Some studies have found that dispersal rates and distances increase with density, indicating that density-dependent dispersal likely affects spatial genetic structure. In an 11-year mark-recapture study on a passerine, the dark-eyed junco, we tested whether density affected dispersal distance and/or fine-scale spatial genetic structure. Contrary to expectations, we found no effect of pre-dispersal density on dispersal distance or the proportion of locally-produced juveniles returning to the population from which they hatched. However, even though density did not affect dispersal distance or natal return rates, we found that density still did affect spatial genetic structure. We found significant positive spatial genetic structure at low den...
The evolutionary trajectories associated with demographic, genetic and spatial disequilibrium have b...
Social barriers have been shown to reduce gene flow and contribute to genetic structure among popula...
The importance of dispersal in population dynamics is widely acknowledged. Key to understand populat...
Some studies have found that dispersal rates and distances increase with density, indicating that de...
Patterns of sex-biased dispersal are typically consistent within taxa, e.g., female-biased in birds ...
The distribution of suitable habitat influences natal and breeding dispersal at small spatial scales...
The distribution of suitable habitat influences natal and breeding dispersal at small spatial scales...
Gene flow through dispersal has traditionally been thought to function as a force opposing evolution...
The ecological characteristics of a species, along with small-scale landscape features are known to ...
Spatial genetic structure (SGS) of plants results from the non-random distribution of related indivi...
Human land use is known to homogenize biotic communities, increasing similarity in their genetic, ta...
Fine-scale landscape change can alter dispersal patterns of animals, thus influencing connectivity o...
International audienceKin selection and dispersal play a critical role in the evolution of cooperati...
The evolutionary trajectories associated with demographic, genetic and spatial disequilibrium have b...
Social barriers have been shown to reduce gene flow and contribute to genetic structure among popula...
The importance of dispersal in population dynamics is widely acknowledged. Key to understand populat...
Some studies have found that dispersal rates and distances increase with density, indicating that de...
Patterns of sex-biased dispersal are typically consistent within taxa, e.g., female-biased in birds ...
The distribution of suitable habitat influences natal and breeding dispersal at small spatial scales...
The distribution of suitable habitat influences natal and breeding dispersal at small spatial scales...
Gene flow through dispersal has traditionally been thought to function as a force opposing evolution...
The ecological characteristics of a species, along with small-scale landscape features are known to ...
Spatial genetic structure (SGS) of plants results from the non-random distribution of related indivi...
Human land use is known to homogenize biotic communities, increasing similarity in their genetic, ta...
Fine-scale landscape change can alter dispersal patterns of animals, thus influencing connectivity o...
International audienceKin selection and dispersal play a critical role in the evolution of cooperati...
The evolutionary trajectories associated with demographic, genetic and spatial disequilibrium have b...
Social barriers have been shown to reduce gene flow and contribute to genetic structure among popula...
The importance of dispersal in population dynamics is widely acknowledged. Key to understand populat...