The spatial configuration of metapopulations (numbers, sizes, and localization of patches) affects their ability to resist demographic extinction and genetic drift, but sometimes with opposite effects. Small and isolated patches, for instance, contribute marginally to demography but may play a large role in genetics by maintaining a sizeable amount of genetic variance among demes. In source-sink systems, similarly, connectivity may be beneficial in terms of effective size, but detrimental in terms of survival, by lowering the reproductive value of source populations. How to reconcile these opposite effects? Here we propose an analytical framework that integrates fixation time (ability to resist genetic drift) and extinction time (ability to...
In all natural populations, individuals located close to one another tend to interact more than thos...
Extinction, recolonization, and local adaptation are common in natural spatially structured populati...
In this study, a simple genetic model is integrated with an established method from landscape ecolog...
Understanding how genetic and ecological effects can interact to shape genetic loads within and acro...
Acknowledgements: We thank Maximilian Tschol, Lana Dunan and Justin M. J. Travis for useful discussi...
For geographically closed populations, it has long been known that the dynamics of rare populations ...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
This paper analyses the conditions for local adaptation in a metapopulation with infinitely many isl...
The fundamental processes that influence metapopulation dynamics (extinction and recolonization) wil...
Evolution is driven by four major processes that create, maintain, or eliminate genetic diversity wi...
The dynamics of extinction and (re)colonization in habitat patches are characterizing features of dy...
Many species persist as a metapopulation under a balance between the local extinction of subpopulati...
Human-induced habitat fragmentation constitutes a major threat to biodiversity. Both genetic and dem...
SUMMARY : Human-induced habitat fragmentation constitutes a major threat to biodiversity. Small and ...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
In all natural populations, individuals located close to one another tend to interact more than thos...
Extinction, recolonization, and local adaptation are common in natural spatially structured populati...
In this study, a simple genetic model is integrated with an established method from landscape ecolog...
Understanding how genetic and ecological effects can interact to shape genetic loads within and acro...
Acknowledgements: We thank Maximilian Tschol, Lana Dunan and Justin M. J. Travis for useful discussi...
For geographically closed populations, it has long been known that the dynamics of rare populations ...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
This paper analyses the conditions for local adaptation in a metapopulation with infinitely many isl...
The fundamental processes that influence metapopulation dynamics (extinction and recolonization) wil...
Evolution is driven by four major processes that create, maintain, or eliminate genetic diversity wi...
The dynamics of extinction and (re)colonization in habitat patches are characterizing features of dy...
Many species persist as a metapopulation under a balance between the local extinction of subpopulati...
Human-induced habitat fragmentation constitutes a major threat to biodiversity. Both genetic and dem...
SUMMARY : Human-induced habitat fragmentation constitutes a major threat to biodiversity. Small and ...
Disturbances affect metapopulations directly through reductions in population size and indirectly th...
In all natural populations, individuals located close to one another tend to interact more than thos...
Extinction, recolonization, and local adaptation are common in natural spatially structured populati...
In this study, a simple genetic model is integrated with an established method from landscape ecolog...