether the regions responsible for eye and pigment differences could be genetically linked to differences in article number, we genotyped F2 hybrids for the four previously mapped genomic regions associated with eye and pigment differences and phenotyped these F2 hybrids for antenna II article number. We found that the region previously known to be responsible for both presence versus absence of pigment and eye size also was significantly associated with article number. Future experiments will address whether pleiotropy and/or genetic linkage play a role in the evolution of cave characteristics in Asellus aquaticus.",,,,,,,,,,,,,,,,meredith.protas@dominican.edu,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Scientific Reports,2021-04-13,ZOOREC:ZOOR15507042362,0,0,"Mojaddidi, Hafasa; Fernandez, Franco E.; Erickson, Priscilla A.; Protas, Meredith E.",J,English,Embryonic origin and genetic basis of cave associated phenotypes in the isopod crustacean Asellus aquaticus.,2018.0,Zoology; Anatomy & Morphology; Developmental Biology; Genetics & Heredity; Evolutionary Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology,8,2045-2322,,Nov 8 2018,,,"Asellus aquaticus [Size / Body size / comparative study] [Antennae / Antennal elaboration / ] [Colour / Pigmentation loss / ] [Compound eye / Eye reduction / ] [Embryo development / Embryonic development duration / ] [Phenotype /  / ] [Genotype /  / ] [Colour variation /  / ] [Subterranean water / Cave / ] [Slovenia / Planina Cave, Rakov Skocjan & Planina Polje / ]. ","Protas, Meredith E.; Dominican Univ Calif, 50 Acacia Ave, San Rafael, CA, 94901, USA, USA.","Characteristics common to animals living in subterranean environments include the reduction or absence of eyes, lessened pigmentation and enhanced sensory systems. How these characteristics have evolved is poorly understood for the majority of cave dwelling species. In order to understand the evolution of these changes, this study uses an invertebrate model system, the freshwater isopod crustacean, Asellus aquaticus, to examine whether adult differences between cave and surface dwelling individuals first appear during embryonic development. We hypothesized that antennal elaboration, as well as eye reduction and pigment loss, would be apparent during embryonic development. We found that differences in pigmentation, eye formation, and number of segments of antenna II were all present by the end of embryonic development. In addition, we found that cave and surface hatchlings do not significantly differ in the relative size of antenna II and the duration of embryonic development. To investigate whether the regions responsible for eye and pigment differences could be genetically linked to differences in article number, we genotyped F2 hybrids for the four previously mapped genomic regions associated with eye and pigment differences and phenotyped these F2 hybrids for antenna II article number. We found that the region previously known to be responsible for both presence versus absence of pigment and eye size also was significantly associated with article number. Future experiments will address whether pleiotropy and/or genetic linkage play a role in the evolution of cave characteristics in Asellus aquaticus.",,,,,,,,,,,,,,,,meredith.protas@dominican.edu,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article; Meeting paper,Biodiversity Journal,2021-04-13,ZOOREC:ZOOR15507043983,0,0,"Wysocka, Anna; Grabowski, Michal; Sworobowicz, Lidia; Mamos, Tomasz",J,English,"Comparative phylogeography of Gammarus roeselii Gervais, 1835 and Asellus aquaticus Linnaeus, 1758 from the Ohrid, Prespa and Skadar lakes, Balkan Peninsula.",2017.0,Zoology; Genetics & Heredity; Evolutionary Biology; Marine & Freshwater Biology; Environmental Sciences & Ecology,8,2039-0394; 2039-0408,2,Jun 2017,,,"Asellus aquaticus; Gammarus roeselii [Molecular genetics / Mt COI gene sequences / comparative study] [Population genetics / Population genetic structure / ] [Phylogeny / Phylogeography / ] [Lake /  / ] [Zoogeography /  / ] [Europe / Ohrid, Prespa & Skadar lakes / ]. ","Wysocka, Anna; Univ Lodz, Dept Genet & Biosystemat, Lodz, Poland, Poland.","Comparative phylogeography based on molecular mitochondrial marker, for two freshwater crustacean species (amphipod Gammarus roeselii Gervais, 1835 and isopod Asellus aquaticus Linnaeus, 1758) from the Neogene Balkan lake system was investigated and established within a biogeographical context.",,,,,,,,,,,,,,,,anna.wysocka@biol.ug.edu.pl,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Review of Hydrobiology,2021-04-13,ZOOREC:ZOOR15206037411,2,0,"Camur-Elipek, Belgin; Ozulug, Mufit; Gaygusuz, Ozcan; Gursoy-Gaygusuz, Cigdem",J,English,The contributions to benthic macroinvertebrate fauna of running waters in northern Anatolia (Turkey).,2015.0,Zoology,8,,2,Dec 2015,,,"Macroinvertebrata [Turkey / Anatolia, north / Distribution; benthon]. ","Camur-Elipek, Belgin; Trakya Univ, Dept Biol, Edirne, Turkey, Turkey.","1. In this study, it was aimed to make the contributions to the benthic macroinvertebrate fauna of running waters in northern Anatolia. 2. A total of 11 different running water resources were sampled between the dates 9-15 August 2010 to investigate the benthic macroinvertebrate fauna of the region. 3. It was determined that the benthic macrofauna in the region belong to Hirudinea, Gastropoda, Amphipoda (Gammarus abscicus Karaman, 1973, Gammarus balcanicus Schaferna, 1922, Gammarus komareki Schaferna, 1923), Isopoda (Asellus aquaticus (L., 1758), Ephemeroptera (Baetidae, Caenidae, Ephemeridae), Plecoptera, Trichoptera, Chironomidae (Chironomus riparius (Meigen, 1804), Tanypus sp.), Coleoptera, Odonata (Anisoptera, Zygoptera) and Hemiptera.",,,,,,,,,,,,,,,,belginelipekcamur@trakya.edu.tr,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Knowledge and Management of Aquatic Ecosystems,2021-04-13,ZOOREC:ZOOR14911058810,1,0,"Rosewarne, P.J.; Mortimer, R.J.G.; Dunn, A.M.",J,English,Size-dependent impacts of the endangered white-clawed crayfish (Austropotamobius pallipes) (Lereboullet) on the littoral community.,2013.0,Environmental Sciences & Ecology; Zoology; Nutrition & Dietetics; Entomology,409,1961-9502,,2013,,,Asellus aquaticus; Bithynia tentaculata; Chironomidae; Gammarus pulex; Lymnaea; Physa fontinalis; Planorbarius corneus [Crustacean predators / Austropotamobius pallipes / ]. Austropotamobius pallipes [Crustacean prey / Asellus aquaticus / Mesocosm study; adult; juvenile] [ / Gammarus pulex / ] [Insect prey / Chironomidae (Diptera) / ] [Molluscan prey / Bithynia tentaculata / ] [ / Lymnaea / ] [ / Physa fontinalis / ] [ / Planorbarius corneus / ]. ,"Dunn, A.M.; Univ Leeds, Sch Biol, Leeds, W Yorkshire, LS2 9JT, United Kingdom, United Kingdom.","The demise of Britain's only native crayfish (Austropotamobius pallipes (Lereboullet)) has prompted conservation-led translocations to safe isolated stillwaters (Ark sites). Many translocations represent introductions rather than re-stocking; hence it is important to ensure that there will not be a detrimental impact on communities already present. Current knowledge is insufficient to predict likely effects, although gut contents analyses suggest that A. pallipes is omnivorous and exhibits ontogenic diet shifts. A mesocosm study was conducted with the aim to first, determine community impacts of introducing A. pallipes on the benthic invertebrate community, and second investigate if impacts vary with crayfish life-stage. All crayfish life-stages strongly reduced shredder and grazer abundance, particularly thin-shelled Lymnaea snails. The small snail Physa fontinalis was preferentially consumed by juveniles, perhaps reflecting different preyhandling ability. Adults showed greater reliance on terrestrially derived detritus compared to juveniles. There were limited effects on other trophic levels, although by reducing shredders that process basal resources, crayfish impacts may be felt through the community in the long-term.",,,,,,,,,,,,,,,,a.dunn@leeds.ac.uk,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Aquarium (Hilversum),2021-04-13,ZOOREC:ZOOR14803021995,0,0,"Tomey, W.A.",J,Dutch,[Food for aquarium fish obtained from natural and artificial sources - part 04/12.],2012.0,Parasitology; Zoology; Environmental Sciences & Ecology; Nutrition & Dietetics; Pathology,82,0003-729X,1,Januari 2012,,,Argulus foliaceus [Piscean hosts /  / Host seeking; pathology; parasite introduction with food; in captivity]. Asellus aquaticus; Stylaria lacustris; Tubifex tubifex [Piscean predators /  / Predator diet in captivity]. Gastropoda [Housing techniques / Aquarium conditions / ] [Feeding behaviour / Scavenging role in aquarium cleansing / ]. Pisces [Diet in captivity /  / ] [Treatment techniques /  / host seeking; pathology; parasite introduction with food; in captivity] [Annelid prey / Stylaria lacustris / ] [ / Tubifex tubifex / ] [Crustacean prey / Asellus aquaticus / ] [Crustacean parasites / Argulus foliaceus / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Folia Historico Naturalia Musei Matraensis,2021-04-13,ZOOREC:ZOOR15309053515,0,0,"Borza, Peter",J,English,Contribution to the macroinvertebrate fauna of the Hungarian Danube. VII. Isopods (Crustacea: Malacostraca: Isopoda).,2012.0,Environmental Sciences & Ecology; Marine & Freshwater Biology; Zoology,36,0134-1243,,2012,,,Asellus aquaticus; Jaera sarsi [River /  / Occurrence records] [Hungary /  / ] [River Danube /  / ]. ,"Borza, Peter; Hungarian Acad Sci, Danube Res Inst, Javorka Sandor U 14, God, H-2131, Hungary, Hungary.","In this part of the series the records of aquatic isopods in the collection of the Danube Research Institute (former Hungarian Danube Research Station) are presented. Two species (Asellus aquaticus and Jaera sarsi) have been identified in 379 samples collected between 1994-2009 at 195 sites of the Hungarian Danube section (main channel, side branches, and adjacent wetlands).",,,,,,,,,,,,,,,,borza.peter@okologia.mta.hu,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Corax,2021-04-13,ZOOREC:ZOOR14712084193,2,1,"Vlug, Jan J.",J,German,"On the relationships between red-necked grebes Podiceps grisegena, fishes, invertebrates and amphibians.",2011.0,Zoology; Nutrition & Dietetics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Reproductive Biology,21,0589-686X,4,Juli 2011,,,Pisces [Feeding behaviour / Feeding competition / predator prey relationships] [Avian predators / Podiceps grisegena / ] [Interspecific competition /  / ] [Pond /  / ] [Germany / Schleswig-Holstein / ]. Podiceps grisegena [Prey / Prey resources / predator prey relationships] [Piscean prey /  / ] [Food availability /  / ] [Feeding behaviour / Feeding competition / ] [Reproductive productivity / Breeding success / ] [Population dynamics /  / ] [Interspecific competition /  / ] [Pond /  / ] [Flooding /  / ] [Water movements / Water level increase / ] [Germany / Schleswig-Holstein / ]. ,"Vlug, Jan J.; Bergerweg 171, 1817 ML Alkmaar, Netherlands, Netherlands.","Numerous analyses of stomach contents of the nominate race of the Red-necked Grebe Podiceps grisegena in its breeding habitat show that it mostly feeds on aquatic insects and their larvae, molluscs and crustaceans. Amphibians and their larvae are only found in small quantities in their stomachs. However, field observations reveal that adult Red-necked Grebes frequently eat frogs, toads, newts and their larvae. The chicks are especially fed with the tadpoles and in a number of ponds these constitute the main diet of young Red-necked Grebes. Carps Cyprinus carpio, other cyprinids and species of fish such as Perch Perca fluviatilis can impair the population density and breeding success of Red-necked Grebes and many other waterbirds. These fishes eat many macrozoans (larger invertebrates and small vertebrates such as tadpoles) and are serious food competitors; only the quantities of the larvae of the Common Toad Bufo bufo are not impaired by fish because they are unpalatable. Even relatively low densities of fish seem to reduce the macroinvertebrate biomass. However, Red-necked Grebes and other waterbirds rarely seem to cause a general reduction of macroinvertebrate (and amphibian) densities. Fish and waterbirds are unequal competitors for the shared food source of macrozoans. The poikilothermic fish spend much less energy during foraging than the homeothermic waterbirds (they must maintain a body temperature of at least 40[degree]C). In addition, fish have not to cope with buoyancy which pushes the waterbirds upwards. In consequence, the number and biomass of fish in a pond can be much higher than those of birds.Many macrozoans live in the submerged vegetation and between the underwater parts of the emergent plants where they are protected against fish. Although the imagines of many species of diving beetles Dytiscidae, scavenger beetles Hydrophilidae and the adults of amphibians are not in danger by fish, they actively avoid waters with fish (with the exception of the Common Toad). Fish not only compete with Red-necked Grebes and many other birds for food, they also can impede the growth of the submerged plants and so they indirectly reduce the number of food items for birds. Field observations clearly show that the biomass of macrozoans and the number of Red-necked Grebes and other waterbirds are low in waters with large quantities of fish. They are higher when the fish density is small. Only piscivorous birds such as the Great Crested Grebe Podiceps cristatus profit by the introduction of fish. The fact that breeding Red-necked Grebes are found primarily on fish-ponds in Central Europe seems to contradict the preceding text. Obviously, the relations-hip between Red-necked Grebes and fish is more cornplicated than a number of authors assume. Although it is difficult for the Red-necked Grebe to catch fast moving, nektonic animals (such as larger fish), small fish and fry do not swim so quickly and are an important food supply for the grebes. Small fishponds are often stocked with fry of Carps which are frequently offered to the chicks of Red-necked Grebes. In these ponds the reproduction of the grebes is essentially higher than in ponds with larger Carps. Red-necked Grebes, especially those undertaking food flights from the breeding place to the Baltic Sea, can eat large numbers of bottom living fishes such as Butterfish Pholis gunnellus and Goby Pomatoschistus. The birds possibly find this prey by systematically se-arching the bottom of the sea, exactly in the same way in which they systematically search for invertebrates at submerged plants and at the bottom of ponds. The fishponds (and lakes) in which Red-necked Grebes breed have a multifarious structure with shallow inlets with small openings surrounded by reed and frequently with submerged and floating vegetation. Here the nw ber of large fish is smaller than at open water areas. The development of population numbers of Red-n eked Grebes in new man-made and new natural sh; low waters clearly shows how complicated t relations are between grebes and other organisn These new bodies of water are colonised quickly 1 large numbers of Red-necked Grebes (e.g. up to pairs on a newly created pond of 14 ha, 35 pairs on pond of 17 ha), with a maximum population densi of 5.3 pairs/ha (21 pairs on a water body of 4 ha). After raising the water level the terrestrial plants d off and form a rich litter which constitutes a substra for detritus feeding macroinvertebrates, e.g. water b atmen Corixidae, larvae of plumed gnats Chironon dae, Water Slaters Asellus aquaticus and pond snai Lymnaeidae. Large numbers of small crustaceans su( as water fleas Copepoda are also found in the ne flooded waters. Ten-spined Sticklebacks Pungiti( pungitius use these small copepods as food. Many an phibians occupy the new ponds. All these macrozoai are important food organisms for Red-necked Grebe and many species of ducks such as Tufted Duck A thya fuligula, Pochard Aythya ferina and Goldene} Bucephala clangula. During the first years aquat birds have few competitors for this rich food sourc Important is also that in the first years after floodir many marsh plants are abundant, e.g. Reed Canar grass Typhoides (Phalaris) arundinacea, Water Me; dow Grass/Reed Sweet Grass Glycen aquatica/maxima, bulrush Typha and Common Ree Phragmites australis. They provide Red-necked Gn bes with nesting places, and many macrozoans lip between their underwater stems. The Red-necked Grebe and other waterbird populat ons increase sharply after the flooding, but after number of years a large decline occurs. The detritus based biomass of macro-invertebrates is substantiall reduced when the plant litter from the first period hz broken down. There is also a gradual increase in th number of invertebrate predators and of large fis which compete with waterfowl for food. However, must be stressed that also without fish the decline c Red-necked Grebes and other waterbirds takes plat( A number of years after the flooding a thick layer c mud is often building up and turbidity increases. Th result is that the submerged vegetation disappears. I many new ponds in Schleswig-Holstein the marsh vegetation lso vanishes after a few years, especi, when there are large fluctuations in the water levc To maintain the abundance of waterbirds, macrovertebrates and amphibians in shallow wetlands, advisable to drain them every four or five years to flood them again one year later.",,,,,,,,,,,,,,,,jjvlug-gris@hotmail.com,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,International Journal of Zoology,2021-04-13,ZOOREC:ZOOR14810069270,0,0,"Bloor, M.C.",J,English,Dietary preference of Gammarus pulex and Asellus aquaticus during a laboratory breeding programme for ecotoxicological studies.,2011.0,Nutrition & Dietetics; Zoology,2011,1687-8477; 1687-8485,,2011,,,Asellus aquaticus; Gammarus pulex [Diet in captivity / Laboratory breeding programme dietary provision / ] [Rearing techniques /  / ] [Food plants / Alnus glutinosa / ] [Food preferences / Artificially vs naturally conditioned leaf preferences / ]. ,"Bloor, M.C.; School of Earth and Environmental Science, University of Portsmouth, Burnaby Building, Burnaby Road, Portsmouth, PO1 3QL, United Kingdom, United Kingdom.","An investigation was undertaken to establish if Gammarus pulex and Asellus aquaticus preferred a diet of unconditioned, artificially or naturally conditioned alder leaves (Alnus glutinosa). Standardised, 24 hour ex situ feeding assays were undertaken with both species to determine their food preference. The results showed that A. aquaticus ate more leaf material compared to G. pulex (Z 23.909, P 0.001) when exposed to all three test variables. Also, both G. pulex and A. aquaticus demonstrated a preference for naturally conditioned leaves compared to the other two variables, with unconditioned leaves proving the least popular food option for bothmacroinvertebrates (Z 18.803, P< 0.001).However, both species ate varying amounts of all the leaf treatments (Z 136.399, P< 0.001). Subsequently, the author outlined a feeding methodology for natural alder leaf conditioning that could be used during a laboratory breeding programme.",,,,,,,,,,,,,,,,michelle.bloor@port.ac.uk,,,,,,,"Green Published, Other Gold",,,,,,Article ID 294394,,,,,,,,,,,,,,,,,
Article,Speleobiology Notes,2021-04-13,ZOOREC:ZOOR14607048189,0,0,"Fiser, Cene; Kovacec, Zana; Pustovrh, Mateja; Trontelj, Peter",J,English,The role of predation in the diet of Niphargus (Amphipoda: Niphargidae).,2010.0,Zoology; Environmental Sciences & Ecology; Nutrition & Dietetics; Marine & Freshwater Biology,2,,,2010,,,Asellus aquaticus [Crustacean predators / Niphargus balcanicus / Predator feeding behaviour]. Gammarus fossarum; Niphargus timavi [Diet / Diet composition / ] [Subterranean water /  / ] [Slovenia / Podstenjsek / ]. Niphargus balcanicus [Crustacean prey / Asellus aquaticus / ] [Feeding behaviour /  / ]. ,"Fiser, Cene; Oddelek za biologijo, Biotehniska fakulteta, Univerza v Ljubljani, Vecna pot 111, Ljubljana, Slovenia, Slovenia.",,,,,,,,,,,,,,,,,cene.fiser@bf.uni-lj.si,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologica Baetica,2021-04-13,ZOOREC:ZOOR14705042314,1,0,"Bloor, M.C.",J,English,Animal standardisation for mixed species ecotoxicological studies: Establishing a laboratory breeding programme for Gammarus pulex and Asellus aquaticus.,2010.0,Zoology,21,1130-4251,,2010,,,Asellus aquaticus; Gammarus pulex [Rearing techniques / Laboratory breeding programme / ]. ,"Bloor, M.C.; School of Earth and Environmental Science, University of Portsmouth, Burnaby Building, Burnaby Road, Portsmouth, PO1 3QL, United Kingdom, United Kingdom.","This paper outlines how to establish a standardised laboratory breeding programme for Gammarus pulex and Asellus aquaticus. Wild Gammarus pulex and Asellus aquaticus specimens were captured from an unpolluted river source and used as founder populations for the programme. The Gammarus pulex and Asellus aquaticus founder populations were permitted to breed randomly and the subsequent offspring (F1, F2 and F3 generations etc.) were available as standardised test animals for mixed species aquatic toxicity tests. The husbandry required to maintain laboratory breeding populations of Gammarus pulex and Asellus aquaticus is outlined and the animals' development cycles are discussed.",,,,,,,,,,,,,,,,Michelle.Bloor@port.ac.uk,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ornithologische Beobachter,2021-04-13,ZOOREC:ZOOR14604028041,0,0,"Hegelbach, Johann",J,German,"Effect of water temperature on wintering white-throated dippers Cinclus cinclus at the Kuesnacht brook near Zurich, Switzerland.",2009.0,Zoology; Nutrition & Dietetics; Environmental Sciences & Ecology; Marine & Freshwater Biology; Meteorology & Atmospheric Sciences,106,0030-5707,4,Dezember 2009,,,"Cinclus cinclus [Prey / Invertebrata / Predator prey relationships] [Food availability / Prey availability / invertebrate prey] [Population dynamics / Overwintering population dynamics / ] [Stream / Brook habitat / ] [Chemical pollution /  / ] [Climate and weather / Winter weather / ] [Temperature / Water temperature / ] [Water movements / Water influx from purification plant / ] [Switzerland / Zuerich, Kuesnacht / ]. ","Hegelbach, Johann; Zoologisches Museum, Universitaet Zuerich, Winterthurerstrasse 190, CH-8057 Zurich, Switzerland, Switzerland.","The White-throated Dipper population inhabiting the 8.2 km Kuesnacht brook has been intensively studied since 1987. In 2002, 16 pairs bred; ever since, population size varied between 11 and 14 breeding pairs. About half way up the brook, a small stream (Chliweidlibach) flows into Kuesnacht brook. The small Chliweidli stream is fed by water from a purification plant around 350 m away from the convergence. From December 1990 to February 1992 and in January and February 2009 water temperatures of the Chliweidli stream and the Kuesnacht brook were measured. In addition, I collected invertebrate food supply with a 30 x 30 cm Surber sampler, in order to compare it with a sample from 1989. Through the influx of purified water, water temperature in January and February was increased by > 4 [degree]C in all study years. Invertebrates available for Dippers were reduced to freshwater hog louse Asellus aquaticus and freshwater shrimp Gammarus sp. The predictability of the safe and easily accessible food led to high Dipper densities along Chliweidli stream (4[long dash]5 individuals/350 m) and Kuesnacht brook (9[long dash]10 individuals/ 1500 m) in winter 2009. The frequently regurgitated pellets consisted of the strongly chitinized Asellus aquaticus and Gammarus sp. In the year 2011 the purification plant is going to be shut down. The untreated water will then be led to a newly constructed plant at the shores of Lake Zurich. The loss of the stabilizing effect of elevated water temperatures will possibly lead to a local reduction of Dipper densities in winter.",,,,,,,,,,,,,,,,johann.hegelbach@zm.uzh.ch,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Lauterbornia,2021-04-13,ZOOREC:ZOOR14602010532,1,0,"Wouters, Karel; Vercauteren, Thierry",J,English,"Proasellus coxalis sensu auct. (Crustacea, Isopoda) in a lowland brook in Heist-op-den-Berg: first record in Belgium.",2009.0,Zoology,67,0935-333X,,August 17 2009,,,Proasellus coxalis [Belgium /  / New record]. ,"Wouters, Karel; Department of Invertebrates, Royal Belgian Institute of Natural Sciences, Vautierstraat 29, B-1000 Brussels, Belgium, Belgium.","In April 2005 the freshwater isopod Proasellus coxalis sensu auct. was discovered in a lowland brook, the Raambeek, at Heist-op-den-Berg. This represents the first record of the species in Belgium. The species name P. coxalis sensu auct. is preferred since there is no decisive conclusion on the definition of the species (P. coxalis or P. banyulensis) and of the different subspecies. The locality is situated in the upper reach of a lowland brook, in the basin of the River Nete. Given the geographical position of this locality in Belgium, it is very likely that the species also occurs elsewhere.",,,,,,,,,,,,,,,,karel.wouters@naturalsciences.be,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Alterra-Rapport,2021-04-13,ZOOREC:ZOOR14510064856,0,0,"Didderen, Karin; Snoek, Roelant C.; Verdonschot, Piet F.M.",J,Dutch,[Dispersion of macrofauna through culverts. Results of a laboratory experiment.],2008.0,Environmental Sciences & Ecology; Zoology; Biodiversity & Conservation,1746,1566-7197,,2008,,,Asellus aquaticus; Gammarus pulex; Pisces; Radix ovata; Radix peregra [Habitat management / Culvert construction / ] [Release and relocation programmes / Dispersal techniques / ] [Locomotion / Locomotory type / ] [Distribution within habitat / Barriers to physical dispersion / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Chronmy Przyrode Ojczysta,2021-04-13,ZOOREC:ZOOR14402010673,0,0,"Galas, Joanna",J,Polish,Why anthropogenic lake Zakrzowek is worth of study and protection?,2007.0,Environmental Sciences & Ecology; Zoology; Biodiversity & Conservation; Marine & Freshwater Biology,63,0009-6172,3,Maj-Czerwiec 2007,,,Invertebrata [Industry / Abandoned quarry lake / Zooplankton community structure & spatial distribution; conservational significance] [Habitat management /  / Zooplankton community structure & spatial distribution significance] [Community structure /  / Spatial distribution relationships; zooplankton] [Distribution within habitat / Spatial distribution / Zooplankton community structure relationships] [Lake / Quarry lake / Zooplankton community structure] [Salinity /  / Zooplankton community structure & spatial distribution relationships] [Poland / Lake Zakrzowek / ]. ,"Galas, Joanna; Instytut Ochrony Przyrody PAN, al. A. Mickiewicza 33, 31-120 Krakow, Poland, Poland.","Lake Zakrzowek is located in the southern part of Cracow (50[degree]02[minute]20[second] N, 19[degree]54[minute]35[second] E). It originated in a former limestone quarry, which was exploited till 1991. The floor of quarry reached a depth of about 30 m below the water level in the channel of the Vistula, which flows in the distance of about 600-900 m. Filling with water started in 1992 after the cessation of quarry drying and the level of local ground water table was reached in 1997. Since this abandoned quarry was filled with riverine water polluted by saline mine waters from the Silesian mines, high chloride concentrations (>280 mg L-1) were observed at that time. Then gradual freshening of the water started, due to the exclusive feeding with water from atmospheric precipitation. Now the Zakrzowek is a meromictic lake with oligotrophic epilimnion extending down to 18-20 m and anoxic and highly mineralized monimolimnion. The data on the biota of the lake are very scarce. They comprise a study on vertical distribution and species composition of zooplankton and a MSc thesis describing thermal preference of Asellus aquaticus inhabiting 12-20 m depth zone. These sources are completed with a poor set of unpublished data. None is known about phytoplankton and fish. Peculiar morphometry of this lake, characterized by steep rocky walls falling down to the depth of 30-32 m may pose some difficulties to hydrobiological studies. In general, research projects need the scuba diver assistance who should operate special equipment for taking samples from selected microhabitats or depths, e.g. by sucking benthic invertebrates.Despite these methodical problems lake ZakrzOwek has some advantages as an area of hydrobiological research, the relatively rare meromictic conditions and the close proximity to research centers being the most obvious. This lake is also of great importance to the local community as a high quality recreational space and it is a hot-spot of biotic diversity of the Cracow urban area.",,,,,,,,,,,,,,,,galas@iop.krakow.pl,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,"Analele Stiintifice ale Universitatii ""Al. I. Cuza"" din Iasi Sectiunea Biologie Animala",2021-04-13,ZOOREC:ZOOR14502011159,0,0,"Plavan, Gabriel Ionut; Simalcsik, Francisc; Miron, Ionel",J,English,Contribution to the study of the macrozoobenthos of the Izvoru Muntelui - Bicaz Reservoir (Romania).,2007.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,53,1224-581X,,2007,,,Animalia [Biomass /  / macrobenthos] [Community structure /  / ] [Distribution within habitat /  / ] [Reservoir /  / ] [Romania / Bicaz reservoir - Izvoru Muntelui / ]. ,"Plavan, Gabriel Ionut; ""Al. I. Cuza"" University Iasi, Faculty of Biology, Bd. Carol I 20A, 700505 Iasi, Romania, Romania.","The community structure and distribution of macrozoobenthos has been examined monthly, from March to November 2005, at depths from 0.5 to 1.5, 35 to 45 and 70 to 82 m, in Izvoru Muntelui [long dash] Bicaz reservoir. A total of 23 species were identified. Species richness in sampled areas ranged from 20 in shore zone, with abundances dominated by Tubificidae (Limnodrilus hoffmeisteri - 35.7 %; Tubifex tubifex - 9.8%) and Chironomidae (Procladius choreus - 18.8%, Polypedilum nubeculosum - 18.5% and Chironomus spp. - 9.3%) to 6 in 35-45 m depth area, with abundances dominated by L. hoffmeisteri - 66.3% and T. tubifex - 30.2%, and to 4 species in 70-82 m profound area, with abundances dominated by T. tubifex - 98.2%. Five species of invertebrates were firstly described in the lake in 2005 in restricted shallow benthic locations; they may be considered accidentally or occasionally, except Asellus aquaticus (Isopoda) frequent and abundant in the summer and autumn samples. The population density ranged from 762 [plus or minus] 183 individuals in the shallow sites to 2899 [plus or minus] 976 in 35-40 m depth sites, and to 11595 [plus or minus] 1421 individuals/m2 in the 70-92 m profound sites. The biomass values were approximate equally in shallow and 35-45 m sublittoral sites (4.21 [plus or minus] 1.11 respective 4.45 [plus or minus] 0.89) and reached a maximum of 10.52 [plus or minus] 2.01 mg wet weight /m2 in profound sites. A historically comparison between present community structure and previous data shows a continuous reduction of species richness and biomass values in 1965-1998 time interval and an increase in 2005, nearly two times higher compared with 1998's situation. The trophic status of the reservoir in 2005 was considered oligotrophic in 35[long dash]82 m deep areas and showed several signs of mesotrophy in shallow 0.5-1.5 m benthic areas.",,,,,,,,,,,,,,,,safe2006@yahoo.com,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mitteilungen der Pollichia,2021-04-13,ZOOREC:ZOOR14507045767,1,0,"Gutjahr, Simon; Hahn, Hans Juergen",J,German,Ecological and structural changes in the course of the Hainbach from its spring to Boechingen.,2007.0,Agriculture; Zoology; Biodiversity & Conservation; Environmental Sciences & Ecology; Marine & Freshwater Biology,93,0341-9665,,2007,,,"Invertebrata [Farming and agriculture / Agricultural effects / ] [Habitat management / Habitat renaturalization / ] [Community structure / Macrobenthic community / ] [Distribution within habitat /  / ] [Habitat utilization /  / ] [Stream / Brook / ] [Abiotic factors /  / ] [Germany / Rheinland-Pfalz, Hainbach / ]. ","Gutjahr, Simon; Tannenweg 7, 75331 Engelsbrand, Germany, Germany.","This study deals with the ecological and morphological changes along the Hainbach Brook (Palatinate, Germany) and in particular with the effects of the renaturation near the village of Boechingen. Between 02.07.2005 and 29.09.2005, the Hainhaeh Brook was sampled from the spring to downstream Boechingen for fauna and hydrochemistry, and structural stage was also recorded. Stream flow direction is from west to east. The study area, which is situated 10 km northwest of the city of Landau, is divided by its geology, with forested bunter sandstone in the West (Pfalzerwald Mountains) and agriculturally used Triassic formations in the East (Haardtrand: western fault of the Upper Rhine Plateau). This situation was reflected by the hydrochemical parameters, e.g. higher electric conductance and temperatures at the Haardtrand. In total, eleven sites including the spring were sampled. Increasing eutrophication (higher phosphate loads) was observed after the brook had left the forest and entered the open areas of the Haardtrand. Nitrate increased within and downstream Boechingen. Similar results were found when considering the morphological quality: In the Palatine Mountains quality was high, but average to had in the Haardtrand and good in the renaturated section near Boechingen. In total, 3392 individuals of 15 higher macrobenthic taxa were found. Gammarus fossarum (1606 individuals), Asellus aquaticus (436 individuals), Polycelis felina (377 individuals) and Physa fontinalis (131 individuals) were the most abundant and frequent species. Biological water quality was high in the Pfalzerwald Mountain section of Hainbach Brook, but decreased continuously to moderate when flowing through the agriculturally used Haardtrand, and was critical downstream Boechingen sewage plant. The Rheo-Index, which decreased significantly after the brook had entered the Haardtrand, probably, reflected the increased anthropogenous impact of fine sediments. This resulted in an enhanced colmation affecting the ecological quality of the brook. Applying a MDS analysis and other statistical methods, four types of brook habitats were distinguished by their macrobenthic fauna: (1) Spring, (2) brook in the forest, (3) interface forest-open land/agriculture and (4) open land/agriculture. Distance to spring and biological water quality were identified by a BVSTEP analysis as the main factors shaping the macrobenthic communities. Hydro-chemical parameters had no effects on spatial distribution of fauna. Positive effects of renaturation on fauna were not observed. However, all biotic and abiotic parametres considered were found to be different in the Pfalzerwald Mountain and in the Haardtrand, respectively.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Lauterbornia,2021-04-13,ZOOREC:ZOOR14210062274,0,0,"Meisch, Claude; Stoch, Fabio; Gerecke, Reinhard",J,German,"Crustaceans (Crustacea: Copepoda, Ostracoda, Amphipoda, Isopoda) of the carbonate fen complex ""Benninger Ried"", Bavaria, Germany.",2006.0,Zoology; Environmental Sciences & Ecology,57,0935-333X,,7 April 2006,,,"Amphipoda; Copepoda; Isopoda; Ostracoda [Ecology /  / Carbonate fen complex] [Distribution within habitat /  / Ecological relationships] [Germany / Bavaria, 'Benninger Ried' / Faunal survey; annotated list; distribution & ecology]. ","Meisch, Claude; Musee national d'histoire naturelle, 25 rue Munster, L-2160 Luxembourg, Luxembourg.","More than 1500 Ostracoda, 2300 Copepoda and a high, not exactly determined number of Amphipoda and Isopoda from the spring area Benninger Ried (Memmingen, Bayern), collected 2001/2002, were studied. The presence of totally 39 Taxa (15 species of ostracods, 20 copepods, 3 amphipods, and the isopod Asellus aquaticus) is documented. The collection includes an interesting species of the amphipod genus Nipahrgus (gr. kochianus), impossible to classify from the available material. All species are briefly characterized, and their distribution in the study area is discussed.",,,,,,,,,,,,,,,,claude.meisch@education.lu,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Biologica Benrodis,2021-04-13,ZOOREC:ZOOR14506040615,1,0,"Weltje, Lennart; Oehlmann, Joerg",J,English,Effects of endocrine disrupting compounds and temperature on the moulting frequency of the freshwater isopod Asellus aquaticus L. (Isopoda: Asellota).,2006.0,Developmental Biology; Zoology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,13,0177-9214,,2006,,,Asellus aquaticus [Ecdysis / Moulting frequency / ] [Chemical factors / Endocrine disrupting compounds / ] [Temperature /  / ]. ,"Weltje, Lennart; BASF AG, Agricultural Center - Ecotoxicology, APD/EE-Li425, Carl-Bosch-Strasse 64, D-67117 Limburgerhof, Germany, Germany.",,,,,,,,,,,,,,,,,lennart.weltje@basf-ag.de,"Oehlmann, Jorg/0000-0002-6075-2701","Oehlmann, Jorg/B-4565-2010",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Meeting paper,Su Urunleri Dergisi,2021-04-13,ZOOREC:ZOOR14308053030,0,0,"Ertan, O. Osman; Gulle, Iskender; Yildirim, M. Zeki",J,Turkish,Distribution of macrobenthic organisms depending on water quality and bottom structure of Capali Lake (Afyon).,2006.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology,23,1300-1590,1,2006,,,"Invertebrata [Community structure /  / Lake bottom structure & water quality relations; macrobenthic taxa] [Distribution within habitat /  / ] [Lake /  / Macrobenthic community structure & distribution] [Abiotic factors / Water quality / Macrobenthic community structure & distribution relations] [Turkey / Afyon, Capali Lake / ]. ","Gulle, Iskender; Suleyman Demirei Universitesi, Egirdir Su Urunleri Fakultesi, 32500 - Egirdir, Isparta, Turkey, Turkey.","This study was carried out between July 2000 and June 2001. Some water quality parameters and, distribution and density of macrobenthic organisms were observed during one year with every two monts. In the first station Theodoxus anatolicus (Recluz, 1841), Graecoanatolica tenuis (Radoman, 1943) (Gastropoda) and Trichoptera larvae were massively found, whereas the second and third stations in characteristic of mesotrophy and eutrophy status are macrobenthic organisms diversity and density are very low. In IV. station having eutrophy-hyper eutrophy status, Chironomidae larvae (diptera), Tubifex sp. (Oligochaeta) and Asellus aquaticus (Linnaeus, 1758) (Isopoda) are highly determined.",,,,,,,,,,,,,,,,igulle@sedu.edu.tr,,,,,,,DOAJ Gold,,,,,,(1 Supplement),,,,,,,,,,,,,,,,,
