| Abstrakt: |
Stocking programs have been used extensively to mitigate declines in anadromous fishes, but these programs can have long-term unintended genetic consequences. Stocking can homogenize population structure, impede local adaptation, and hinder the use of genetic stock identification as a fishery management tool. Using 12 microsatellite loci, we evaluate the spatiotemporal genetic structure of 16 anadromous alewife ( Alosa pseudoharengus) populations in Maine, USA, to determine whether inter-basin stocking practices have influenced population structure and the genetic diversity of the species in this region. Although, no pre-supplementation samples exist, comparative analyses of stocked and non-stocked populations show that stock transfers have influenced alewife population genetic structure. Genetic isolation by distance (IBD) was non-significant among stocked populations, but significant among non-stocked populations. However, two populations, Dresden Mills and Sewell Pond, appear to have resisted genetic homogenization despite stocking. Non-significant genic and genetic differentiations were broadly distributed among alewife populations. Hierarchical AMOVA indicated highly significant differentiation among temporal replicates within populations, and Bayesian clustering analysis revealed weak population structure. A significant correlation was observed between stocking (time and events) and pairwise $${\text{F}}_{\text{ST}}^{{\prime }}$$ among alewife collections, and an analysis of IBD residuals showed a significant decline in the amount of genetic differentiation among populations as the extent of stocking activity increased. These findings call for an increased awareness of evolutionary processes and genetic consequences of restoration activities such as inter-basin stock transfers by fisheries management and conservation practitioners. [ABSTRACT FROM AUTHOR] |
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