Disentangling the factors shaping species distributions remains a central goal in biogeography, ecology and evolutionary biology. The extrinsic pressures that may facilitate range shifts, such as climatic factors or biotic interactions are well known. However, in contrast, the possible intrinsic factors are manifold and hard to generalize across taxa. Recently, several theoretical studies have investigated the consequences of moving range borders on genetic diversity. However, empirical studies that support or refute these theoretical predictions are scarce. Moving contact zones between parapatric sister species are suitable models to test these hypotheses. Changes in genetic diversity can be tested simultaneously along the expanding and re...
Microsatellite allele dataset Microsatellite genotypes of all individuals (n=590) separeted by loca...
Fine-scale landscape change can alter dispersal patterns of animals, thus influencing connectivity o...
Migratory divides, the boundary between adjacent bird populations that migrate in different directio...
Disentangling the factors shaping species distributions remains a central goal in biogeography, ecol...
Disentangling the factors shaping species distributions remains a central goal in biogeography, ecol...
Human land use is known to homogenize biotic communities, increasing similarity in their genetic, ta...
Climate is a major factor delimiting species’ distributions. However, biotic interactions may also b...
Large-scale population comparisons have contributed to our understanding of the evolution of geograp...
Ring species provide particularly clear demonstrations of how one species can gradually evolve into ...
The genetic diversity-area relationship (GAR), compared to the extensively explored species-area rel...
Populations of migratory birds differ in their direction of migration with neighboring populations o...
Genome divergence is greatly influenced by gene flow during early stages of speciation. As populatio...
Understanding migratory connectivity is essential for determining the drivers behind population dyna...
A recent comparative analysis of passerine birds found that the frequency of extra-pair paternity wa...
Microsatellite allele dataset Microsatellite genotypes of all individuals (n=590) separeted by loca...
Fine-scale landscape change can alter dispersal patterns of animals, thus influencing connectivity o...
Migratory divides, the boundary between adjacent bird populations that migrate in different directio...
Disentangling the factors shaping species distributions remains a central goal in biogeography, ecol...
Disentangling the factors shaping species distributions remains a central goal in biogeography, ecol...
Human land use is known to homogenize biotic communities, increasing similarity in their genetic, ta...
Climate is a major factor delimiting species’ distributions. However, biotic interactions may also b...
Large-scale population comparisons have contributed to our understanding of the evolution of geograp...
Ring species provide particularly clear demonstrations of how one species can gradually evolve into ...
The genetic diversity-area relationship (GAR), compared to the extensively explored species-area rel...
Populations of migratory birds differ in their direction of migration with neighboring populations o...
Genome divergence is greatly influenced by gene flow during early stages of speciation. As populatio...
Understanding migratory connectivity is essential for determining the drivers behind population dyna...
A recent comparative analysis of passerine birds found that the frequency of extra-pair paternity wa...
Microsatellite allele dataset Microsatellite genotypes of all individuals (n=590) separeted by loca...
Fine-scale landscape change can alter dispersal patterns of animals, thus influencing connectivity o...
Migratory divides, the boundary between adjacent bird populations that migrate in different directio...