Article,Su Urunleri Dergisi,2021-04-13,ZOOREC:ZOOR14212073012,0,0,"Aygen, Cem; Balik, Suleyman",J,Turkish,"Crustacea fauna of Isikli Lake and Springs (Civril, Denizli).",2006.0,Zoology,22,1300-1590,3-4,Temmuz-Aralik 2005(2006),,,"Crustacea [Turkey / Denizli, Isikli Lake / Faunal list including new records for 29 species]. ","Aygen, Cem; Ege Universitesi, Su Urunleri Fakultesi, Temel Bilimler Bolumu, Icsular Biyolojisi Anabilim Dali, 35100 Bornova, Izmir, Turkey, Turkey.","The aim of this dissertation is investigation of the Crustacea fauna of Isikli Lake. With this aim, biological samples and water samples were taken from 6 stations in lake and springs by monthly intervals, between February 1998 and January 1999. At the end of the study, we have found that the Crustacea fauna of Isikli Lake and springs composed of Cladocera (16 species), Copepoda (12 species), Ostracoda (1 species), Amphipoda (2 species), Isopoda (1 species), Mysidacea (1 species) and Decapoda (1 species). Of these species, Diaphanosoma brachyurum, Diaphanosoma mongolianum, Ceriodaphnia pulchella, Simocephalus vetulus, Macrothrix laticornis, Alona rectangula, Alona guttata, Graptoleberis testudinaria, Leydigia leydigi, Biapertura affinis, Chydorus sphaericus, Pleuroxus aduncus and Disparalona rostrata of Cladocera; Macrocyclops albidus, Eucyclops serrulatus, Eucyclops speratus, Eucyclops macruroides, Metacyclops gracilis, Mesocyclops leuckarti, Cyclops vicinus, Cyclops abyssorum, Cyclops strenuus, Megacyclops viridis, Acanthocyclops robustus, Canthocamptus staphylinus of Copepoda; Psychrodromus olivaceus of Ostracoda; Gammarus balcanicus and Gammarus obnixus of Amphipoda; Asellus aquaticus of Isopoda were recorded in Isikli Lake for the first time.",,,,,,,,,,,,,,,,cem.aygen@ege.edu.tr,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Suomen Riista,2021-04-13,ZOOREC:ZOOR14301004737,7,1,"Nummi, Petri; Kattainen, Saara",J,Finnish,"Keystone herbivore, the beaver Castor spp. affects other animals.",2006.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology; Nutrition & Dietetics,52,0355-0656,,2006,,,Animalia [Trophic structure /  / Effect of mammalian feeding behaviour; beaver pond] [Community structure /  / ] [Population dynamics /  / ] [Succession in habitats /  / ] [Pond / Beaver pond habitat / Mammalian feeding behaviour; ecological impact]. Castor [Feeding behaviour /  / Impact on habitat & trophic structure; beaver ponds] [Trophic structure /  / Feeding behaviour & creation of ponds significance] [Succession in habitats /  / ] [Impact on habitat /  / ] [Pond / Beaver pond habitat / Feeding behaviour impact on habitat succession & trophic structure]. ,"Nummi, Petri; Department of Applied Biology, P.O. Box 27, FI-00014 University of Helsinki, Finland, Finland.","By creating ponds, beavers affect many kinds of animals including invertebrates, fish, amphibians, birds and mammals. The flooded shore vegetation forms the base of the food webs in beaver ponds. These decomposing plants are used by detritus-feeding invertebrates, mainly Cladocera. Chironomidae larvae and Asellus aquaticus. The number of emerging insects, mainly chironomids, can also be high in beaver flowages. Fish benefit from the increased production ofinvertebrates in heaver ponds, although in warm areas the conditions in flowages may become sub-optimal especially for salmonids. Fish productivity usually peaks during the first years of inundation. but diversity is highest later, from 9 to 17 years after flooding. The number of amphibians. lizards and turtles is higher in shores affected by beaver than in other parts oval of the waterways. The warm water of beaver ponds as 1973,well as their grassy and sinous shoreline is beneficial for these species groups. Birds, such as swallows, waders, herons and ducks are numerous in wetlands influenced by beaver. Of these, the response by ducks to beaver is best known. Both the structure of beaver ponds, e.g. high perimeter-to-surface ratio and presence of flooded bushes, and invertebrate abundance is beneficial to ducks. In boreal waters, the first duck to colonize a beaver pond is the teal Anus crecca. A significant increase in teal pair numbers was found in ponds which were dammed by heavers (Fig. I). Likewise, cluck brood numbers increased during beaver inundation (Fig. 2). Broods of all the ducks commonin one study area - mallard A. platychynchos, teal, goldeneye Bucephala dcrugula - used flooded areas more than expected. Again, teal broods were especially inclined to stay in beaver ponds: about 60% of downy teal broods were detected on shores flooded by beaver although flooded shores comprised only 6% of the total shore line of the area. Beavers affect both aquatic and terrestrial mammals. During the aquatic phase fish eating otters and minks appear to use beaver ponds a lot. During the winter, otters benefit from the areas of open water near beaver buildings where they can easily get under ice. Minks can also predate on small mammals which abound in areas populated by heaver. Bats also use heaver ponds for foraging more often than non-disturbed forest ponds. Bats most likely benefit from the increased level of insect production at these beaver fiowages. After heavers abandon them, the heaver meadows are gradually colonized by deciduous trees and bushes. These meadows are used by herbivores such as hares, deer and moose Alces alces. Beavers have returned to many places in Europe, partly clue to reintroductions which still are planned in Scotland, for example. Apart from the inherent value created by having a species hack from extinction, the return of the heaver also provides additional benefits. The beaver is a keystone species, which creates a habitat for many other species. This may he especially relevant from the point of view of some threatened groups of species, such as bats and amphibians. Promoting the beaver as a habitat creator could be a useful and economical tool contributing to their protection.",,,,,,,,,,,,,,,,petri.nummi@helsinki.fi,"Nummi, Petri/0000-0003-1452-4633",,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mikrokosmos,2021-04-13,ZOOREC:ZOOR14105030960,0,0,"Zucchi, Herbert; Zucchi, Karin",J,German,[Ecology and identification of three lotic German asellid species (Isopoda: Asellidae).],2005.0,Zoology; Anatomy & Morphology,94,0026-3680,2,Maerz 2005,,,Asellus aquaticus; Proasellus coxalis; Proasellus meridianus [General morphology /  / Species differentiation] [Pleopods /  / ]. ,"Zucchi, Herbert; Fakultaet Agrarwissenschaften und Landschaftsarchitektur, AG Zoologie/Oekologie/Umweltbildung, Fachhochschule Osnabrueck, Oldenburger Landstrasse 24, D-49090 Osnabrueck, Germany, Germany.",,,,,,,,,,,,,,,,,H.Zucchi@fh-osnabrueck.de,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Meeting paper,Oceanological and Hydrobiological Studies,2021-04-13,ZOOREC:ZOOR14205029982,1,0,"Arbaciauskas, Kestutis",J,English,"The distribution and local dispersal of Ponto-Caspian Peracarida in Lithuanian fresh waters with notes on Pontogammarus robustoides population establishment, abundance and impact.",2005.0,Zoology; Environmental Sciences & Ecology,34,1730-413X,,2005,,,Pontogammarus robustoides [Ecology / Ecological impacts / ] [Relative abundance /  / ] [Population density /  / ] [Habitat colonization /  / Environmental factors relations] [Abiotic factors / Environmental factors / Dispersal & habitat colonization relations] [Dispersal /  / ] [Lithuania /  / distribution; impacts; population density & relative abundance]. ,"Arbaciauskas, Kestutis; Institute of Ecology, Vilnius University, Akademijos St. 2, LT-08412 Vilnius-21, Lithuania, Lithuania.","Recently, the introduced Ponto-Caspian mysids and amphipods live in three water reservoirs (WR) and fifteen lakes of Lithuania. Hemimysis anomala inhabits only Kaunas WR, whereas other mysids, Paramysis lacustris and Limnomysis benedeni, occur in three and two WRs, and in eleven and two lakes, respectively. The alien amphipods Pontogammarus robustoides, Chaetogammarus warpachowskyi, and Obesogammarus crassus inhabit three, two, and two WRs, and nine, seven, and three lakes, correspondingly. The ability of the mysid P. lacustris to disperse upstream is higher than that of the introduced amphipods. Of the introduced peracaridan species, the mysid P. lacustris and the amphipod P. robustoides are best adapted to stagnant water environments. They can only establish viable populations in large, open lakes, or in lakes with high water turnover. The probability of P. robustoides establishing a sustainable population is higher in mesotrophic lakes than it is in eutrophic lakes. In lakes that provide sufficient oxygen conditions for P. robustoides, the process of the development of populations might be mediated by water ion content. The abundance of the amphipod P. robustoides in stagnant water bodies is positively correlated with their area. In habitats that are favorable for P. robustoides, this alien amphipod species out-competes the native amphipod species Gammarus lacustris and has a negative impact on the native isopod Asellus aquaticus.",,,,,,,,,,,,,,,,arbas@ekoi.lt,,,,,,,,,,,,,(Supplement 1),,,,,,,,,,,,,,,,,
Article,London Naturalist,2021-04-13,ZOOREC:ZOOR14107040602,1,0,"Edmonds-Brown, Veronica; Copp, Gordon H.; Majecki, Janusz",J,English,Diel patterns of drift by macroinvertebrates in the River Lee (Hertfordshire) during low discharge.,2004.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Meteorology & Atmospheric Sciences,83,0076-0579,,December 2004,,,"Macroinvertebrata [Population density /  / Diel patterns of drift in river during low discharge] [Distribution within habitat /  / ] [River /  / Diel patterns of drift during low discharge] [Light /  / Diel patterns of drift in river relationship] [Temperature / Water temperature / ] [Water movements / River discharge / Diel patterns of drift relationship] [England / Hertfordshire, River Lee / ]. ","Edmonds-Brown, Veronica; Division of Environmental Sciences, University of Hertfordshire, College Lane, Hatfield, Hertfordshire, AL10 9AB, United Kingdom, United Kingdom.","The present study aimed to determine the periodicity of invertebrate drift and its relation to environmental factors. Macroinvertebrate drift samples from Woolmer's Park on the River Lee were collected every three hours over twenty-four-hour periods, once a week between 10 May and 13 July 1995 inclusive. Samples were collected every three hours along with measurements of water velocity, luminosity and water temperature. The most abundant taxa recorded in the drift samples were the Ephemeroptera, Caenis robusta, Baetis rhodani, Ephemerella ignita, Asellus aquaticus and Chironomidae. C. robusta and B. rhodani exhibited night-time maxima, E. ignita and Chironomidae had diel patterns of drift during daylight hours. Chironomid drift was significantly, positively correlated with discharge, whereas E. ignita was inversely correlated with discharge. A. aquaticus peaks in drifting densities occurred at 12.00 and 03.00 hours indicating that for this species, light was not a factor. No correlation between numbers of A. aquaticus drifting and discharge and water temperature were found. Note is made of the fact that correlations between drift densities, which are often reported in ecological studies, are spurious in that the drift densities are derived from water velocity measurements at the net's entrance.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Lauterbornia,2021-04-13,ZOOREC:ZOOR14009051841,0,0,"Kontschan, Jeno",J,English,The aquatic Amphipoda and Isopoda (Crustacea) of the Transdanubian Mountains in northwest Hungary.,2004.0,Zoology,49,0935-333X,,20 Mai 2004,,,Amphipoda; Isopoda [Hungary / Transdanubian Mountains / Aquatic fauna list & distribution notes]. ,"Kontschan, Jeno; Systematic Research Group of the Hungarian Academy of Sciences & Eotvos Lorand University & Zoological Department of the Hungarian Natural History Museum, H-1088 Budapest, Baross str. 13, Hungary, Hungary.","The examination of springs, streams and ponds in the Transdanubian Mountains yielded 4 Amphipoda species (Gammarus roeselii, Gammarus fossarum, Synurella ambulans, Niphargus valachicus) and the Isopoda species Asellus aquaticus. Most common was Gammarus roeselii; Asellus aquaticus was frequent in waters with high content of organic matter.",,,,,,,,,,,,,,,,kontscha@zoo.zoo.nhmus.hu,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin of the British Myriapod and Isopod Group,2021-04-13,ZOOREC:ZOOR14007039919,2,0,"Harding, Paul T.",J,English,Distribution of freshwater Isopoda in Britain and Ireland.,2004.0,Zoology,20,1475-1739,,2004,,,Asellus aquaticus; Asellus cavaticus; Asellus communis; Asellus meridianus [Republic of Ireland /  / Distribution] [United Kingdom /  / ]. ,"Harding, Paul T.; CEH Monks Wood, Abbots Ripton, Huntingdon, PE28 2LS, United Kingdom, United Kingdom.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,English Nature Research Reports,2021-04-13,ZOOREC:ZOOR14012070711,1,0,"Boyce, D.C.",J,English,A study of the distribution and ecology of the lesser silver water beetle Hydrochara caraboides on the Somerset Levels.,2004.0,Zoology; Environmental Sciences & Ecology,591,0967-876X,,2004,,,Hydrochara caraboides [Ecology /  / ] [England / Somerset Levels / Distribution & ecology]. ,,"Using the information in section 4, it is possible for us to set out a series of habitat requirements for Hydrochara caraboides. These can be summarised as follows: .. still, or very slow-flowing water; .. shallow, often seasonally inundated waterbodies; .. leafy or detritus-rich substrates; .. clear water, without excessive growth of floating duckweeds; .. abundant invertebrate prey, especially small Crustacea and Asellus aquaticus; .. mats of floating sweet-grass Glyceria fluitans; On the Somerset Levels, the above combination of habitat requirements are most often met with in seasonally inundated, late-successional ditches with at least some shading from trees, or in areas of wooded swamp. It appears that Hydrochara occurred more widely on the Somerset Levels in the past in open ditches. Eutrophication and the concomitant increase in floating duckweeds are the most likely cause of its disappearance from such areas. The following summary aims to pick up the habitat requirements of Hydrochara and translate them into management recommendations that will maintain and enhance the breeding colonies of the beetle at its Somerset sites. .. Ensure that the ditch clearing rotation allows for the development of late-successional ditches with shallow water and a deep detritus layer. .. Maintain at least partial tree cover along late-successional ditches within breeding areas. .. Manage water levels to ensure that there is suitable shallow water (less than half a metre) within breeding areas from March through to July. .. Maintain areas of seasonally flooded swamp woodland within the Somerset peat moors. Create new areas of habitat by raising water levels to depths of less than half a metre in woodland between March and July. .. Avoid clearance of ditches within breeding areas between May and August inclusive, when egg cocoons and larvae are in the water, or when pupae are present in ditch banks. .. Investigate means of controlling the growth of Lemna minuta and other floating duckweeds in waterbodies that would otherwise provide suitable breeding habitat for Hydrochara.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vestnik Belorusskogo Gosudarstvennogo Universiteta Seriya 2 Khimiya Biologiya Geografiya,2021-04-13,ZOOREC:ZOOR14102014115,0,0,"Pavliutin, A.P.",J,Russian,The quantitative aspects of allochtonous [allochthonous] detritus utilization by Asellus aquaticus L.,2003.0,Anatomy & Morphology; Zoology; Nutrition & Dietetics,1,,,Fevral 2003,,,Asellus aquaticus [Age /  / Feeding rate & food assimilation relationships] [Weight /  / ] [Energy intake / Food assimilation / age & food composition relationships] [Feeding rate /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Folia Musei Historico-Naturalis Bakonyiensis,2021-04-13,ZOOREC:ZOOR14005029656,0,0,"Kontschan, Jeno",J,Hungarian,"The Peracarida fauna of the Transdanubian Mountains (Gerecse, Vertes and the region of Bakony). I. Aquatic species.",2002.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,19,0231-035X,,2000(2002),,,Asellus aquaticus; Gammarus fossarum; Gammarus roeseli; Niphargus valachicus; Synurella ambulans [Population dynamics /  / Spring & swamp habitats] [Distribution within habitat /  / ] [Spring water /  / Population dynamics & distribution] [Swamp /  / ] [Hungary / Transdanubian Mountains / ]. ,"Kontschan, Jeno; MTA-ELTE Zootaxonomical Kutatocsoport, Magyar Termeszettudomanyi Muzeum Allattara, H-1088 Budapest, Baross u. 13, Hungary, Hungary.","We found 4 amphipod and 1 isopod species in the three less-known area of the Transdanubian Mts. G. roeseli was the most frequent and wide-spread species, but we also found A. aquaticus in high quantity and in many places. S. ambulans occurs in special spring and swamp habitats. In the region of the springs G. fossarum was frequent, while N. valachicus was found only at one place.",,,,,,,,,,,,,,,,kontscha@zoo.zoo.nhmus.hu,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bekaempelsesmiddelforskning fra Miljostyrelsen,2021-04-13,ZOOREC:ZOOR13900062424,0,0,"Lauge Pedersen, Carsten",J,English,Effects of the pesticides esfenvalerate and prochloraz on pond ecology: with special attention on Asellus aquaticus (L.).,1999.0,Developmental Biology; Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,50,1395-5403,,1999,,,Asellus aquaticus [Growth rate /  / Pesticides impact assessment; mesocosm study] [Fertilizer and pesticide pollution / Esfenvalerate & prochloraz pesticides / Impact on growth rate] [Fertilizers and pesticides /  / ]. Invertebrata [Community structure /  / Pesticides impact on pond community assessment; mesocosm study] [Population density /  / ] [Pond /  / Pesticides impact on community assessment] [Fertilizer and pesticide pollution / Esfenvalerate & prochloraz pesticides / Impact on pond community assessment] [Fertilizers and pesticides /  / ]. ,"Lauge Pedersen, Carsten; Roskilde University, Department of Environment, Technology and Social Studies, Universitetsvej 1, P.O.Box 260, DK- 4000 Roskilde, Denmark, Denmark.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Polish Journal of Environmental Studies,2021-04-13,ZOOREC:ZOOR13600037967,0,0,"Czeczuga, B.; Kozlowska, M.; Godlewska, A.",J,English,Zoosporic fungus species growing on dead benthos crustaceans.,1999.0,Zoology; Environmental Sciences & Ecology; Infectious Diseases; Marine & Freshwater Biology,8,1230-1485,6,1999,,,Asellus aquaticus; Gammarus fossarum; Gammarus lacustris; Gammarus pulex; Pallasiola quadrispinosa [Associations /  / Fungi; Mycoflora growing on dead benthos; Poland]. Crustacea [Associations /  / Fungi; Mycoflora growing on dead benthic taxa] [Transmission of fungi /  / ] [Freshwater habitat /  / ] [Poland /  / North east]. ,"Czeczuga, B.; Department of General Biology, Medical University, Kilinskiego 2, 15-230 Bialystok 8, Poland, Poland.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Izvestiya Rossiiskoi Akademii Nauk Seriya Biologicheskaya,2021-04-13,ZOOREC:ZOOR13500048487,0,0,"Pashkova, I.M.; Korotneva, N.V.",J,Russian,Population analysis of changes in heat resistance of hog slaters (Asellus aquaticus L.) during reproduction.,1998.0,Zoology; Physiology; Reproductive Biology; Genetics & Heredity; Evolutionary Biology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,6,1026-3470,,Noyabr'-Dekabr' 1998,,,Asellus aquaticus [Temperature relationships /  / Population heat resistance changes during reproduction; related factors] [Reproduction /  / Population heat resistance change relationships; influencing factors] [Physiological and biochemical sex differences /  / ] [Population genetics /  / Genetic structure; effect of heat resistance changes during reproduction] [Natural selection /  / Population heat resistance change significance; during reproduction] [Temperature /  / ]. ,"Pashkova, I.M.; Institute of Cytology, Russian Academy of Sciences, Tikhoretskii prosp. 4, St. Petersburg 191064, Russia, Russia.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Pestycydy,2021-04-13,ZOOREC:ZOOR13500012390,0,0,"Przybylski, Zdzislaw",J,Polish,The results of the research on the impact of Trzebosnica River polluted by postrefrigerating water on aquatic animal organisms.,1998.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology,3-4,0208-8703,,1997(1998),,,Asellus aquaticus; Lebistes reticulatus [Mortality /  / Industrial cooling water toxicity; environmental indicator] [Environmental indicators /  / Mortality from industrial cooling water toxicity] [River /  / bioindicator role] [Pollution /  / environmental significance] [Poland /  / River Trzebosnica]. ,"Przybylski, Zdzislaw; Instytut Ochrony Roslin w Poznaniu, Terenowa Stacja Doswiadczalna, ul. Langiewicza 28, 35-101 Rzeszow, Poland, Poland.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Arthropoda Selecta,2021-04-13,ZOOREC:ZOOR13300054648,0,0,"Tarasov, Anatoly G.",J,English,Malacostraca of the middle and lower flows of Viatka River (Crustacea).,1997.0,Zoology,5,0136-006X,3-4,December 1996(1997),,,Asellus aquaticus; Gammaridae; Pontastacus leptodactylus boreoorientalis [Russia /  / Viatka River system; Distribution records]. Dikerogammarus haemobaphes [Russia /  / Viatka River system; First record]. ,"Tarasov, Anatoly G.; Institute of Geography, Russian Academy of Sciences, Staromonetnyi per. 29, Moscow 109017, Russia, Russia.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article; Meeting paper,Geobios Memoire Special (Villeurbanne),2021-04-13,ZOOREC:ZOOR13400055515,0,0,"Hervant, Frederic",J,French,Responses and adaptations to severe hypoxia in hypogean and epigean crustaceans.,1997.0,Zoology; Environmental Sciences & Ecology; Biochemistry & Molecular Biology; Respiratory System; Behavioral Sciences,21,0293-843X,,1997,,,Asellus aquaticus; Gammarus fossarum; Niphargus rhenorhodanensis; Niphargus virei [Gases /  / Hypoxia; survival & adaptations; comparative study]. Crustacea [Biochemistry /  / Hypogeal & epigeal species metabolic adaptations to environmental hypoxia] [Respiratory function /  / Adaptations to environmental hypoxia; hypogeal & epigeal species] [Avoidance behaviour /  / Hypogeal & epigeal species behavioural adaptations to environmental hypoxia] [Survival /  / Hypoxia] [Gases /  / survival & adaptations of hypogeal & epigeal species]. ,"Hervant, Frederic; Universite Claude-Bernard, Lyon 1, Laboratoire ""Hydrobiologie et Ecologie Souterraines"", ESA du CNRS 5023, 43, Bd du 11 Novembre, F-69622 Villeurbanne cedex, France, France.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Zoologicheskogo Instituta,2021-04-13,ZOOREC:ZOOR13400064452,1,0,"Arakelova, E.S.",J,Russian,The influence of trophic cinditions [conditions] on feeding and dissipation of assimilated energy in Asellus aquaticus. 1. Feeding strategy and assimilation.,1997.0,Zoology; Nutrition & Dietetics; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,272,0206-0477,,1997,,,Asellus aquaticus [Energy budget /  / Feeding strategy in various trophic conditions relationships; lake] [Food availability /  / Trophic conditions; effect on feeding strategy & energetics] [Feeding rate /  / Energy assimilation & trophic conditions relationships] [Feeding behaviour /  / Strategy] [Biological breakdown /  / role of feeding behaviour] [Temperature /  / Feeding behaviour & energy budget relationships] [Russia /  / Lake Kostomojarvi; Feeding strategy & energy assimilation; effect of trophic conditions]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Russian Journal of Aquatic Ecology,2021-04-13,ZOOREC:ZOOR13400032482,0,0,"Arakelova, Ekaterina S.",J,English,Feeding strategy and energy allocation in Asellus aquaticus L.,1996.0,Anatomy & Morphology; Zoology; Physiology; Nutrition & Dietetics; Marine & Freshwater Biology; Environmental Sciences & Ecology,5,0136-0051,1-2,December 1996,,,Asellus aquaticus [Weight /  / Feeding & energy budget relationships] [Oxygen consumption /  / Dry weight relationship] [Nutrition /  / Feeding strategy & energy allocation] [Defaecation /  / Rate; diet & dry weight relationships] [Diet /  / egestion & energy assimilation relationships] [Energy intake /  / Assimilation rate; dry weight & diet relationships] [Feeding rate /  / Diet relationship & effect on energy budget] [Lake /  / ] [Russia /  / Karelia; Kostomojarvi Lake]. ,"Arakelova, Ekaterina S.; Laboratory of Freshwater and Experimental Hydrobiology, Zoological Institute of RAS, University Emb. 1, St-Petersburg 199034, Russia, Russia.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Biologiya Vnutrennikh Vod Informatsionnyi Byulleten',2021-04-13,ZOOREC:ZOOR13300041812,0,0,"Kaufman, B.Z.",J,Russian,Evolutionary value of changes in behaviour of acanthocephalan hosts.,1996.0,Physiology; Zoology; Parasitology; Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology; Evolutionary Biology,100,,,1996,,,Acanthocephala [Temperature relationships /  / Thermal tolerance; role of annelid & crustacean host adaptive behaviour] [Annelid hosts /  / Oligochaeta; Parasite thermal tolerance in relation to host adaptive behaviour] [Crustacean hosts /  / Asellus aquaticus & Gammarus pulex] [Temperature /  / Parasite tolerance; annelid & crustacean host adaptive behaviour relations]. Asellus aquaticus; Gammarus pulex; Oligochaeta [Evolutionary adaptation /  / Light preference; acanthocephalan parasite thermal tolerance relationships] [Acanthocephalan parasites /  / Host light preference in relation to parasite thermal tolerance] [Light /  / Adaptation]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Russian Journal of Aquatic Ecology,2021-04-13,ZOOREC:ZOOR13300019568,0,0,"Panov, Vadim E.; Mladenova, Anjuta G.; Poljakova, Elena A.",J,English,Effects of feeding on the rate of oxygen consumption of the isopod Asellus aquaticus and the leech Erpobdella octoculata.,1995.0,Zoology; Physiology; Nutrition & Dietetics; Environmental Sciences & Ecology,4,0136-0051,1,July 1995,,,Asellus aquaticus [Oxygen consumption /  / Response to feeding] [Diet /  / Faecal diet; oxygen consumption response to feeding] [Food plants /  / Willow]. Erpobdella octoculata [Oxygen consumption /  / Response to feeding] [Annelid prey /  / Tubificidae; Predator oxygen consumption response to feeding]. Tubificidae [Annelid predators /  / Erpobdella octoculata; Predator oxygen consumption response to feeding]. ,"Panov, Vadim E.; Laboratory of Freshwater and Experimental Hydrobiology, Zoological Institute, Russian Academy of Sciences, 199034 St.-Petersburg, Russia, Russia.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin Scientifique de Bourgogne,2021-04-13,ZOOREC:ZOOR13300027288,0,0,"Henry, Jean-Paul; Magniez, Guy",J,French,"[New distributional stations of Asellus (Asellus) aquaticus (Crustacea, Isopoda, Asellota, Asellidae) on the island of Madeira.]",1995.0,Zoology,47,0373-2061,,1995,,,Asellus (Asellus) aquaticus aquaticus [Atlantic Ocean islands /  / Madeira; New distributional records]. ,"Henry, Jean-Paul; Universite de Bourgogne, Dept. Biologie Animale, 6, Bd. Gabriel, 21000 Dijon, France, France.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin Scientifique de Bourgogne,2021-04-13,ZOOREC:ZOOR13300027289,0,0,"Henry, Jean-Paul; Magniez, Guy",J,French,"[Asellus aquaticus aquaticus in Iran (Crustacea, Isopoda, Asellota, Asellidae).]",1995.0,Zoology,47,0373-2061,,1995,,,Asellus (Asellus) aquaticus aquaticus [Palaearctic region /  / Distribution range] [Iran /  / North east; First record & range extension]. ,"Henry, Jean-Paul; Universite de Bourgogne, Dept. Biologie Animale, 6, Bd. Gabriel, 21000 Dijon, France, France.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnetica,2021-04-13,ZOOREC:ZOOR13600042370,0,0,"Zamora Munoz, Carmen; Alba-Tercedor, Javier",J,Spanish,Asellus aquaticus (L.) in the Iberian Peninsula.,1994.0,Marine & Freshwater Biology; Environmental Sciences & Ecology; Zoology,10,0213-8409,2,Diciembre 1994,,,Asellus aquaticus [River /  / Habitat characteristics] [Spain /  / Genil basin; Distribution; habitat characteristics & first record for Iberian Peninsula]. ,"Zamora Munoz, Carmen; Departamento de Biologia Animal y Ecologia, Facultad de Ciencias, Universidad de Granada, 18071 - Granada, Spain, Spain.",,,,,,,,,,,,,,,,,,"Zamora-Munoz, Carmen/0000-0002-3037-1529","Zamora-Munoz, Carmen/K-7050-2014",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,DATZ,2021-04-13,ZOOREC:ZOOR13100039176,0,0,"Fehringer, Peter",J,German,"Die ""Asselbombe"".",1994.0,Zoology; Nutrition & Dietetics,47,0941-8393,9,September 1994,,,Asellus aquaticus [Housing techniques /  / Maintenance as captive piscean diet]. Pisces [Diet in captivity /  / Live crustacean prey maintenance] [Crustacean prey /  / Asellus aquaticus; Prey maintenance as captive diet]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Classe di Scienze Fisiche Matematiche e Naturali Rendiconti Lincei Scienze Fisiche e Naturali,2021-04-13,ZOOREC:ZOOR13100027113,1,0,"Vitagliano, Eleonora; Marchetti, Enzo; Maccauro, Paola",J,English,"Correlation among skewed sex ratio, monogeny and maternal sex determination in Asellus aquaticus (L.).",1994.0,Reproductive Biology; Zoology; Genetics & Heredity; Environmental Sciences & Ecology,5,1120-6349,3,1994,,,Asellus aquaticus [Reproductive productivity /  / Comparative study; France & Italy] [Sex determination genetics /  / Maternal inheritance proposal] [Population sex ratio /  / Embryos & hybrids] [France /  / Toulouse area; Embryo & hybrid sex ratio & sex determination genetics; Italian comparison] [Italy /  / Naples area; French comparison]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,Serie 9,,,,,,,,,,,,,,,,,
