HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
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Does regional diversity recover after disturbance? A field experiment in constructed pondsColonization history and clonal richness of asexual Daphnia in periglacial habitats of contrasting age in West Greenland.In search of quorum effects in metacommunity structure: species co-occurrence analyses.Extinction, recolonization, and dispersal through time in a planktonic crustacean.Strong spatial influence on colonization rates in a pioneer zooplankton metacommunity.Size-selective dispersal of Daphnia resting eggs by backswimmers (Notonecta maculata).How to maximally support local and regional biodiversity in applied conservation? Insights from pond management.Genetic structure of Daphnia galeata populations in Eastern China.The Impact of Conservation Management on the Community Composition of Multiple Organism Groups in Eutrophic Interconnected Man-Made Ponds.Environmental filtering determines metacommunity structure in wetland microcrustaceans.Herbivory enhances the diversity of primary producers in pond ecosystems.Isolation mediates persistent founder effects on zooplankton colonisation in new temporary ponds.Prey-driven control of predator assemblages: zooplankton abundance drives aquatic beetle colonization.A naturally heterogeneous landscape can effectively slow down the dispersal of aquatic microcrustaceans.Recovery after local extinction: factors affecting re-establishment of alpine lake zooplankton.Does dispersal limitation impact the recovery of zooplankton communities damaged by a regional stressor?Initial genetic diversity enhances population establishment and alters genetic structuring of a newly established Daphnia metapopulation.Wetland defense: naturally occurring pesticide resistance in zooplankton populations protects the stability of aquatic communities.Persistent genetic signatures of colonization in Brachionus manjavacas rotifers in the Iberian Peninsula.Impacts of dispersal on rapid adaptation and dynamic stability of Daphnia in fluctuating environments.Adaptation to local ultraviolet radiation conditions among neighbouring Daphnia populations.Suppression of invasive topmouth gudgeonPseudorasbora parvaby native pikeEsox luciusin pondsThe role of dispersal levels, Allee effects and community resistance as zooplankton communities respond to environmental changeAssembly mechanisms determining high species turnover in aquatic communities over regional and continental scalesEnvironment and biogeography drive aquatic plant and cladoceran species richness across EuropeMigratory strategies of waterbirds shape the continental-scale dispersal of aquatic organismsGeographic signatures in species turnover: decoupling colonization and extinction across a latitudinal gradientDispersal mode mediates the effect of patch size and patch connectivity on metacommunity diversityFitness differences and persistent founder effects determine the clonal composition during population build-up inDaphniaColonization of Daphnia magna in a newly created pond: founder effects and secondary immigrantsHow do freshwater organisms cross the “dry ocean”? A review on passive dispersal and colonization processes with a special focus on temporary pondsSingle dietary amino acids control resting egg production and affect population growth of a key freshwater herbivoreContributions of airborne dispersal and dormant propagule recruitment to the assembly of rotifer and crustacean zooplankton communities in temporary pondsRanked species occupancy curves reveal common patterns among diverse metacommunitiesSpatio-temporal distribution of sedimentary Cladocera (Crustacea: Branchiopoda) in relation to climateIndependent and shared effects of environmental features and space driving avian community beta diversity across a coastal gradient in southern BrazilEnvironment trumps predation and spatial factors in structuring cladoceran communities from Boreal Shield lakesPrevalence of kairomone-induced diapause in Daphnia magna from habitats with and without fish
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P2860
HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
description
im Februar 2005 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 2005
@uk
name
HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
@en
HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
@nl
type
label
HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
@en
HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
@nl
prefLabel
HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
@en
HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
@nl
P2860
P356
P1433
P1476
HIGH DISPERSAL CAPACITY OF CLADOCERAN ZOOPLANKTON IN NEWLY FOUNDED COMMUNITIES
@en
P2860
P304
P356
10.1890/04-0403
P407
P577
2005-02-01T00:00:00Z