The selection pressure experienced by organisms often varies across the species range. It is hence crucial to characterise the link between environmental spatial heterogeneity and the adaptive dynamics of species or populations. We address this issue by studying the phenotypic evolution of a spatial metapopulation using an adaptive dynamics approach. The singular strategy is found to be the mean of the optimal phenotypes in each habitat with larger weights for habitats present in large and well connected patches. The presence of spatial clusters of habitats in the metapopulation is found to facilitate specialisation and to increase both the level of adaptation and the evolutionary speed of the population when dispersal is limited. By showin...
International audienceDispersal is a key trait responsible for the spread of individuals and genes a...
Spatial differentiation of phenotypes is assumed to be determined by a combination of fluctuating se...
Niche construction theory regards organisms not only as the object of natural selection but also an ...
The selection pressure experienced by organisms often varies across the species range. It is hence c...
The selection pressure experienced by organisms often varies across the species range. It is hence c...
<div><p>The selection pressure experienced by organisms often varies across the species range. It is...
International audienceHow the interplay of local adaptation and dispersal determines species appeara...
The role of environmental heterogeneity in the evolution of biological diversity has been studied on...
Dynamics of populations depend on demographic parameters which may change during evolution. In simpl...
In the face of ongoing global climate and land use change, organisms have multiple possibilities to ...
Organisms commonly experience significant spatiotemporal variation in their environments. In respons...
In this study, we examine the ecology and adaptive dynamics of an asexually reproducing population, ...
Spatial structure can decisively influence the way evolutionary processes unfold. To date, several m...
In this study, we examine the ecology and adaptive dynamics of an asexually reproducing population, ...
Local adaptation, adaptive population divergence and speciation are often expected to result from po...
International audienceDispersal is a key trait responsible for the spread of individuals and genes a...
Spatial differentiation of phenotypes is assumed to be determined by a combination of fluctuating se...
Niche construction theory regards organisms not only as the object of natural selection but also an ...
The selection pressure experienced by organisms often varies across the species range. It is hence c...
The selection pressure experienced by organisms often varies across the species range. It is hence c...
<div><p>The selection pressure experienced by organisms often varies across the species range. It is...
International audienceHow the interplay of local adaptation and dispersal determines species appeara...
The role of environmental heterogeneity in the evolution of biological diversity has been studied on...
Dynamics of populations depend on demographic parameters which may change during evolution. In simpl...
In the face of ongoing global climate and land use change, organisms have multiple possibilities to ...
Organisms commonly experience significant spatiotemporal variation in their environments. In respons...
In this study, we examine the ecology and adaptive dynamics of an asexually reproducing population, ...
Spatial structure can decisively influence the way evolutionary processes unfold. To date, several m...
In this study, we examine the ecology and adaptive dynamics of an asexually reproducing population, ...
Local adaptation, adaptive population divergence and speciation are often expected to result from po...
International audienceDispersal is a key trait responsible for the spread of individuals and genes a...
Spatial differentiation of phenotypes is assumed to be determined by a combination of fluctuating se...
Niche construction theory regards organisms not only as the object of natural selection but also an ...