Article,Bericht des Naturwissenschaftlichen Vereins fuer Bielefeld und Umgegend E V,2021-04-13,ZOOREC:ZOOR13500053934,0,0,"Rustige, Karl Heinz; Friedrich, Christine",J,German,"[On the host, location and specificity of epizootic ciliates on Asellus aquaticus. With a determining key.]",1994.0,Zoology; Parasitology,35,0340-3831,,1994,,,Asellus aquaticus [Protozoan parasites /  / Ciliata; Distribution on host; specificity & parasite list & key] [Germany /  / Protozoan parasite list & key; distribution on host & specificity]. Ciliophora [Crustacean hosts /  / Asellus aquaticus; List; specificity; key & distribution on host] [Germany /  / Crustacean host; distribution on host; species list & key]. ,"Rustige, Karl Heinz; Universitat Bielefeld, Fakultat fur Biologie, Arbeitsgruppe Prof. Dr. R. Mannesmann, Postfach 10 01 31, D-33501 Bielefeld, Germany, Germany.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin Scientifique de Bourgogne,2021-04-13,ZOOREC:ZOOR13100066825,0,0,"Henry, Jean-Paul; Magniez, Guy; Malard, Florian",J,French,"Un aselle apparente a Asellus aquaticus de Bourgogne: Asellus hilgendorfii (Crustacea, Asellota, Asellidae) des eaux souterraines du Guangxi, Chine.",1994.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,46,0373-2061,,1994,,,Asellus (Asellus) hilgendorfii [Subterranean water /  / Record] [Guangxi Zhuang /  / Guilin; River Xing'an; First record for subtropical China & range extension; subterranean waters]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Geobotany,2021-04-13,ZOOREC:ZOOR13400026751,1,0,"Vermaat, J.E.",J,English,Periphyton removal by freshwater micrograzers.,1994.0,Zoology; Nutrition & Dietetics; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,21,0169-3174,,1994,,,Asellus aquaticus; Gammarus pulex [Diet /  / Periphyton removal from substrate; evidence]. Bithynia tentaculata; Lymnaea peregra; Physa fontinalis; Valvata piscinalis [Diet /  / Periphyton removal from substrate; rate & influences]. Gastropoda [Diet /  / Periphyton removal from substrate; rate & influences; freshwater] [Food availability /  / Rate of removal of periphyton from substrate relationship] [Feeding rate /  / influences] [Temperature /  / ]. ,"Vermaat, J.E.; International Institute for Infrastructural, Hydraulic and Environmental Engineering, P.O. Box 3015, 2601 DA Delft, Netherlands, Netherlands.",,,,,,,,,,,,,,,,,,"Vermaat, Jan/0000-0003-4250-6790","Vermaat, Jan/I-5856-2012",,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gidrobiologicheskii Zhurnal,2021-04-13,ZOOREC:ZOOR13100051216,0,0,"Caspler, P.L.; Malkin, A.V.",J,Russian,An analysis of vitality curves changes of some crustaceans and molluscs under the influence of copper and cadmium ions.,1994.0,Zoology; Biochemistry & Molecular Biology; Environmental Sciences & Ecology,30,0375-8990,3,1994,,,Asellus aquaticus; Gastropoda; Sphaerium nitidum [Pollutants /  / Cadmium & copper ions; impact on survival rate curve] [Survival /  / Cadmium & copper ion exposure impact on survival rate curve] [Metals /  / Cadmium & copper ion exposure]. Bithynia tentaculata; Physa aculeata; Viviparus viviparus [Survival /  / Cadmium & copper ion exposure impact on survival rate curve]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ricerche sull'Evoluzione del Lago Maggiore,2021-04-13,ZOOREC:ZOOR13400020719,0,0,"Nocentini, A.M.",J,Italian,[Investigations on the littoral habitat. Littoral macrobenthos.],1994.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology,1992,1013-8099,,1994,,,Asellus aquaticus [Population density /  / Lake benthon] [Lake /  / Benthon density] [Italy /  / ] [Switzerland /  / ] [Lake Maggiore /  / ]. Chironomidae [Biomass /  / Benthon] [Lake /  / Benthon density & biomass] [Italy /  / ] [Switzerland /  / ] [Lake Maggiore /  / ]. Helobdella stagnalis [Population density /  / Lake benthon] [Italy /  / Benthon abundance] [Switzerland /  / ] [Lake Maggiore /  / ]. Oligochaeta [Biomass /  / Benthon] [Lake /  / Benthon density & biomass] [Italy /  / Benthon abundance] [Switzerland /  / ] [Lake Maggiore /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vestnik Zoologii,2021-04-13,ZOOREC:ZOOR13200019058,0,0,"Kaufmann, B.Z.",J,Russian,"Halo- and pH-preference behaviour of water louse, Asellus aquaticus, and certain aspects of the species evolution.",1994.0,Physiology; Zoology; Environmental Sciences & Ecology,4-5,0084-5604,,1994,,,Asellus aquaticus [Ion and water relations /  / Habitat preference relationships] [Habitat preference /  / Salinity & pH tolerance relationships] [External pH /  / Tolerance] [Salinity /  / ] [Light /  / ] [Russia /  / Petrozavodsk]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Russian Journal of Aquatic Ecology,2021-04-13,ZOOREC:ZOOR13000064604,0,0,"Mlandenova, Anyuta",J,English,Importance of temperature for the energetic metabolism of fresh-water isopod (Asellus aquaticus (L.)).,1993.0,Physiology; Zoology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,2,0136-0051,1,July 1993,,,Asellus aquaticus [Oxygen consumption /  / Temperature relationship] [Temperature /  / Oxygen consumption relationship]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Classe di Scienze Fisiche Matematiche e Naturali Rendiconti Lincei Scienze Fisiche e Naturali,2021-04-13,ZOOREC:ZOOR13000005917,0,0,"Restante, Asessandra; Vitagliano, Eleonora; Valentino, Flora",J,English,The effect of 4[degree]C on the reproductive activity and the development of two geographical populations of Asellus aquaticus (L.) (Crustacea: Isopoda).,1993.0,Zoology; Physiology; Reproductive Biology; Developmental Biology; Evolutionary Biology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,4,1120-6349,1,1993,,,Asellus aquaticus [Temperature relationships /  / Cold resistance; evidence against natural selection; Italy & Scotland] [Pair formation /  / Temperature effects; Evidence against natural selection for resistance to cold] [Reproductive productivity /  / Reproductive success; effect of temperature] [Development /  / ] [Natural selection /  / evidence against selection] [Mortality /  / ] [Temperature /  / Development & reproduction relations] [Italy /  / Rome; Temperature effect on reproduction & development] [Scotland /  / St Andrews]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,Serie 9,,,,,,,,,,,,,,,,,
Article,Aquaculture and Fisheries Management,2021-04-13,ZOOREC:ZOOR12900029018,0,0,"Barak, N.A.-E.; Mason, C.F.",J,English,"Population density, growth and diet of eels, Anguilla anguilla L., in two rivers in eastern England.",1992.0,Zoology; Anatomy & Morphology; Nutrition & Dietetics; Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Meteorology & Atmospheric Sciences,23,0266-996X,1,1992,,,Anguilla anguilla [Size /  / Diet relationships; rivers] [Diet /  / Prey analysis; size & temperature relations] [Growth rate /  / Geographical variation] [Population density /  / Geographical & seasonal variation] [Age class distribution /  / ] [River /  / growth & diet] [Temperature /  / ] [England /  / Essex; Brett & Chelmer rivers]. ,,"The population density, growth and diets of eels, Anguilla anguilla L., from four sites on two rivers in eastern England [UK] were studied over 2 years. Eel population density varied greatly between sites and seasons, few eels being caught during the winter. Mean population densities ranged from 50 to 518 eels/ha and mean biomass from 35 to 210 kg/ha. Older eels were more numerous at upstream sites. Growth rates in the two rivers were generally similar, but eels 9-13 years old at upstream sites were significantly larger in terms of length and weight than their downstream counterparts. Of 868 eels examined, only 425 stomachs contained food, the percentage of empty stomachs being negatively correlated with temperature. Asellus aquaticus was the predominant food item at all sites in all seasons and in the three size classes of eels studied. Megaloptera and Trichoptera were also important. Fish, largely bottom-dwelling species, were found mainly in the largest size-class of eels and in the winter, when few large eels were feeding. Niche breadth expands with increasing size of eel.",,,,,,,,,,,,,10.1111/j.1365-2109.1992.tb00596.x,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book chapter,Ecotoxicology of metals in invertebrates.,2021-04-13,ZOOREC:ZOOR13000057009,0,0,"Shutes, Brian; Ellis, Bryan; Revitt, Michael; Bascombe, Andrew",B,English,The use of freshwater invertebrates for the assessment of metal pollution in urban receiving waters.,1992.0,Biochemistry & Molecular Biology; Zoology; Environmental Sciences & Ecology,,,,1992,,,Asellus aquaticus; Gammarus pulex [Pollutants /  / Copper; lead & zinc accumulation; urban water indicators] [Mortality /  / Metal accumulation relations; urban waters] [Environmental indicators /  / Metal pollution assessment] [Sewage habitat /  / metal accumulation analysis] [Metal pollution /  / ] [Metals /  / ] [England /  / London area; Metal accumulation & cause of mortality]. ,,,Lewis Publishers,,"Boca Raton, Ann Arbor, etc.",,,,,,,,,,,,,,,,,,,,,,,,,,,,0873717341,"Dallinger, Reinhard; Rainbow, Philip S.",,,,,,,,,,,,,,
Article,"Godishnik na Sofiiskiya Universitet ""Sv. Kliment Okhridski"" Biologicheski Fakultet Kniga 1 Zoologiya",2021-04-13,ZOOREC:ZOOR13000063250,0,0,"Zlatkov, Vladimir; Shishiniova, Maria",J,Bulgarian,Studies on the predation of some aquatic insect species on mosquito larvae.,1992.0,Nutrition & Dietetics; Zoology; Entomology; Environmental Sciences & Ecology; Developmental Biology,83,0204-9902,,1992,,,Agabus; Ilybius fuliginosus; Notonecta glauca; Rhantus suturalis [Crustacean prey /  / Asellus aquaticus; Predator prey relations] [Insect prey /  / Culex pipiens (Diptera) & Ephemeroptera]. Asellus aquaticus [Insect predators /  / Dytiscidae (Coleoptera) & Notonecta (Hemiptera); Predator prey relations]. Culex pipiens [Larval development /  / Insect predator relationships] [Insect predators /  / Dytiscidae (Coleoptera) & Notonecta (Hemiptera); Predator prey relations during prey larval development]. Ephemeroptera [Insect predators /  / Dytiscidae (Coleoptera) & Notonecta (Hemiptera); Predator prey relations; nymphs]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Istanbul Universitesi Fen Fakultesi Biyoloji Dergisi,2021-04-13,ZOOREC:ZOOR13100062313,0,0,"Ozmutlu, Ozden",J,English,"The heavy metal granules within the S1 cells of the hepatopancreas of Asellus aquaticus (Crustacea, Isopoda).",1992.0,Zoology; Biochemistry & Molecular Biology; Anatomy & Morphology,54,1300-7041,,1989-1990(1992),,,Asellus aquaticus [Pollutants /  / Heavy metal content; hepatopancreas epithelium vacuoles] [Digestive gland /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Istanbul Universitesi Fen Fakultesi Biyoloji Dergisi,2021-04-13,ZOOREC:ZOOR13100062316,0,0,"Ozmutlu, Ozden",J,English,"Secretion mechanism of the hepatopancreatic cells in a freshwater isopod, Asellus aquaticus.",1992.0,Anatomy & Morphology; Zoology,54,1300-7041,,1989-1990(1992),,,Asellus aquaticus [Digestive gland /  / Hepatopancreas ultrastructure & secretory activity]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book chapter,Proceedings of the first international conference on ground water ecology.,2021-04-13,ZOOREC:ZOOR13200008827,1,0,"Danielopol, Dan L.; Dreher, Jorge; Gunatilaka, Amara; Kaiser, Margot; Niederreiter, Richard; Pospisil, Peter; Creuze des Chatelliers, Michel; Richter, Andreas",B,English,Ecology of organisms living in a hypoxic groundwater environment at Vienna (Austria); methodological questions and preliminary results.,1992.0,Respiratory System; Zoology; Behavioral Sciences; Environmental Sciences & Ecology,,,,1992,,,Asellus aquaticus [Ventilation rate /  / Different oxygen concentrations; comparative study] [Activity patterns /  / Oxygen concentration effect] [Gases /  / Oxygen levels effect on ventilation rate & activity]. Cyclopoida; Ostracoda [Relative abundance /  / Groundwater species] [Population dynamics /  / ] [Austria /  / Vienna; Danube delta; Lobau wetland; distribution; population dynamics & relative abundance]. Proasellus slavus [Ventilation rate /  / Different oxygen concentrations; comparative study] [Activity patterns /  / Oxygen concentration effect] [Relative abundance /  / Groundwater species] [Population dynamics /  / ] [Gases /  / Oxygen levels effect on ventilation rate & activity] [Austria /  / Vienna; Danube delta; Lobau wetland; distribution; population dynamics & relative abundance]. ,,,American Water Resources Association,,Bethesda,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Stanford, Jack A.; Simons, John J.",,,,,,,,,,,,,,
Article,Acta Universitatis Lodziensis Folia Limnologica,2021-04-13,ZOOREC:ZOOR13000023260,0,0,"Galicka, Wanda; Grzybkowska, Maria; Koszalinski, Henryk",J,English,Materials for the investigation of caloricity and nutrient contents of chosen groups of invertebrates of the Warta River.,1991.0,Anatomy & Morphology; Zoology; Biochemistry & Molecular Biology; Nutrition & Dietetics; Environmental Sciences & Ecology; Marine & Freshwater Biology,5,0208-6158,,1991,,,Asellus aquaticus; Chironomidae; Gammarus; Hirudinea; Hydropsyche; Polycentropus [Weight /  / Dry weight; river macrobenthos comparisons] [Inorganic substances /  / Carbon/nitrogen/phosphorus contents] [Calorific value /  / Macrobenthos comparisons] [Nutrition /  / ] [River /  / Calorific values & nutrient contents] [Poland /  / Central; Warta River]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti del Congresso Nazionale Italiano di Entomologia,2021-04-13,ZOOREC:ZOOR12900040103,0,0,"Pannunzio, G.",J,Italian,Alcune componenti del popolamento macrobentonico della palude della Zittola (Abruzzo-Molise).,1991.0,Zoology; Environmental Sciences & Ecology,16,0374-5562,,1991,,,Asellus aquaticus; Gammarus italicus [Italy /  / Abruzzo-Molise; Zittola Marsh; Recorded]. Insecta [Marsh /  / Benthic species recorded] [Italy /  / Abruzzo-Molise; Zittola Marsh]. Mollusca [Marsh /  / Benthic species recorded] [Italy /  / Abruzzo-Molise; Zittola Marsh; Benthic fauna recorded & first record for Abruzzo]. Pisidium milium [Italy /  / Abruzzo-Molise; Zittola Marsh; First record for Abruzzo]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Universitatis Lodziensis Folia Biochimica et Biophysica,2021-04-13,ZOOREC:ZOOR12900030202,0,0,"Adamska, M.",J,English,Physico-chemical properties of the hemolymph and hemocyanin of Asellus aquaticus L.,1990.0,Zoology; Biochemistry & Molecular Biology; Cardiovascular System & Cardiology; Respiratory System,7,0208-614X,,1990,,,Asellus aquaticus [Biochemistry /  / Haemocyanin & haemolymph physico chemical properties] [Haemolymph /  / Physico chemical properties] [Respiratory pigments /  / Haemocyanin physico chemical properties]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Classe di Scienze Fisiche Matematiche e Naturali Rendiconti Lincei Scienze Fisiche e Naturali,2021-04-13,ZOOREC:ZOOR12700060404,1,0,"Marchetti, E.",J,English,The imperfect fitness of the male Asellus aquaticus (L.) for the identification of the receptive female.,1990.0,Zoology; Reproductive Biology; Developmental Biology; Evolutionary Biology,1,1120-6349,3,1990,,,Asellus aquaticus [Reproductive behaviour /  / Male ability to recognize receptive female; Breeding success relations & evolutionary rate] [Breeding success /  / Male ability to recognize receptive female role] [Ecdysis /  / Sexual receptivity relations; implications for breeding success; influences] [Evolutionary rate /  / breeding success relations]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Revue des Sciences de l'Eau,2021-04-13,ZOOREC:ZOOR12800016974,0,0,"le Bras, S.",J,French,Modification de la sensibilite au lindane d'Asellus aquaticus L. en fonction de la variation de facteurs biotiques (poids et metabolisme) et abiotiques (concentration de l'insecticide et temperature).,1990.0,Zoology; Anatomy & Morphology; Physiology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,3,0992-7158,2,1990,,,Asellus aquaticus [Size /  / Lindane sensitivity relationship; laboratory study] [Metabolic rate /  / ] [Fertilizers and pesticides /  / Lindane sensitivity; biotic & abiotic influences] [Temperature /  / ]. ,,"The sensitivity of Asellus aquaticus L. (Crustacea, Isoposa) to the insecticide lindane was studied in relation to its developmental stage (size) and metabolism. After tests of acute toxicity (48 h) with 1, 2, 4, or 8 mg .cntdot. L-1 of lindane, the percentage or mortality increased with the concentration. In further tests using sublethal concentrations, 1 or 2 mg .cntdot. L-1, the sensitivity increased with the weight of the organisms. A linear regression of mortality (probit of %) of Asellus was correlated with the mean concentration (M) of lindane and the weight (W) of Asellus for these two concentrations. It is possible to relate the percentage of mortality to the metabolic rate observed at the beginning of the experiment. The larger Asellua and/or those with a higher metabolic rate were the most sensitive. An increase in temperature which modified the metabolism, increased the sensitivity of this invertebrate. The percentage of mortality were respectively 1.35 and 26.64 at 10 and 20.degree.C. The interest of these results lies in the evaluation of the risks of pollution. In this type of study, it is very important to consider the biotic factors (size, metabolism) because the concentration of insecticide is generally close to a sublethal concentrations. Indeed biotic factors that modify the sensitivity are the main elements responsible for the intensity of the harm caused. The abiotic factor (temperature) that changes the physiology of invertebrate is also a significant factor.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Miscellanea Speologica Romanica,2021-04-13,ZOOREC:ZOOR13000011941,0,0,"Negoescu, Ileana",J,French,"Sur une population troglobie d'Asellus aquaticus (L.) (Isopoda, Asellota, Asellidae).",1989.0,Anatomy & Morphology; Zoology; Environmental Sciences & Ecology,1,1017-6292,,1989,,,Asellus aquaticus [General morphology /  / ] [Cave habitat /  / ] [Romania /  / Dogrogea]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Embryologiae et Morphologiae Experimentalis,2021-04-13,ZOOREC:ZOOR12800064515,0,0,"Vitagliano Tadini, G.; Valentino, F.; Marchetti, E.; Bertolami, M.V.",J,English,Contact-inhibition in spermatogonial division of Asellus aquaticus (L.).,1988.0,Reproductive Biology; Zoology; Cell Biology,8,0391-9706,2-3,1987[1988],,,Asellus aquaticus [Spermatogenesis /  / Mitotic index; distribution & duration of meiotic stages] [Testis /  / Distribution of meiotic stages] [Meiosis /  / Duration of stages] [Mitosis /  / Number of mitotic cells at various stages]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gosudarstvennyii Nauchno-Issledovatel'skii Institut Ozernogo i Rechnogo Rybnogo Khozyaistva Sbornik Nauchnykh Trudov,2021-04-13,ZOOREC:ZOOR12600059900,0,0,"Ivanova, V.V.",J,Russian,[Symptoms of poisoning of benthic organisms by chemical substances.],1988.0,Zoology; Anatomy & Morphology; Behavioral Sciences; Pathology; Environmental Sciences & Ecology,,0367-7974,,1988,,,Asellus aquaticus; Chironomus dorsalis; Cloeon dipterum; Gammarus lacustris [General morphology /  / Morphological adaptations to chemical poisoning] [Behaviour /  / Reactions to chemical poisoning; symptoms] [Diseases and disorders /  / Poisoning symptoms; behavioural & morphological adaptations] [Chemical pollution /  / ] [Chemical factors /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 287,,,,,,,,,,,,,,,,,
Article,Gosudarstvennyii Nauchno-Issledovatel'skii Institut Ozernogo i Rechnogo Rybnogo Khozyaistva Sbornik Nauchnykh Trudov,2021-04-13,ZOOREC:ZOOR12600063043,0,0,"Pavlov, A.M.",J,Russian,[A model of the feeding behaviour and food preference of larval dragonfly.],1988.0,Zoology; Environmental Sciences & Ecology; Nutrition & Dietetics; Mathematics,,0367-7974,,1988,,,Asellus aquaticus; Daphnia magna [Predators /  / Cordulia aenea (Odonata); Predator feeding behaviour; mathematical model]. Cordulia aenea [Feeding analysis techniques /  / Crustacean prey selectivity] [Mathematical model /  / Feeding behaviour; crustacean prey preference] [Prey /  / Asellus aquaticus & Daphnia magna (Crustacea)] [Food preferences /  / Crustacean prey]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 288,,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,ZOOREC:ZOOR12400045478,0,0,"de Nicola Giudici, M.; Migliore, L.; Gambardella, C.; Marotta, A.",J,English,"Effect of chronic exposure to cadmium and copper on Asellus aquaticus (L.) (Crustacea, Isopoda).",1988.0,Reproductive Biology; Zoology; Developmental Biology; Environmental Sciences & Ecology,157,0018-8158,3,1988,,,Asellus aquaticus [Fecundity /  / Chronic exposure to cadmium & copper; relationship] [Growth rate /  / ] [Survival /  / ] [Inorganic chemicals /  / Cadmium & copper; chronic effects on survival; growth rate & fecundity]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Internationale Vereinigung fuer Theoretische und Angewandte Limnologie Verhandlungen,2021-04-13,ZOOREC:ZOOR12500042204,0,0,"de Nicola Giudici, M.; Migliore, L.",J,English,"Long term effects of cadmium or copper on Asellus aquaticus (L.) (Crustacea, Isopoda).",1988.0,Biochemistry & Molecular Biology; Zoology; Reproductive Biology; Developmental Biology; Environmental Sciences & Ecology,23,0368-0770,3,1988,,,Asellus aquaticus [Pollutant content /  / Cadmium & copper; effects on survival; fecundity & growth rate] [Fecundity /  / Cadmium & copper concentration relationship] [Growth rate /  / ] [Survival /  / ] [Chemical pollution /  / ] [Inorganic chemicals /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Internationale Vereinigung fuer Theoretische und Angewandte Limnologie Verhandlungen,2021-04-13,ZOOREC:ZOOR12500067539,0,0,"Tadini, G.V.; Fano, E.A.; Colangelo, M.",J,English,The life history evolution of Asellus aquaticus (L.) explains its geographical distribution.,1988.0,Developmental Biology; Zoology; Evolutionary Biology,23,0368-0770,4,1988,,,Asellus aquaticus [Life cycle /  / Evolution; distribution relationship] [Evolutionary adaptation /  / Life history] [Europe /  / Distribution related to life history evolution]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Zoologicheskogo Instituta,2021-04-13,ZOOREC:ZOOR12600054951,0,0,"Panov, V.E.",J,Russian,[Estimated parameters of growth equations and productivity of invertebrate populations with the 'S' graphic type growth.],1988.0,Mathematics; Zoology; Environmental Sciences & Ecology,186,0206-0477,,1988,,,Asellus aquaticus; Gammarus lacustris [Mathematical techniques /  / Growth graph; population productivity] [Productivity /  / Growth parameters; mathematical technique] [Population dynamics /  / Growth & productivity]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Zoologicheskogo Instituta,2021-04-13,ZOOREC:ZOOR12600054953,0,0,"Panov, V.E.",J,Russian,"[The growth of Asellus aquaticus, population production and structure.]",1988.0,Mathematics; Zoology; Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Meteorology & Atmospheric Sciences,186,0206-0477,,1988,,,Asellus aquaticus [Mathematical model /  / Growth rate & temperature relationship] [Growth rate /  / Temperature relationship] [Biomass /  / Dynamics; aquatic vegetation relationship] [Productivity /  / Somatic & generative; role of aquatic vegetation] [Population dynamics /  / Productivity & biomass; presence of vegetation relationship] [Age class distribution /  / Size frequency] [Freshwater habitat /  / Vegetation; effect on population dynamics] [Temperature /  / Growth rate relationship]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Zoologicheskogo Instituta,2021-04-13,ZOOREC:ZOOR12600055231,0,0,"Panov, V.E.; Polyakova, E.A.",J,Russian,"[Feeding, growth and production in Turbellaria.]",1988.0,Zoology; Environmental Sciences & Ecology; Anatomy & Morphology; Nutrition & Dietetics; Developmental Biology,186,0206-0477,,1988,,,Asellus aquaticus; Chironomidae; Oligochaeta [Predators /  / Bdellocephala & Dendrocoelum (Turbellaria); Predator productivity analysis]. Bdellocephala punctata; Dendrocoelum lacteum [Relative measurements /  / Length weight relationships] [Prey /  / Crustacea; Chironomidae (Diptera) & Oligochaeta (Annelida); Growth & production; mathematical model] [Growth rate /  / Dynamics; density & biomass relationship] [Productivity /  / Growth dynamics; density & biomass] [Baltic Sea /  / Neva Bay; Growth rate & productivity]. Dugesia polychroa [Relative measurements /  / Length weight relationships] [Growth rate /  / Dynamics; density & biomass relationship] [Productivity /  / Growth dynamics; density & biomass] [Baltic Sea /  / Neva Bay; Growth rate & productivity]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Zoologicheskogo Instituta,2021-04-13,ZOOREC:ZOOR12600054952,1,0,"Panov, V.E.",J,Russian,[The feeding of Gammarus lacustris.],1988.0,Zoology; Anatomy & Morphology; Environmental Sciences & Ecology; Nutrition & Dietetics; Developmental Biology,186,0206-0477,,1988,,,Asellus aquaticus [Size /  / Predator feeding relationship] [Population density /  / ] [Predators /  / Gammarus lacustris; Prey size & density effect on feeding]. Gammarus lacustris [Prey /  / Asellus aquaticus; Prey size & density relationship] [Quantity of food consumed /  / Feeding rate; prey density & size relationship] [Food preferences /  / ] [Predator prey interactions /  / Asellus aquaticus prey size & density effect on feeding] [Growth rate /  / Feeding behaviour relationship]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Isopoda,2021-04-13,ZOOREC:ZOOR12400069015,0,0,"Goldie-Smith, E.K.",J,English,"Asellus aquaticus (L.), Asellus meridianus (Racovitza) and Sphaeroma hookeri (Leach) in the Rye area, S.E. England.",1987.0,Zoology,1,0950-2130,,1987,,,Asellus aquaticus; Asellus meridianus [England /  / Kent & Sussex; Distribution]. Sphaeroma hookeri [English Channel /  / England; Sussex; Rye Harbour; Recorded]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Istanbul Universitesi Fen Fakultesi Mecmuasi Seri B,2021-04-13,ZOOREC:ZOOR12500044445,0,0,"Ozmutlu, O.",J,English,The granulated structures in the hindgut cells of Asellus aquaticus (Crustacea: Isopoda).,1987.0,Anatomy & Morphology; Zoology,50,0367-7753,,1985[1987],,,Asellus aquaticus [Digestive system /  / Hindgut; cuticle layers & granulated structures; EM study]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologica,2021-04-13,ZOOREC:ZOOR12500005080,0,0,"Flossner, D.",J,German,Populationsdynamik und Produktion von Asellus aquaticus (L.) und Proasellus coxalis (Dollfus) in der mittleren Saale.,1987.0,Reproductive Biology; Zoology; Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Meteorology & Atmospheric Sciences,18,0075-9511,2,1987,,,Asellus aquaticus; Proasellus coxalis [Reproduction /  / Strategies in river] [Breeding season /  / ] [Reproductive productivity /  / ] [Life cycle /  / ] [Biomass /  / ] [Productivity /  / ] [Population study /  / ] [River /  / Ecology; reproduction & life cycle strategies] [Temperature /  / Ecology & reproduction relationships in river] [Germany /  / River Saale; reproduction & life cycle]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mitteilungen der Deutschen Gesellschaft fuer Allgemeine und Angewandte Entomologie,2021-04-13,ZOOREC:ZOOR12400033916,0,0,"Zebitz, C.P.W.",J,German,Uber die eignung von Niem-Samen-Extrakten zur Stechmuckenbekampfung.,1987.0,Environmental Sciences & Ecology; Zoology; Developmental Biology,5,0344-9084,1-4,1986[1987],,,Asellus aquaticus; Poecilia reticulata [Mortality /  / Toxicity of potential insecticide from plant seed extract] [Organic chemicals /  / Antelaea azadirachta (plant) seed extract toxicity]. Culicidae [Chemical control /  / Antelaea azadirachta (plant) seed extract efficiencies against larvae] [Development /  / Plant seed extract effects; potential for control] [Mortality /  / Toxicity of plant seed extracts; control potential] [Organic chemicals /  / Antelaea azadirachta (plant) seed extract toxic effects]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,"Nauchni Trudove Plovdivski Universitet ""Paisii Khilendarski""",2021-04-13,ZOOREC:ZOOR12700017318,0,0,"Bachvarov, G.K.",J,Bulgarian,"Study of the development cycle of Acanthocephalus ranae (Schrank, 1788) (Echinorynchidae) - parasite on the amphibians in Bulgaria.",1987.0,Developmental Biology; Zoology; Parasitology,25,,6,1987,,,Acanthocephalus ranae [Life cycle /  / Crustacean & amphibian hosts] [Amphibian hosts /  / Parasite life cycle] [Crustacean hosts /  / Asellus aquaticus] [Bulgaria /  / Life cycle in amphibian & crustacean hosts]. Amphibia; Asellus aquaticus [Acanthocephalan parasites /  / Acanthocephalus ranae; Parasite life cycle] [Bulgaria /  / Acanthocephalan parasite life cycle]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Sbornik Nauchnykh Trudov Vsesoyuznyi Nauchno-Issledovatel'skii Institut Prudovogo Rybnogo Khozyaistva (VNIIPRKh),2021-04-13,ZOOREC:ZOOR12800045759,0,0,"Zhemaeva, N.P.",J,Russian,[Relationships of Asellus aquaticus L. and Gammarus pulex L. to factors of the external environment.],1987.0,Zoology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,51,0132-697X,,1987,,,Asellus aquaticus; Gammarus pulex [Survival /  / Maximum environment temperature & oxygen parameters] [Gases /  / Maximum oxygen parameters] [Temperature /  / Maximum upper parameters]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Universitatis Palackianae Olomucensis Facultatis Medicae,2021-04-13,ZOOREC:ZOOR12400005224,1,0,"Uvira, V.",J,Czech,"Contribution to the knowledge of biology of Asellus aquaticus L. (Crustacea, Isopoda).",1986.0,Anatomy & Morphology; Zoology; Reproductive Biology; Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology; Meteorology & Atmospheric Sciences,87,0231-5599,,1985[1986],,,Asellus aquaticus [Size /  / abiotic factors] [Weight /  / ] [Number of generations /  / Pond benthon] [Life cycle /  / ] [Growth rate /  / ] [Biomass /  / ] [Population dynamics /  / ] [Benthon /  / Pond biology & ecology] [Pond /  / Biology & ecology] [Chemical factors /  / abiotic influence on benthon biology & ecology] [Temperature /  / ] [Czechoslovakia /  / Zahlinice; River Morava region]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,British Isopod Study Group Newsletter of the Isopod Survey Scheme,2021-04-13,ZOOREC:ZOOR12300055546,0,0,"Goldie-Smith, E.K.",J,English,Asellus in the south-east.,1986.0,Zoology,,0963-3022,,1986,,,Asellus aquaticus; Asellus meridianus [England /  / East Sussex; Distribution records]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 21,,,,,,,,,,,,,,,,,
Article,Dissertation Abstracts International C European Abstracts,2021-04-13,ZOOREC:ZOOR12300058681,0,0,"Shihab, A.",J,English,Dynamics of enzyme polymorphism in the isopod Asellus aquaticus.,1986.0,Biochemistry & Molecular Biology; Zoology; Reproductive Biology; Genetics & Heredity; Evolutionary Biology; Environmental Sciences & Ecology,47,0307-6075,3,1986,,,Asellus aquaticus [Enzymes /  / Phosphoglucose isomerase seasonal polymorphism dynamics] [Fertility /  / Genotypic relationships; polymorphic population] [Fecundity /  / ] [Genotype /  / Seasonal polymorphism dynamics & reproductive productivity relations] [Heterozygosity /  / Enzyme seasonal polymorphism; dynamics & influencing factors] [Genetics of polymorphism and variation /  / ] [Random mating /  / Seasonally polymorphic population] [Biochemical variation /  / ] [Genetic variation /  / ] [Gases /  / Oxygen concentration effect on polymorphism dynamics]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Heredity,2021-04-13,ZOOREC:ZOOR12300038312,0,0,"Shihab, A.F.; Heath, D.J.",J,English,Components of fitness and the PGI polymorphism in the freshwater isopod Asellus aquaticus (L.). 1. Fecundity selection.,1986.0,Zoology; Biochemistry & Molecular Biology; Reproductive Biology; Genetics & Heredity; Evolutionary Biology,58,0018-067X,1,1986,,,Asellus aquaticus [Enzymes /  / Phosphoglucose isomerase; Egg number & fecundity relationships] [Fecundity /  / Phosphoglucose isomerase polymorphism relationship] [Egg number /  / ] [Genotype /  / Enzyme polymorphism] [Biochemical variation /  / ] [Genetic variation /  / ] [Polymorphism /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mikrokosmos,2021-04-13,ZOOREC:ZOOR12300066539,0,0,"Schodel, H.",J,German,Sesshapte Wimpertiere auf Wasserasseln.,1986.0,Zoology; Environmental Sciences & Ecology,75,0026-3680,10,1986,,,Asellus aquaticus [Commensalism /  / Peritrichia & Suctoria (Protozoa); Recorded species of commensals] [Germany /  / Protozoan commensals; recorded species]. Peritrichia; Suctoria [Commensalism /  / Asellus aquaticus (Crustacea); Recorded species] [Germany /  / Commensalism on Crustacea]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Nauchnye Doklady Vysshei Shkoly Biologicheskie Nauki,2021-04-13,ZOOREC:ZOOR12300009141,0,0,"Sukhodolskaya, A.N.; Dolmatov, I.Yu.",J,Russian,Limb regeneration in Asellus aquaticus after its autotomy.,1986.0,Zoology; Anatomy & Morphology; Immunology,1986,,4,1986,,,Asellus aquaticus [Thoracic biramous limbs /  / Seventh limb regeneration process; ultrastructure] [Regeneration /  / Seventh thoracic limb; ultrastructural study]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,Studies on the pollution ecology of the freshwater isopod Asellus aquaticus.,2021-04-13,ZOOREC:ZOOR12400001368,0,0,"Hijji, A.M.",B,English,Studies on the pollution ecology of the freshwater isopod Asellus aquaticus.,1986.0,Zoology; Environmental Sciences & Ecology,,,,1986,,,Asellus aquaticus [Ecology /  / ] [Pollution /  / ]. ,,,"Doctoral Dissertation, University of Nottingham",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Hijji, A.M.",,,,,,,,,,,,,,
