The genetic diversity-area relationship (GAR), compared to the extensively explored species-area relationship (SAR), remains poorly recognized despite the importance of understanding it for the development and application of biodiversity theory. It has been hypothesized that maintaining genetic diversity within a population is mechanistically similar to maintaining species diversity within a community, implying that GAR trajectories should mathematically behave as SAR ones. Here we test this prediction by fitting microsatellite heterozygosity and allelic richness in relation to distribution range size across bird species against eight well-known SAR models. The Monod model best described the data of resident and migratory species combined, ...
Translocations are an increasingly common tool in conservation. The maintenance of genetic diversity...
Motivation: Theory describing biodiversity gradients has focused on species richness with less conce...
Genome divergence is greatly influenced by gene flow during early stages of speciation. As populatio...
The genetic diversity-area relationship (GAR), compared to the extensively explored species-area rel...
Genetic diversity is one of the key evolutionary variables that correlate with population size, bein...
Because specialist species evolved in more temporally and spatially homogeneous environments than ge...
Large-scale population comparisons have contributed to our understanding of the evolution of geograp...
Disentangling the factors shaping species distributions remains a central goal in biogeography, ecol...
Unravelling why species richness varies shows such dramatic spatial variation is an ongoing challeng...
Habitat fragmentation is one of the most severe threats to biodiversity as it may lead to changes in...
Microsatellite allele dataset Microsatellite genotypes of all individuals (n=590) separeted by loca...
Closely related species may show similar levels of genetic diversity in homologous regions of the ge...
Translocations are an increasingly common tool in conservation. The maintenance of genetic diversity...
Motivation: Theory describing biodiversity gradients has focused on species richness with less conce...
Genome divergence is greatly influenced by gene flow during early stages of speciation. As populatio...
The genetic diversity-area relationship (GAR), compared to the extensively explored species-area rel...
Genetic diversity is one of the key evolutionary variables that correlate with population size, bein...
Because specialist species evolved in more temporally and spatially homogeneous environments than ge...
Large-scale population comparisons have contributed to our understanding of the evolution of geograp...
Disentangling the factors shaping species distributions remains a central goal in biogeography, ecol...
Unravelling why species richness varies shows such dramatic spatial variation is an ongoing challeng...
Habitat fragmentation is one of the most severe threats to biodiversity as it may lead to changes in...
Microsatellite allele dataset Microsatellite genotypes of all individuals (n=590) separeted by loca...
Closely related species may show similar levels of genetic diversity in homologous regions of the ge...
Translocations are an increasingly common tool in conservation. The maintenance of genetic diversity...
Motivation: Theory describing biodiversity gradients has focused on species richness with less conce...
Genome divergence is greatly influenced by gene flow during early stages of speciation. As populatio...