| Literature DB >> 28568097 |
Abstract
It is shown that for allele frequency data a useful measure of the extent of gene flow between a pair of populations is M∘=(1/FST-1)/4, which is the estimated level of gene flow in an island model at equilibrium. For DNA sequence data, the same formula can be used if FST is replaced by NST . In a population with restricted dispersal, analytic theory shows that there is a simple relationship between M̂ and geographic distance in both equilibrium and non-equilibrium populations and that this relationship is approximately independent of mutation rate when the mutation rate is small. Simulation results show that with reasonable sample sizes, isolation by distance can indeed be detected and that, at least in some cases, non-equilibrium patterns can be distinguished. This approach to analyzing isolation by distance is used for two allozyme data sets, one from gulls and one from pocket gophers. © 1993 The Society for the Study of Evolution.Entities:
Keywords: Gene flow; Larus glaucescens; Thomomys bottae; genetic distance; population structure
Year: 1993 PMID: 28568097 DOI: 10.1111/j.1558-5646.1993.tb01215.x
Source DB: PubMed Journal: Evolution ISSN: 0014-3820 Impact factor: 3.694