Article,Trudy Zoologicheskogo Instituta,2021-04-13,ZOOREC:ZOOR12400033140,0,0,"Serov, V.G.",J,Russian,"Asellus aquaticus - intermediate host of the acanthocephalan Acanthocephalus lucii: dynamics of the abundance, population structure and acanthocephalan infection.",1986.0,Parasitology; Zoology; Environmental Sciences & Ecology,155,0206-0477,,1986,,,Acanthocephalus lucii [Crustacean hosts /  / Asellus aquaticus; population density & seasonality] [Intermediate hosts /  / Asellus aquaticus (Crustacea)] [Prevalence /  / ] [Biomass /  / ] [Population density /  / ] [Seasonal abundance /  / ] [Russia /  / ]. Asellus aquaticus [Acanthocephalan parasites /  / Acanthocephalus lucii; Prevalence & population dynamics] [Prevalence /  / Acanthocephalus lucii (Acanthocephala)] [Biomass /  / ] [Population dynamics /  / ] [Population structure /  / ] [Russia /  / Acanthocephalan parasite prevalence & population dynamics]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Zoologicheskogo Instituta,2021-04-13,ZOOREC:ZOOR12400036032,0,0,"Panov, V.E.",J,Russian,Growth and production of Asellus aquaticus (L.) (Isopoda) in the littoral vegetation of Neva Inlet of the Gulf of Finland.,1986.0,Zoology; Anatomy & Morphology; Physiology; Biochemistry & Molecular Biology; Reproductive Biology; Environmental Sciences & Ecology,152,0206-0477,,1986,,,Asellus aquaticus [Relative measurements /  / Size weight relationship; Gulf of Finland] [Whole animal physiology /  / mineral content &] [Oxygen consumption /  / ] [Calorific value /  / ] [Mineral content /  / Ash content] [Fecundity /  / ] [Population density /  / Predation relationship] [Age class distribution /  / Size frequency] [Seasonal abundance /  / Littoral vegetation relationship] [Predators /  / Predation effect on density] [Baltic Sea /  / Size; abundance; density & physiological indices]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Zoologicheskogo Instituta,2021-04-13,ZOOREC:ZOOR12300056730,0,0,"Jankowski, A.W.",J,Russian,New and little known genera of ciliated Protozoa (phylum Ciliophora).,1986.0,Environmental Sciences & Ecology; Zoology,144,0206-0477,,1986,,,Aegla laevis [Commensalism /  / Operculigera velata; New species of parasite] [Chile /  / New protozoan commensal taxa]. Asellus aquaticus [Commensalism /  / Usconophrys dauricus (Protozoa); New species of associate]. Australana [New South Wales /  / New taxa from crustacean hosts]. Cambaroides dauricus; Cambaroides schrenkii [Commensalism /  / Daurotheca (Protozoa); Associate new taxa; Russia]. Cambarus diogenes [Pennsylvania /  / New species of protozoan commensals]. Chilenophrys; Circolagen; Operculigera [Chile /  / New taxa from crustacean host]. Circolagen diogenes [Pennsylvania /  / New species from crustacean hosts]. Circolagen entocytheris [East Pacific /  / Oregon; New species from crustacean hosts]. Circolagen leniusculus; Daurotheca [Lithuania /  / New taxa from crustacean hosts]. Crustacea [Russia /  / New protozoan commensal taxa]. Euastacus australiensis [Commensalism /  / Australana (Protozoa); New parasite taxa] [New South Wales /  / New protozoan commensal taxa]. Gnorimosphaeroma noblei [Commensalism /  / Foissnerella (Protozoa); Associate new taxa; Russia]. Nephtys californiensis [Commensalism /  / Corlissetta (Protozoa); Associate new taxa] [Russia /  / Sakhalin; New protozoan commensal taxa]. Pacifastacus leniusculus [Commensalism /  / Circolagen leniusculus & Daurotheca (Protozoa); New parasite taxa] [Lithuania /  / New protozoan commensal taxa]. Pacifastacus nigrescens [East Pacific /  / Oregon; New species of protozoan commensals]. Parastacus chilensis [Commensalism /  / Chilenophrys; Circolagen & Operculigera (Protozoa); New parasite taxa] [Chile /  / New protozoan commensal taxa]. Peritrichida [Commensalism /  / Annelida; Crustacea & plants; New taxa] [Russia /  / annelid; crustacean & plant associates]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Memorie Classe di Scienze Fisiche Matematiche e Naturali Sezione IIIA,2021-04-13,ZOOREC:ZOOR12300031503,0,0,"Vitagliano Tadini, G.; Migliore, L.",J,English,Regulation of the numerical density in geographical populations of Asellus aquaticus (L.).,1985.0,Zoology; Environmental Sciences & Ecology; Reproductive Biology; Developmental Biology; Meteorology & Atmospheric Sciences,18,0365-0251,1,1985,,,Asellus [Mortality /  / Population regulation mechanisms & competition relationships; Europe] [Italy /  / Naples; Population regulation mechanisms & related factors]. Asellus aquaticus [Breeding season /  / Population regulation mechanisms; relationships; Italy & Netherlands] [Reproductive productivity /  / ] [Development /  / ] [Natality /  / ] [Population regulation /  / Mechanisms; relations with natality; mortality; competition; Reproduction; development & environment] [Intraspecific competition /  / Mortality relationships; Italy] [Interspecific competition /  / Asellus coxalis] [Photoperiod /  / ] [Temperature /  / ] [Netherlands /  / Utrecht; Population regulation mechanisms & related factors]. Asellus coxalis [Intraspecific competition /  / Mortality relationships; Italy] [Interspecific competition /  / Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,ZOOREC:ZOOR12300029556,0,0,"Rossi, L.; Calow, P.",J,English,Role of macroinvertebrates and microfungi in the transfer of 32P along detritus food chains in rivers.,1985.0,Nutrition & Dietetics; Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,77,0392-7881,1-2,1984[1985],,,Asellus aquaticus [Food plants /  / Fungus; Trophic structure & phosphorus transfer relationships in river] [Deposit feeding /  / Fungus on leaf litter in river; Relations with trophic structure & phosphorus transfer] [Element cycles /  / Phosphorus transfer relations with trophic structure in river] [Trophic structure /  / Detritus feeding; coexistence; predation &; Phosphorus transfer relationships in river] [Ecological niche /  / Coexistence with Lymnaea peregra (Mollusca); Relationships with trophic structure in river] [Predators /  / Dendrocoelum (Turbellaria) & Erpobdella (Annelida)] [River /  / Feeding & ecology] [Scotland /  / Glasgow; River Kelvin]. Dendrocoelum lacteum; Erpobdella octoculata [Prey /  / Asellus (Crustacea) & Lymnaea (Mollusca); Trophic structure & phosphorus transfer relationships in river] [Element cycles /  / Phosphorus transfer & trophic structure relationships in river] [Trophic structure /  / Prey & phosphorus transfer relationships in river] [River /  / trophic structure & phosphorus transfer] [Scotland /  / Glasgow; River Kelvin]. Lymnaea peregra [Food plants /  / Fungus; Trophic structure & phosphorus transfer relationships in river] [Deposit feeding /  / Fungus on leaf litter in river; Relations with trophic structure & phosphorus transfer] [Element cycles /  / Phosphorus transfer relations with trophic structure in river] [Trophic structure /  / Detritus feeding; coexistence; predation &; Phosphorus transfer relationships in river] [Ecological niche /  / Coexistence with Asellus aquaticus (Crustacea); Relationships with trophic structure in river] [Predators /  / Dendrocoelum (Turbellaria) & Erpobdella (Annelida)] [River /  / Feeding & ecology] [Scotland /  / Glasgow; River Kelvin]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ekologiya (Moscow),2021-04-13,ZOOREC:ZOOR12400015988,0,0,"Zhemayeva, N.P.",J,Russian,Growth and survival of Asellus aquaticus L. at different temperatures.,1985.0,Physiology; Zoology; Developmental Biology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,1985,0367-0597,5,1985,,,Asellus aquaticus [Thermal tolerance /  / Survival & growth at different temperatures] [Growth rate /  / Temperature effects] [Survival /  / ] [Temperature /  / Growth & survival relationships]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Istanbul Universitesi Fen Fakultesi Mecmuasi Seri B,2021-04-13,ZOOREC:ZOOR12500044444,0,0,"Ozmutlu, O.",J,English,"The ultrastructure of the hindgut of Asellus aquaticus (Crustacea, Isopoda).",1985.0,Zoology; Nutrition & Dietetics; Anatomy & Morphology,49,0367-7753,,1984[1985],,,Asellus aquaticus [Digestion /  / Hindgut functional morphology] [Digestive system /  / Hindgut ultrastructure & role in digestion]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Izvestiya Akademii Nauk SSSR Seriya Biologicheskaya,2021-04-13,ZOOREC:ZOOR12100054824,0,0,"Ushakov, B.P.; Dregolskaya, I.N.; Pashkova, I.M.",J,Russian,Correlation between heat resistance and fecundity in Hydra oligactis and Asellus aquaticus.,1984.0,Physiology; Zoology; Reproductive Biology,1984,0002-3329,6,1984,,,Asellus aquaticus [Thermal tolerance /  / Heat resistance; fecundity relationship & gender differences] [Sexual dimorphism /  / Heat resistance & fecundity relationships] [Fecundity /  / Heat resistance relationship & gender differences]. Hydra oligactis [Thermal tolerance /  / Fecundity relationship] [Fecundity /  / Heat resistance relationship]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,News Letter of the Cumbria Trust for Nature Conservation New Series,2021-04-13,ZOOREC:ZOOR12100055013,0,0,"Macan, T.T.",J,English,The ponds at Ash Landing.,1984.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,,0263-2179,,1984,,,Anopheles claviger; Asellus aquaticus; Cloeon dipterum; Enallagma cyathigerum; Gammarus; Lymnaea; Planorbis; Potamopyrgus jenkinsi; Pyrrhosoma nymphula [Habitat colonization /  / ] [Pond /  / Newly excavated; colonization] [England /  / Cumbria; Ash Landing Nature Reserve; Pond colonization]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 9,,,,,,,,,,,,,,,,,
Article,Zhurnal Obshchei Biologii,2021-04-13,ZOOREC:ZOOR12100020892,0,0,"Pashkova, I.M.",J,Russian,Changes in the reaction of Asellus aquaticus L. (Isopoda) population to thermal selection in the process of ecdysis cycle.,1984.0,Physiology; Zoology; Developmental Biology; Evolutionary Biology,45,0044-4596,2,1984,,,Asellus aquaticus [Thermal tolerance /  / Directed heat selection; hormonal rearrangements influence] [Ecdysis /  / Cycle; thermal selection relationships; natural selection role] [Natural selection /  / Directed heat selection during ecdysis relationships]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,An ecological study of two enzyme polymorphisms in Asellus aquaticus (L.) Isopoda.,2021-04-13,ZOOREC:ZOOR11900001458,0,0,"Verspoor, E.",B,English,An ecological study of two enzyme polymorphisms in Asellus aquaticus (L.) Isopoda.,1983.0,Zoology; Biochemistry & Molecular Biology; Evolutionary Biology; Environmental Sciences & Ecology,,,,[undated],,,Asellus aquaticus [Enzymes /  / ] [Polymorphism /  / ] [Ecology /  / Enzyme polymorphisms]. ,,,"Doctoral Dissertation, University of Nottingham",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Verspoor, E.",,,,,,,,,,,,,,
Article,Dissertation Abstracts International C European Abstracts,2021-04-13,ZOOREC:ZOOR12000010363,0,0,"Berglund, T.",J,English,Relations between brown trout and bottom fauna in a Swedish pond.,1983.0,Environmental Sciences & Ecology; Zoology; Nutrition & Dietetics; Developmental Biology,44,0307-6075,3,1983,,,Asellus aquaticus [Predator prey interactions /  / Piscean predator density; effects on biomass & density] [Biomass /  / Piscean predator density effects] [Population density /  / ] [Predators /  / Salmo trutta (Pisces); Feeding behaviour; growth rate & population interactions] [Sweden /  / Piscean predator population density; effects on density & biomass]. Salmo trutta [Prey /  / Asellus aquaticus (Crustacea); growth rate & prey populations interactions] [Feeding behaviour /  / Crustacean prey consumption] [Predator prey interactions /  / Feeding & population density; effects on prey population] [Growth rate /  / Crustacean prey consumption relationships] [Population density /  / Crustacean prey biomass & density; relationships] [Sweden /  / Crustacean prey; growth & prey population interactions]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Istanbul Universitesi Fen Fakultesi Mecmuasi Seri B,2021-04-13,ZOOREC:ZOOR12500044448,0,0,"Ozmutlu, O.",J,English,The ultrastructure of the hepatopancreatic tubes of Asellus aquaticus (Crustacea: Isopoda).,1983.0,Nutrition & Dietetics; Zoology; Anatomy & Morphology,46,0367-7753,,1981[1983],,,Asellus aquaticus [Digestion /  / Hepatopancreatic tubes functional morphology] [Digestive gland /  / Hepatopancreatic tubes ultrastructure & role in digestion]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Poljoprivreda i Sumarstvo,2021-04-13,ZOOREC:ZOOR12000021066,0,0,"Erben, R.; Beader, B.",J,Croatian,"The effect of cumene, acetone and acrylonitrile on crabs Asellus aquaticus L. and Gammarus fossarum Koch. (Isopoda, Amphipoda).",1983.0,Environmental Sciences & Ecology; Zoology,29,0554-5579,2,1983,,,Asellus aquaticus; Gammarus fossarum [Mortality /  / Petrochemical products toxic effects] [Organic chemicals /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,DOAJ Gold,,,,,,,,,,,,,,,,,,,,,,,
Article,Proteus,2021-04-13,ZOOREC:ZOOR12000017935,0,0,"Licar, P.",J,Slovenian,[The structure and function of the digestive tract of Asellus aquaticus.],1983.0,Anatomy & Morphology; Zoology,45,0033-1805,5,1983,,,Asellus aquaticus [Digestive system /  / Ultrastructure & function]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book chapter,[Reaction of lake ecosystems to economic transformation to their catchment areas.].,2021-04-13,ZOOREC:ZOOR12000039028,0,0,"Belyakov, V.P.",B,Russian,"[Species composition, abundance and biomass of the zoobenthos.]",1983.0,Environmental Sciences & Ecology; Zoology,,,,1983,,,Asellus aquaticus [Biomass /  / lakes] [Seasonal abundance /  / ] [Benthon /  / Abundance & composition] [Latvia /  / benthon abundance]. Hirudinea; Hydracarina; Insecta; Mollusca; Oligochaeta [Biomass /  / lakes] [Species diversity /  / ] [Seasonal abundance /  / ] [Benthon /  / Abundance & composition] [Latvia /  / benthon abundance & composition]. ,,,Nauka,,Leningrad,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,"The effects of water quality on the biology of Asellus aquaticus (L.). (Crustacea, Isopoda).",2021-04-13,ZOOREC:ZOOR11900001682,0,0,"Tolba, M.R.",B,English,"The effects of water quality on the biology of Asellus aquaticus (L.). (Crustacea, Isopoda).",1983.0,Zoology; Environmental Sciences & Ecology,,,,[undated],,,Asellus aquaticus [Water /  / Quality effects on biology]. ,,,"Doctoral Dissertation, University of Nottingham",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Tolba, M.R.",,,,,,,,,,,,,,
Book,"The population dynamics and productivity of Assellus[Asellus] aquaticus (L.) in Loch Leven, Kinross.",2021-04-13,ZOOREC:ZOOR11900001127,0,0,"Newsome, T.",B,English,"The population dynamics and productivity of Assellus[Asellus] aquaticus (L.) in Loch Leven, Kinross.",1983.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology,,,,[undated],,,Asellus [Productivity /  / Loch] [Population dynamics /  / ] [Lake /  / population dynamics & productivity] [Scotland /  / Kinross; Loch Leven]. ,,,"Doctoral Dissertation, University of Stirling",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Newsome, T.",,,,,,,,,,,,,,
Article,Acta Universitatis Nicolai Copernici Prace Limnologiczne,2021-04-13,ZOOREC:ZOOR11900020428,0,0,"Dobrowolski, Z.",J,English,"Productivity and bioenergetics of Asellus aquaticus L. (Crustacea, Isopoda) in the Jasne Lake.",1982.0,Physiology; Zoology; Biochemistry & Molecular Biology; Nutrition & Dietetics; Respiratory System; Environmental Sciences & Ecology; Marine & Freshwater Biology; Meteorology & Atmospheric Sciences,52,0208-5348,13,1982,,,Asellus aquaticus [Metabolic rate /  / Habitat relationships; moss zone] [Calorific value /  / ] [Food availability /  / Lake moss zone; productivity & bioenergetic relationships] [Respiratory rate /  / ] [Ecological energetics /  / ] [Population dynamics /  / ] [Lake /  / Productivity & bioenergetics; influencing factors] [Depth /  / ] [Temperature /  / ] [Poland /  / Jasne Lake]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Universitatis Upsaliensis Abstracts of Uppsala Dissertations from the Faculty of Science,2021-04-13,ZOOREC:ZOOR11900058893,0,0,"Berglund, T.",J,English,Relations between brown trout and bottom fauna in a Swedish pond.,1982.0,Environmental Sciences & Ecology; Zoology; Nutrition & Dietetics; Developmental Biology; Marine & Freshwater Biology,,0345-0058,,1982,,,Asellus aquaticus [Population changes /  / Piscean predation effects; density relationships; pond] [Predators /  / Salmo trutta (Pisces); Density relationships on prey population] [Sweden /  / Billingedammen; Piscean predators interactions in pond]. Salmo trutta [Prey /  / Asellus aquaticus (Crustacea); Size & availability; growth rate effects] [Gut contents /  / Intraspecific food preferences; pond bottom fauna] [Food availability /  / crustacean prey] [Food preferences /  / Prey size; influencing factors] [Predator prey interactions /  / food preferences & density effects] [Growth rate /  / Food availability & density of pond bottom fauna] [Pond /  / ] [Sweden /  / Billingedammen; Pond bottom prey interactions]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 648,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,ZOOREC:ZOOR11900049525,0,0,"Tadini-Vitagliano, G.; Valentino, F.; Migliore, L.",J,English,"Effect of photoperiod and temperature on induction, intensity and termination of reproductive diapause in Asellus aquaticus (L.) (Crustacea: Isopoda).",1982.0,Zoology; Physiology; Reproductive Biology; Developmental Biology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,71,0392-7881,,1981[1982],,,Asellus aquaticus [Cyclical functions /  / Photoperiodic control of reproductive diapause; Netherlands] [Reproductive condition /  / photoperiod & temperature effects] [Diapause /  / Reproductive] [Photoperiod /  / Reproductive diapause relationships] [Temperature /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,ZOOREC:ZOOR11900049526,1,0,"Migliore, L.; Valentino, F.; Vitagliano Tadini, G.",J,English,Energy distribution between growth and reproduction in Asellus aquaticus L. Sexual dimorphism.,1982.0,Zoology; Anatomy & Morphology; Nutrition & Dietetics; Reproductive Biology; Genetics & Heredity,70,0392-7881,,1981[1982],,,Asellus aquaticus [Size /  / Sexual dimorphism causal factors] [Energy utilization /  / Parental expenditure effects on progeny sexual dimorphism] [Parental condition effect on progeny /  / Parental energy expenditure effects on sexual dimorphism] [Sexual dimorphism /  / Size in relation to inheritance vs parental energy expenditure] [Inheritance /  / Sexually dimorphic size] [Netherlands /  / Utrecht; Sexually dimorphic size in relation to inheritance vs parental condition]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Monographiae Biologicae,2021-04-13,ZOOREC:ZOOR11900020034,1,0,"Granstrom, U.",J,English,"Life-cycle, growth and function of Asellus aquaticus L. (Crustacea, Isopoda) in an estuary of the northern Bothnian Sea.",1982.0,Nutrition & Dietetics; Zoology; Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology,45,0077-0639,,1982,,,Asellus aquaticus [Saprophagy /  / Function in estuary ecosystem] [Life cycle /  / ] [Trophic structure /  / Organic material destructor role] [Age class distribution /  / ] [Distribution within habitat /  / salinity as limiting factor] [Estuary /  / Distribution; biology & trophic role; Gulf of Bothia] [Gulf of Bothnia /  / Sweden; Angeran River Estuary]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Thalassographica,2021-04-13,ZOOREC:ZOOR11900005174,0,0,"Koussouris, T.S.; Pugh-Thomas, M.",J,English,Macrozoobenthic studies in Lake Trichonis - western Greece.,1982.0,Environmental Sciences & Ecology; Zoology,5,0250-3298,2,1982,,,Asellus aquaticus; Atyaephyra desmarestii; Gammarus pyngens; Gammarus roeselii; Niphargus; Potamon potamios [Biomass /  / Lake benthos; depth distribution; Greece]. Crustacea; Dreissena polymorpha; Erpobdella octoculata; Gastropoda; Lumbriculus; Tubifex tubifex [Biomass /  / Lake benthos; depth distribution] [Vertical distribution /  / Lake benthos biomass] [Greece /  / Lake Trichonis; Benthos biomass & depth distribution]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Aquarium (Den Haag),2021-04-13,ZOOREC:ZOOR11800028571,0,0,"Ostrow, M.E.",J,Dutch,[Isopods - protection for eggs against mould.],1981.0,Zoology; Environmental Sciences & Ecology; Nutrition & Dietetics; Reproductive Biology,51,,2,1981,,,Asellus aquaticus; Gammarus pseudolimnaeus [Control of /  / Saprolegia (fungus); Piscean egg mould] [Food plants /  / Use in control of piscean egg mould]. Stizostedion vitreum [Egg /  / Mould; control by Isopoda & Amphipoda (Crustacea)]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Hydrobiologie,2021-04-13,ZOOREC:ZOOR11800019781,0,0,"Statzner, B.",J,English,"The relation between 'hydraulic stress' and microdistribution of benthic macroinvertebrates in a lowland running water system, the Schierenseebrooks (north Germany).",1981.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology,91,0003-9136,2,1981,,,Invertebrata [Distribution within habitat /  / Benthon; lowland water system] [Freshwater benthic zone /  / Microdistribution] [Water /  / Flow conditions effect on microdistribution] [Germany /  / Schierenseebrook; Benthic zone; physical factors]. ,,"Sizing of about 25,000 benthic macroinvertebrates obtained during a field study in the Schierenseebrooks in 1974/1975 suggests that there is a relation between the microdistribution of several species and the flow conditions at the surface of the substratum. Flow conditions are expressed by 2 parameters describing the thickness of the laminar sub-layer or the boundary layer, using a combination of the factors water depth, roughness of the substratum, water velocity, and in 1 case kinematic viscosity of water. Both parameters are assumed to be an index number of the hydraulic stress which acts on specimens staying at the surface of the substratum. Due to the degree of rheophily as to the feeding type (filter feeder-non-filter feeder) of species different patterns of size distribution in relation to hydraulic stress occurred. Depending on the season mean size or abundance of some species was highly significantly related to the hydraulic stress parameter. This fact primarily suggests the use of that parameter to produce more accurate field data on the benthic macroinvertebrate distribution in defined sections of running waters. The relation of that parameter to other topics of running water ecology is noted and briefly discussed. Gastropoda: Bithynia tentaculata, Potamopyrgus jenkinsi; Crustacea: Asellus aquaticus, Gammarus pulex; Insecta: Nemoura cinerea, Aphelocheirus aestivalis, Hydropsyche angustipennis, H. pellucidula, H. siltalai, Neureclipsis bimaculata and Mystacides azurea are considered.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Biologisch Jaarboek,2021-04-13,ZOOREC:ZOOR11800013870,1,0,"de Smet, W.H.O.; Das, A.M.L.",J,English,"Observations on the colonization and life history of Asellus aquaticus (L.) (Crustacea, Isopoda) in an aerated brook.",1981.0,Zoology; Anatomy & Morphology; Developmental Biology; Environmental Sciences & Ecology; Marine & Freshwater Biology,49,0772-151X,,1981,,,Asellus aquaticus [Size /  / Weight relationship; polluted stream] [Weight /  / Size relationship] [Life cycle /  / ] [Population dynamics /  / ] [Age class distribution /  / ] [Vertical distribution /  / ] [Stream /  / Life history & population study; pollution effects] [Pollution /  / Life history & population study effects] [Belgium /  / Life history; population study & measurements]. ,,"The colonization by A. aquaticus of an aerated brook, and some aspects of its life history were studied. Colonization of the aeration basin probably started by drift organisms from the upstream unpolluted brook stretch. Development and spread of Asellus in the downstream ponds may have started from very small and scattered populations that increased in numbers when the environmental conditions became favorable. The vertical distribution of Asellus in the aeration basin showed a lowering of the zone of maximum abundance from the top 6 cm mud to a depth of 12 cm. During the 1st year of colonization, 2 generations (summer and autumn) developed. The sex ratio of the 3 mm size animals is in favor of females but is followed by a preponderance of males, due to the differential growth rates and the final adult size. The number of eggs produced by a female is positively correlated to her size. The relationship between size and wet weight, dry weight, ash content and ash-free organic matter was established, and described by the power function. The standing crop of the aeration basin ranged from 0.06 to 223.4 kg wet weight.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book chapter,"Effects of acidic precipitation on benthos. Proceedings of a symposium. Colgate University, Hamilton, NY. August 8-9, 1980.",2021-04-13,ZOOREC:ZOOR12100000952,0,0,"Steigen, A.L.; Raddum, G.G.",B,English,Effects of acidified water on behavior and energy content in the water-louse Asellus aquaticus (L.).,1981.0,Biochemistry & Molecular Biology; Zoology; Environmental Sciences & Ecology; Behavioral Sciences,,,,1981,,,Asellus aquaticus [Calorific value /  / Energy content; pH relationship] [External pH /  / Behaviour & energy content relationship]. Isopoda [Behaviour /  / pH relationship]. ,,,North American Benthological Society,,"Springfield, Illinois",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Gosudarstvennyii Nauchno-Issledovatel'skii Institut Ozernogo i Rechnogo Rybnogo Khozyaistva Sbornik Nauchnykh Trudov,2021-04-13,ZOOREC:ZOOR11900002495,0,0,"Petrova, I.V.",J,Russian,"Experimental study on the effect of sludge, polluted with diesel oil, on hydrochemical conditions and benthos (in the example of Asellus aquaticus).",1981.0,Environmental Sciences & Ecology; Zoology,173,0367-7974,,1981,,,Asellus aquaticus [Organic chemicals /  / Hydrocarbon sludge; toxicity]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Universitatis Ouluensis Series Biologica,2021-04-13,ZOOREC:ZOOR11700020242,0,0,"Kuusela, K.",J,English,"Early summer ecology and community structure of the macrozoobenthos on stones in the Javajankoski rapids on the River Lestijoki, Finland.",1980.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology; Anatomy & Morphology,,,,1980,,,Asellus aquaticus [Benthon /  / Summer ecology; river] [Stream /  / ] [Finland /  / Lestijoki River]. Chironomidae; Simuliidae [Species diversity /  / Benthon; river] [Distribution within habitat /  / ] [Stream /  / Summer ecology] [Finland /  / Lestijoki River; Distribution & summer ecology]. Elmis aenea; Helophorus [Stream /  / Summer ecology] [Rocky substrate /  / river] [Finland /  / Lestijoki River]. Ephemeroptera [Species diversity /  / Stream] [Benthon /  / Summer ecology; river] [Distribution within habitat /  / ] [Finland /  / Lestijoki River; Distribution & summer ecology]. Hydrachnellae [Benthon /  / Stream; summer ecology] [Distribution within habitat /  / ] [Finland /  / Lestijoki River]. Hygrobates calliger; Sperchon clupeifer; Sperchonopsis verrucosa; Torrenticola amplexa [Finland /  / Lestijoki River; First record]. Orthocladiinae [Mandibles /  / Use in identification]. Plecoptera [Species diversity /  / Stream] [Benthon /  / Summer ecology; river] [Distribution within habitat /  / effect of current velocity] [Finland /  / Lestijoki River; Distribution & summer ecology]. Trichoptera [Community structure /  / Stream; summer ecology] [Species diversity /  / ] [Benthon /  / river] [Finland /  / Lestijoki River; Distribution & summer ecology]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 87,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,ZOOREC:ZOOR11700031246,0,0,"Valentino, F.; Migliore, L.; Vitagliano Tadini, G.",J,English,Effect of some socio-sexual conditions on the reproductive cycle of Asellus aquaticus females.,1980.0,Zoology; Reproductive Biology,67,0392-7881,6,1979[1980],,,Asellus aquaticus [Reproductive condition /  / Sociosexual conditions influence] [Ovarian cycle /  / ] [Italy /  / Sarno River; Female reproductive cycle]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin de la Societe des Amis des Sciences et des Lettres de Poznan Serie D Sciences Biologiques,2021-04-13,ZOOREC:ZOOR11700016787,0,0,"Hryniewiecka-Szyfter, Z.; Tyczewska, J.",J,English,"Morphological and enzymatic evidence for ion transport in the hindgut of Asellus aquaticus L. (Crustacea, Isopoda).",1980.0,Physiology; Zoology; Nutrition & Dietetics; Anatomy & Morphology,20,0079-4570,,1980,,,Asellus aquaticus [Ionic relations /  / Ion transport in hindgut; morphological & enzymic evidence] [Digestive enzymes /  / Hindgut; evidence for ion transport] [Digestive system /  / Hindgut ion transport; enzymic & morphological evidence]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Gel'mintologicheskoi Laboratorii,2021-04-13,ZOOREC:ZOOR11700006990,0,0,"Tseitlin, D.G.",J,Russian,[Some questions of the ecology of fish nematodes in lakes of the national park of Lithuania.],1980.0,Developmental Biology; Zoology; Parasitology,30,0568-5524,,1980,,,Camallanus lacustris; Capillaria brevispicula; Philometra; Philometroides lusiana; Raphidascaris acus; Skrjabillanus tincae [Life cycle /  / Lithuania]. Nematoda [Life cycle /  / ] [Crustacean hosts /  / Asellus aquaticus] [Piscean hosts /  / Pathogenicity & life cycle] [Reaction of host to parasite /  / Pathogenicity in Pisces] [Lithuania /  / crustacean & piscean hosts]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Hydrobiologie,2021-04-13,ZOOREC:ZOOR11600027153,0,0,"Macan, T.T.; Kumari de Silva, P.",J,English,On the occurrence of Dendrocoelum lateum (Muller) and Asellus aquaticus (L.) as predator and prey in the stony substratum of Windermere.,1979.0,Environmental Sciences & Ecology; Zoology,86,0003-9136,1,1979,,,Asellus aquaticus [Predator prey interactions /  / Coexistence with stable population levels; platyhelminth predators] [Population dynamics /  / ] [Predators /  / Dendrocoelum lacteum (Turbellaria)] [England /  / Lake Windermere]. ,,"D. lacteum (Platyhelminthes), a predator, is one of the commonest species on the stony substratum at the edge of a bay in Windermere. Its main prey is A. aquaticus (Isopoda). Both grow and reproduce mainly in the warmer months of the year. Dendrocoelum lacks raptorial mouthparts and limbs and moves slowly. Scarcity of prey must reduce intensity of predation. The predator reacts by becoming quiescent and can survive for a long period without food. Asellus is decreasingly liable to be overpowered as it becomes larger. Its numbers on the stones are probably augmented from a population in Elodea on mud beyond the stones where predation is slight. Both are able to coexist without large fluctuations in numbers from year to year.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Hydrobiologie,2021-04-13,ZOOREC:ZOOR11600007019,0,0,"Macan, T.T.; Kumari de Silva, P.",J,English,On the occurrence of Dendrocoelum lacteum (Muller) and Asellus aquaticus (L.) as predator and prey in the stony substratum of Windermere.,1979.0,Nutrition & Dietetics; Zoology; Reproductive Biology; Environmental Sciences & Ecology,86,0003-9136,1,1979,,,Dendrocoelum lacteum [Prey /  / Asellus aquaticus (Crustacea); Population interrelationships; stony substrate of lake] [Breeding season /  / Crustacean prey breeding season; interrelationship; lake] [England /  / Lake Windermere; reproduction & population study]. Turbellaria [Population study /  / Crustacean prey populations; interrelationship; lake; England]. ,,"D. lacteum (Platyhelminthes), a predator, is one of the commonest species on the stony substratum at the edge of a bay in Windermere. Its main prey is A. aquaticus (Isopoda). Both grow and reproduce mainly in the warmer months of the year. Dendrocoelum lacks raptorial mouthparts and limbs and moves slowly. Scarcity of prey must reduce intensity of predation. The predator reacts by becoming quiescent and can survive for a long period without food. Asellus is decreasingly liable to be overpowered as it becomes larger. Its numbers on the stones are probably augmented from a population in Elodea on mud beyond the stones where predation is slight. Both are able to coexist without large fluctuations in numbers from year to year.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,ZOOREC:ZOOR11600024162,0,0,"Rossi, L.",J,English,Tolleranza alla elevata temperatura dei diversi stadi del ciclo biologico di Asellus aquaticus (L.) (Crust. isop.) apparteneti a due razze geografiche. Nota 1. Stadi sessualmente maturi.,1979.0,Zoology; Anatomy & Morphology; Physiology; Reproductive Biology; Evolutionary Biology; Environmental Sciences & Ecology,65,0392-7881,6,1978[1979],,,Asellus aquaticus [Size /  / Body size; in relation to thermal tolerance; Netherlands & Italy] [Thermal tolerance /  / in relation to body size] [Sexual dimorphism /  / Body size & thermal tolerance] [Geographical variation /  / Thermal tolerance body size] [Mortality /  / Geographical variation in relation to thermal tolerance] [Italy /  / Sarno] [Netherlands /  / Utrecht]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,ZOOREC:ZOOR11600024161,0,0,"Rossi, L.; Fano, E.A.",J,English,Tolleranza alla elevata temperatura der diversi stadi del ciclo biologico di Asellus aquaticus (L.) (Crust. isop.) apparteneti a due razze geografiche. Nota 2. Stadi giovanili.,1979.0,Anatomy & Morphology; Zoology; Physiology; Evolutionary Biology; Environmental Sciences & Ecology,65,0392-7881,6,1978[1979],,,Asellus aquaticus [Size /  / Body size; in relation to thermal tolerance; Juveniles; Netherlands & Italy] [Thermal tolerance /  / Geographical variation in relation to body size] [Geographical variation /  / ] [Mortality /  / Geographical variation in relation to thermal tolerance] [Italy /  / Sarno] [Netherlands /  / Utrecht]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin de la Societe des Amis des Sciences et des Lettres de Poznan Serie D Sciences Biologiques,2021-04-13,ZOOREC:ZOOR11600014724,0,0,"Babula, A.",J,English,Structure of the respiratory organs of the fresh-water isopod Asellus aquaticus L. (Crustacea).,1979.0,Zoology; Anatomy & Morphology; Respiratory System,19,0079-4570,,1979,,,Asellus aquaticus [Pleopods /  / Ultrastructure; respiratory function implications] [Podial respiration /  / Pleopod ultrastructure implications]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,GODISHEN ZBORNIK BIOLOGIJA BIOLOSHKI FAKULTET NA UNIVERZITETOT KIRIL I METODIJ SKOPJE,2021-04-13,ZOOREC:ZOOR11600022572,0,0,"Sapkarev, J.A.; Angelovski, P.S.",J,English,Dominant benthic invertebrates in the stony littoral zone of Lake Dojran. 1. Composition and distribution.,1979.0,Zoology; Environmental Sciences & Ecology,32,,,1979,,,Asellus aquaticus; Rivulogammarus triacanthus [Benthon /  / Composition & density; lake] [Vertical distribution /  / benthon density & composition] [Yugoslavia /  / Dojran Lake; Distribution]. Chironomidae [Community structure /  / Lake; benthon density & composition] [Benthon /  / Composition & density] [Vertical distribution /  / ] [Yugoslavia /  / Dojran Lake; Benthon composition & density]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Gel'mintologicheskoi Laboratorii,2021-04-13,ZOOREC:ZOOR11600026698,0,0,"Krasnolobova, T.A.",J,Russian,"[On the development of Plagiorchis elegans Luhe, 1899 in conditions of the Volga Delta.]",1979.0,Parasitology; Zoology,29,0568-5524,,1979,,,Asellus aquaticus; Behningia ulmeri; Heliophilus trivittatus; Odonata; Sialis lutaria; Tabanus peculiaris [Digenean parasites /  / Plagiorchis elegans; Intermediate hosts] [Russia /  / Volga Delta; Intermediate host]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Instituta Biologii Vnutrennikh Vod,2021-04-13,ZOOREC:ZOOR11800055848,0,0,"Flerov, B.A.",J,Russian,[A comparative study of avoidance reactions to toxic substances in some aquatic animals.],1979.0,Zoology; Behavioral Sciences; Environmental Sciences & Ecology,,0320-3557,,1979,,,Asellus aquaticus; Hirudo medicinalis; Poecilia reticulata; Streptocephalus torvicornis [Avoidance behaviour /  / Toxic substances] [Chemical factors /  / Toxins]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 38(41),,,,,,,,,,,,,,,,,
