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Evaluating the Ryman-Laikre effect for marine stock enhancement and aquaculture 被引量:5
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作者 Robin S. WAPLES Kjetil HINDAR +1 位作者 Sten KARLSSON jeffrey j. hard 《Current Zoology》 SCIE CAS CSCD 2016年第6期617-627,共11页
The Ryman-Laikre (R-L) effect is an increase in inbreeding and a reduction in total effective population size (NET) in a combined captive-wild system, which arises when a few captive parents produce large numbers ... The Ryman-Laikre (R-L) effect is an increase in inbreeding and a reduction in total effective population size (NET) in a combined captive-wild system, which arises when a few captive parents produce large numbers of offspring. To facilitate evaluation of the R-L effect for scenarios that are relevant to marine stock enhancement and aquaculture, we extended the original R-L formula to explicitly account for several key factors that determine NeT, including the numbers of captive and wild adults, the ratio of captive to wild Ne/N (β), productivity of captive and wild breeders, and removal of individuals from the wild for captive breeding. We show how to provide quantitative answers to questions such as: What scenarios lead to no loss of effective size? What is the maximum effective size that can be achieved? and What scenarios insure that NeTWill be no smaller than a specified value? Important results include the following: (1) For large marine populations, the value of β becomes increasingly important as the captive contribution increases. Captive propagation will sharply reduce NeT unless the captive contribution is very small or β is very large (~10^3 or higher). (2) Very large values of β are only possible if wild Ne/N is tiny. Therefore, large wild populations undergoing captive enhancement at even modest levels will suffer major reductions in effective size unless wild Ne is a tiny fraction of the census size (about 10 4 or lower). 展开更多
关键词 captive breeding effective population size INBREEDING genetic drift.
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