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Data from: Environment-dependent variation in selection on life history across small spatial scales
负责人:
关键词:
competition;life-history evolution;heterogeneous selection;Watersipora subtorquata;Selection - Natural;Bryozoan
DOI:
doi:10.5061/dryad.n5m81
摘要:
hanism for the maintenance of trait variation is spatially-variable selection. We explored spatial variation in selection in the field for a colonial marine invertebrate tha
Data from: Spatial autocorrelation in fitness affects the estimation of natural selection in the wild
负责人:
关键词:
Pseudoreplication;selection gradients;spatial heterogeneity;Cyanistes caeruleus;spatial autocorrelation;blue tit;multiple regression
DOI:
doi:10.5061/dryad.pm86c
摘要:
t (Cyanistes caeruleus) population. We also compared the performance of the four spatially explicit models of selection using a simulation approach. 3. Our analyse
Data from: Niche construction affects the variability and strength of natural selection
负责人:
关键词:
natural selection;strength of selection;selection gradients;Niche construction;spatial;temporal
DOI:
doi:10.5061/dryad.g66n3h5
摘要:
ween (i) years (temporal variation), and (ii) locations (spatial variation), and (iii) weaker directional selection, relative to non-constructed sources. Usi
Data from: Incorporating animal spatial memory in step selection functions
负责人:
关键词:
animal movement Biased Brownian Bridge kernel estimation cognitive maps GPS-tracking habitat selection spatial memory
DOI:
doi:10.5061/dryad.s5812
摘要:
Functions (SSF) to understand how resource selection and spatial memory affect space use of feral hogs (Sus scrofa). We used Biased Random Bridge
Data from: Spatially and temporally varying selection on intrapopulation quantitative trait loci for a life history trade-off in Mimulus guttatus
负责人:
关键词:
Natural Selection and Contemporary Evolution;quantitative genetics;Ecological Genetics;Mimulus guttatus;Population Genetics - Empirical
DOI:
doi:10.5061/dryad.s0n20
摘要:
hanisms (spatial and temporal heterogeneity in selection, frequency-dependent selection, antagonistic pleiotropy, etc.). Most of these mechanisms have been demonstrated for Mendelian traits
Data from: Functional responses in animal movement explain spatial heterogeneity in animal-habitat relationships
负责人:
Mason, Tom
关键词:
antipredator behaviour boreal forest foraging ungulates predator-prey spatial games resource selection SSF taiga
DOI:
doi:10.5061/dryad.5p6kr
摘要:
s in animal movement, rather than in emergent spatial patterns like habitat selection, could disentangle the effects of different movement behaviour
Data from: Revisiting the functional response in habitat selection for large herbivores: a matter of spatial variation in resource distribution?
负责人:
Duparc, Antoine
关键词:
chamois Rupicapra rupicapra mountain ungulate foodscape habitat selection
DOI:
doi:10.5061/dryad.89mt68q
摘要:
t formed socio-spatial groups (clusters) in the population. As expected, selection ratios increased with the standard deviation of edible resources in ea
Data from: Resource dispersion promotes kin selection in a solitary predator
负责人:
Aronsson, Malin
关键词:
resource dispersion kin selection space use territoriality solitary
DOI:
doi:10.5061/dryad.82rv8q9
摘要:
Resource dispersion or kin selection are commonly used to explain animal spatial organisation. Despite this, studies examining how these fact
Data from: Using adaptive traits to consider potential consequences of temporal variation in selection: male guppy colour through time and space
负责人:
关键词:
spatial variation;selection;temporal variation;phenotypic variation;Adaptation;Poecilia reticulata;colour patterning
DOI:
doi:10.5061/dryad.pj02h
摘要:
te for our study because key aspects of colour variation are genetically-based and responsive to selection. However, although spatial patterns of colour variati
Data from: Movement is the glue connecting home ranges and habitat selection
负责人:
关键词:
movement home range habitat selection moose
DOI:
doi:10.5061/dryad.58j2m
摘要:
es (i.e. spatial autocorrelation, mean, and variance of RT and TtoR) influences home range size and hierarchical habitat selection. 4. In landscapes with high

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