一种濒临灭绝的大型食肉动物活动范围扩张过程中的基因冲浪

IF 3 2区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION Biodiversity and Conservation Pub Date : 2023-11-30 DOI:10.1007/s10531-023-02755-z
Laura Tensen, Mathias Currat, Harriet Davies-Mostert, Cole du Plessis, Klaus Fischer
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摘要

为了阻止全球大型食肉动物数量的下降,重新引入动物越来越受欢迎,以建立卫星种群,减少随机事件的风险。这些人为的范围扩张通常是由少数创始人形成的,这可能导致群体遗传结构的变化。例如,连续的创始人事件可能导致中性甚至有害的等位基因在扩展的前端达到高于预期的频率,这被称为基因冲浪。世界上最广泛的范围扩张计划之一是濒危的非洲野狗(Lycaon pictus)。在这项研究中,我们通过确定遗传冲浪对野狗种群结构的影响,并测量在持续分散的情况下种群结构均匀化所需的时间,研究了大陆范围内的易位对空间遗传多样性的影响。我们使用了一组微卫星基因座来观察非洲南部5个种群中的冲浪等位基因,并模拟了这些等位基因在当前人口状况下的运动。我们发现,扩大的种群需要大约150代才能使50%的基因与自由漫游种群的基因渐渗。按照目前易位的速度,南部非洲的遗传分化将会消失,从而推翻遗传漂变或等位基因冲浪的影响。了解扩大种群的遗传模式对保护具有重大意义,我们证明了重新引入计划可以帮助恢复遗传多样性,从而恢复野生动物种群的适应潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Genetic surfing during the range expansion of an endangered large carnivore

In an effort to halt the global decline of large carnivores, reintroductions have become increasingly popular to establish satellite populations and reduce the risk of stochastic events. These artificial range expansions are typically formed by a small number of founders, which can lead to changes in population genetic structure. For instance, serial founder events can lead to neutral and even deleterious alleles reaching higher than expected frequencies along the front end of an expansion, referred to as gene surfing. One of the world’s most extensive range expansion programmes has been for endangered African wild dogs (Lycaon pictus). In this study, we examine the effect of continent-wide translocations on spatial genetic diversity, by determining what effect genetic surfing has on population structure in wild dogs, and measuring how long it will take for population structure to homogenize in the face of ongoing dispersal. We used a set of microsatellite loci to look at surfing alleles in five populations across southern Africa, and simulated the movement of these alleles forward in time under the current demographic scenario. We found that it would take about 150 generations for the expanding population to be 50% introgressed with genes from the free-roaming population. With the current rate of translocations, genetic differentiation in southern Africa will disappear, overturning the effects of genetic drift or surfing alleles. Understanding genetic patterns in expanding populations is of great interest to conservation, and we demonstrate that reintroduction programmes can help restore genetic diversity, and consequently adaptive potential, in recovering wildlife populations.

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来源期刊
Biodiversity and Conservation
Biodiversity and Conservation 环境科学-环境科学
CiteScore
6.20
自引率
5.90%
发文量
153
审稿时长
9-18 weeks
期刊介绍: Biodiversity and Conservation is an international journal that publishes articles on all aspects of biological diversity-its description, analysis and conservation, and its controlled rational use by humankind. The scope of Biodiversity and Conservation is wide and multidisciplinary, and embraces all life-forms. The journal presents research papers, as well as editorials, comments and research notes on biodiversity and conservation, and contributions dealing with the practicalities of conservation management, economic, social and political issues. The journal provides a forum for examining conflicts between sustainable development and human dependence on biodiversity in agriculture, environmental management and biotechnology, and encourages contributions from developing countries to promote broad global perspectives on matters of biodiversity and conservation.
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