Neutral additive genetic variance in a metapopulation
1999; Cambridge University Press; Volume: 74; Issue: 3 Linguagem: Inglês
10.1017/s0016672399004127
ISSN1469-5073
Autores Tópico(s)Genetic Mapping and Diversity in Plants and Animals
ResumoFor neutral, additive quantitative characters, the amount of additive genetic variance within and among populations is predictable from Wright's F ST , the effective population size and the mutational variance. The structure of quantitative genetic variance in a subdivided metapopulation can be predicted from results from coalescent theory, thereby allowing single-locus results to predict quantitative genetic processes. The expected total amount of additive genetic variance in a metapopulation of diploid individual is given by 2 N e σ 2 m (1 + F ST ), where F ST is Wright's among-population fixation index, N e is the eigenvalue effective size of the metapopulation, and σ 2 m is the mutational variance. The expected additive genetic variance within populations is given by 2 N e σ 2 e (1 − F ST ), and the variance among demes is given by 4 F ST N e σ 2 m . These results are general with respect to the types of population structure involved. Furthermore, the dimensionless measure of the quantitative genetic variance among populations, Q ST , is shown to be generally equal to F ST for the neutral additive model. Thus, for all population structures, a value of Q ST greater than F ST for neutral loci is evidence for spatially divergent evolution by natural selection.
Referência(s)