Search results for "Ideal free distribution"

showing 3 items of 3 documents

Evolutionary conservation advice for despotic populations: habitat heterogeneity favours conflict and reduces productivity in Seychelles magpie robins

2010

Individual preferences for good habitat are often thought to have a beneficial stabilizing effect for populations. However, if individuals preferentially compete for better-quality territories, these may become hotspots of conflict. We show that, in an endangered species, this process decreases the productivity of favoured territories to the extent that differences in productivity between territories disappear. Unlike predictions from current demographic theory on site-dependent population regulation (ideal despotic distribution), we show that population productivity is reduced if resources are distributed unevenly in space. Competition for high-quality habitat can thus have detrimental con…

0106 biological sciencesMaleConservation of Natural Resourcesmedia_common.quotation_subjectPopulationEndangered speciesBiologySeychelles010603 evolutionary biology01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyCompetition (biology)AnimalsPasseriformeseducationProductivityResearch ArticlesEcosystemGeneral Environmental Sciencemedia_commoneducation.field_of_studyIdeal free distributionGeneral Immunology and MicrobiologyBehavior AnimalEcology010604 marine biology & hydrobiologyReproductionHabitat conservationGeneral Medicine15. Life on landBiological EvolutionSpatial heterogeneitySocial DominanceBiological dispersalFemaleGeneral Agricultural and Biological SciencesTerritoriality
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Habitat assessment by parasitoids: consequences for population distribution

2006

International audience; The ideal free distribution (IFD) is a stable distribution of competitors among resource patches. For equally efficient competitors, equilibrium is reached when the per capita rate of intake equalizes across patches. The seminal version of the IFD assumes omniscience, but populations may still converge toward the equilibrium provided that competitors 1) accurately assess their environment by learning and 2) remain for an optimal (rate-maximizing) time on each encountered patch. In the companion article (Tentelier C, Desouhant E, Fauvergue X. 2006. Habitat assessment by parasitoids: mechanisms for patch time allocation. Behav Ecol. Forthcoming), it is shown that the p…

0106 biological sciences[SDV.OT]Life Sciences [q-bio]/Other [q-bio.OT]aggregation; density dependence; ideal free distribution; interference; learning; Lysiphlebus testaceipesPopulationTime allocationLEARNINGLYSIPHLEBUS TESTACEIPES010603 evolutionary biology01 natural sciencesParasitoid waspParasitoid03 medical and health sciences[ SDV.OT ] Life Sciences [q-bio]/Other [q-bio.OT]educationEcology Evolution Behavior and SystematicsDENSITY DEPENDENCEComputingMilieux_MISCELLANEOUS030304 developmental biologyINTERFERENCE0303 health sciencesAphideducation.field_of_studyIdeal free distributionbiology[SDV.OT] Life Sciences [q-bio]/Other [q-bio.OT]EcologyHost (biology)AGGREGATIONbiology.organism_classificationINDIVIDUAL BEHAVIORDensity dependenceIDEAL FREE DISTRIBUTIONPOPULATION DISTRIBUTIONAnimal Science and Zoology[SDE.BE]Environmental Sciences/Biodiversity and Ecology
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The future of cladoceran research

1997

The cladocerans are a group of Crustacea used as model organisms in many fields of biology. In system-atics, ecology, physiology and genetics, the cladocerans appear as frequently used examples in case studies. Their reproductive system, switching between parthenogenesis and sexual reproduction, makes them particularly suited for studies dealing with genetic and environmentally induced variability. It is on the whole a particularly handy group of animals that can be used for studying almost all kinds of evolutionary processes.

Ideal free distributionAnimal modelbiologyCladoceraEcologyEcology (disciplines)Branchiopodabiology.organism_classificationSexual reproduction
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