Article,Vyestsi Akademii Navuk BSSR Syeryya Biyalahichnykh Navuk,2021-04-13,ZOOREC:ZOOR11600027491,0,0,"Roshchin, V.E.; Mazelev, K.L.",J,Russian,[The influence of constant temperatures on the embryonic development of Asellus aquaticus L. (Crustacea).],1979.0,Anatomy & Morphology; Zoology; Physiology; Nutrition & Dietetics; Respiratory System; Developmental Biology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,1979,0002-3558,1,1979,,,Asellus aquaticus [Weight /  / Dry weight; embryo development; temperature effect] [Metabolic rate /  / During embryo development] [Food utilization /  / Energy utilization] [Respiratory rate /  / ] [Embryology /  / Mass & energy expenditure] [Temperature /  / effect on; influencing factors] [Belarus /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR11600016114,0,0,"von Knorre, D.",J,English,"Die Verbreitung von Proasellus coxalis (Dollfus 1892) (Crustacea, Isopoda, Asellidae) in Thuringen-Ein Beitrag zur Problemarik der Expansion einer Tierart.",1979.0,Environmental Sciences & Ecology; Zoology,202,0044-5231,3-4,1979,,,Asellus aquaticus [Interspecific competition /  / With Proasellus coxalis; distribution relationships; Germany] [Introduction /  / expansion & distribution]. Proasellus coxalis [Germany /  / Thuringia; Distribution; introduction & expansion; interspecific competition]. ,,"The distribution of P. coxalis in Thuringia [East Germany] at present is reported. Ecological and geographical aspects support the thesis that the species was probably introduced into central Europe into botanical gardens together with waterplants from its original mediterranean area. The postulated interspecific competition, by which P. coxalis was replaced by Asellus aquaticus could not be confirmed. P. coxalis can probably tolerate higher amounts of harmful substances in water.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti della Accademia Nazionale dei Lincei Rendiconti Classe di Scienze Fisiche Matematiche e Naturali,2021-04-13,ZOOREC:ZOOR11500019810,0,0,"Fano, E.A.; Rossi, L.",J,English,Tolleranza di due specie del genere Asellus a elevate concentrazioni di sali inorganici.,1978.0,Zoology; Physiology; Environmental Sciences & Ecology,64,0392-7881,3,1978,,,Asellus aquaticus; Asellus coxalis [Ionic relations /  / Tolerance of sodium chloride; phosphate & nitrate] [Survival /  / ] [Salinity /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Biologiya Vnutrennikh Vod Informatsionnyi Byulleten',2021-04-13,ZOOREC:ZOOR11500024548,0,0,"Miropolskii, V.I.",J,Russian,[Benthos composition in Gorkov Reservoir during 1971-1973.],1978.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,,,,1978,,,Asellus aquaticus; Gmelinoides fasciatus [Population density /  / benthos] [Reservoir /  / Benthos diversity] [Russia /  / Gorkov Reservoir; Benthos density]. Chironomidae [Species diversity /  / benthos] [Population density /  / ] [Reservoir /  / Benthos diversity] [Russia /  / Gorkov Reservoir; Benthos density]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 38,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR11500017148,0,0,"Fano, E.A.; Rossi, L.; Giunta, G.A.; Basset, A.",J,English,Disponsibilita nutrizionali: base di coesistenza di due specie del genere Asellus (Crust. Isop.).,1978.0,Nutrition & Dietetics; Zoology; Environmental Sciences & Ecology,45,0373-4137,,1978,,,Asellus aquaticus; Asellus coxalis [Food availability /  / Interspecific competition & coexistence relationships] [Ecological association /  / Coexistence; food availability relationships] [Interspecific competition /  / Regulatory function of food availability]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,(Suppl.),,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR11500017157,0,0,"Rossi, L.; Fano, E.A.",J,English,Influenza dei valori della temperatura sulla produzione di una popolazione di Asellus aquaticus (L.) (Crust. Isop.).,1978.0,Zoology; Reproductive Biology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,45,0373-4137,,1978,,,Asellus aquaticus [Reproductive productivity /  / Temperature effects] [Population energetics /  / Production & reproductive productivity] [Temperature /  / Population energetics & reproductive productivity effects]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,(Suppl.),,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR11500017147,0,0,"Rossi, L.; Fano, E.A.; Basset, A.; Giunta, G.A.",J,English,Ripartizione delle risorse nella struttura trofica del detrito.,1978.0,Zoology; Nutrition & Dietetics; Environmental Sciences & Ecology,45,0373-4137,,1978,,,Asellus aquaticus; Asellus coxalis [Quantity of food consumed /  / Detrital microorganisms abundance & survival relationships] [Food availability /  / Detrital microorganisms abundance; survival effects] [Survival /  / Food availability & diet effects] [Italy /  / Naples; Survival & diet; detrital microorganisms abundance effects]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,(Suppl.),,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR11500013332,0,0,"Fano, E.A.; Rossi, L.; Vitagliano-Tadini, G.",J,English,Influenza della competizione interspecifica sul rapporto sessi.,1978.0,Environmental Sciences & Ecology; Zoology,45,0373-4137,2,1978,,,Asellus aquaticus; Proasellus coxalis [Population sex ratio /  / Interspecific competition relationships] [Interspecific competition /  / Population sex ratio relationships]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR11500013360,0,0,"Rossi, L.; Fano, E.A.",J,English,Ruola del rapporto sessi e della densita di popolazione sulla dinamica riproducttiva di una popolazione di Asellus aquaticus.,1978.0,Zoology; Reproductive Biology; Environmental Sciences & Ecology,45,0373-4137,2,1978,,,Asellus aquaticus [Reproductive productivity /  / Population sex ratio & density relationships] [Population density /  / Reproductive productivity relationships] [Population sex ratio /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Internationale Vereinigung fuer Theoretische und Angewandte Limnologie Verhandlungen,2021-04-13,ZOOREC:ZOOR11500028520,0,0,"Mestrov, M.; Krkac, N.; Kerovec, M.; Lui, A.; Lattinger-Penko, R.; Tavcar, V.; Znidaric, D.",J,English,Effect of temperature on dominant macrobenthos species of the River Sava under laboratory conditions.,1978.0,Environmental Sciences & Ecology; Zoology; Meteorology & Atmospheric Sciences; Developmental Biology,20,0368-0770,3,1978,,,Asellus aquaticus aquaticus; Gammarus fossarum [Survival /  / Heat shock & temperature acclimation effects] [Temperature /  / Acclimation; effect on survival of heat shocks]. Chironomus thummi [Metamorphosis /  / Heat shock & temperature acclimation effects] [Temperature /  / effect on]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Internationale Vereinigung fuer Theoretische und Angewandte Limnologie Verhandlungen,2021-04-13,ZOOREC:ZOOR11500028065,0,0,"Prus, T.",J,English,"Experimental and field studies on ecological bioenergetics of a freshwater isopod, Asellus aquaticus L. (Isopoda, Crustacea).",1978.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,20,0368-0770,4,1978,,,Asellus aquaticus [Population energetics /  / ] [Lake /  / ] [Poland /  / Lake Powsinskie]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Izvestiya Akademii Nauk Azerbaidzhanskoi SSR Seriya Biologicheskikh Nauk,2021-04-13,ZOOREC:ZOOR11500002868,0,0,"Kurbanov, M.N.",J,Russian,"[The development of Acanthocephalus ranae (Jchrank, 1788) Luhe, 1911 in its intermediate host.].",1978.0,Entomology; Developmental Biology; Parasitology; Zoology; Meteorology & Atmospheric Sciences; Environmental Sciences & Ecology,1978,0132-6112,1,1978,,,Acanthocephalus ranae [Larva /  / Temperature effects on rate of development] [Crustacean hosts /  / Asellus aquaticus; Intermediate host; parasite life cycle] [Intermediate hosts /  / Asellus aquaticus (Crustacea)] [Temperature /  / Developmental rate; effects] [Azerbaijan /  / Lenkorano-Astarinsk; Intermediate crustacean host]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,POZNANSKIE TOWARZYSTWO PRZYJACIOL NAUK WYDZIAL MATEMATYCZNO-PRZYRODNICZY PRACE KOMISJI BIOLOGICZNEJ,2021-04-13,ZOOREC:ZOOR11500012125,0,0,"Szczepanowski, P.",J,Polish,Epizoic Ciliata on Asellus aquaticus (L.) of Poznan and surroundings.,1978.0,Zoology; Environmental Sciences & Ecology,47,,,1978,,,Ciliophora [Commensalism /  / With Asellus aquaticus (Crustacea)] [Poland /  / Poznan; Systematic accounts with new taxa; Crustacean commensals]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vyestsi Akademii Navuk BSSR Syeryya Biyalahichnykh Navuk,2021-04-13,ZOOREC:ZOOR11500013616,0,0,"Roshchin, V.E.; Mazelev, K.L.",J,Russian,[Respiration and effectiveness of energy utilisation during embryo development in Asellus aquaticus L. (Crustacea).],1978.0,Nutrition & Dietetics; Zoology; Respiratory System; Developmental Biology,1978,0002-3558,5,1978,,,Asellus aquaticus [Energy conversion efficiency /  / During embryo development] [Respiratory rate /  / ] [Embryo /  / Energy consumption & respiration during development]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vest,2021-04-13,ZOOREC:ZOOR11400012017,0,0,"Licar, P.",J,English,"Surface structure of the hepatopancreas and the origin of the'midgut' in Asellus aquaticus (Isopoda, Aselloto)-(preliminary report).",1977.0,Zoology; Anatomy & Morphology,25,,2,1977,,,Asellus (Asellus) aquaticus [Digestive gland /  / Hepatopancreas; surface structure & histology; midgut ectodermal origin]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bioloski Vestnik,2021-04-13,ZOOREC:ZOOR11600026024,0,0,"Licar, P.",J,Slovenian,"Surface structure of the hepatopancreas and the origin of the midgut in Asellus aquaticus (Isopoda, Asellota).",1977.0,Zoology; Anatomy & Morphology; Developmental Biology,25,0520-1969,2,1977,,,Asellus aquaticus [Digestive system /  / Ectodermal origin] [Exocrine pancreas /  / Surface structure] [Embryology /  / Ectodermal origin of digestive tract]. ,,Stereoscan electron microscopy revealed that the hepatopancreas in A. aquaticus ssp. resembles a corncob with 2 types of gland cells arranged in circles around the cob. There are articulated longitudinal structures between these cells. The irregular fiber network covering the gland cells and spaces between them is part of the myoepithelial cells. Transmission electron micrographs of the intestine close to the opening of the hepatopancreas show that the cuticula is well developed in the entire length of the gut; the whole intestine is probably of ectodermal origin.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ekologia Polska,2021-04-13,ZOOREC:ZOOR11400022443,0,0,"Prus, T.",J,English,Experimental and field studies on ecological energetics of Asellus aquaticus L. (Isopoda). 3. Population dynamics on the background of macrobenthos occurrence in the littoral zone of Powsifiskie Lake.,1977.0,Zoology; Environmental Sciences & Ecology,25,,1,1977,,,Asellus (Asellus) aquaticus [Population study /  / Benthos; lake; Poland]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Ekologia Polska,2021-04-13,ZOOREC:ZOOR11400022446,0,0,"Prus, T.",J,English,Experimental and field studies on ecological energetics of Asellus aquaticus L. (Isopoda). 3. Population dynamics on the background of macrobenthos occurrence in the littoral zone of Powsiriskie Lake.,1977.0,Zoology,25,,1,1977,,,Animalia [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Godisen Zb biol Fak Univ Kiril Metodij,2021-04-13,ZOOREC:ZOOR11400052405,0,0,"Shapkarev, J.A; Angelovski, P.S.",J,English,The ecology and distribution of Asellus aquaticus (L. (Isopoda : Asellidae) in Lake Dojran.,1977.0,Developmental Biology; Zoology,30,,,1977,,,Asellus (Asellus) aquaticus [Life cycle /  / Lake; Yugoslavia]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Izvestiya na Instituta po Okeanografiya i Ribno Stopanstvo Varna,2021-04-13,ZOOREC:ZOOR11600029020,0,0,"Stalmakova, G.A.",J,Russian,On bioecological characteristics of the chief species of benthic crustaceans in Ladoga Lake.,1977.0,Environmental Sciences & Ecology; Zoology,111,0204-6512,,1977,,,Asellus aquaticus; Gammarus lacustris; Pontoporeia affinis [Population study /  / Lake] [Russia /  / Ladoga Lake; Population ecology]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Journal of Thermal Biology,2021-04-13,ZOOREC:ZOOR11500008665,0,0,"Ushakov, B.P.; Amosova, I.S.; Chernokozheva, I.S.; Dregolskaya, I.N.; Pashkova, I.M.; Skholl, E.D.",J,English,The environmental temperature and physiological polymorphism of populations - 2. The relation of changes in the organismal heat resistance to its initial level during heat acclimation.,1977.0,Zoology; Physiology,2,0306-4565,1,1977,,,Animalia; Hydra oligactis; Strongylocentrotus droebachiensis [Thermal acclimation /  / Thermal tolerance before & after] [Thermal tolerance /  / Relationships to initial level during heat acclimation]. ,,"Changes in organismal heat resistance level and average values were obtained for clones and siblings of Hydra oligactis, Asellus aquaticus, Drosophila melanogaster, Strongylocentrotus droebachiensis (embryos) and Rana temporaria (tadpoles) during short-term heat acclimation (sibacclimation method). In all the species studied a negative correlation was observed between the initial heat resistance level of clones and siblings and its increase during heat acclimation. Reaction norm during temperature resistance acclimation of poikilotherms depends on the initial organismal heat resistance inherent in each genotype.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Journal thermal Biol,2021-04-13,ZOOREC:ZOOR11400009855,0,0,"Ushakov, B.P; Amosova, I.S; Chernokozheva, I.S; Dregolskaya, I.N; Pashkova, I.M; Skholl, E.A.",J,English,The environmental temperature and physiological polymorphism of populations. 2. The relation of changes in the organismal heat reststance to its initial level during heat acclimation.,1977.0,Physiology; Zoology,2,,1,1977,,,Asellus (Asellus) aquaticus [Thermal tolerance /  / Acclimation; relationships & effect of initial tolerance & genotype; siblings & clones]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Natur Heimat,2021-04-13,ZOOREC:ZOOR11400040432,0,0,"Herhaus, K.F.",J,English,"Die ersten Nachweise der Wasserassel Proasellus meridianus (Racovitza, 1919) (Crustacea, Isopoda Asellidae) in Einzugsgebiet der Ems.",1977.0,Zoology,37,,3,1977,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Slovenska Akademija Znanosti in Umetnosti Razred za Naravoslovne Vede Razprave,2021-04-13,ZOOREC:ZOOR11800021855,0,0,"Licar, P.",J,Serbo-Croatian,"The fine structure of filters in the stomach of Asellus aquaticus (Isopoda, Asellota).",1977.0,Zoology; Anatomy & Morphology,20,0352-5090,4,1977,,,Asellus aquaticus [Stomach /  / Filters; ultrastructure]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Starfish,2021-04-13,ZOOREC:ZOOR11700021888,0,0,"Steward, R.",J,English,Observations on the isopod Asellus aquaticus.,1977.0,Zoology,,0309-3514,,1977,,,Asellus aquaticus [Natural history accounts /  / ] [England /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,No. 29,,,,,,,,,,,,,,,,,
Article,Zoologische Jb (Anat),2021-04-13,ZOOREC:ZOOR11400055334,0,0,"Scheloske, H.-W.",J,English,"Skelet und Muskulatur des Cephalothorax von Asellus aquaticus (L. ) (Asellidae, Isopoda). Ein beitrag zur vergleichenden Anatomie der Crustacea-Malacostraca.",1977.0,Anatomy & Morphology; Zoology,97,,2,1977,,,Asellus (Asellus) aquaticus [Cephalothorax /  / Skeletal & musculatural anatomy; comprehensive work]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv Hydrobiol,2021-04-13,ZOOREC:ZOOR11300006277,0,0,"de Silva, P.K.",J,English,"The factors affecting the feeding of Dendrocoelum lacteum (Muller) (Turbellaria, Triclaclida) on Asellus aquaticus (L.) (Crustacea, lsopoda).",1976.0,Zoology; Environmental Sciences & Ecology,77,,3,1976,,,Asellus aquaticus [Predators /  / Dendrocoelum lacteum (Platyhelminthes)]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv Hydrobiol,2021-04-13,ZOOREC:ZOOR11300006278,0,0,"de Silva, P.K.",J,English,"The factors affecting the feeding of Dendrocoelum lacteum (Muller) (Turbellaria, Tricladida) on Asellus aquaticus (L.) (Crustacea: Isopoda).",1976.0,Zoology; Nutrition & Dietetics; Developmental Biology,77,,3,1976,,,Dendrocoelum lacteum [Prey /  / Asellus aquaticus (Crustacea); Influencing factors] [Food preferences /  / Food selection] [Feeding /  / Light; Relationships] [ /  / Temperature; Relationships] [Predation /  / Effect of; Habitat substrate] [Growth rate /  / Effect of; Temperature]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Badania Fizjograficzne nad Polska Zachodnia Seria B Botanika,2021-04-13,ZOOREC:ZOOR11900058282,0,0,"Piesik, Z.",J,Polish,Epizoic Ciliata on Asellus aquaticus (L.) in stagnant waters of Szczecin.,1976.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology,29,0067-2815,,1976,,,Asellus aquaticus [Phoresy /  / Peritrichida (Protozoa); Stagnant waters] [Poland /  / Szczecin; list of phorectic Protozoa]. Peritrichida [Phoresy /  / Asellus aquaticus (Crustacea); Stagnant waters; faunal list] [Stagnant water /  / Phoresy on Crustacea] [Poland /  / Szczecin; phoresis on Crustacea & faunal list]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Badania Fizjograficzne nad Polska Zachodnia Seria B Botanika,2021-04-13,ZOOREC:ZOOR11900059888,0,0,"Piesik, Z.",J,Polish,"Contribution to the knowledge of epizoic ciliates (Ciliata, Peritricha) of Great Poland.",1976.0,Zoology; Environmental Sciences & Ecology,29,0067-2815,,1976,,,Asellus; Orconectes [Phoresy /  / Peritrichida (Protozoa); Lakes] [Poland /  / Poznan; Rusalka Lake; Phoretic Peritrichida (Protozoa)]. Peritrichida [Phoresy /  / On Asellus & Orconectes (Crustacea); Lakes] [Poland /  / Poznan; Rusalka Lake; Faunal list; 1 new species & phoresy on Crustacea]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Badania Fizjograficzne nad Polska Zachodnia Seria B Botanika,2021-04-13,ZOOREC:ZOOR11900059894,0,0,"Szczepanowski, P.",J,Polish,"Entziella asellicola Stiller 1949 (Ciliata, Peritricha) a new species for Poland.",1976.0,Environmental Sciences & Ecology; Zoology; Anatomy & Morphology,29,0067-2815,,1976,,,Asellus aquaticus [Phoresy /  / Entziella asellicola (Protozoa)] [Poland /  / Kociolek Lake; Phoretic Protozoa]. Entziella asellicola [General morphology /  / Morphology] [Phoresy /  / On Asellus aquaticus (Crustacea)] [Poland /  / Kociolek Lake; phoresy on Crustacea & first record for Poland]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino Zool,2021-04-13,ZOOREC:ZOOR11300011110,0,0,"Rossi, L.; Fano, E.A.; Vittagliano-Tadini, G.",J,English,"Effetto della elevata temperatura (30"") in due razze geografiche di Asellus aquaticus (L.).",1976.0,Zoology; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences,43,,4,1976,,,Asellus aquaticus [Temperature /  / Effect on; Physiology]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Byulleten' vses Inst Gel'mint,2021-04-13,ZOOREC:ZOOR11300013828,0,0,"Andryuk, L.V.",J,English,"On the development of Acanthocephalus anquillae (Muller, 1780) Luhe, 1911.",1976.0,Entomology; Developmental Biology; Zoology; Parasitology,14,,,1976,,,Acanthocephalus anguillae [Larva /  / Development; Crustacean host] [Crustacean hosts /  / Asellus aquaticus; Experimental study]. Acanthocephalus anquillae [Intermediate hosts /  / True intermediate host; Crustacean host; Experimental study]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologische Jb (Anat),2021-04-13,ZOOREC:ZOOR11300047448,0,0,"Scheloske, H.-W.",J,English,"Vergleichend-morphologische und funktionelle Untersuchungen am Magen von Asellus aquaticus (L.) (Asellidae, Isopoda).",1976.0,Zoology; Anatomy & Morphology,95,,4,1976,,,Asellus aquaticus [Oesophagus /  / Morphology] [Stomach /  / Functional morphology; Comparative study]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Limnologische Schr Gewasser und Abwasser,2021-04-13,ZOOREC:ZOOR11300022148,0,0,"Williams, W.-D.",J,English,"Uber das Vorkommen von Wasserasseln in der Fulda, Deutschland.",1975.0,Environmental Sciences & Ecology; Zoology,57-58,,,1975,,,Asellus (Proasellus) coxalis septentrionalis [Habitat preference /  / Survival; River] [Germany /  / Fulda River]. Asellus aquaticus [Habitat preference /  / Survival; River; Germany]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Proceedings R lr Acad (Sect B),2021-04-13,ZOOREC:ZOOR11200041077,0,0,"Fahy, E.",J,English,"The biology of a thermal spring at Enfield, Co. Meath, with some observations on other irish thermal springs.",1975.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,175,,3,1975,,,Asellus aquaticus [Age class distribution /  / Length frequency; Seasonal variation; Hot spring] [Spring water /  / Hot spring; Length frequency; Seasonal variation] [Republic of Ireland /  / County Meath; Enfield; Length frequency; Hot spring]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Razprave slov Akad Znam Umet (Hist nat Med),2021-04-13,ZOOREC:ZOOR11300003602,0,0,"Licar, P.",J,English,"Prispevek k poznavanju zgradbe in funkcije prebavila pri rasah Asellus aquaticus (Isopoda, Asellota).",1975.0,Zoology; Anatomy & Morphology,18,,6,1975,,,Asellus aquaticus [Digestive system /  / Hepatopancreas; Histology] [ /  / Hepatopancreas; Morphology] [ /  / Histology] [ /  / Morphology]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Seasonal variation in biomass reproduction and population dynamics of the dominant taxa Contributions Asko Lab,2021-04-13,ZOOREC:ZOOR11200044904,0,0,"Haage, P.",J,English,Quantitative investigations of the Baltic Fucus belt macrofauna 3.,1975.0,Reproductive Biology; Zoology; Environmental Sciences & Ecology,No. 10,,,1975,,,Asellus aquaticus [Reproductive behaviour /  / Supralittoral zone; Fucus belt] [Baltic Sea /  / Supralittoral Zone; Reproduction]. Gammarus [Reproductive behaviour /  / Supralittoral zone; Focus belt] [ /  / Supralittoral zone; Fucus belt] [Biomass /  / Seasonal variation; Fucus belt] [Population structure /  / Seasonal variation; Fucus belt] [Baltic Sea /  / Supralittoral Zone] [ /  / Supralittoral Zone] [ /  / Supralittoral Zone; Reproduction]. Idotea [Reproductive behaviour /  / Supralittoral zone; Fucus belt] [Biomass /  / Seasonal variation; Fucus belt] [Population structure /  / Seasonal variation; Fucus belt] [Baltic Sea /  / Supralittoral Zone] [ /  / Supralittoral Zone] [ /  / Supralittoral Zone; Reproduction]. Jaera [Biomass /  / Seasonal variation; Fucus belt] [Baltic Sea /  / Supralittoral Zone]. Mysidacea [Reproductive behaviour /  / Supralittoral zone; Focus belt] [ /  / Supralittoral zone; Fucus belt] [Biomass /  / Seasonal variation; Fucus belt] [Baltic Sea /  / Supralittoral Zone] [ /  / Supralittoral Zone; Reproduction]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Univ Upsaliensis,2021-04-13,ZOOREC:ZOOR11100003006,0,0,"Andersson, E.",J,English,Limnological studies of the 'river lake' Pajep Maskejaure in northern Sweden.,1974.0,Developmental Biology; Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,No. 294,,,1974,,,Asellus aquaticus [Life cycle /  / Sweden] [Lake /  / Sweden]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Byulleten' vses lnst Gel'mint,2021-04-13,ZOOREC:ZOOR11300013867,0,0,"Andryuk, L.V.",J,English,"On the development of Acanthocephalus anquillae (Muller, 1780) Lithe, 1911.",1974.0,Zoology; Parasitology,1974,,14,1974,,,Asellus aquaticus [Acanthocephalan parasites /  / Acanthocephala amquillae; Parasite life cycle]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,The position of Dendrocoelum lacteum in the community of the stony substratum of a lake.,2021-04-13,ZOOREC:ZOOR11100000540,0,0,"Wetteke, P.K.",B,English,The position of Dendrocoelum lacteum in the community of the stony substratum of a lake.,1974.0,Zoology; Environmental Sciences & Ecology,,,,1974,,,Asellus aquaticus [Predators /  / Dendrocoelum lacteum (Platyhelminthes)]. ,,,"Doctoral dissertation, University of Lancaster.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Wetteke, P.K.",,,,,,,,,,,,,,
Article,Eksperimentalnaya vod toksikol,2021-04-13,ZOOREC:ZOOR11000016618,0,0,"Zimakovska, D.",J,English,lnfluence of 2.4 D-Na on the oxygen consumption of Asellus aquaticus.,1973.0,Environmental Sciences & Ecology; Zoology; Physiology,5,,,1973,,,Asellus aquaticus [Chemical control /  / Pesticides; 2; R; D-Na; Toxicity] [Oxygen consumption /  / Effect of; Pesticide pollution] [Fertilizer and pesticide pollution /  / Pesticide pollution; Effect on] [ /  / Pesticide pollution; Effect un]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Eksperimentalnaya vod toksikol,2021-04-13,ZOOREC:ZOOR11000016605,0,0,"Pomazouskaya, I.",J,English,The effect of pesticides upon the intensity of breathing of some water organsims.,1973.0,Environmental Sciences & Ecology; Zoology; Physiology,5,,,1973,,,Asellus aquaticus [Chemical control /  / Pesticides; Copper naphtenate; Toxicity] [ /  / Pesticides; Hexachloran; Toxicity] [ /  / Pesticides; Pentachlorphenol; Toxicity] [ /  / Pesticides; Polychlorpinene; Toxicity] [Oxygen consumption /  / Effect of; Pesticide pollution] [Fertilizer and pesticide pollution /  / Pesticide pollution; Effect on] [ /  / Pesticide pollution; Effect un]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Folia Balcanica,2021-04-13,ZOOREC:ZOOR11300020964,0,0,"Hristovski, N.D.; Riggio, S.",J,English,"Comparative data of the parasitic helminthofaunas in Discoglossus pictus Otth, D. sardus Tschudi and Bombina variegata L. (Amphibia: Discoglossidae) from southern Europe.",1973.0,Parasitology; Zoology,3,,3,1973,,,Acanthocephalus ranae [Amphibian hosts /  / Bombina variegata scabra; Southern Europe] [Crustacean hosts /  / Asellus aquaticus; Intermediate host] [Greece /  / First records] [Yugoslavia /  / Range extension]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Journal Cell Biol,2021-04-13,ZOOREC:ZOOR10900008025,0,0,"Ushakov, B.P.; Pashkova, I.M.",J,English,The dynamics of individual variation in the heat resistance of muscle tissue during temperature acclimation in Asellus aquticus L. Zhurnal obshch.,1972.0,Zoology; Anatomy & Morphology,33,,4,1972,,,Asellus aquaticus [Muscle function /  / Maximum thermal tolerance]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Proc R Dublin Soc (Ser A),2021-04-13,ZOOREC:ZOOR11100031650,0,0,"Fahy, E.",J,English,The life cycles of some invertebrates in an isothermic stream in western lreland. Scientific,1972.0,Environmental Sciences & Ecology; Zoology; Marine & Freshwater Biology,4,,23,1972,,,Asellus aquaticus; Gammarus duebeni [Seasonal abundance /  / Republic of Ireland] [Spring water /  / Republic of Ireland]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Western Nat,2021-04-13,ZOOREC:ZOOR11100038815,0,0,"Hamilton, J.D.",J,English,The water-hoglouse (Asellus) in west Scotland.,1972.0,Zoology,1,,,1972,,,Asellus aquaticus; Asellus meridianus [Allopatry /  / ] [Scotland /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zeszyty nauk Univ Lodz (Ser 2),2021-04-13,ZOOREC:ZOOR10900041809,0,0,"Jazdzewski, K.",J,English,Fauna Niebieskich Zrodel. Wystcpawanie osliczki i kielza na terene rezerwatu.,1972.0,Zoology; Environmental Sciences & Ecology; Marine & Freshwater Biology,46,,,1972,,,Asellus aquaticus [Spring water /  / Population density]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Freshwater Biol,2021-04-13,ZOOREC:ZOOR11000019085,0,0,"Prus, T.",J,English,"The assimilation efficiency of Asellus aquatlcus L. (Crustacea, Isopoda).",1971.0,Nutrition & Dietetics; Zoology; Reproductive Biology,1,,3,1971,,,Asellus aquaticus [Energy conversion efficiency /  / Biochemical sex differences] [ /  / Effect of; Population density] [ /  / Effect of; Reproductive condition] [ /  / Population density] [ /  / Reproductive condition] [ /  / Seasonal variation] [Physiological and biochemical sex differences /  / BIOCHEMICAL SEX DIFFERENCES]. ,,,,,,,,,,,,,,,10.1111/j.1365-2427.1971.tb01564.x,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti Accad. naz. Lincei Rc. (Cl. Sci. fis. mat. nat.),2021-04-13,ZOOREC:ZOOR10700007029,0,0,"Brasiello, A. R.",J,English,Variazioni degli istoni nucleari durante la spermiogenesi di Asellus aquaticus.,1970.0,Zoology,48,,,1970,,,Asellus aquaticus [Zoology /  / Nuclear histone variations during last stages of spermatogenesis]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Badania Fizjograficzne nad Polska Zachodnia (B),2021-04-13,ZOOREC:ZOOR10800006683,0,0,"Musialkowski, L.",J,English,Epizoic fauna of Ciliata of fresh water isopod Asellus aquaticus (L. ) in Great Poland. Badan fizijogr.,1970.0,Zoology,23,,,1970,,,Crustacea [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,New Scient.,2021-04-13,ZOOREC:ZOOR10700017362,0,0,"Lawes, G; Kenward, M.",J,English,Things that crawl out of taps.,1970.0,Zoology,46,,,1970,,,Asellus aquaticus; Daphnia [Zoology /  / Control in water mains and domestic water systems]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Smithson. Contr. Zool.,2021-04-13,ZOOREC:ZOOR10700025544,2,0,"Williams, W. D.",J,English,A revision of North American epigean species of Asellus (Crustacea: Isopoda).,1970.0,Zoology,No. 49,,,1970,,,Asellus [Zoology /  / key to [males] of known North American epigean spp; p; 3]. Asellus aquaticus [Zoology /  / Systematic description]. Asellus attenuatus; Asellus brevicauda; Asellus brevicauda brevicauda; Asellus dentadactylus; Asellus kenki; Asellus montanus [Zoology /  / systematic description]. Asellus communis [Zoology /  / Systematic description; distribution]. Asellus intermedius [Zoology /  / Systematic description; distribution; ecology]. Asellus tomalensis [Zoology /  / regarded as name not certainly applicable to any known taxon; p. 73]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti Accad. naz. Lincei Memorie (Sect. 3),2021-04-13,ZOOREC:ZOOR10700024047,0,0,"Tadini, G. V; Valentino, F.",J,English,Recerche sulla determinazione della stasi riproduttiva in vane razze geografiche di 'Asellus aquaticus' (Crust. Isop.).,1969.0,Zoology,(8),,9,1969,,,Asellus aquaticus [Zoology /  / Influence of temperature and light on reproductive diapause]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book chapter,Hydrobiology & Fishery of Inland Waters of Baltic.,2021-04-13,ZOOREC:ZOOR10600012353,0,0,"Timm, V.",B,English,[On the possibility of reproduction of Asellus aquaticus.],1969.0,Zoology; Reproductive Biology,,,,1969,,,Asellus aquaticus [Zoology /  / reproduction]. Crustacea [Reproduction /  / General reproduction; Asellus aquaticus]. ,,,"Hydrobiology & Fishery of Inland Waters of Baltic. Inst. Zool. Bot., Acad. Sci. est. SSR Tallin. [In Russian]",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Report Institute of Freshwater Research Drottningholm,2021-04-13,ZOOREC:ZOOR10600010037,2,0,"Andersson, E.",J,English,Life-cycle and growth of Asellus aquaticus (L.) with special reference to the effects of temperature.,1969.0,Zoology; Reproductive Biology; Developmental Biology; Environmental Sciences & Ecology,No. 49,,,1969,,,Asellus aquaticus [Zoology /  / effects of temperature on life-cycle and growth]. Crustacea [Reproduction /  / General reproduction; Effects of temperature on; Asellus aquaticus] [Development /  / Effect of physical factors; Temperature on; Asellus aquaticus; life-cycle and growth] [ /  / Life cycles; Effects of temperature in; Asellus aquaticus] [Growth /  / Effects of temperature in; Asellus aquaticus] [Ecology /  / Distribution in relation to physical factors; Abundance of; Asellus aquaticus; in relation to depth and substrate] [ /  / Habitat: Freshwater; depth; temperature and substrate preference; Asellus aquaticus] [ /  / Population fluctuations; Annual cycle of; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bull Acad Soc lorr Sci,2021-04-13,ZOOREC:ZOOR10500010027,0,0,"Balesdent, M. L.",J,English,Microchirurgie par rayonsement laser: travaux realises sur le crastace isopode. Asellus aquaticus L.,1968.0,Zoology; Reproductive Biology,7,,,1968,,,Asellus aquaticus [Zoology /  / use of laser beam microsurgery in sex determination]. Crustacea [Techniques /  / Structure; Use of laser beam microsurgery in sex determination of; Asellus aquaticus] [Reproduction /  / Use of laser beam microsurgery in sex determination of; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Communist Chinese Scientific Abstracts,2021-04-13,ZOOREC:ZOOR10500011835,0,0,"Wei, C. T.",J,English,Order Isopoda of the Hangchow region.,1968.0,Zoology; Environmental Sciences & Ecology,2,,,1968,,,Armadillidium sp. [Zoology /  / First record for China; habitat and habits]. Armadillidium vulgare [Zoology /  / First record in China; habitat and habits]. Asellus aquaticus [Zoology /  / First record for Chekiang province; China]. Astellus nipponensis; Porcellio bombosus; Porcellioides denticulatus; Tachaea chinensis [Zoology /  / first record for Chekiang province; China]. Crustacea [Ecology /  / Ecology of Orders; Isopoda of Hangchow region; China Sea] [ /  / Habitat: Freshwater; Isopoda of Hangchow region; China Sea] [China /  / Isopoda records in Hangchow region]. Isopoda [Zoology /  / Spp. of the Hangchow region; China Sea]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book chapter,"[Hydrobiological and icthyological investigation of inland reservoirs of the Baltic region. Transaction of the 12th Sci. Congr. on inland reservoirs of the Baltic region, Vilnius 1965].",2021-04-13,ZOOREC:ZOOR10500009998,0,0,"Arabina, I. P.",B,English,[Quantitative data characterizing the growth of some bethonic forms].,1968.0,Zoology; Developmental Biology,,,,1968,,,Crustacea [Growth /  / Rate of growth of; Asellus aquaticus]. ,,,"[Eds.]. [Hydrobiological and icthyological investigation of inland reservoirs of the Baltic region. Transaction of the 12th Sci. Congr. on inland reservoirs of the Baltic region, Vilnius 1965]. Inst. Zool. Parasit. Lietuvos TSR Mokslu Akad., Vilnius. [In Russian]",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Manyukas, I. L.",,,,,,,,,,,,,,
