Different shapes of landscape boundaries can affect the habitat networks within them and consequently the spatial genetic-patterns of a metapopulation. In this study, we used a mechanistic framework to evaluate the effects of landscape shape, through watershed elongation, on genetic divergence among populations at the metapopulation scale. Empirical genetic data from four, sympatric stream-macroinvertebrates having aerial adults were collected from streams in Japan to determine the roles of species-specific dispersal strategies on metapopulation genetics. Simulation results indicated that watershed elongation allows the formation of river networks with fewer branches and larger topographic constraints. This results in decreased interpopulat...
River networks are hierarchical dendritic habitats embedded within the terrestrial landscape, with v...
Metapopulation theory is a powerful tool to predict the future of populations within a fragmented la...
Describing, understanding and predicting the spatial distribution of genetic diversity is a central ...
Aim Fractal networks, represented by branching complexity in rivers, are ubiquitous in nature. In ri...
International audienceModelling gene flow across natural landscapes is a current challenge of popula...
Theory predicts that the distribution of genetic diversity in a landscape is strongly dependent on t...
A central question linking ecology with evolutionary biology is how environmental heterogeneity can ...
International audienceDescribing, understanding and predicting the spatial distribution of genetic d...
It is widely recognized that physical landscapes can shape genetic variation within and between popu...
International audienceVariation in dispersal capacity may influence population genetic variation and...
Environmental divergence along hierarchically structured longitudinal gradients may constitute barri...
A central question linking ecology with evolutionary biology is how environmental heterogeneity can ...
In stream organisms, the landscape affecting intraspecific genetic and phenotypic divergence is comp...
A central question linking ecology with evolutionary biology is how environmental heterogeneity can ...
River networks are hierarchical dendritic habitats embedded within the terrestrial landscape, with v...
Metapopulation theory is a powerful tool to predict the future of populations within a fragmented la...
Describing, understanding and predicting the spatial distribution of genetic diversity is a central ...
Aim Fractal networks, represented by branching complexity in rivers, are ubiquitous in nature. In ri...
International audienceModelling gene flow across natural landscapes is a current challenge of popula...
Theory predicts that the distribution of genetic diversity in a landscape is strongly dependent on t...
A central question linking ecology with evolutionary biology is how environmental heterogeneity can ...
International audienceDescribing, understanding and predicting the spatial distribution of genetic d...
It is widely recognized that physical landscapes can shape genetic variation within and between popu...
International audienceVariation in dispersal capacity may influence population genetic variation and...
Environmental divergence along hierarchically structured longitudinal gradients may constitute barri...
A central question linking ecology with evolutionary biology is how environmental heterogeneity can ...
In stream organisms, the landscape affecting intraspecific genetic and phenotypic divergence is comp...
A central question linking ecology with evolutionary biology is how environmental heterogeneity can ...
River networks are hierarchical dendritic habitats embedded within the terrestrial landscape, with v...
Metapopulation theory is a powerful tool to predict the future of populations within a fragmented la...
Describing, understanding and predicting the spatial distribution of genetic diversity is a central ...