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Data from: Salinization triggers a trophic cascade in experimental freshwater communities with varying food-chain length
负责人:
关键词:
DOI:
doi:10.5061/dryad.rt8n4
摘要:
ts of high salinity on the biomass of filamentous algae and amphipods (Hyalella azteca) and the mortality of banded mystery snails (Viviparus georgianus) and fingernail
Data from: Effect of mutualist partner identity on plant demography
负责人:
关键词:
myrmecophyte;Azteca;Begin: 2007-09-01 End: 2007-09-30;Crematogaster laevis;Melastomataceae;Tococa bullifera;Demography;Pheidole minutula;Maieta guianensis;ant-plant;Biological Dynamics of Forest Fragments Project;mutualism
DOI:
doi:10.5061/dryad.5kc45
摘要:
Mutualisms play a central role in the origin and maintenance of biodiversity. Because many mutualisms have strong demographic effec
Data from: Influences of species interactions with aggressive ants and habitat filtering on nest colonization and community composition of arboreal
负责人:
关键词:
Agricultural Entomology;Formicidae;Tropical Insect Ecology;Community Ecology
DOI:
doi:10.5061/dryad.4fv2v
摘要:
the dominant canopy ant, Azteca sericeasur (Hymenoptera: Formicidae) -- or habitat filtering -- species of tree where nests were placed, tree size
Data from: How common road salts and organic additives alter freshwater food webs: in search of safer alternatives
负责人:
关键词:
wetlands;Beet juice;Hyalella azteca;distillation byproduct;freshwater contaminants;plankton;deicer
DOI:
doi:10.5061/dryad.v477g
摘要:
or increase its effectiveness. Few studies have examined the effects of NaCl in aquatic ecosystems, but none have explored the potential impacts of road salt
Data from: Complex constraints on allometry revealed by artificial selection on the wing of Drosophila melanogaster
负责人:
关键词:
Drosophila mauritiana;Drosophila sulfurigaster (albostrigata);Drosophila eugracilis;Drosophila greeni;Idiomyia mimica;Idiomyia crucigera;Zaprionus inermis;Drosophila ficusphila;Drosophila gaucha;Drosophila arizonae;Ephydridae;Drosophila saltans;Idiomyia gymnobasis;Drosophila bifasciata;Lauxaniidae;Drosophila busckii;Drosophila pseudoobscura (bogotana);Discocerina obscurella;Drosophila neocordata;Drosophila nigromelanica;Drosophila ananassae;Chymomyza procnemis;Zaprionus Sg. Anaprionus;Drosophila takahashii;drosophila simulans;Drosophila pictiventris;Leucophenga varia;Drosophila repleta;Drosophila emarginata;Zaprionus ghesquierei;Monochaetoscinella Sp.;Drosophila putrida;Drosophila mercatorum;Hirtodrosophila duncani;Drosophila mimetica;Scaptodrosophila lebanonensis (casteeli);Drosophila guttifera;Drosophila virilis;pleiotropy;Drosophila sulfurigaster (bilimbata);Drosophila pinicola;Drosophila sechellia;Drosophila tripunctata;Allometry;Scaptodrosophila latifasciaeformis;Drosophila americana (texana);Neogriphoneura sordida;Drosophila elegans;Drosophila cardini;Homoneura Sp.;Drosophila immigrans;Leucophenga Sp.;Drosophila yakuba;Artificial selection;Drosophila persimilis;Drosophila nikananu;Chloropidae;Scaptodrosophila lebanonensis (lebanonensis);Zaprionus sepsoides;Idiomyia biseriata;Drosophila paulistorum;Drosophila algonquin;Drosophila kikkawai;Drosophila nebulosa;Drosophila pseudoobscura (pseudoobscura);Drosophila paramelanica;Samoaia leonensis;Drosophila santomea;Drosophila sturtevanti;Drosophila acutilabella;Drosophila recens;Scaptomyza adusta;Drosophila aff. florae;Drosophila hydei;Drosophila robusta;Drosophila willistoni;Thaumatomyia Sp.;Drosophila guanche;Hirtodrosophila Sp.;Drosophila lucipennis;Drosophila occidentalis;Idiomyia grimshawi;Drosophila affinis;Drosophila mojavensis;Scaptomyza palmae;Drosophila falleni;Drosophilidae;Drosophila athabasca;Drosophila micromelanica;Drosophila mulleri;Drosophila malerkotliana;drosophila melanogaster;Drosophila funebris;Drosophila erecta;Hirtodrosophila thoracis;Drosophila sulfurigaster (sulfurigaster);Zaprionus indianus;Drosophila euronotus;Drosophila azteca;Drosophila testacea;Idiomyia eurypeza;Scaptodrosophila dorsocentralis;Dettopsomyia nigrovittata;Drosophila neotestacea;Drosophila subobscura;comparative analyses;Drosophila stalkeri;Drosophila equinoxialis;Scaptodrosophila deflexa;Developmental constraints;Drosophila melanica;Mycodrosophila claytonae;Drosophila peninsularis;Scaptodrosophila stonei;Drosophila macrospina;Drosophila americana (americana);Drosophila seguyi;Drosophila nasuta;Idiomyia soonae;Mycodrosophila dimidiata
DOI:
doi:10.5061/dryad.s270f
摘要:
Precise exponential scaling with size is a fundamental aspect of phenotypic variation. These allometric power laws are often invariant across taxa

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