Article,Report Institute of Freshwater Research Drottningholm,2021-04-13,ZOOREC:ZOOR10500010081,0,0,"Berglund, T.",J,English,The influence of predation by brown trout on Asellus in a pond.,1968.0,Zoology; Environmental Sciences & Ecology,No. 48,,,1968,,,Asellus aquaticus [Zoology /  / Predation by; Salmo trutta; (Pisces)]. Crustacea [Ecology /  / Predation: as prey; (Pisces) on; Asellus aquaticus; Salmo trutta]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vestnik Zoologii,2021-04-13,ZOOREC:ZOOR10500043811,0,0,"Komarova, T. I.",J,English,Metacercaria of digenetic trematodes of the benthic Arthropoda from the basins of the Danube Delta.,1968.0,Zoology; Parasitology,1968,,(6),1968,,,Asymphylodora sp. [Zoology /  / innom. metacerc. in; Pontogammarus crassus; Danube delta p. 7; fig]. Crowcrocoecum skrjabini [Hosts /  / Fishes; experimentally in; Blicca bjoerkna; and; Neogobius fluviatilis; Danube delta]. Pleurogenoides medians [Hosts /  / ]. Vermes [Hosts /  / as second interhost of; Pleurogenoides medians; Danube delta; Aeschna sp] [ /  / as second interhosts of digenetic trematodes; Danube delta; Crustacea]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annales de la Societe Royale Zoologique de Belgique,2021-04-13,ZOOREC:ZOOR10500010715,0,0,"Henry, J. P.",J,English,Aselles de Belgique.,1967.0,Zoology,97,,,1967,,,Asellus aquaticus [Zoology /  / In Belgium]. Asellus cavaticus [Zoology /  / from Belgium]. Asellus hermallensis [Zoology /  / underground waters of Meuse basin]. Asellus m. belgicus [Zoology /  / an unfounded taxa]. Asellus meridianus [Zoology /  / records from Belgium]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti Associazione Genetica Italiana,2021-04-13,ZOOREC:ZOOR10500011802,0,0,"Vitagliano Tadini, G.; Valentino, F.",J,English,Valore selettivo della 'stasi riprodittiva invernale' in Asellus aquaticus.,1967.0,Genetics & Heredity; Zoology,13,,,1967,,,Crustacea [Genetics /  / General genetics; Genetic determination of; Asellus aquaticus; 'winter reproductive stasis' and correlated phenomena]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Eesti Loodus,2021-04-13,ZOOREC:ZOOR10400011428,0,0,"Timm, V.",J,English,Vesikakand.,1967.0,Zoology,1967,,,1967,,,Asellus aquaticus [Zoology /  / Ecology]. Crustacea [Zoology /  / Reproduction And Sex; Ecology Andhabits; Freshwater habitats; Ecology of; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Internationale Revue der Gesamten Hydrobiologie,2021-04-13,ZOOREC:ZOOR10400011235,2,0,"Schmitz, W.; Besch, W.; Kneissl, I.",J,English,"Die Salzgehalt-stoleranz von Gammarus pulex pulex (L.), Gammarus tigrinus Sexton und Asellus aquaticus (L.) in Abhangigkei von der relativen Konzentration der Kationen. Na, Mg, K und Ca.",1967.0,Zoology,52,,,1967,,,Asellus aquaticus [Zoology /  / salinity tolerance experiments]. Crustacea [Zoology /  / Reproduction And Sex; Ecology Andhabits; Environmental effects; Salinity tolerance of; Gammarus pulex; Gammarus trigrinus; Asellus aquaticus] [ /  / Structure; Physiology; Osmoregulation; Salinity tolerance of; Gammarus pulex; Gammarus tigrinus; Asellus aquaticus]. Gammarus aquaticus; Gammarus pulex; Gammarus tigrinus; Gammarus trigrinus [Zoology /  / ]. Gammarus pulex pulex [Zoology /  / Gammarus aquaticus; salinity tolerance experiments]. ,,,,,,,,,,,,,,,10.1002/iroh.19670520408,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annls Inst Biol Tihany,2021-04-13,ZOOREC:ZOOR10300009610,0,0,"Zankai, N. P.",J,English,On pH conditions of the alimentary canals of some crustaceans.,1966.0,Zoology; Nutrition & Dietetics,33,,,1966,,,Asellus aquaticus; Gammarus rosseli; Limnomysis benedeni [Zoology /  / pH conditions of alimentary canal]. Astacus leptodactylus [Zoology /  / pH conditions in alimentary canal]. Crustacea [Nutrition /  / pH conditions of alimentary canals of some crustaceans]. Dicerogammarus haematobaphes balatonicus [Zoology /  / Dicerogammarus villosus bispinosus; pH conditions of alimentary canal]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archivio Zoologico Italiano,2021-04-13,ZOOREC:ZOOR10300009515,0,0,"Vitagliano-Tadini, G.",J,English,Ulteriori ricerche sulla determinazione del carattere 'stasi riproduttivu' in Asellus aquaticus.,1966.0,Zoology; Genetics & Heredity,51,,,1966,,,Asellus aquaticus [Zoology /  / Genetics of 'winter reproductive stasis']. Crustacea [Zoology /  / Physiology; Ecology And Habits; Factors influencing 'winter reproductive stasis' in; Asellus aquaticus] [Genetics /  / Of the character 'winter reproductive stasis' in populations of; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin Office International des Epizooties,2021-04-13,ZOOREC:ZOOR10500011018,0,0,"Ludemann, D.",J,English,The effect of herbicides on the life community of waters.,1966.0,Zoology,65,,,1966,,,Asellus aquaticus; O. magna [Zoology /  / Effect of herbicides]. Astacus [Zoology /  / ] [ /  / Effect of herbicides]. Carlinogammarus roeselii [Zoology /  / effect of herbicides]. Crustacea [Zoology /  / Functions; Effect of Chemicals; Herbicides on; Astacus; Daphnia; Carlino-gammarus; and; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Embryologiae et Morphologiae Experimentalis,2021-04-13,ZOOREC:ZOOR10300008994,0,0,"Montalenti, G.",J,English,Determinazione della velocita di svilluppo nes ceppi nordid di Asellus aquaticus.,1965.0,Zoology; Developmental Biology,8,,,1965,,,Asellus aquaticus [Zoology /  / velocity of development in northern regions]. Crustacea [Embryology /  / Velocity of development of; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annales de Limnologie,2021-04-13,ZOOREC:ZOOR10200010640,0,0,"Pattee, E.",J,English,Stenothermie et eurythermie les invertebres d'eau douce et la variation jounaliere de temperature.,1965.0,Zoology,1,,,1965,,,Asellus cavaticus [Zoology /  / Asellus aquaticus; studies on environmental temperature]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti dell'Accademia Nazionale dei Lincei Re CI Sei fis mat nat,2021-04-13,ZOOREC:ZOOR10200010932,0,0,"Vitagliano-Tadini, G.; Vitagliano, S.",J,English,La longevita carattere razziale in rapporto al ritmo reproduttivo in Asellus aquaticus.,1965.0,Zoology; Reproductive Biology,38,,,1965,,,Asellus aquaticus [Zoology /  / Reproductive rate in relation to longevity]. Crustacea [Reproduction /  / Longevity factor in reproduction rate of; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Atti dell'Accademia Nazionale dei Lincei Re CI Sei fis mat nat,2021-04-13,ZOOREC:ZOOR10200010931,0,0,"Vitagliano-Tadini, G.; Vitagliano, S.",J,English,Determinazione della velouta di sviluppo in alcuni ceppi nordici di Asellus aquaticus.,1965.0,Zoology; Developmental Biology,38,,,1965,,,Asellus aquaticus [Zoology /  / development rate in relation to daylight hours]. Crustacea [Zoology /  / Ecology And Habits; Rhythms; Development rates of; Asellus; in relation to seasonal variation of daylight hours] [Development /  / Larval stages; Speed of development of; Asellus aquaticus; larvae in relation to daylight hours] [Growth /  / Variation of growth rate and body size in; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR10300009413,0,0,"Tadini, G. V.; Montalenti, G.",J,English,Fattori ambientali e fattori genetici nella determinazione del ciclo riproduttivo di Asellus aquaticus.,1965.0,Zoology; Reproductive Biology,32,,(2),1965,,,Asellus aquaticus [Zoology /  / Influence of length of day on reproductive cycle]. Crustacea [Zoology /  / Physiology; Ecology And Habits; Influence of length of day on reproductive cycle of; Asellus aquaticus] [Reproduction /  / Influence of length of day on reproductive cycle of; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bull Acad Soc lorr Sci,2021-04-13,ZOOREC:ZOOR10200009856,0,0,"Balesdent, M. L.",J,English,Recherches sur la sexualite et le determinisme des caracteres sexuels d'Asellus aquaticus Linne. (Crustace Isopode).,1965.0,Zoology; Endocrinology & Metabolism; Reproductive Biology; Developmental Biology,5,,(2),1965,,,Asellus aquaticus [Zoology /  / Research on sexuality and the determination of sexual characteristics]. Crustacea [Zoology /  / General; Methods; Methods for collecting; Asellus aquaticus; and studying it in the laboratory] [ /  / Reproduction And Sex; Sex ratios; In; Asellus] [ /  / Structure; Glands; Androgene gland; and endocrine glands; of; Asellus] [ /  / Structure; Reproductive organs; Male and female genital apparatus of; Asellus aquaticus] [Hormones /  / Androgen gland studies of; Asellus; effect on determination of sexual characteristics] [Reproduction /  / Physiology of reproduction in; Asellus] [Sexual dimorphism /  / The determination of sexual characteristics in; Asellus] [Development /  / Life histories; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Razprave Slovenska Akademija Znanosti in Umetnosti (4) Hist Nat,2021-04-13,ZOOREC:ZOOR10200010807,0,0,"Sket, B.",J,English,Taxonomische Problematik der Art Asellus aquaticus (L.) Rac. mit. besonderer Rucksicht aud die Populationen Sloweniens.,1965.0,Zoology,8,,,1965,,,Asellus aquaticus [Zoology /  / Taxonomy]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zeszyty Naukowe Uniwersytetu Mikolaja Kopernika w Toruniu Nauk Mat-Przyr,2021-04-13,ZOOREC:ZOOR10300009575,0,0,"Wolnomiejski, N.",J,English,Littoral bottom fauna of the lake Jeziorak Maly.,1965.0,Zoology,13,,,1965,,,Asellus aquaticus [Zoology /  / Distribution; seasonal changes; ecology; Lake Jeziorak Maly; Poland]. Crustacea [Zoology /  / Physiology; Ecology And Habits; Freshwater habitats; Distribution and relationships of littoral bottom fauna of Lake Jeziorak Maly] [Poland /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR10300008995,0,0,"Montalenti, G.; Rocchi, A.",J,English,Note cariologiche sul genere Asellus.,1964.0,Zoology; Cell Biology,31,,(2),1964,,,Asellus aquaticus [Zoology /  / Asellus coxalis; mitosis]. Crustacea [Cytology /  / Mitosis in; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR10300009414,0,0,"Tadini, G. V.; Valentino, F.",J,English,Accumulo di geni letali in popolazioni di Asellus aquaticus di diversa origine geografica.,1964.0,Zoology; Reproductive Biology,31,,(2),1964,,,Asellus aquaticus [Zoology /  / Lethal loads of four populations from different localities]. Crustacea [Zoology /  / Physiology; Ecology And Habits; Population studies; Statistical analysis of lethal loads of four populations of; Asellus aquaticus] [Reproduction /  / Difference in lethal load of consanguineous and non-consanguineous matings of; Asellus aquaticus; populations]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,CR Accad Lincei (8),2021-04-13,ZOOREC:ZOOR10100009858,0,0,"Vitagliana, G.; Valentino, F.",J,English,Sulla determinazione della variabilita della mole corporea in Asellus aquaticus.,1964.0,Zoology,36,,,1964,,,Asellus aquations [Zoology /  / polymorphism]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Proceedings of the Zoological Society of London,2021-04-13,ZOOREC:ZOOR10100009903,0,0,"Williams, W. D.",J,English,The ecological relationships of isopod crustaceans Asellus aquaticus (L.) and A. meridianus Rac.,1963.0,Zoology,140,,,1963,,,Asellus aquaticus [Zoology /  / and; Asellus meridianus; ecological relationships]. Crustacea [Zoology /  / Ecology And Habits; Ecology of special forms; Ecological relationships of two species of Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Rendiconti Accad Lincei CI Sci fis mat nat (8),2021-04-13,ZOOREC:ZOOR10000007605,0,0,"Tadini, G. V.",J,English,La variabilita del rapporto sessi in Asellus aguaticus e la sua determinazione oligogenica.,1963.0,Zoology,34,,5,1963,,,Asellus aquaticus [Zoology /  / genetics]. Crustacea [Zoology /  / Evolution And Genetics; Genetics; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Crustaceana,2021-04-13,ZOOREC:ZOOR10000007734,0,0,"Williams, W. D.",J,English,"Some remarks on the phenotypic variation and genetic isolation in Asellus (Isopoda, Asellota).",1962.0,Zoology,3,,,1962,,,Asellus meridianus [Zoology /  / Asellus aquaticus; phenotypic variation and genetic isolation]. Crustacea [Zoology /  / Evolution And Genetics; Genetics; Asellus]. ,,,,,,,,,,,,,,,10.1163/156854062X00517,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Fauna Blindern,2021-04-13,ZOOREC:ZOOR10000007232,0,0,"Okland, J.",J,English,On the distribution of Asellus (Crustacea: Isopoda) in Norway.,1962.0,Zoology,15,,,1962,,,Asellus aquaticus [Zoology /  / distribution in Norway]. Crustacea [Zoology /  / 1. Land And Freshwater; Palearctic Region; Norway]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,(Grost Isop) Atti Soc pelorit,2021-04-13,ZOOREC:ZOOR09900007235,0,0,"VitagHano-Tadim, G.; Capoa, A.de.",J,English,Dati preliminari sull' azione dei raggi X sugli embrioni di Asellus aquaticus L.,1962.0,Zoology,8,,,1962,,,Crustacea [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,ZOOREC:ZOOR09900007256,2,0,"Williams, W. D.",J,English,"Notes on the ecological similarities of Asellus aquaticus (L.) and A. meridianus Rac. (Crust., Isopoda).",1962.0,Zoology,20,,1,1962,,,Asellus aquaticus [Zoology /  / Asellus meridianus; ecological similarities]. Crustacea [Zoology /  / Ecology And Habits; Ecology of special forms; Asellus] [ /  / Ecology And Habits; Geographical Distribution; 1. Land And Freshwater; Arctic Region; Palearctic Region; British Isles]. ,,,,,,,,,,,,,,,10.1007/BF00038733,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Prirod Istraz mat prir Razred,2021-04-13,ZOOREC:ZOOR08900004888,0,0,"Karaman, S. L.",J,English,Amfipoda i izopoda Yranskog jezera na ostrou Cresu. [Die Amphipoden und Isopoden des Vranasees auf der Insel Cres (Cherso).],1962.0,Zoology,25,,,1962,,,Crustacea [Zoology /  / Geographical Distribution; 1. Land And Freshwater; Palaearctic Region; Yugoslavia]. Synurella ambulans ambulans [Zoology /  / ]. Synurella ambulans ambulans f. recurva [Zoology /  / Synurella ambulans ambulans; figs]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Proceedings of the Zoological Society of London,2021-04-13,ZOOREC:ZOOR10000007733,0,0,"Williams, W. D.",J,English,The geographical distribution of the isopods Asellus aquaticus (L.) and A. meridianus Rac.,1962.0,Zoology,139,,,1962,,,Asellus aquaticus [Zoology /  / Asellus meridianus; distribution in European countries]. Crustacea [Zoology /  / 1. Land And Freshwater; Palearctic Region; British Isles]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Doklady Akademii Nauk SSSR (Transl) Biol Sci,2021-04-13,ZOOREC:ZOOR09800005507,0,0,"Khlebovich, V. V.",J,English,On the death rate of several fresh-water and marine invertebrates in brackish water of different concentrations.,1961.0,Zoology,135,,,1961,,,Acanthocyclops viridis [Zoology /  / death rate in changed salinity]. Asellus aquaticus [Zoology /  / death rate in saline water]. Crustacea [Zoology /  / Ecology And Habits; Environmental Effects; Salinity]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Experimental Cell Research,2021-04-13,ZOOREC:ZOOR09800005062,0,0,"Brack, C. J. H. van den; Tates, A. D.",J,English,The Incorporation of I4C-adenine into the oocytes of Asellus aquaticus as studied by autoradiography.,1961.0,Zoology,24,,,1961,,,Crustacea [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Proceedings of the Zoological Society of London,2021-04-13,ZOOREC:ZOOR09800006060,2,0,"Steel, E. A.",J,English,Some observations on the life history of Asellus aquaticus (L.) and Asellus meridianus Racovitza (Crustacea : Isopoda).,1961.0,Zoology,137,,,1961,,,A aquaticus [Zoology /  / A meridianus; life history]. Crustacea [Zoology /  / Reproduction And Sex; Reproduction; Asellus] [Palaearctic region /  / British Isles]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Rendiconti Accad Lincei (8),2021-04-13,ZOOREC:ZOOR09800006103,0,0,"Tadeni, G. V.",J,English,Indaguii sugli ibridi intraspecifici in Asellus aquaticus.,1961.0,Zoology,30,,2,1961,,,Crustacea [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Rev verviet Hist nat,2021-04-13,ZOOREC:ZOOR09800006207,0,0,"Wettstein, L.",J,English,Note sur Asellus aquaticus Linne'.,1961.0,Zoology,18,,5-7,1961,,,Crustacea [Palaearctic region /  / France]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Salmon and Trout Magazine,2021-04-13,ZOOREC:ZOOR09800005066,0,0,"Brown, M. E.",J,English,Biological notes.,1961.0,Zoology,No. 163,,,1961,,,Asellus aquaticus [Zoology /  / oxygen consumption]. Crustacea [Zoology /  / Physiology; Respiration; oxygen consumption; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annales de Parasitologie Humaine et Comparee,2021-04-13,ZOOREC:ZOOR09700021004,0,0,"Buttner, A.; Vacher, G.",J,English,Recherches sur le developpement et l'identification de Plagiorchis (Multiglandularis) cirratus (Rudolphi 1802). 1. Etude du cycle evolutif.,1960.0,Zoology,35,,,1960,,,Plagiorchis cirratus [Zoology /  / ]. Vermes [Zoology /  / Platyhelminthes Nemertinea Mesozoa; Host-distribution; cercaria in; and; Limnaea limosa; as interhosts of; Plagiorchis cirratus; Limnaea stagnalis] [ /  / Platyhelminthes Nemertinea Mesozoa; Host-distribution; Crustacea; Gammarus and; Asellus aquaticus; as interhosts of; Plagiorchis cirratus; Gammarus pulex] [ /  / Platyhelminthes Nemertinea Mesozoa; Reproduction And Development; Life-history; Of; Plagiorchis cirratus]. ,,,,,,,,,,,,,,,,,,,,,13689488.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Freshwater Biological Association Scientific Publication,2021-04-13,ZOOREC:ZOOR09700007156,0,0,"Hynes, H. B. N.; Macan, T. T.; Williams, W. D.",J,English,A key to the British species of Crustacea : Malacostraca occurring in fresh water.,1960.0,Zoology,No. 19,,,1960,,,Asellus cavaticus [Zoology /  / Asellus aquaticus; Asellus meridianus; figs]. Asiacus pallipes [Zoology /  / Asiacus astacus; Asiacus leptodactylus; Asiacus torrentium; figs]. Bathynella natans; Echinogammarus berilloni; Mysis relkta; Orcheslia bottae [Zoology /  / fig]. Crangonyx pseudogracilis; Gammarus duebeni; Gammarus lacustris; Gammarus tigrinus; Gammarus zaddachi; Niphargus aquilex; Niphargus fortanus; Niphargus kochianus [Zoology /  / ]. Crangonyx vejdovski [Zoology /  / Crangonyx pseudogracilis; figs]. Crustacea [Zoology /  / Geographical Distribution; 1. Land And Freshwater; Palearctic Region; British Isles]. Eriocheir sinensis [Zoology /  / Fig]. Gammarus pulex [Zoology /  / Gammarus lacustris; Gammarus duebeni; Gammarus tigrinus; Gammarus zaddachi; figs]. Niphargus glenniei [Zoology /  / Niphargus kochianus; Niphargus fortanus; Niphargus aquilex; figs]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mikrokosmos,2021-04-13,ZOOREC:ZOOR09700006934,0,0,"Deckart, M.",J,English,Wasserassel (Asellus aquaticus).,1960.0,Zoology,49,,3,1960,,,Asellus militaris [Zoology /  / photograph]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vestnik Leningradskogo Gosudarstvennogo Universiteta,2021-04-13,ZOOREC:ZOOR10500043409,0,0,"Golikova, M. N.",J,English,Ecological and parasitological investigation of the biocenosis of some lakes in the Kaliningrad region. IV. On the trematode fauna of the invertebrates.,1960.0,Zoology; Parasitology,No. 21,,,1960,,,Metacercaria sp. [Zoology /  / innom. in; Asellus aquaticus; and; Lestes sp; USSR p. 89; fig] [Hosts /  / in; Asellus aquaticus; Kaliningrad region; USSR] [ /  / in; Lestes sp; Kaliningrad region; USSR]. Tetracotyle sp. [Zoology /  / innom. in; Herpobdella octoculata; USSR p. 89; fig]. Vermes [Hosts /  / as interhost of trematodes in Kaliningrad region; USSR; Erpobdella octoculata] [ /  / Molluscs as trematode interhosts in Kaliningrad region; USSR]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zeitschrift fuer Wissenschaftliche Zoologie,2021-04-13,ZOOREC:ZOOR09700007631,0,0,"Weygoldt, P.",J,English,Beitrag zur Kenntnis der Malakostrakenentwicklung die Keimblatterbildung bei Asellus aquaticus (L.).,1960.0,Zoology; Developmental Biology,163,,(3-4),1960,,,Asellus militaris [Zoology /  / embryology; figs]. Crustacea [Development /  / Embryology; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Glasgow Naturalist,2021-04-13,ZOOREC:ZOOR09600007007,0,0,"Warwick, T.",J,English,The isopods Asellus aquatieus and A. meridianus in Scotland.,1959.0,Zoology,18,,,1959,,,Asellus aquaticus [Zoology /  / Asellus meridianus; in Scotland]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Proceedings International Congress of Zoology,2021-04-13,ZOOREC:ZOOR09600005890,0,0,"Balesdent-Marqaet, M. L.; Vallet, A.",J,English,Determinisme des caracteres sexuels externes chez le Crustace Isopode Asellus aquaticus L.,1959.0,Zoology,15,,,1959,,,Crustacea [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Trudy Vsesoyuznogo Instituta Gelmintologii,2021-04-13,ZOOREC:ZOOR09900015508,0,0,"Kotelnikov, G. A.",J,English,The life cycle of Filicollis anatis (Acanthocephala) and observation on epizootology of ducks.,1959.0,Zoology,6,,,1959,,,Filicollis anatis [Zoology /  / ]. Vermes [Zoology /  / General; Host-distribution; Arthropoda; as interhost of; Filicollis anatis; Asellus aquaticus] [ /  / General; Reproduction And Development; Life-history; Experimental life-history of; Filicollis anatis]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Parasitologica Polonica,2021-04-13,ZOOREC:ZOOR09500020311,1,0,"Styczynska, E.",J,English,Acanthocephala of the biocoenosis of Druzno Lake. [Parasitofauna of the biocoensis of Druzno Lake-part VI.],1958.0,Zoology,6,,,1958,,,Vermes [Zoology /  / Host-distribution; Amphibia; Acanthocephala in amphibians from Lake Druzno; Poland] [ /  / Host-distribution; Aves; Acanthocephala in birds from Lake Druzno; Poland] [ /  / Host-distribution; Crustacea; Acanthocephala larvae in; Asellus aquaticus; Poland] [ /  / Host-distribution; Fishes; Acanthocephala in fishes from Lake Druzno; Poland]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Acta Parasitologica Polonica,2021-04-13,ZOOREC:ZOOR09500020312,0,0,"Styczynska, E.",J,English,Some observations on the development and bionomics of larvae of Filicollis anatis Schrank. [Parasitofauna of the biocoenosis of Druzno Lake-part VII.],1958.0,Zoology,6,,,1958,,,Filicollis anatis [Zoology /  / ] [ /  / Host-distribution; Aves; in; Tringa glareola; and; Philomachus pugnax; Poland]. Vermes [Zoology /  / Host-distribution; Crustacea; as interhost of; Filicollis anatis; Asellus aquaticus] [ /  / Reproduction And Development; Bionomics of ova and larvae; Bionomics of; Filicollis anatis; larvae]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annales Instituti Biologici Hungaricae Academiae Scientiarum,2021-04-13,ZOOREC:ZOOR09500006147,0,0,"Lukacsovics, F.",J,English,Okologische und Zoogeographische Bearbeitung der Malacostraca-Arten des Aszofoi Sed-Boches.,1958.0,Zoology,25,,,1958,,,Asellus aquaticus [Zoology /  / Hungary; ecology; etc]. Crustacea [Zoology /  / Ecology And Habits; Ecology of Special Forms; Malacostraca] [Palaearctic region /  / Hungary]. Gammarus (Rivulogammarus) roeseli [Zoology /  / Gammarus fossarum; Hungary; ecology]. Gammarus fossarum [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Rendiconti Accad Lincei (8),2021-04-13,ZOOREC:ZOOR09500006472,0,0,"Tadini, G. V.",J,English,Indagini sulle varizioni del rapporto sessi in Asellus aquaticus.,1958.0,Zoology,24,,,1958,,,Asellus aquaticus [Zoology /  / genetics]. Crustacea [Zoology /  / Evolution And Genetics; Genetics; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Rendiconti Accad Lincei (8),2021-04-13,ZOOREC:ZOOR09500006473,0,0,"Tadini, G. V.",J,English,Il probable significato biologico della monogenia.,1958.0,Zoology,24,,,1958,,,Asellus aquaticus [Zoology /  / genetics]. Crustacea [Zoology /  / Evolution And Genetics; Genetics; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zeitschrift fuer Wissenschaftliche Zoologie,2021-04-13,ZOOREC:ZOOR09500006108,0,0,"Lange, H.",J,English,Bau und Entwicklung der blutbildenden Organe von Asellus aquaticus L.,1958.0,Zoology; Developmental Biology,161,,,1958,,,Asellus aquaticus [Zoology /  / embryology; structure; histology; vascular organs; many figs; discussion; etc]. Crustacea [Zoology /  / Structure; Circulatory system; Asellus] [Development /  / Vascular organs of; Asellus] [ /  / Embryology; vascular system; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR09400005510,0,0,"Tadini, G. V.",J,English,Differenziamento sessuale della gonadi Asellus aquaticus L.,1957.0,Zoology,23,,(2),1956[1957],,,Asellus aquaticus [Zoology /  / gonads]. Crustacea [Zoology /  / Reproduction And Sex; Reproduction; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR09500006471,0,0,"Tadini, G. V.",J,English,Differenziamento sessuale delle gonadi Asellus aquaticus L.,1957.0,Zoology; Developmental Biology,23,,1956,[1957],,,Asellus aquaticus [Zoology /  / sexual differentiation of gonads; figs]. Crustacea [Zoology /  / Physiology; Reproductive organs; Asellus] [ /  / Structure; Histology; gonads; Asellus] [Development /  / gonads; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Roux Archiv fuer Entwicklungsmechanik Organismen,2021-04-13,ZOOREC:ZOOR09400005188,0,0,"Lange, H.",J,English,Experimentelle Beein-f lussung der blutbildenden Organe von Asellus aquaticus L. durch Rontgen-strahlen.,1957.0,Zoology,149,,,1957,,,Crustacea [Zoology /  / Structure; Circulatory system; Effect of X-rays on blood formation in; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Univ Carolina Biol,2021-04-13,ZOOREC:ZOOR09400014096,0,0,"Buchar, J.",J,English,[Epizoische und ektokomensale Fauna auf Asellus aquaticus aus der Umgebung von Prag.],1957.0,Zoology,3,,,1957,,,Protozoa [Zoology /  / Insecta:; Crustacea:; (Czechoslovakia); ectoparasitic ciliates; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bollettino di Zoologia,2021-04-13,ZOOREC:ZOOR09400005562,0,0,"Vitagliano-Tadini, G.; Malquori, A. M.; Maffei, F.",J,English,Il rapporto sessi in Asellus aquaticus L.,1956.0,Zoology,23,,(2),1956,,,Asellus aquaticus [Zoology /  / sex ratio; etc]. Crustacea [Zoology /  / Reproduction And Sex; Sex ratio; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Fauna Nederl,2021-04-13,ZOOREC:ZOOR09300006014,0,0,"Holthuis, L. B.",J,English,Isopoda en Tanaidacea (KV).,1956.0,Zoology,16,,,1956,,,Crustacea [Netherlands /  / Holland] [North Sea /  / Geographical Distribution; Marine; North Temperate; Dutch Coast]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Proceedings of the Society for Water Treatment and Examination,2021-04-13,ZOOREC:ZOOR09800006148,0,0,"Turner, M. E. D.",J,English,Asellus aquaticus in a public water supply distribution system.,1956.0,Zoology,5,,(2),1956,,,Asellus aquaticus [Zoology /  / in public water supply]. Crustacea [Zoology /  / General; Economic; in public water supply; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Wiadomosci Parazytologiczne Warsaw,2021-04-13,ZOOREC:ZOOR09300017150,0,0,"Styczynska, E.",J,English,Some observations on the biology and development of the larvae of Filicollis anatis Schrank (Acanthocephala).,1956.0,Zoology,2,,5,1956,,,Filicollis anatis [Zoology /  / ]. Vermes [Zoology /  / Host-distribution; Ethology; Host-distribution; Crustacea; as experimental interhost for; Filicollis anatis; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,13392835.0,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR09300006237,0,0,"Ponyi, E.",J,English,Eine neue Subspecies des Formenkreises Asellus (s. str.) in Ungarn.,1956.0,Zoology,157,,,1956,,,Asellus aquaticus Bercziki [Zoology /  / p. 245; form nov; Hungary; figs]. Crustacea [Palaearctic region /  / Hungary]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Caryologia Suppl,2021-04-13,ZOOREC:ZOOR09200005297,0,0,"Vitagliano-Tadini, G.",J,English,Monogenia ed ermafroditismo in Asellus aquaticus.,1955.0,Zoology,6,,,1955,,,Asellus aquaticus [Zoology /  / monogenia and hermaphroditism; figs]. Crustacea [Zoology /  / Reproduction And Sex; Hermaphroditism and Interseries; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR09200005162,0,0,"Schmolzer, K.",J,English,Asellus aquaticus arthrobranchialis Dud. im Lago Maggiore.,1955.0,Zoology,154,,,1955,,,Asellus aquaticus aquaticus [Zoology /  / Asellus aquaticus arthrobranchialis; figs; in Lago Maggiore]. Crustacea [Palaearctic region /  / Italy]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annales des Sciences Naturelles (Zoologie) Ser 11,2021-04-13,ZOOREC:ZOOR09100004981,0,0,"Roche, A.",J,English,Contribution a l'etude histophysiologique de l'appareil digestif chez Asellus aquaticus L.,1954.0,Zoology,15,,,1954,,,Asellus aquaticus [Zoology /  / histology; physiology; etc; photos]. Crustacea [Zoology /  / Physiology; General; of; Asellus] [ /  / Structure; Histology; Digestive System in; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Hydrobiologia,2021-04-13,ZOOREC:ZOOR09100014696,0,0,"Stiller, J.",J,English,Epizoische Peri-trichen avis dem Balaton III.,1954.0,Zoology,5,,(1-2),1953,,,Carchesium epizoicum; Carchesium parvum; Vorticella asellicola; Zoothamnium balatonicum; Zoothamnium compactum; Zoothamnium major [Zoology /  / ]. Peritrichida [Zoology /  / New Peritrichids from Lake Balaton]. Protozoa [Zoology /  / Economics; (1) Geographical; 1. Land and Freshwater. Palaearctic Region; Peritrichids of Lake Balaton] [ /  / Structure; General : Aquatic :; Freshwater; Distribution of peritrichids in Lake Balaton]. ,,,,,,,,,,,,,,,10.1007/BF00023590,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Levende Natuur,2021-04-13,ZOOREC:ZOOR09100004787,0,0,"Leentvaar, P.",J,English,Het gedrag van de vlokreeft en de waterpissebed.,1954.0,Zoology,57,,12,1954,,,Asellus aquaticus; Gammarus pulex [Zoology /  / behaviour; figs]. Gammarus [Zoology /  / Physiology; Ecology And Habits; Behaviour; and; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologische Jahrbuecher (Allgemeine Zoologie),2021-04-13,ZOOREC:ZOOR09100004568,0,0,"Fischbach, E.",J,English,"Licht, Schwere und Geruchssinn bci Isopoden.",1954.0,Zoology,65,,,1954,,,Asellus aquaticus [Zoology /  / sense physiology]. Crustacea [Zoology /  / Physiology; Sense physiology.