Add to ORKGMany applications in ecological genetics involve sampling individuals from a mixture of multiple biological populations and subsequently associating those individuals with the populations from which they arose. Analytical methods that assign individuals to their putative population of origin have utility in both basic and applied research, providing information about population-specific life history and habitat use, ecotoxins, pathogen and parasite loads, and many other non-genetic ecological, or phenotypic traits. Although the question is initially directed at the origin of individuals, in most cases the ultimate desire is to investigate the distribution of some trait among populations. Current practice is to assign individuals to a popula...
The use of mixture distributions in genetics research dates back to at least the late 1800s when Kar...
Improvements in sequencing technologies and the resulting increased availability of genetic data cal...
A central challenge in evolutionary biology is to identify genes underlying ecologically important t...
Many applications in ecological genetics involve sampling individuals from a mixture of multiple bio...
Population genetic analyses traditionally focus on the frequencies of alleles or genotypes in 'popul...
The study of ecological speciation is inherently linked to the study of selection. Methods for estim...
Evolutionary geneticists have sought to characterize the causes and molecular targets of selection i...
A Bayesian approach to analyze complex traits is presented that can help plant eneticists and breede...
The study of genetic variation in populations is of great interest for the study of the evolutionary...
The study of ecological speciation is inherently linked to the study of selection. Methods for estim...
A current trend in population biology is the increasing realisation of the effect of individual var...
A mixture model approach is employed for the mapping of quantitative trait loci (QTL) for the situat...
Motivation: Population allele frequencies are correlated when populations have a shared history or w...
The computer program Structure implements a Bayesian method, based on a population genetics model, t...
The use of mixture distributions in genetics research dates back to at least the late 1800s when Kar...
Improvements in sequencing technologies and the resulting increased availability of genetic data cal...
A central challenge in evolutionary biology is to identify genes underlying ecologically important t...
Many applications in ecological genetics involve sampling individuals from a mixture of multiple bio...
Population genetic analyses traditionally focus on the frequencies of alleles or genotypes in 'popul...
The study of ecological speciation is inherently linked to the study of selection. Methods for estim...
Evolutionary geneticists have sought to characterize the causes and molecular targets of selection i...
A Bayesian approach to analyze complex traits is presented that can help plant eneticists and breede...
The study of genetic variation in populations is of great interest for the study of the evolutionary...
The study of ecological speciation is inherently linked to the study of selection. Methods for estim...
A current trend in population biology is the increasing realisation of the effect of individual var...
A mixture model approach is employed for the mapping of quantitative trait loci (QTL) for the situat...
Motivation: Population allele frequencies are correlated when populations have a shared history or w...
The computer program Structure implements a Bayesian method, based on a population genetics model, t...
The use of mixture distributions in genetics research dates back to at least the late 1800s when Kar...
Improvements in sequencing technologies and the resulting increased availability of genetic data cal...
A central challenge in evolutionary biology is to identify genes underlying ecologically important t...