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Long‐term effective population sizes, temporal stability of genetic composition and potential for local adaptation in anadromous brown trout (Salmo trutta) populations

Hansen, Michael M., Ruzzante, Daniel E., Nielsen, Einar E., Bekkevold, Dorte, Mensberg, Karen‐Lise D.
Molecular ecology 2002 v.11 no.12 pp. 2523-2535
microsatellite repeats, Salmo trutta, rivers, analysis of variance, genetic distance, models, gene flow, genetic stability, genetic drift, genetic techniques and protocols, genetic variation, population size, genetic relationships, Denmark
We examined the long‐term temporal (1910s to 1990s) genetic variation at eight microsatellite DNA loci in brown trout (Salmo trutta L) collected from five anadromous populations in Denmark to assess the long‐term stability of genetic composition and to estimate effective population sizes (Ne). Contemporary and historical samples consisted of tissue and archived scales, respectively. Pairwise θST estimates, a hierarchical analysis of molecular variance (amova) and multidimensional scaling analysis of pairwise genetic distances between samples revealed much closer genetic relationships among temporal samples from the same populations than among samples from different populations. Estimates of Ne, using a likelihood‐based implementation of the temporal method, revealed Ne ≥ 500 in two of three populations for which we have historical data. A third population in a small (3 km) river showed Ne ≥ 300. Assuming a stepping‐stone model of gene flow we considered the relative roles of gene flow, random genetic drift and selection to assess the possibilities for local adaptation. The requirements for local adaptation were fulfilled, but only adaptations resulting from strong selection were expected to occur at the level of individual populations. Adaptations resulting from weak selection were more likely to occur on a regional basis, i.e. encompassing several populations. Ne appears to have declined recently in at least one of the studied populations, and the documented recent declines of many other anadromous brown trout populations may affect the persistence of local adaptation.