[long term]; Isopoda]. Isopoda [Zoology /  / Geotaxis; light; sense of smell; etc]. Oniscus asellus; Porcellio scaber [Zoology /  / sense physiology; photos]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR09100005025,0,0,"Seitz, I.",J,English,Jahreszeitliche Schwankungen in Geschlechtsverhalt-nis freilebender Populationen von Asellus aquaticus L.,1954.0,Zoology,153,,,1954,,,Asellus aquaticus [Zoology /  / season al sex-ratio variation]. Crustacea [Zoology /  / Physiology; Ecology And Habits; Population studies] [ /  / Physiology; Reproduction And Sex; Sex ratio; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR09100004619,0,0,"Gruner, H. E.",J,English,Uber das Coxalglied der Pereiopoden de Isopoden.,1954.0,Zoology,152,,,1954,,,Asellus aquaticus; Porcellio scaber; Syspastus brevicornis; Tylos granulatus [Zoology /  / coxal articulation of peraeopods; figs]. Crustacea [Zoology /  / Structure; Appendages; Coxal articulation of peraeopods of Isopoda]. Idotea baltica; Idotea ochotensis [Zoology /  / ]. Idotea hectica [Zoology /  / Idotea ochotensis; Idotea baltica; coxal articulation of peraeopods; figs]. Isopoda [Zoology /  / Coxal articulation of peraeopods; figs]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Glasnik Hrvatskoga Prirodoslovnoga Drustva Zagreb (2B),2021-04-13,ZOOREC:ZOOR09000004860,0,0,"Karaman, S. L.",J,English,Die Aselliden des Ohridsees.,1953.0,Zoology,4-6,,,1953,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Pubblicazioni della Stazione Zoologica di Napoli,2021-04-13,ZOOREC:ZOOR09000005016,0,0,"Montefoschi, S.; Magaldi, A.",J,English,Comportamento degli acidi nucleinici nella ovogenesi di Asellus aquaticus.,1953.0,Zoology; Developmental Biology,24,,,1953,,,Asellus aquaticus [Zoology /  / Nucleic acid study of oogenesis]. Crustacea [Zoology /  / Physiology; Biochemistry; Nucleic acid study of oogenesis] [Development /  / Egg; Oogensis of; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin de la Societe Zoologique de France,2021-04-13,ZOOREC:ZOOR08900005101,0,0,"Roche, A.",J,English,Quelques particularites du corps adipeux chez Asellus aquaticus L.,1952.0,Zoology,76,,,1952,,,Asellus aquaticus [Zoology /  / notes on corps adipeux]. Crustacea [Zoology /  / Physiology; Metabolism; Physiology of fat body in; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Prirod Istraz mat prir Razred,2021-04-13,ZOOREC:ZOOR08900004887,0,0,"Karaman, S. L.",J,English,Asellus aquaticus L. i njegove podorste na Balkanu. [Asellus aquaticus und seine Unterarten am Balkan.],1952.0,Zoology,25,,,1952,,,Asellus aquaticus [Zoology /  / review of Balkan spp; Asellus a. arthrobranchialis f. balcanica; Asellus a. cavernicolus f. carsica; ff. nov; both figd; Asellus meridianalis meridianalis; Asellus a. cf. aquaticus; Asellus a. cavernicolus cavernicola; figs]. Crustacea [Zoology /  / Geographical Distribution; 1. Land And Freshwater; Palaearctic Region; Yugoslavia]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Hydrobiologie,2021-04-13,ZOOREC:ZOOR08900012256,0,0,"Sommer, G.",J,English,Die peri trichen Ciliaten des Grossen Ploner Sees.,1951.0,Zoology; Environmental Sciences & Ecology,44,,(3),1951,,,Peritrichida [Zoology /  / Peritrichida from Germany] [ /  / Zoothamniidae; fam. n; (p. 392)]. Protozoa [Zoology /  / Distribution; (a) Geographical; 1. Land and Freshwater. Palea-arctic Region; Peritrichida from Germany] [Ecology /  / Ecology of Peritrichida]. Thuricola obliqua; Vorticella costata [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiva Biologica Hungarica,2021-04-13,ZOOREC:ZOOR08900012274,0,0,"Stiller, J.",J,English,Epizoische Peritrichen aus dem Balaton II.,1951.0,Zoology,19,,(1),1951,,,Peritrichida [Zoology /  / Peritrichida from Lake Balaton]. Protozoa [Zoology /  / Distribution; (a) Geographical; 1. Land and Freshwater. Palea-arctic Region; Peritrichida from Lake Balaton]. Zoothamnium major [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Biol Paris,2021-04-13,ZOOREC:ZOOR08800005356,0,0,"Roche, A.",J,English,Donnees histochimiques sur la repartition des phos-phatases alcalines chez Asellus aquaticus (L.) Arch.,1951.0,Zoology,62,,,1951,,,Asellus aquaticus [Zoology /  / alkaline phosphatases]. Crustacea [Zoology /  / Physiology; Biochemistry; Alkaline phosphatases in; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Memoires de la Societe Zoologique Tchecoslovaque de Prague,2021-04-13,ZOOREC:ZOOR08900004947,0,0,"Lang, J.; Ruzickova-Langova, M.",J,English,Periodicita ve spotrebe kyslku u beruzky vodn [Asellus aquaticus).,1951.0,Zoology,15,,,1951,,,Asellus aquaticus [Zoology /  / respiratory rhythm]. Crustacea [Zoology /  / Ecology And Habits; Diurnal rhythms; Respiration of; Asellus] [ /  / Physiology; Respiration]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Polska Zachodinia Poznan,2021-04-13,ZOOREC:ZOOR08700003589,0,0,"Urbanski, V.",J,English,Rownonogi (Isopoda: Crust.) Pomorza. Badania fizjogr.,1950.0,Zoology,2,,3,1950,,,Androniscus dentiger [Zoology /  / Androniscus roseus; figs]. Androniscus roseus; Armadillidium (A.) vulgare; Armadillidium (A.) zenckeri; Armadillidium (D.) pulchellum; Armadillidium (P.) opacum; Armadillidium (Pseudo-sphaerium) nasatum; Haplophthalmus danicus; Idothea granulosa; Idothea viridis; Porcellio (P.) dilatatus; Porcellio (P.) pictus; Porcellio (P.) scaber; Protracheoniscus amoenus; Tracheoniscus affinis; Tracheoniscus rathkei; Trichoniscoides albidus; Trichoniscoides sarsi; Trichoniscus elizabethae; Trichoniscus pusillus caelebs; Trichoniscus rhenanus [Zoology /  / ]. Anthura gracilis; Armadillo (Armadillo) officinalis; Asellus (Asellus) aquaticus; Cordioniscus stebbingi rhenanus; Cyathura carinata; Cyclisticus convexus; Euridyce pulchra; Heterotanais oerstedi; Hyloniscus riparius; Jaera albifrons; Ligia (L.) oceanica; Ligidium (Ligidium) hypnorum; Limnoria lignorum; Metoponorthus (Metoponorthus) pruinosus; Miktoniscus linearis; Oniscus asellus; Philoscia (Philoscia) muscorum sylvestris; Platyarthrus hoffmannseggii; Porcellium conspersum [Zoology /  / figs]. Armadillidium (Duplocarinatum) pictum [Zoology /  / Armadillidium (D.) pulchellum; Armadillidium (A.) vulgare; Armadillidium (A.) zenckeri; Armadillidium (Pseudo-sphaerium) nasatum; Armadillidium (P.) opacum; figs]. Crustacea [Zoology /  / Geographical Distribution; 1. Land And Freshwater; Palaearctic Region; Poland] [ /  / Geographical Distribution; Arctic; North Temperate; Baltic]. Haplophthalmus mengei [Zoology /  / Haplophthalmus danicus; figs]. Idothea baltica [Zoology /  / ] [ /  / Idothea granulosa; Idothea viridis; figs; Idothea baltica; Idothea granulosa; Idothea viridis; figs]. Isopoda [Zoology /  / Isopoda of Pomerania]. Mesidothea entomon; Sphaeroma rugicauda [Zoology /  / fig]. Porcellio (Mesoporcellio) laevis [Zoology /  / Porcellio (P.) pictus; Porcellio (P.) scaber; Porcellio (P.) dilatatus; figs]. Protracheoniscus asiaticus [Zoology /  / Protracheoniscus amoenus; figs]. Tracheoniscus ratzeburgi [Zoology /  / Tracheoniscus rathkei; Tracheoniscus affinis; figs]. Trichoniscoides saeroeensis [Zoology /  / Trichoniscoides albidus; Trichoniscoides sarsi; figs]. Trichoniscus pygmaeus [Zoology /  / Trichoniscus pusillus caelebs; Trichoniscus elizabethae; Trichoniscus rhenanus; figs]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zpravy Anthropol spol,2021-04-13,ZOOREC:ZOOR08600004148,0,0,"Hrabe, S.",J,English,O redukci AgNO3 a KMnO4 na urcitych mstech tela korysu Asellus aquaticus a Synurella ambulans. (On the reduction of Silver Nitrate and Potassium Permanganate on certain parts of the body of Asellus aquaticus and Synurella ambulans.),1949.0,Zoology,11,,,1949,,,Asellus aquaticus [Zoology /  / respiration; figs]. Crustacea [Zoology /  / Physiology; Respiration; Asellus and Synurella]. Synurella [Zoology /  / Synurella ambulans; respiratory system fig]. Synurella ambulans [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Danmarks Fauna,2021-04-13,ZOOREC:ZOOR08700003550,0,0,"Stephensen, K.",J,English,Storkrebs. IV. Ringkrebs.,1948.0,Zoology,53,,,1948,,,Aega crenulata; Aega monophthalma; Aega stromi; Aega tridens; Aega ventrosa; Athelges bilobus; Athelges tenuicaudis; Clypeoniscus meinerti; Eurycope cornuta; Eurycope furcata; Eurycope mutica; Eurycope phallangium; Eurycope producta; Eurycope pygmaea; Idothea granulosa; Idothea linearis; Idothea neglecta; Idothea viridis; Leptognathia breviremis; Leptognathia dentifera; Leptognathia filiformis; Leptognathia gracilis; Leptognathia longiremis; Leptognathia manca; Macrostylis spinifera; Munna fabricii; Munna limicola; Munna minuta; Pleurocrypta longibranchiata; Pleurocrypta marginata; Pleurogonium inerme; Pleurogonium spinosissimum; Pseudione borealis; Pseudione crenulata; Pseudione tuberculata; Pseudotanais macrocheles; Typhlotanais assimilis; Typhlotanais brevicornis; Typhlotanais tenuicornis; Typhlotanais tenuimanus [Zoology /  / ]. Aega psora [Zoology /  / Aega monophthalma; Aega ventrosa; Aega tridens; Aega crenulata; Aega stromi; figs]. Anarthrura simplex; Asconiscus simplex; Aspidophryxus peltatus; Bopyrus squillarum; Branchiopryxus nyctiphanae; Cyrproniscus cypridinae; Dendrotion spinosum; Echinopleura aculeata; Gyge branchialis; Hyarachna longicornis; Mesidothea entomon; Pseudarachna hirsata; Sphaeroma rugicauda [Zoology /  / fig]. Apseudes spinosus; Arcturella dilatata; Calathura brachiata; Ceratothoa impressa; Cryptocope abbreviata; Cryptothir balani; Cyathura carinata; Euridyce pulchra; Gnathia oxyura; Haplocope angusta; Heterotanais oerstedi; Ischnomesus bispinosus; Jaera albifrons; Janira maculosa; Janiropsis breviremis; Leptochelia danica; Limnoria lignorum; Liriopsis pygmaea; Munnonicus marsupialis; Munnopsis typica; Notophryxus ovoides; Paramunna bilobata; Phryxus abdominalis; Portunion maenadis; Prodajus ostendensis; Rocinela danmoniensis; Sphyrapus anomalus; Strongylura cylindrata; Tanais cavolinii; Tanaopsis laticaudata [Zoology /  / figs]. Asellus aquaticus [Zoology /  / Asellus meridianus; figs]. Astacilla longicornis [Zoology /  / ] [ /  / figs; A affinis; Astacilla longicornis; figs; A affinis]. Athelges paguri [Zoology /  / Athelges tenuicaudis; Athelges bilobus; figs]. Clypeoniscus nahseni [Zoology /  / Clypeoniscus meinerti; fig]. Crustacea [Zoology /  / Geographical Distribution; Arctic; North Temperate; Baltic]. Desmosama tenuimanum [Zoology /  / Desmosama intermedium; Desmosama lineare; Desmosama coarctatum; Desmosama laterale; Desmosama angustum; Desmosama armatum; figs]. Eurycope [Zoology /  / Eurycope producta; Eurycope cornuta; Eurycope phallangium; Eurycope furcata; Eurycope pygmaea; Eurycope mutica; figs]. Idothea baltica [Zoology /  / Idothea viridis; Idothea neglecta; Idothea granulosa; Idothea linearis; figs]. Isopoda [Zoology /  / Danish marine Isopoda; keys to genera and spp. in Danish]. Leptognathia brevimana [Zoology /  / Leptognathia filiformis; Leptognathia dentifera; Leptognathia manca; Leptognathia gracilis; Leptognathia breviremis; Leptognathia longiremis; figs]. Macrostylis longiremis [Zoology /  / Macrostylis spinifera; figs]. Munna boecki [Zoology /  / Munna fabricii; Munna minuta; Munna limicola; figs]. Pleurocrypta galatheae [Zoology /  / Pleurocrypta marginata; Pleurocrypta longibranchiata; figs]. Pleurogonium robicundum [Zoology /  / Pleurogonium spinosissimum; Pleurogonium inerme; figs]. Pseudione hyndmanni [Zoology /  / Pseudione crenulata; Pseudione borealis; Pseudione tuberculata; figs]. Pseudotanais forcipatus [Zoology /  / Pseudotanais macrocheles; figs]. Tanaidacea [Zoology /  / Tanaidacea of Denmark]. Typhlotanais aequiremis [Zoology /  / Typhlotanais tenuicornis; Typhlotanais brevicornis; Typhlotanais tenuimanus; Typhlotanais assimilis; figs]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Pubblicazioni della Stazione Zoologica di Napoli,2021-04-13,ZOOREC:ZOOR08600004502,0,0,"Vitagliano, G.",J,English,La spermatogenesi e la distribuzione dei chiasmi in Asellus aquatints L.,1948.0,Zoology; Developmental Biology,21,,,1948,,,Asellus aquaticus [Zoology /  / spermatogenesis; figs. of chromosomes]. Crustacea [Zoology /  / Structure; Cytology; Asellus] [Development /  / Sperm; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Riv Scient Roma,2021-04-13,ZOOREC:ZOOR08600004503,0,0,"Vitagliano, G.",J,English,Il metabolismo dell' acido ribonucleico nella spermatogenesi di Asellus aquaticus L.,1948.0,Zoology; Developmental Biology,18,,7,1948,,,Crustacea [Zoology /  / Physiology; Biochemistry; Ribonucleic acid] [Development /  / Sperm; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Riv Scient Roma,2021-04-13,ZOOREC:ZOOR08600004283,0,0,"Nicola, M. de.",J,English,Distribuzione delle fosfatasi alcaline nei nuclei polipoidi delle cellule di rivestimento ei testicoli di Asellus aquaticus.,1948.0,Zoology,18,,8-9,1948,,,Crustacea [Zoology /  / Physiology; Biochemistry; Alkaline phosphatase]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zbl Bakt Jena Abt I Originate,2021-04-13,ZOOREC:ZOOR08600004303,0,0,"Pflugfelder, O.",J,English,Haplospor-idienwucherungen (Sporozoa) in Asellus aquaticus L. (Wasserassel) nach Extirpation der rudimentiiren Antennenne- phridien.,1948.0,Zoology,152,,7,1948,,,Asellus aquaticus [Zoology /  / exuberance of haploBporidia after extirpation of an tennal gland]. Crustacea [Zoology /  / Physiology; Ecology And Habits; Parasitism; Sporozoa in; Asellus] [ /  / Physiology; Hormones; Antennal gland and resistance to sporozoa]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zentralblatt fuer Bakteriologie Jena Abt 1Originale,2021-04-13,ZOOREC:ZOOR08600011956,0,0,"Pflugfelder, O.",J,English,Haplosporidienwucherungen (Sporozoa) in Asellus aquaticus L. (Wasserassel) nach Exstirpation der rudimentaren Antennennephridien.,1948.0,Zoology; Environmental Sciences & Ecology; Developmental Biology,152,,,1948,,,Haplosporidium [Zoology /  / ]. Haplosporidium aselli [Ecology /  / ]. Protozoa [Zoology /  / Structure; Sporozoa; New; Haplosporidium; from; Asellus] [Development /  / Sporozoa; Life-cycle of new Haplosporidium] [Ecology /  / Crustacea :; body cavity (Germany); Haplosporidium aselli; sp. n. (Spor. Haplospor.); Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,North Western Naturalist Arbroath,2021-04-13,ZOOREC:ZOOR08300003579,0,0,"Collinge, W. E.",J,English,Notes on the British Freshwater Isopoda. No. II.,1946.0,Zoology,21,,1-2,1946,,,Asellus aquaticus [Zoology /  / distribution in Britain; var; Asellus rosea; Surrey; var; Asellus mamoratus; I. of Man; var; Asellus rugosus; Norwich; var; Asellus seteformis; Norwich; var; Asellus albescens; Glamorgan; van. nov; (1946) p. 32; Asellus mendianus; distribution in Britain]. Crustacea [Zoology /  / Geographical Distribution; 1. Land And Freshwater; Palaearctic Region; British Isles]. Isopoda [Zoology /  / Check-list of British freshwater Isopoda]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,North Western Naturalist Arbroath,2021-04-13,ZOOREC:ZOOR08300003576,0,0,"Colltuge, W. E.",J,English,"Notes on the British freshwater Isopoda, No. 1. I.-The genus Asellus Geoflroy St. Hillaire. II.-On Sar's characterisation of the genuu Asellus. III.-A new British species of Asellus. IV.-An instance of canniba",1946.0,Zoology,20,,3-4,1946,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Uchen Moscow State Univ,2021-04-13,ZOOREC:ZOOR08300003507,0,0,"Birstein, J. A.",J,English,[Zametka o Presnovodnykh Vysshikh Rakoobraznykh Turkmenii i Irana].,1945.0,Zoology,No. 83,,,1945,,,Crustacea [Zoology /  / Geographical Distribution; 1. Land And Freshwater; Palaearctic Region; Iran]. Gammarus (R.) lacustris (Sars) [Zoology /  / ]. Gammarus (Riculogammarus) pulex (L.) [Zoology /  / Gammarus (R.) lacustris (Sars); Gammarus (R.) balcanicus turcomanicus; subsp. nov; p. 155 (1945 figs]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annals & Magazine of Natural History Series 11,2021-04-13,ZOOREC:ZOOR08200004167,0,0,"Collinge, W. E.",J,English,On the freshwater Isopod genus Gaecidotea Packard.,1944.0,Zoology,11,,,1944,,,Asellus aquaticus vars. gordoni [Zoology /  / Asellus mackini; Asellus hazeltoni; varr. nov; (1944) p. 817]. Caecidotea [Zoology /  / notes on genus]. Septosaccus cuenoti [Zoology /  / descr. figs]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Flora og Fauna Copenhagen,2021-04-13,ZOOREC:ZOOR08100003368,0,0,"Stephensen, K.",J,English,"Nye Bidrag til Kendskabet om Forekomsten af Gammarus lacustris G. O. Sars, G. pulex (L.) og Asellus aquaticus (L.)i Danmark.",1944.0,Zoology,50,,1-3,1944,,,Crustacea [Zoology /  / Distribution; Distribution of; Gammarus; and; Asellus; in Denmark]. Gammarus [Zoology /  / ] [Palaearctic region /  / Denmark; and; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Revue de la Faculte des Sciences de l'Universite d'Istanbul,2021-04-13,ZOOREC:ZOOR08200004206,0,0,"Ermin, R.",J,English,Uber Farbe und Faerbung bei Asseln.,1944.0,Zoology,9B,,3,1944,,,Armadillidium granulatum; Asellus aquaticus [Zoology /  / colour patterns; figs]. Crustacea [Zoology /  / Physiology; Chromatophores]. Isopoda [Zoology /  / Coloration of woodlice]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin Biologique de la France et de la Belgique Suppl,2021-04-13,ZOOREC:ZOOR08500004031,1,0,"Vandel, A.",J,English,"Essai aur l'origine, l'evolution et la classification des Oniscoidea. (Isopodea terrestres).",1943.0,Zoology,No. 30,,,1943,,,Armadillidium vulgare; Armadillo officinalis; Armadilloniscus littoralis; Helleria brevicornis; Idothea basieri; Ligia oceanica [Zoology /  / figs]. Asellus aquaticus; Porcellio scaber; Tracheoniscus balticus [Zoology /  / respiration; fig]. Chaetophiloscia elongata; Halophiloscia hirsuta; Philoscia muscorum; Sphaeromides raymondi [Zoology /  / Head; figs]. Cirolana mayana; Ligia occidentalis [Zoology /  / brain; fig]. Crustacea [Zoology /  / Ecology And Habits; Terrestrial Habitats] [ /  / Evolution And Genetics; Evolution; Oniscoida] [ /  / General; Taxonomy; Classification of Isopoda] [ /  / Structure; Alimentary Canal; Stomach of Isopods] [ /  / Structure; Appendages; Uropods of Oniscoida] [ /  / Structure; Nervous system; Isopods] [ /  / Structure; Respiratory organs; Oniscoida] [ /  / Structure; Segmentation; Head segmentation of Isopoda]. Jaera marina [Zoology /  / Embryo; figs]. Ligia italica [Zoology /  / Internal anatomy; figs]. Ligidium hypnorum [Zoology /  / Internal anat omy; figs]. Metalrichoniscoides nemausiensis; Phymatoniscus helenae [Zoology /  / pleopod; fig]. Metoponorthus pruinosus [Zoology /  / Head; fig]. Oniscoida [Zoology /  / Evolution and classification of Oniscoida]. Oniscus asellus [Zoology /  / fig]. Sphaerobathytropa ribauti [Zoology /  / Head; Uropod; figs]. Trichoniscus provisorius [Zoology /  / pleopods; figs]. Tylos latreillei [Zoology /  / respiration; incubation; anatomy; figs]. Typhlocirolana moraguesi [Zoology /  / Uropod; fig]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Quarterly Journal of Microscopical Science,2021-04-13,ZOOREC:ZOOR07900026664,0,0,"Needham, A. E.",J,English,The structure and development of the segmental excretory organs of Asellus aquaticus.,1942.0,Zoology; Developmental Biology,88,,,1942,,,Ascllus aquaticus [Zoology /  / structure and development of the segniental excretory organs (maxillary organ; etc)]. Crustacea [Zoology /  / Structure; Excretory Organs and Glands; Maxillary and other glands in Asellus] [Development /  / Embryology and Life History; Excretory organ of; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Flora og Fauna Kjobenh,2021-04-13,ZOOREC:ZOOR08000002596,1,0,"Stephensen, K.",J,English,Forekomsten af Gammarus lacustris G.O. Sars og G. pulex (L.) i Danmark og Syd. Sverige samt om Asellus aquaticus (L.) i Danmark.,1941.0,Zoology,47,,4-5,1941,,,Asellus aquaticus [Zoology /  / range in Denmark and Bornholm]. Crustacea [Palaearctic region /  / Denmark] [ /  / Sweden]. Gammarus lamestris [Zoology /  / Gammarus pulex; range in Denmark and S. Sweden]. Gammarus pulex [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Essex Naturalist,2021-04-13,ZOOREC:ZOOR07700002263,0,0,"Scourfield, D. J.",J,English,Note on the difference in the coloration of the head in Asellus aquaticus and A. meridianus.,1940.0,Zoology,26,,,1940,,,Asellus aquaticus [Zoology /  / Asellus meridanus; colour differences]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,L Zool Anz,2021-04-13,ZOOREC:ZOOR07800002733,0,0,"Franzl, W.",J,English,Die Atmungsorte von Asellus aquaticus,1940.0,Zoology,132,,,1940,,,Asellus aquaticus [Zoology /  / respiration studies]. Crustacea [Zoology /  / Physiology; Respiration; In; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Revue de la Faculte des Sciences de l'Universite d'Istanbul,2021-04-13,ZOOREC:ZOOR08000002533,0,0,"Kosswig, C.; Kosswig, L.",J,English,"Die Variabilitat bei Asellus aquaticus, unter besonderer Berucksichtigung dor Variabilitat in isolierten unter- und oberirdischen Populationen.",1940.0,Zoology,5,,,1940,,,Asellus aquaticus [Zoology /  / Variation in the subterranean and surface-living forms in general colour and eye development]. Crustacea [Zoology /  / Ecology And Habits; Ecological Associations; Subterranean forms of; Asellus] [ /  / Evolution And Genetics; Variation; in subterranean waters; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Revue de la Faculte des Sciences de l'Universite d'Istanbul,2021-04-13,ZOOREC:ZOOR07800002784,0,0,"Kosswig, C.; Kosswig, L.",J,English,"Die Variabilitat bei Asellus aquaticus, unter besonderer Berucksichtigung der Variabilitat in isolierten unter- und oberir-dischen Populationen.",1940.0,Zoology,5B,,,1940,,,Asellus aquaticus [Zoology /  / Variation of isolated populations under different external conditions]. Crustacea [Zoology /  / Ecology And Habits; Ecology; Influence of external conditions on variation] [ /  / Evolution And Genetics; Variation and Mutation; Variation in Asellus populations]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mitteilungen ueber Hoehlen- und Karstforschung Berlin,2021-04-13,ZOOREC:ZOOR07600003857,0,0,"Kosswig, C.",J,English,"Zur Farbvariabilitat bei unterirdisch lebenden Wasserasseln, Asellus aquaticus, sensu Racovitzai.",1939.0,Zoology,1939,,,1939,,,Asllus aquaticus [Zoology /  / colour variation in subterranean forms]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin of the Fan Memorial Institute of Biology Zool Ser,2021-04-13,ZOOREC:ZOOR07500002224,0,0,"Shen, C. J.",J,English,The freshwater Isopods of Peiping.,1936.0,Zoology,7,,,1936,,,Asellus aquaticus [Zoology /  / in ponds near Peiping; China figs. p. 21]. Crustacea [Palaearctic region /  / Eastern Asia; N. China]. Ichthyoxenus geei [Zoology /  / ]. Tachaea chinensis [Zoology /  / descr. figs. p. 18]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Verhandlungen der Deutschen Zoologischen Gesellschaft Leipzig,2021-04-13,ZOOREC:ZOOR07300004167,0,0,"Kosswig, C.; Kosswig, L.",J,English,Ueber Augenruck und Missbildung bei Asellus aquaticus cavernicolus.,1936.0,Zoology,38,,,1936,,,Asellus aquaticus [Zoology /  / cavernicolous eye degeneration]. Crustacea [Zoology /  / Ethology; Evolution and Variation; Eye degeneration in cavernioolous; Asellus]. Geotelphusa dehaani [Zoology /  / Breeding habits and development]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Vestnik Ceskoslovenske Zoologicke Spolecnosti Praze,2021-04-13,ZOOREC:ZOOR07400004584,0,0,"Wenig, K.",J,English,Ueber die Beeinflusaung O2 Verbrauch von Asellus aquaticus durch einige Farbstoffe und doren Abhangigkeit von dem Oxydations-Reduktionspotential.,1936.0,Zoology,4,,,1936,,,Crustacea [Zoology /  / Physiology; Biochemistry; Oxidation reduction potential]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Allattani Kozlemenyek Budapest,2021-04-13,ZOOREC:ZOOR06800004108,0,0,"Welsky, A.",J,English,The sense organs of the second maxilla of Asellus aquaticus.,1931.0,Zoology,28,,,1931,,,Crustacea [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Verhandlungen der Internationalen Vereinigung fuer Limnologie Stuttgart,2021-04-13,ZOOREC:ZOOR06900003454,0,0,"Wolsky, A.",J,English,Ueber die Sinnesorgane der 2 Maxille von Asellus aquaticus L.,1931.0,Zoology,5,,,1931,,,Asellus aquaticus [Zoology /  / on the sense organ of the 2nd maxilla figs]. Crustacea [Zoology /  / Structure; Nervous System and Sense Organs; Sense-organ of 2nd maxilla]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger Leipzig,2021-04-13,ZOOREC:ZOOR06800004109,0,0,"Wolsky, A.",J,English,Naturliche Falle heteromorpher Regeneration am Auge des Sumpfkrebses.,1931.0,Zoology,96,,,1931,,,Asellus aquaticus [Zoology /  / sense organs on the second maxilla]. Astacus leptodactylus [Zoology /  / regeneration of the eye]. Crustacea [Zoology /  / Physiology; Regeneration; Ova] [ /  / Structure; Nervous System and Sense Organs; Sense organs; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zeitschrift fuer Morphologie und Oekologie der Tiere Berlin,2021-04-13,ZOOREC:ZOOR06700003285,0,0,"Dejdar, E.",J,English,"Die Funktion der "" blattformigen Anhange "" der Embryonen von Asellus aquations (L.). (Versuch einer Analyse mit Hilfe vitaler Elektivfarbung).",1930.0,Zoology,19,,,1930,,,"Asellus aquaticus [Zoology /  / The function of the ""leaflike"" appendages of the embryo probably excretory]. Crustacea [Zoology /  / Physiology; Miscellaneous; Function of leaf-like appendages of ova of; Asellus] [ /  / Structure; Other Organs and Tissues; Leaflike appendages of eggs in; Asellus]. ",,,,,,,,,,,,,,,10.1007/BF00439430,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologische Jahrbuecher Jena Allgemeine Zoologie,2021-04-13,ZOOREC:ZOOR06700003430,0,0,"Maercks, H. H.",J,English,Sexualle biologische Studien an Asellus aquaticus L.,1930.0,Zoology,48,,,1930,,,Asellus aquaticus [Zoology /  / structure of genetal organs and breeding habits]. Crustacea [Zoology /  / Ethology; Special Habits; Asellus] [ /  / Structure; Other Organs and Tissues; In; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Arbeiten der Biologischen Station zu Kossino Moscow,2021-04-13,ZOOREC:ZOOR06600003096,0,0,"Borutzky, E. W.",J,English,"Crustacea Malacostraca der Gewasser der Meschschera-Niederung (Gouv. Rjasan, Zentralrussland.",1929.0,Zoology,no. 9,,,1929,,,Asellus aquaticus [Zoology /  / in Rjasan Gouv]. Crustacea [Zoology /  / Distribution And Faunas; General; Palaearctic Region Land And Freshwater (including Salt Lakes); Russia] [ /  / Ethology; Habitats: Limnology]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin de la Societe Linneenne de Normandie (7),2021-04-13,ZOOREC:ZOOR06700003443,0,0,"Maury, A.",J,English,Recherches geonemiques sur le genre Asellus.,1927.0,Zoology,9,,,1927,,,Asellus aquaticus [Zoology /  / Asellus meridianus; distr. in W. Europe]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Fauna Fennica Helsinki,2021-04-13,ZOOREC:ZOOR06500002908,0,0,"Odenwall, E.",J,English,"Asellus aquaticus L, v. abyssalis nov. var. Memoranda Soc.",1927.0,Zoology,3,,,1927,,,Crustacea [Palaearctic region /  / Finland]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Hydrobiologie Stuttgart,2021-04-13,ZOOREC:ZOOR06300002421,0,0,"Jancke, O.",J,English,Ueber die Brut-pflege einiger Malakostraken.,1926.0,Zoology,17,,,1926,,,Amphipoda [Zoology /  / Breeding and other habits of fresh-water Amphipods]. Asellus aquaticus; Idothea viridis [Zoology /  / breeding and other habits]. Crustacea [Zoology /  / Physiology; Ethology; Special Habits; Breeding habits]. Isopoda [Zoology /  / Breeding and other habits of fresh-water Isopods]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Rendiconti dell'Istituto Lombardo,2021-04-13,ZOOREC:ZOOR06200001163,0,0,"Segre, M.",J,English,Contributo allo studio dell'influenza dei raggi U-V. sui Crostacei (Asellus aquaticus).,1924.0,Zoology,57,,,1924,,,Asellus aquaticus [Zoology /  / influence of U. V. rays]. Crustacea [Zoology /  / Physiology; Experimental Physiology; Effects of ultra violet rays]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger Leipzig,2021-04-13,ZOOREC:ZOOR06100002015,0,0,"Jancke, O.",J,English,Die Brutpflege einigen Malakostraken.,1924.0,Zoology,58,,,1924,,,Asellus aquaticus [Zoology /  / brooding arrangements and other habits]. Crustacea [Zoology /  / Ethology; Pairing and Breeding habits; Brooding arrangements]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Arch Natg Berlin A Hft,2021-04-13,ZOOREC:ZOOR05900001712,0,0,"Emden, F.van",J,English,Zur Kenntnis der Brutpflege von Asellus aquaticus nebst Bemerkungen uber die Brutpflege anderen Isopoden.,1922.0,Zoology; Developmental Biology,88,,,1922,,,Asellus acquaticus [Zoology /  / p. 92]. Crustacea [Zoology /  / Structure; Histology; Cytology; Brood-plates; Asellus acquaticus; Brood-plates; Asellus acquaticus] [ /  / Structure; Physiology; Care of broods; Asellus acquaticus] [ /  / Structure; Special Organs and Tissues; Brood-pouches and plates; Asellus acquaticus] [Development /  / Embryology; Broods of; Ascllus acquaticus] [ /  / General; Brood-pouches and plates; Asellus acquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annals & Magazine of Natural History Series 9,2021-04-13,ZOOREC:ZOOR05700001282,0,0,"Chilton, C.",J,English,Note on the Freshwater Isopods known as Asellus aquaticus.,1920.0,Zoology; Anatomy & Morphology,5,,,1920,,,Asellus aquaticus [Zoology /  / Asellus meridianus; p. 201]. Crustacea [Zoology /  / 1. Geographical; Europe And Mediterranean Islands. D; British Ids. England; Asellus meridianus] [Appendages /  / Asellusaquaticus meridianus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Journal of the Linnean Society London Zoology,2021-04-13,ZOOREC:ZOOR05700001434,0,0,"Unwin, E. E.",J,English,Notes on the reproduction of Asellus aquaticus.,1920.0,Zoology; Developmental Biology,34,,,1920,,,Asellus aquaticus [Zoology /  / reproduction; p. 335 pls. xxv-xxvii]. Crustacea [Development /  / Embryology; Fertilization; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Lancashire and Cheshire Naturalist,2021-04-13,ZOOREC:ZOOR05700001344,0,0,"Jackson, J. W.",J,English,The association of freshwater mollusca with crustacea.,1920.0,Zoology,13,,,1920,,,Crustacea [Zoology /  / Ethology. 2619; Habitats; Grammarus pulex; associated with Mollusca; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,"The occurrence of Asellus meridianus Rac., in Derbyshire.",2021-04-13,ZOOREC:ZOOR05700001428,0,0,"Tattersall, W. M.",B,English,"The occurrence of Asellus meridianus Rac., in Derbyshire.",1920.0,Zoology,,,,1920,,,Asellus aquaticus [Zoology /  / p. 275]. Crustacea [Zoology /  / 1. Geographical; Europe And Mediterranean Islands. D; Derbyshire; Asellus meridianus]. ,,,Lancs. and Cheshire Nat.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Tattersall, W. M.",,,,,,,,,,,,,,
Article,Archives de Zoologie Paris,2021-04-13,ZOOREC:ZOOR05600001358,1,1,"Racovitza, E. G.",J,English,Notes sur les Isopodes. l. Asellus aquaticus auot. est une erreur taxonomique. 2. Asellus aquaticus L. et A. meridianus n. sp.,1919.0,Zoology; Anatomy & Morphology,58,,,1919,,,Crustacea [Zoology /  / 1. Geographical; Europe And Mediterranean Islands. D; Asellus] [Appendages /  / Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archives de Zoologie Paris,2021-04-13,ZOOREC:ZOOR05600001359,0,0,"Racovitza, E. G.",J,English,Notes sur les Isopodes. 3. Asellus banyulensis n. sp. 4. A. coxalis Dollfus. 5. A. coxalis peyerimhoffi n. subsp.,1919.0,Zoology,58,,,1919,,,Asellus aquaticus [Zoology /  / p. 37; Asellus meridianus; sp. n; England; France; p. 41; Asellus banyulensis; sp. n; France p. 49; Asellus coxalis; p. 55; Asellus coxalis; subsp. n; Asellus peyerimhoffi; Algiers p. 68 figs]. Crustacea [Zoology /  / 1. Geographical; Africa And Madagascar. F; Algiers; Asellus] [ /  / 1. Geographical; Asia And Malay Archipelago. E; Syria; Asellus] [ /  / 1. Geographical; Europe And Mediterranean Islands. D; S. France; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger Leipzig,2021-04-13,ZOOREC:ZOOR05100001997,0,0,"Rehorst, Georg",J,English,Der Filtermagen von Asellus aquaticus.,1914.0,Anatomy & Morphology; Zoology,44,,,1914,,,Crustacea [Digestive system /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologische Jahrbuecher Jena Abteilungen f Allgemeine Zoologie,2021-04-13,ZOOREC:ZOOR05000002673,0,0,"Kaulbersz, Georg J. v.",J,English,Biologische Beobachtungen an Asellus aquaticus nebst einigen Bemerkungen uber Gammarus und Niphargus.,1913.0,Zoology; Immunology,33,,,1913,,,Asellus aquaticus; Niphargus puteanus [Zoology /  / reactions &c]. Crustacea [Zoology /  / Breeding Habits; &c; Geschlechtsleben von; Asellus] [ /  / General; Niphargus; Gammarus; Asellus] [ /  / Nervous System And Sense Organs; Asellus] [ /  / Physiology. 2611; Reactions of; Asellus; Niphargus; Gammarus] [Regeneration /  / Hautung; Autotomie; Asellus]. Gammarus; Niphargus [Zoology /  / ]. Gammarus fluviatilis [Zoology /  / reactions c]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Entwicklungsmechanik Leipzig,2021-04-13,ZOOREC:ZOOR04900002880,0,0,"Hanko, R.",J,English,"Uber den Einflues einiger Losungen auf die Hautung, Regeneration und das Wachstum von Asellus aquaticus.",1912.0,Zoology,34,,,1912,,,Asellua aquaticus [Zoology /  / Einfluss einiger Losungen]. Crustacea [Zoology /  / Physiology; Einfluss einiger Losungen auf die Hautung; Regeneration und das Wachstum von; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Allattani Kozlemenyek Budapest,2021-04-13,ZOOREC:ZOOR04800002847,0,0,"Hanko, B xEla",J,English,Az Asellus aquaticus regeneratio tehetsegerol. [Uber das Regenerationsvermogen von Asellus aquaticus.],1911.0,Immunology; Zoology,10,,,1911,,,Crustacea [Regeneration /  / von; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Allattani Kozlemenyek Budapest,2021-04-13,ZOOREC:ZOOR04800002848,0,0,"Hanko, B xEla",J,English,Kulonbozo anyagok hatasa az Asellus aquaticus vedlesere es regeneratiojara. [Uber den Ein-fluss einiger Losungen auf die Hautung und Regeneration von Asellus aquaticus.],1911.0,Zoology; Immunology,10,,,1911,,,Crustacea [Zoology /  / Physiology. 2611; Einfluss einiger Losungen auf die Hautung und Regeneration von; Asellus] [Regeneration /  / von; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologische Jahrbuecher Jena Abteilungen f Allgemeine Zoologie,2021-04-13,ZOOREC:ZOOR04800003011,0,0,"Wege, W.",J,English,Morphologische und experimentelle Studien an Asellus aquaticus.,1911.0,Zoology; Anatomy & Morphology; Immunology,30,,,1911,,,Asellus aquaticus [Zoology /  / regeneration of antenna]. Crustacea [Exoskeleton /  / Antennae; Asellus] [Regeneration /  / Antennae; Asellus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Moskva Bull Soc Nat,2021-04-13,ZOOREC:ZOOR04800003001,0,0,"Tschetwerikoff, S.",J,English,Beitrage zur Anatomie der Wasserassel (Asellus aquaticus L.),1910.0,Zoology; Anatomy & Morphology; Developmental Biology,24,,,1910,,,Asellus aquaticus [Zoology /  / Aeussere Anatomie; Gehorsinn; Begattung]. Crustacea [Zoology /  / Ethology. 2619; Breeding Habits; Etc; Begattung bei; Asellus] [ /  / Physiology. 2611; Gehorsinn von; Asellus] [Exoskeleton /  / Aeusserer Bau von; Asellus aquaticus] [Development /  / Embryology; Entw. der Mundgliedmassen (Asellus)]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Prag Vestn Ceske Spol Nauk (Prag SitzBer Bohm Ges Wiss),2021-04-13,ZOOREC:ZOOR04600003391,0,0,"Janda, V.",J,English,Regeneracn studie na ?lenovcch. I. Regeneracn deje u Asellus aquaticus. (Regenerationsstudien an Arthropoden. I. Regonera-tionsvorgange bei Asellus aquaticus.),1909.0,Zoology; Immunology,1908,,No. 6,1909,,,Asellus aquaticus [Zoology /  / Regenerations-vorgange]. Crustacea [Regeneration /  / Regenerationsvorgange bei; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger Leipzig,2021-04-13,ZOOREC:ZOOR04600003559,1,0,"Wege, Willmar",J,English,Uber die Insertionsweise der Arthropodenmuskeln nach Beobachtungen an Asellus aquaticus.,1909.0,Zoology,35,,,1909,,,Asellus aquaticus [Zoology /  / Insertionsweise der muskeln]. Crustacea [Zoology /  / Structure. 2607; Muscular System; Insertionsweisc der muskeln; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger Leipzig,2021-04-13,ZOOREC:ZOOR04600000255,0,0,"Wege, Willmar",J,English,Uber die Insertionsweise der Arthropodenmuskeln nach Beobachtungen an Asellust aquaticus.,1909.0,Zoology,35,,,1909,,,Arthropoda [Zoology /  / Structure. 