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Data from: Male competition drives song divergence along an ecological gradient in an avian ring species
负责人:
关键词:
competition;reproductive isolation;Selection - Sexual;Behavior;speciation;Fitness
DOI:
doi:10.5061/dryad.1pj4302
摘要:
the hypothesis that variation in sexual selection in different habitats drives song divergence in the greenish warbler ring species. I evaluated the strength
Data from: Habitat selection and the value of information in heterogenous landscapes
负责人:
关键词:
information;spatial heterogeneity;Population Ecology
DOI:
doi:10.5061/dryad.1d73qk4
摘要:
the framework to an existing model of breeding habitat selection. We begin by linking information, as a process of narrowing choice, to population growth/fitness
Data from: Reproductive success is driven by local site fidelity despite stronger specialisation by individuals for large scale habitat preference
负责人:
Patrick, Samantha C.
关键词:
Foraging specialisation site fidelity seabird foraging Intra-individual variability Black browed albatross Oceanographic conditions bathymetry and depth foraging hotspots niche segragation fitness
DOI:
doi:10.5061/dryad.51b25
摘要:
areas, site fidelity may also emerge as an artefact of habitat choice but both drivers and fitness consequences of site fidelity are poorly understood. 3. Her
Data from: Effects of forestry-driven changes to groundcover and soil moisture on amphibian desiccation, dispersal, and survival
负责人:
关键词:
DOI:
doi:10.5061/dryad.1619515
摘要:
soil moisture levels. When toads were held in small outdoor enclosures that constrained microhabitat selection, 24-h desiccation rates and 72-h mortality wer
Data from: Selective logging intensity in an East African rain forest predicts reductions in ant diversity
负责人:
关键词:
Pheidole concinna;Hypoponera punctatissima;Bothroponera talpa;Tetramorium boltoni;Pheidole njassae;Lioponera nkomoensis;Strumigenys bellatrix;Zasphinctus obamai;Strumigenys rukha;Technomyrmex andrei;Tetramorium snellingi;Pheidole megacephala;Dorylus affinis;multiple stressors;Hypoponera angustata;Crematogaster wellmani;Solenopsis punctaticeps;Carebara perpusilla;Dorylus kohli;Pheidole KE07;Carebara phragmotica;Strumigenys ludovici;Pristomyrmex africanus;Crematogaster concava;Tetramorium zambezium;Bothroponera crassa;Holocene;habitat fragmentation;Phrynoponera gabonensis;Carebara thoracica;Parvaponera KE01;Parvaponera KE02;Plagiolepis decora;Hypoponera jeanneli;Carebara rara;Carebara polita;Pheidole aurivillii;Myrmicaria opaciventris;forest specialists;Strumigenys tetragnatha;Anochetus maynei;Odontomachus assiniensis;Strumigenys lujae;Crematogaster KE08;Kenya;Crematogaster KE03;Parasyscia kenyensis;Tetramorium boehmei;Hypoponera inaudax;disturbance specialists;Dorylus wilverthi;Monomorium hanneli;Pheidole nigeriensis;Strumigenys serrula;Kakamega forest;Tetramorium metactum;Tetramorium KE09;Tetramorium pinnipilum;Axinidris acholli;Mesoponera subiridescens;Technomyrmex KE01;Hypoponera dulcis;Parasyscia KE01;Hypoponera fatiga;Strumigenys tetraphanes;Tetramorium KE13;Pheidole speculifera;Discothyrea mixta;Hypoponera importuna;Camponotus pompeius;Plathythyrea gracillima;Strumigenys minkara;Monomorium KE01;Carebara alluaudi;Strumigenys thuvida;Hypoponera occidentalis;Dorylus nigricans molestus;Camponotus brutus;Paraparatrechina weissi;Tetramorium viticola;Strumigenys concolor;Tetramorium pullulum;Anochetus katonae;Strumigenys geoterra;Tetramorium lucayanum;Paraparatrechina umbranatis;Pheidole KE02;Pheidole KE05;Pheidole dea;Pheidole KE04;Nylanderia silvula;Pheidole KE01;Recent;Calyptomyrmex clavatus;Plectrotena subterranea;Anthropocene;Tetramorium brevispinosum;Leptogenys KE01;Syllophopsis cryptobia;biodiversity;Habitat Degradation;Carebara KE06;Strumigenys cavinasis;Strumigenys hensekta;Carebara silvestrii;Microdaceton tibialis;Calyptomyrmex brunneus;Strumigenys KE06;Mesoponera ambigua;Calyptomyrmex piripilis;Monomorium rotundatum;Monomorium draxocum;Acropyga silvestrii;Calyptomyrmex duhun;Tetramorium KE01;Technomyrmex moerens;Tetramorium KE08
DOI:
doi:10.5061/dryad.8hq75j7
摘要:
was correlated with estimated species richness. There was also no effect of any form of habitat degradation on the richness or abundance of open habitat
pite a common mating habitat
负责人:
关键词:
microsatellites;Aphis fabae;host specialization;Serratia symbiotica;Hamiltonella defensa;Regiella insecticola;Aphis urticata;Endosymbionts;host alternation;reproductive isolation;Holocene;Aphis fabae cirsiiacanthoides
DOI:
doi:10.5061/dryad.5615g
摘要:
-offs across hosts, show adaptive host choice and genetic differentiation, and possess different communities of bacterial endosymbionts. Populations
Data from: Partitioning the effects of spatial isolation, nest habitat, and individual diet in causing assortative mating within a population
负责人:
关键词:
stable isotopes;diet variation;habitat choice;spatial cosegregation;Gasterosteus aculeatus
DOI:
doi:10.5061/dryad.5sq45
摘要:
or habitat preferences. Here, we test whether diet-assortative mating within an ecologically variable population of threespine stickleback results from small-scale
Data from: Picky hitch-hikers: vector choice leads to directed dispersal and fat-tailed kernels in a passively dispersing mite
负责人:
Fronhofer, Emanuel A.
关键词:
dispersal phoresy vectors choice
DOI:
doi:10.5061/dryad.t7rb4
摘要:
Dispersal is a central life-history trait for most animals and plants: it allows to colonize new habitats, escape from competition or avoi
Data from: Fine-grained adaptive divergence in an amphibian: genetic basis of phenotypic divergence and the role of non-random
负责人:
关键词:
Natural Selection and Contemporary Evolution;Landscape Genetics;Amphibians;quantitative genetics;Rana arvalis;Adaptation;Population Genetics - Empirical
DOI:
doi:10.5061/dryad.mk68f
摘要:
populations. Here, we explore the roles of natural selection and nonrandom gene flow (isolation by breeding time and habitat choice) in restricting effective

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