2407; Insertionsweise der Arthropodenmuskeln nach Beobachtungen an; Asellus aquaticus]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annals & Magazine of Natural History Series 7,2021-04-13,ZOOREC:ZOOR04400003658,2,1,"Norman, A. M.",J,English,Notes on the Crustacea of the Channel Islands.,1907.0,Zoology,20,,,1907,,,"Acidostoma obesum; Ampelisca gibba; Ampelisca spinipes; Anchialina agitis; Anchistia scripta; Anthura gracilis; Apherusa bispinosa; Argylloecia cylindrica; Armadillidium vulgare; Asellus aquaticus; Asterope mariae; Asterope teres; Bathyporeia pelagica; Bathyporeia robertsoni; Bopyrus squillarum; Bythocythere constricta; Campecopea hirsuta; Caprella acanthifera; Caprella acutifrons; Ceradocus semiserratus; Cerapus crassicornis; Chelura terebrans; Colomastix pusilla; Conilera cylindracea; Coremapus versiculatus; Cumella australis; Cumopsis goodsiri; Cymodice truncata; Cypris bispinosa; Cytheridea elongata; Cytheridea torosa; Cytherideis subulata; Dexamine spinosa; Dexamine thea; Diastylis laevis; Dulichia porrecta; Erythrocypris mytiloides; Eucythere declivis; Eudorella truncatula; Eurydice spinigera; Eusirus longipes; Galathea dispersa; Galathea nexa (?); Gammaropsis maculata; Gammarus campylops; Gammarus locusta; Gammarus pulex; Gnathia maxillaris; Guernea coalita; Heteromysis formosa; Hyale lubbockiana; Hyale nilssoni; Hyperia galba; Iphimedia eblanae; Iphimedia minuta; Iphimedia obesa; Iphinoe serrata; Iphinoe tenella; Jaera marina; Lembos websteri; Lepidepecreum longicorne; Leptochelia savignyi; Leucothoe lilljeborgi; Leucothoe spinicarpa; Ligia oceanica; Lilljeborgia pallida; Liriopsis pygmaea; Machaerina amygdoloides; Macromysis flexuosa; Megaluropus agilis; Megamphopus cornutus; Melita gladiosa; Melita obtusata; Melita palmata; Menigrates obtusifrons; Mesopodopsis slabberi; Microdeutopus danmoniensis; Monoculodes carinatus; Munna kroyeri; Munna limicola; Mysidopsis gibbosa; Naesa bidentata; Nannastacus unguiculatus; Nannonyx goesi; Neomysis vulgaris; Niphargus fontanus; Nyctiphancs couchi; Orchestia gammarellus; Orchestia littorea; Paracypris polita; Paranthura nigropunctata; Paratanais batei; Periambus typicus; Perierelle audouiniana; Perioculodes longimanus; Philomedes interpuncta; Photis longifcaudata; Phtisica marina; Platyarthrus hoffmannaeggi; Pleonexes gammaroides; Pontocypris trigonella; Porcellio scaber; Pscudocythere caudata; Pseudocuma longicornis; Pseudoprotella phasma; Sclerochitus contortus; Socarnes erythrophthalmus; Sphaeroma hookeri; Sphaeroma serratum; Spirontocaris pusiola; Stimpsonella chelifera; Sympleustes latipes; Talitrus locusta; Tanais cavolinii; Tanaissus lilljeborgi; Tritaeta gibbosa; Tryphosella sarsi; Unciola crenatipalmata; Urothoe brevicornis; Urothoe elegans; Urothoe marinus; Xestoleberis labiata; Zenobiana prismatica [Zoology /  / occ]. Aega rosacea; Amphilochus neapolitanus; Anilocra physodes; Aora typica; Bathyporeia guilliamsonia; Calliopius laeviusculus; Callisoma hopei; Corophium volutator; Epimeria cornigera; Haplonyx cicada; Jassa pelagica; Laphystius sturonis; Lysianassa ceratina; Lysianassa plumosa; Niphargus subterraneus; Orchomene humilis; Peltocoxa marioni; Sunamphithoe pelagica [Zoology /  / occ. syn]. Amathilla homeri [Zoology /  / [sic] occ]. Ampelisca assimilis [Zoology /  / occ; Ampelisca brevicornis; occ. syn]. Ampelisca brevicornis; Ampelisca typica; Anapagurus hyndmanni; Anapagurus laevis; Apherusa ovalipes; Apseudes talpa; Bairdia inflata; Cheirocratus sundevalli; Cirolana cranchi; Corophium crassicorne; Cythere antiquata; Cythere badia; Cythere confusa; Cythere convexa; Cythere crispata; Cythere cuneiformis; Cythere cyamos; Cythere finmarchica; Cythere jeffreysi; Cythere lutca; Cythere marginata; Cythere pellucida; Cythere porcellanea; Cythere robertsoni; Cythere runcinata; Cythere tenera; Cythere tuberculata; Cythere villosa; Cytherura angulata; Cytherura cellulosa; Cytherura cornuta; Cytherura fulva; Cytherura nigrescens; Cytherura producta; Cytherura sella; Cytherura striata; Erichthonius difformis; Erichthonius hunteri; Gastrosaccus spinifer; Gyge branehialis; Harpinia pectinata; Idotea; Idotea balthica; Leptocheirus pectinatus; Loxoconcha impressa; Loxoconcha multifora; Loxoconcha tamarindus; Loxoconcha viridis; Maera; Metaphoxus simplex; Metopa rubrovittata; Microprotopus batei; Microprotopus maculatus; Nototropis vedlomensis; Paradoxostoma fasciatum; Paradoxostoma flexuosum; Paradoxostoma hibernicum; Paradoxostoma miforme; Paradoxostoma normani; Paradoxostoma obliquum; Paradoxostoma orchadense; Paradoxostoma pulchellum; Paradoxostoma variabile; Peltocoxa testudo; Pleurocrypta intermedia; Pleurocrypta strigosa; Pontocrates norvegicus; Schistomysis ornata; Schistomysis spiritus; Siriella clausi; Siriella joltensis; Xestoleberis depressa [Zoology /  / ]. Ampelisca tenuicornis [Zoology /  / Ampelisca typica; occ; l.c]. Amphilochus manudens; Amphithoe rubricata; Bopyroides hippolytes; Caprella linearis; Caprella tuberculata; Gammarella brevicaudata; Gammarus marinus; Haustorius arenarius; Hippomedon denticulatus; Janira maculosa; Leptomysis mediterranea; Lilljeborgia picta; Odius carinatus; Platophium darwini; Podoceropsis sophiae; Pseudocuma similis; Synchelidium haplocheles; Tryphosites longipes; Urothoe pulchella [Zoology /  / occ; l.c]. Anapagurus cuonensis [Zoology /  / Anapagurus hyndmanni; Anapagurus laevis; occ]. Apherusa cirrus [Zoology /  / occ.syn; A jurinei; Apherusa ovalipes; occ; l.c]. Apseudes latreillei [Zoology /  / occ. p. 361; Apseudes talpa; occ. p. 362]. Athelges paguri; Isaea montagui [Zoology /  / ] [ /  / occ. host]. Bairdia acanthigera [Zoology /  / Bairdia inflata; occ]. Bopyrina giardi [Zoology /  / ] [ /  / occ. parasitic on; Hippolyte varians]. Bruziliella falcata [Zoology /  / Bruziliella ocia; occ]. Callianassa subterranea [Zoology /  / occ. of parasitic; lone thoracica]. Cheirocratus assimilis [Zoology /  / Cheirocratus sundevalli; occ]. Cirolana borealis [Zoology /  / Cirolana cranchi; occ]. Corophium bonellii [Zoology /  / Corophium crassicorne; occ; l.c]. Crustacea [Zoology /  / Distribution. 2627; ([beta]). Non-marine; Channel Is. 2627 Dq; Channel Is; list and notes spp] [ /  / Ethology. 2619; Economics; ""Cherve""; (Mysis); bait fishery Channel Is] [ /  / General. 2603; Technique; Push-net used in ""Cherve"" fishery; p. 359 fig] [North Atlantic /  / Channel Is; list and notes spp; Metopa; sp. n]. Cythere albomaculata [Zoology /  / Cythere antiquata; Cythere badia; Cythere confusa; Cythere convexa; Cythere crispata; Cythere cuneiformis; Cythere cyamos; Cythere finmarchica; Cythere jeffreysi; Cythere lutca; Cythere marginata; Cythere pellucida; Cythere porcellanea; Cythere robertsoni; Cythere runcinata; Cythere tenera; Cythere tuberculata; Cythere villosa]. Cytherura acuticostata [Zoology /  / Cytherura angulata; occ. p. 370; Cytherura cellulosa; occ. p. 371; Cytherura cornuta; Cytherura fulva; Cytherura nigrescens; Cytherura producta; Cytherura sella; Cytherura striata; occ. p. 370]. Echinogammarus berilloni [Zoology /  / occ. Channel Is. (Jersey); chars]. Erichthonius abditus [Zoology /  / Erichthonius difformis; Erichthonius hunteri; occ]. Galathea intermedia [Zoology /  / occ. of parasitic; Pleurocrypta intermedia; p. 363; occ. p. 357]. Galathea squamifera [Zoology /  / occ. of parasitic Pleurocrypta. galatheae]. Galathea strigosa [Zoology /  / occ. of parasitic; Pleurocrypta strigosa]. Gastrosaccus sanctus [Zoology /  / Gastrosaccus spinifer; occ]. Gyge branchialis; Ione thoracica [Zoology /  / occ. host]. Harpinia neglecta [Zoology /  / occ. syn; Harpinia pectinata; occ. Guernsey]. Hippolyte [Zoology /  / occ. of parasitic; Byporoides hippolytes]. Hippolyte varians [Zoology /  / ] [ /  / occ. of parasitic; Bopyrina giardi]. Idothea [Zoology /  / (vide etiam; Idotea); Idotea balthica; occ]. Jaera nordmanni [Zoology /  / occ. l.c; Jacropsis brevicornis; occ; l.c]. Leptocheirus guttatus [Zoology /  / Leptocheirus pectinatus; occ. syn]. Limnoria lignorum [Zoology /  / occ; l.c. p. 362]. Loxoconcha guttata [Zoology /  / Loxoconcha impressa; Loxoconcha multifora; Loxoconcha tamarindus; Loxoconcha viridis; occ]. Lysmata seticaudata [Zoology /  / syn. chars. occ. Jersey]. M-gryllotalpa [Zoology /  / chars. occ. syn; l.c. fig]. M-gryllotalpa stationis [Zoology /  / occ. chars. syn]. Macromysis inermis [Zoology /  / Macromysis neglecta; occ]. Mamaia squinado [Zoology /  / occ. of parasitic; Isaea montagui]. Metaphoxus fultoni [Zoology /  / Metaphoxus simplex; occ; l.c]. Metopa [North Atlantic /  / ]. Metopa borealis [Zoology /  / Metopa rubrovittata; occ. p. 365; Metopa sarniensis; sp. n; Channel Is. (St. Peter's Port; Guernsey) p. 365 fig]. Microprotopus fongimanus [Zoology /  / Microprotopus maculatus]. Moera [Zoology /  / (vide etiam; Maera); Microprotopus batei; Moera grossimana; Moera othonis; occ]. Nototropis swammerdami [Zoology /  / Nototropis vedlomensis; occ]. Oniscus asellus [Zoology /  / occ. etc]. Ostracoda [Zoology /  / list spp. Channel Is]. Pagurus bernhardus [Zoology /  / occ. of parasitic; Athelges paguri]. Paradoxostoma abbreviatum [Zoology /  / Paradoxostoma miforme; Paradoxostoma fasciatum; Paradoxostoma flexuosum; Paradoxostoma hibernicum; Paradoxostoma normani; Paradoxostoma obliquum; Paradoxostoma orchadense; Paradoxostoma pulchellum; Paradoxostoma variabile; occ]. Pereionotus [Zoology /  / (vide etiam; Perionotus); Peltocoxa testudo; occ]. Pleurocrypta galatheae [Zoology /  / Pleurocrypta intermedia; Pleurocrypta strigosa; occ. hosts; l.c]. Pontocrates arenarius [Zoology /  / Pontocrates norvegicus; occ]. Schistomysis helleri [Zoology /  / Schistomysis ornata; Schistomysis spiritus; occ]. Schizopoda [Zoology /  / Schizopoda use as bait (""Cherve"")]. Siriella armata [Zoology /  / Siriella clausi; Siriella joltensis; occ]. Stenosoma acuminatum [Zoology /  / Stenosoma lanciferum; occ]. Stenothoc marina [Zoology /  / Stenothoc monoculodes; occ]. Upogebia stellata [Zoology /  / occ. parasitic; Gyge branehialis]. Xestoleberis aurantia [Zoology /  / Xestoleberis depressa; occ]. ",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Nottingham Trans Nat Soc,2021-04-13,ZOOREC:ZOOR04400003498,1,0,"Carr, J. W.",J,English,Nottinghamshire Crustacea and Arachnida.,1904.0,Zoology,51,,(1902-1903),1904,,,Argulus foliaceus; Armadillidium vulgare; Asellus aquaticus; Gammarus pulex; Metoponorthus pruinosus; Philoscia couchi; Platyarthrus hoffmannaeggi; Porcellio scaber; Trichoniscus pusillus [Zoology /  / occ]. Austropotamobius [Zoology /  / ]. Crustacea [Zoology /  / Distribution. 2627; ([beta]). Non-marine; British Is. 2627 De; England (Nottinghamshire); fauna]. Oniscus asellus [Zoology /  / occ. etc]. Polamobius [Zoology /  / subgen. n. vide; Austropotamobius; Polamobius pallipes; occ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Monitore Zoologico Italiano Suppl,2021-04-13,ZOOREC:ZOOR03900002387,0,0,"Lepri, G.",J,English,Nota prcliminare sopra una forma cieea di Asellus.,1902.0,Zoology,xiii,,,1902,,,Asellus aquaticus [Zoology /  / blind albino form; p. 37]. Crustacea [Zoology /  / 6. Variation And Abnormalities; Blind albino form of; Asellus aquaticus; occurring in company with normal individuals in marshes of Fiumicino at mouth of Tiber]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Festschrift Ges Nurnberg,2021-04-13,ZOOREC:ZOOR04100002578,1,0,"Koch, L.",J,English,Die Isopoden Suddeutschlands und Tirols.,1901.0,Zoology,,,,1901,,,Armadillidium albifrons [Zoology /  / Meran; p. 25; Armadillidium petraeum; Torbole; p. 26; Armadillidium riparium; Torbole; p. 28; Armadillidium oliveti; Torbole; p. 31]. Armadillidium decipiens; Armadillidium namtum; Armadillidium oliveti; Armadillidium opacum; Armadillidium petraeum; Armadillidium pictum; Armadillidium pulchellum; Armadillidium riparium; Armadillidium versicolor; Armadillidium vulgare; Metoponorthus pruinosus; Oniscus madidus; Oniscus minutus; Oniscus taeniola; Porcellio cognatus; Porcellio confluens; Porcellio conspersus; Porcellio cruentatus; Porcellio dubius; Porcellio mildei; Porcellio ochraceus; Porcellio parietinus; Porcellio pictus; Porcellio rathkei; Porcellio ratzeburgi; Porcellio saltuum; Porcellio sociabilis; Trichoniscus roseus [Zoology /  / ]. Armadillidium depressum [Zoology /  / p. 23; Armadillidium namtum; p. 23; Armadillidium versicolor; p. 24; Armadillidium pulchellum; p. 27; Armadillidium vulgare; p. 29; Armadillidium opacum; p. 30; Armadillidium pictum; p. 32; Armadillidium decipiens; p. 33]. Asellus aquaticus [Zoology /  / p. 70; Asellus cavaticus; p. 71]. Cylisticus convexus [Zoology /  / p. 53]. Haplophthalmus mengei [Zoology /  / p. 68]. Isopoda [Zoology /  / 1. Geographical; A. Land And Fresh-water (including Salt Lakes); A. Palaearctic Region; S. Germany and Tyrol; Isopoda; n. spp]. Ligidium hypnorum [Zoology /  / p. 69]. Metoponorthus amaenus [Zoology /  / p. 54; Metoponorthus pruinosus; p. 55]. Metoponorthus benaci [Zoology /  / Torbole; p. 56; n. sp]. Oniscoidea [Zoology /  / Keys to genera and spp. of S. Germany and the Tyrol; pp. 17-72]. Oniscus murarius [Zoology /  / p. 61; Oniscus taeniola; p. 62; Oniscus madidus; p. 64; Oniscus minutus; p. 65]. Porcellio scaber [Zoology /  / p. 38; Porcellio ochraceus; p. 39; laevis; p. 40; Porcellio pictus; p. 41; Porcellio conspersus; p. 43; Porcellio dubius; p. 44; Porcellio confluens; p. 45; Porcellio ratzeburgi; p. 46; Porcellio rathkei; p. 50]. Porcellio tirolensis [Zoology /  / S. Tyrol; p. 36; Porcellio cruentatus; Sugenheim; p. 37; Porcellio mildei; Meran; p. 41; Porcellio saltuum; S. Alps; p. 48; Porcellio parietinus; Landstuhl; p. 49; Porcellio sociabilis; Vahrn; p. 51; Porcellio cognatus; S. Tyrol; p. 52; n. spp]. Trichoniscus pusillus [Zoology /  / p. 66; Trichoniscus roseus; p. 67]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR03500010548,0,0,"Kennel, J.",J,English,"Mesostoma aselli, n. sp.",1898.0,Zoology,xxi,,,1898,,,Vermes [Zoology /  / Arthropoda; Crustacea; Asellus aquaticus; with a; n. sp; of; Mesostoma; parasitic on or symbiotic with it]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Annuaire du Musee St Petersbourg,2021-04-13,ZOOREC:ZOOR03400001778,0,0,Sars,J,English,[Title unknown.],1897.0,Zoology,,,,1897,,,Asellus [Zoology /  / genus defined; p. 96; for; Asellus aquaticus; p. 97; pl. xxxix]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Mt Mus Hamburg,2021-04-13,ZOOREC:ZOOR03400001583,0,0,"Michaelsen, W.",J,English,Land- und Susswasser-Asseln aus der Umgebung Hamburgs.,1897.0,Zoology,xiv,,,1897,,,"Armadillidium nasatum [Zoology /  / Armadillidium pictum; Armadillidium vulgare; p. 124; Armadillidium pulchellum; Armadillidium opacum; p. 125; distribution in Hamburg]. Armadillidium opacum; Armadillidium pictum; Armadillidium pulchellum; Armadillidium vulgare; Haplophthalmus mengii; Porcellio conspersus; Porcellio dilatatus; Porcellio loevis; Porcellio pictus; Porcellio scaber; Trichoniscus roseus [Zoology /  / ]. Asellidae [Palaearctic region /  / Hamburg]. Asellus aquaticus [Zoology /  / distribution in Hamburg; p. 133]. Cylisticus convexus [Zoology /  / p. 125; distribution in Hamburg]. Haplophthalmus danicus [Zoology /  / p. 131; Haplophthalmus mengii; p. 132; distribution in Hamburg;]. ISOPODA and ANISOPODA [Zoology /  / C.f]. Ligic [Zoology /  / Ligic oceanica; distribution in Hamburg; p. 132]. Ligidium hypnorum [Zoology /  / distribution in Hamburg; p. 132]. Metoponorthus pruinosus [Zoology /  / Hamburg; distribution; p. 128]. Oniscus murarius [Zoology /  / relation of protoplasm and nucleus in cells of hepatic tubes; p. 147; distribution in Hamburg; p. 129]. Philoscia muscorum [Zoology /  / distribution in Hamburg; p. 130]. Platyarthrus hoffmanseggi [Zoology /  / in nests of; Lasius mixtus; p. 53; ""Sur le Lasius mixtus; "" &c.: distribution in Hamburg; p. 129]. Porcellio rathkei [Zoology /  / p. 126; Porcellio conspersus; Porcellio dilatatus; Porcellio pictus; p. 127; Porcellio scaber; Porcellio loevis; p. 128]. Trichoniscus pusillus [Zoology /  / p. 130; Trichoniscus roseus; p. 131; distribution in Hamburg]. ",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR02700000839,1,0,"Leichmann, G.",J,English,Ueber die Eiablage und Befruchtung bei Asellus aquaticus.,1890.0,Zoology,xiii,,,1890,,,Crustacea [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Compte Rendu,2021-04-13,ZOOREC:ZOOR02600001030,0,0,"Roule, L.",J,English,"Sur l'evolution initiale des Feuillets Blastodermiques chez les Crustaces Isopodes (Asellus aquaticus, L., and Porcellio scaber, Latr.).",1889.0,Zoology,cix,,,1889,,,Isopoda [Zoology /  / Generation And Development]. ,,"ROULE has studied the development of the blastodermic layers in Isopoda. In Asellus aquaticus a number of ""blastomeres"" are formed by radial division of the yolk. These, by radial and tangential division, give rise to excessively thin-walled cells, forming a Planula. The walls are not seen in section. Hyaline protoplasm appears at what will be the anterior end of the embryo, and extends ventrally and then dorsally. Sections exhibit nuclei in the superficial layer, which now becomes hyaline and distinct from the meso-endoblast.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Biologisches Zentralblatt,2021-04-13,ZOOREC:ZOOR02500001268,0,0,"Rosenstadt, B.",J,English,Beitrage zur Kenntniss der Organisation von Asellus aquaticus und verwandten Isopoden.,1888.0,Zoology,No. 15,,,1888,,,Asellus aquaticus [Zoology /  / Structure of]. Crustacea [Zoology /  / Miscellaneous]. Isopoda [Zoology /  / ]. ,,ROSENSTADT gives an account of the anatomy of Asellus aquaticus and other Isopoda. His conclusions are chiefly corroborative of Scholl and Brandt.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,Recherches sur la spermatogeuese chez Asellus aquaticus.,2021-04-13,ZOOREC:ZOOR02400001023,0,0,"Terfve, O.",B,English,Recherches sur la spermatogeuese chez Asellus aquaticus.,1887.0,Zoology,,,,1887,,,Asellus aquaticus [Zoology /  / spermatogenesis]. Crustacea [Zoology /  / To List Of Papers; Embryology; Metamorphosis; And Larval Forms; Spermatogenesis]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Terfve, O.",,,,,,,,,,,,,,
Article,Sitzungsberichte Akademie Berlin,2021-04-13,ZOOREC:ZOOR02400001015,0,0,"Schneider, R.",J,English,Ein bleicher Asellus in den Grubeu von Freiberg im Erzgebirge.,1887.0,Zoology,,,,1887,,,Crustacea [Zoology /  / ]. ,,"Asellus aquaticus, var. freibergensis, intermediate in various points between the type species and A. cavaticus; table of the differences, &c., p. 741; eye much reduced; irou oxide in the calcareous concretions.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR02400001521,0,0,"Leichmann, G.",J,English,Uber Bildung von Richtungakorpern bei Isopoden.,1887.0,Zoology,x,,,1887,,,Animalia [Zoology /  / 2. Oogenesis]. ,,Formation of directive spindle and extrusion of two polar globules in Asellus aquaticus.,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR02400000952,0,0,"Leichmann, G.",J,English,Ueber Bildung von Richtungskorpern bei Isopoden.,1887.0,Zoology,x,,,1887,,,Crustacea [Zoology /  / ] [ /  / To List Of Papers; Embryology; Metamorphosis; And Larval Forms; Polar bodies]. Isopoda [Zoology /  / Polar bodies]. ,,"A nucleus is present throughout, and two polar bodies are extruded from the ovum of Asellus aquaticus.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Aselldoe Kosmos (Lemberg),2021-04-13,ZOOREC:ZOOR02300000884,0,0,"Kulcszycki, Wl.",J,English,Materyaly do fauny skorupiakow krajowych (Materialen zur vaterlaudischen Crustaceenfauna).,1885.0,Zoology,x,,,1885,,,Crustacea [Zoology /  / Distribution; Europe. [vide Imhof; 95.]; Poland (Asellid.)] [ /  / Systematic Arrangement And Specific Description; Isopoda; (Poland)]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Arch Nat Liv,2021-04-13,ZOOREC:ZOOR02100001699,0,0,"Braun, M.",J,English,[Title unknown.],1884.0,Zoology,(2),,x,1884,,,Argulus foliaceus; Cladocera; Crangon; Crangon vulgaris; Cypris pusilla; Gammarus pulex; Mysis; Ostracoda ornata [Zoology /  / ]. Idotea entomon [Zoology /  / 2. European Seas; Baltic; Idotea entomon; and; Cuma; as deep as 60 fath; Mysis; and; Crangon; to 20; p. 118]. Ostracoda [Zoology /  / 2. European Seas; Baltic; 1 species of Cirripeds; 3 Copepods; 2; Ostracoda; 2; Cladocera; 11 Amphipods; 5 Isopods; 1; Cuma; 4; Mysis; and; Crangon vulgaris; among which five (Gammarus pulex; Asellus aquaticus; Cypris pusilla; Ostracoda ornata; and; Arg]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Archiv fuer Mikroskopische Anatomie,2021-04-13,ZOOREC:ZOOR01700001266,0,0,"Weber, M.",J,English,[Title unknown.],1880.0,Zoology,xvii,,,1880,,,Amphipoda; Astacus fluviatilis; Decapoda; Gammarus pulex; Isopoda; Oniscidae fluviatilis; Oniscidae locusta; Oniscidae marinus; Oniscidae puteanus; Orchestia; Talitrus [Zoology /  / ]. Oniscidae [Zoology /  / 4. Digestion]. ,,"M. WEBER has examined histologically and chemically, and described the so-called liver of terrestrial, freshwater, subterraneous, littoral, and truly marine species of different orders, viz.:-several Oniscidae, including the blind Typhloniscus steini, Asellus aquaticus, and the subterraneous A. cavaticus, Gammarus pulex, fluviatilis, puteanus, marinus, and locusta, Talitrus and Orchestia, and Astacus fluviatilis. He comes to the conclusion that in the Decapoda, Amphipoda, and Isopoda, this gland is tubular and contains at least two sorts of cells, one of which secretes a fluid acting as a ferment (enzyme) on albuminous substances, and the other a pigment allied with a fatty substance and cholestearin, serving for the emulsion for fat. He calls the first ferment-cells, the second liver-cells, and the whole organ ""hepato-pancreas,"" as it combines the function of the liver and that of the true digestive glands of the Vertebrates. During the embryonal stage, the liver is developed and active in the Crustacea, as in the Vertebrata, which proves that its function is not only digestion, but also excretion. In some Amphipods and Decapods, there is a third sort of cells, probably reserve-cells, which are destined to supply, if necessary, the others. Arch, mikr. Anat. xvii. pp. 385-457, pls. xxivi.-xxxviii.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletin de la Societe Philomathique,2021-04-13,ZOOREC:ZOOR01700001277,0,0,"Henneguy, L. F.",J,English,[Title unknown.],1880.0,Zoology,,,,1880,,,Crustacea [Zoology /  / 7. Development; Polar globules in the egg of; Asellus aquaticus; stated to exist by; abstract in Ann. N. H. (5) vi. p. 465; and in J. R. Micr. Soc. (2) i. p. 42]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR01600001635,0,0,"Fries, S.",J,English,Mittheilungen aus dem Gebiete der Dunkelfauna.,1879.0,Zoology,ii,,,1879,,,Crangonyx; Gammarus puteanus; Niphargus [Zoology /  / ]. ,,"Fries, l. c., agrees with Rougemont, that Crangonyx and Niphargus are only different stages of age or local varieties of Gammarus puteanus.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zoologischer Anzeiger,2021-04-13,ZOOREC:ZOOR01600001687,1,0,"Weber, M.",J,English,Ueber Asellus cavaticus.,1879.0,Zoology,ii,,,1879,,,Asellus aquaticus [Zoology /  / Other differences between both species; for instance; in the number of sensitive bristles of the first maxilla; 4 in; 5 in; Asellus cavaticus; and in the comparative size of the hepatic organs; are pointed out by; pp. 150 & 151]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Sitzungsberichte Nat Fr,2021-04-13,ZOOREC:ZOOR01500001208,0,0,Rabl-ruckhard,J,English,Ueber die Horhaare der Isopoden.,1878.0,Zoology,,,,1878,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zeitschrift fuer Wissenschaftliche Zoologie Supplement,2021-04-13,ZOOREC:ZOOR01500001187,0,0,"Leydig, F.",J,English,Ueber Amphipoden und Isopoden.,1878.0,Zoology,xxx,,,1878,,,Gammarus; Isopoda; Ligidium scaber [Zoology /  / ]. ,,"F. LEYDIG discusses the structure of the antennaae and their appendages (of which the feather-like bristles are supposed to be sensitive organs), the eyes, the intestine, &c, in Gammarus; Z. wiss. Zool. xxx. suppl. pp. 225-243, pls. ix. & x. figs. 11-13. .F. LEYDIG describes the structure of the antennae and eyes, the sculpture of the skin the respiratory organs and their opercular plates, in the terrestrial Isopoda of Germany ; Z. wiss. Zool. xxx. pp. 251-265 pl. x. figs. 14-25, & pls. xi. & xii. .He also gives several interesting notes on the differences and habits of the known species occurring in Southern Germany, chiefly Ligidium persooni (Brandt), 3 species of Itea, Oniscus murarius (Cuv.), Porcellia armadilloides (Lereb.), scaber and pictus (Brandt) ; l. c. pp. 265-271.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Fauna der dunkeln Orte,2021-04-13,ZOOREC:ZOOR01300001249,0,0,Rougemont,J,English,[Title unknown.],1876.0,Zoology,,,,1876,,,Asellus sieboldi [Zoology /  / in the depths of the lakes of Switzerland; and in deep wells at Munich; scarcely differs from; Asellus aquaticus; except in its rudimentary eyes and more developed antennoe; p. 9]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,De statu et embryonali et larvali Echino-rhynchorum eorumque metamorphosi.,2021-04-13,ZOOREC:ZOOR01000003023,0,0,"Leuckart, R.",B,English,De statu et embryonali et larvali Echino-rhynchorum eorumque metamorphosi.,1873.0,Zoology,,,,1873,,,Acanthocephala; E. proteus; Nemertes [Zoology /  / ]. ,,"E. proteus lives in the adult state in the intestine of Cyprini; as young, in the body cavity of Gammarus pulex. In the latter state it is globular or oviform, has the ""proboscis"" invaginated, but is internally fully organized; only the sexual organs are still immature. It is introduced into the digestive tube of the Amphipod as an egg, but makes its way, when hatched, through its walls into the abdominal cavity. The evolution of the embryo in the egg is described, and the structure of the embryo, which is very different from that of the perfect Echinorhynch. This is developed, with all its organs; ""proboscis,"" hooks, retractor-muscles, generative organs, &c., within the embryo, from a central heap of cells, the embryonic-germ, which may be regarded morphologically as a rudimentary digcstive system. The relations between the embryo and the developing Echinorhynch are somewhat analogous to those between the Plutcus, Pilidium, or Tornaria and the Echinoderm, Nemertes or Balanoglossus; it is, as in these, a true metamorphosis that takes place, and not a digenesis. In other Acanthocephala, the evolution is more simple, and the metamorphosis more direct, though proceeding in a similar manner from a central embryonic mass, but the larva is put in a state of repose, loses its shape and mobility, at a much earlier epoch and with a much smaller size, and is more rapidly transformed into the adult Echinorhynch; for instance, E. angustatus, which lives as a sexual animal in the intestine of Cyprini and perches, and as young in Asellus aquaticus, into which it is also introduced as an egg; but it only penetrates into the walls of the intestine, where it dwells for some time, encysted; afterwards it is set free in the abdominal cavity of the Isopod through a degeneration of the tissue of the intestine. The axis of this Echinorhynch developing from the central mass (""Embryonalkern""),-which is more specially homologiaed with the lateral discs in Pluteus and the muscular layer (""Muskelblatt"") in other embryos-is almost at right angles with that of the larva.",(University programme),,Lipsiae,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Leuckart, R.",,,,,,,,,,,,,,
Article,Arch. f. Nat,2021-04-13,ZOOREC:ZOOR00900002849,0,0,Linstow,J,English,"Zur Anatomie and Entwickelungsgeschichte des Echinorhynchus angustatus, Rud.",1872.0,Zoology,xxxviii,,,1872,,,Asellus aquaticus; Cestoda; Nematoda; Trematoda [Zoology /  / ]. ,,"LINSTOW, ""Zur Anatomie and Entwickelungsgeschichte des Echinorhynchus angustatus, Rud."" (Arch. f. Nat xxxviii. p. 6, pl. 1), states that the eggs are rapidly developed in Asellus aquaticus, where they attain a size almost equalling that of the (usually mature) specimens in the perch. The ""lemnisci"" are regarded as answering functionally to the intestine, and the oyaria and testes as distinct from the ""ligamenta suspensoria."" Nerve-ganglia are present; and the generative organs in both sexes are fully described. The affinities of the order are thus summed up:-While the testes suggest a comparison with the Trematoda, we are reminded of the Cestoda by the want of mouth and vent, the hooked trunk, and the removal of segments with mature ova (E. tuba), and of the Nematoda by the lateral vessels and the evolution without metamorphosis.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,SB d Oberh Ges f Natur u Heilkunde,2021-04-13,ZOOREC:ZOOR00700003437,0,0,"Schneider, Anton",J,English,Entwickelungsgeschichte der Echinorhynchen.,1870.0,Zoology,,,,1870,,,Acanthocephala; Echinorhynchus gigas; Echinorkynchus gigas [Zoology /  / ]. ,,"14. SCHNEIDER took the eggs of the Echinorkynchus gigas from the pig, fed the larva of Melolontha vulgaris with them, and readily succeeded in watching the development of the eggs. With the larva of Tenebrio molitor and with Asellus aquaticus he did not succeed. He found the embryo of Echinorhynchus gigas easier to observe than the species which have been studied by Leuckart and by Greef, because of its larger size. The difficulty of understanding the Echinorhynchi lies, he considers, not in a want of knowledge as to them themselves, but in the absence of once-existing intermediate forms. Their structure may be best explained by regarding them as double animals, the proboscis-apparatus being one animal and the sexual apparatus another, whilst the body-wall is common: both units are mouthless. The kind of aggregation seen in the Bryozoa is parallel to this. Such a view of the morphology of the Echinorhynchi is favoured by their developmental history, of which Schneider promises shortly a fuller account.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bull Acad Roy Belg,2021-04-13,ZOOREC:ZOOR00600001363,0,0,Ed Van Beneden,J,English,[Title unknown.],1869.0,Zoology,xxviii,,,1869,,,Mysis; Mysis ferruginea [Zoology /  / ]. ,,"The development of Mysis ferruginea (Beneden) has been studied by van Beneden The blastoderm is formed by the partial cleaving of the yolk; the blastodermic vesicle extends over the whole surface of the egg before any organ appears; the division of the embryo into a cephalic lobe and a caudal lobe results from the division of a primordial cellular fold into two laminae; the caudal appendix of Mysis is reverted beneath the abdomen as in all Decapods. The caudal lobe begins to be formed before there is any trace of the antennae; these latter make their appearance at the same time as the mandibles, and in the form of simple cellular protuberances. The cuticula belonging to the stage of Nauplius is developed at the same time on the whole surface of the embryo, and it is its first cuticula, there being no blastodermic mould. The tail, which is bifid in Mysis vulgaris (Thomps.) and chamaleon (Bell) is simple, and terminates in a blind sac in Mysis ferruginea Finally there is formed on the sides of the embryo an organ which has the same morphological value as the foliaceous appendages of Asellus aquaticus Bull. Acad. Roy. Belg. xxviii pp. 232-249 with a plate.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Bulletins de l'Acad Roy de Belgique 2nd series,2021-04-13,ZOOREC:ZOOR00600001276,0,0,"Beneden, Edouard Van",J,English,Recherches sur l'embryogenie des Crustaces. I. Observations sur le developpement de l'Asellus aquaticus. II. Developpement des Mysis.,1869.0,Zoology,vol. xxviii,,,1869,,,Crustacea [Zoology /  / ]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Book,Histoire naturelle des Crustaces d'eau douce de Norvege. Premiere livraison. Les Malacostraces.,2021-04-13,ZOOREC:ZOOR00400001119,1,0,"Sars, G. O.",B,English,Histoire naturelle des Crustaces d'eau douce de Norvege. Premiere livraison. Les Malacostraces.,1867.0,Zoology,,,,1867,,,Asellus aquaticus; Gammaracanthus loricatus; Gammaracanthus var. latcustris; Peneus; Pontoporeia; Pontoporeia femorata [Zoology /  / ]. ,,"The analogies of this division (called legion by the author) with some genera of normal Macrura, as Peneus, Pasiphae, and with earlier stages of development in other genera, are pointed out by G. 0. Sars; he thinks they ought to be regarded as Decapods which remain on a lower stage of development than the rest of the order. Sars, l. c. pp. 11, 12. .Mysis oculata (Fabr.), var. relicta (Loven). Its external forms, as well as its anatomy, are described and figured by G. O. Sars, l. c. pp. 14-41, pls. 1-3. The heart is in the same situation as in Decapods generally, but is very elongate; only the large arteries are real vessels, their branches being merely interstitial currents in the mass of other organs. Instead of distinct gills, there are, under the cephalothorax at the bases of the feet, six peculiar organs, forming flexuous cylindrical tumours of the sides of the body, containing blood, and communicating with the lateral slits of the heart; they are homologous with the branchial vessels of Decapods, but are here peculiarly developed, so as to perform the function of gills. The cerebral ganglia are more numerous than in other Decapods; the eyes are more developed than in most of the higher Decapods. The division of the nervus opticus into three segments within the eye-stalk and its final termination are described in detail, also the auditory organ in the internal lateral lamina of the caudal fan. Several bristles on the stalks of the upper antennae, on the abdominal feet, and on the caudal lamina are thought by the author to perform also an auditory function, but more simple and more imperfect; the first of them are the same as the auditory cilia observed by Spence Bate in the Amphipods, and regarded as olfactory organs by others. The animal lives in the lako Mjosen from 3 and 6 to 200 fathoms, and is gregarious, as other species of the same genus; it lives also in several large lakes of Sweden, and in Lake Ladoga. It cannot be distinguished as a separats species from the marine Mytsis oculata from Greenland. .Gammarus negletus (Lilljeborg)=laouttris (Sars, 1863), in the mountain-lakes of Norway, for example Afsjo and Vaalasjo on the Dorrefjeld, the principal food of Salmo fario; its external and anatomical characters described by G. O. Sars, l. c. pp. 46, 47, pls. 4, 5, and 6. figs. 1-20. The copulation and development of the eggs has been observed by the author, and the existence of a micropylic apparatus discovered and described, p. 65. .Pallasea cancelloides (Gerstfeldt, Sp. Bate), var. quadrispinosa (Esmark), from the lake Mjosen and others in Norway, described and figured by G. O. Sars, l. c. pp. 68-73, pl. 6. figs. 21-34. .Gammaracanthus loricatus (Sabine), var. latcustris, from the same lake, only in a depth of nearly 1200 feet; adult and young states described and figured by G. O. Sars, l. c. pp. 73-82, pl. 7. figs. 1-8. The slight differences from the arctic marine G. loricatus are attributed by the author, as by Loven, to arrested development. .Pontoporeia affinis (Lindstrom)=femorata, var. (Sars, 1862), in small lakes near Christiania, described and figured by G. O. Sars, l. c. pp. 82-90, pl. 7. figs. 10-25, pl. 8. figs. 1-5. The genus Pontoporeia is reunited with Lysanassa by the author, p. 82, note. .Asellus aquaticus. Common in pcols and marshes of Norway, even in those drying tip during the summer, in which case it remains in the mud in a torpid state; Its external forms, anatomy, and development from the egg are described and figured by G.O. Sars, l. c. pp. 93-123, pl. 8. figs. 6-28, pls. 9 and 10.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,"Sars, G. O.",,,,,,,,,,,,,,
Article,Preussische Expedition nach Ost-Asien Zool,2021-04-13,ZOOREC:ZOOR00400001125,0,0,[Author unknown.],J,English,[Title unknown.],1867.0,Zoology,i,,,1867,,,Armadillidium; Gammarus; Grapsus [Zoology /  / ]. Porcellio [Zoology /  / Contributions To Faunas; Madeira; Some remarks on its carcinological fauna are given by the Recorder in; pp. 12-14; Species of; Porcellio; and; Armadillidium; are common; Gammarus; is often found on the banks of rivulets above the water; Asellus aquaticus; two species of; Grapsus; are seen on the stones of the sea-shore; also often out of the water; Plagusia squamosa; is esteemed as food]. ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
Article,Zeitschrift fuer Wissenschaftliche Zoologie,2021-04-13,ZOOREC:ZOOR00400001111,1,0,"Dohrn, A.",J,English,Die embryonale Entwicklung des Asellus aquaticus.,1867.0,Zoology,xvii,,,1867,,,Asellus aquaticus [Zoology /  / ]. ,,"The development of Asellus aquaticus has been made the subject of researches by Dr. A. Dohrn, Zeitschr. wiss. Zool. xvii. pp. 271-278, pls. 14 & 15.",,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,