小种群规模和低基因组多样性对野生鱼类实验易位适应性没有影响

M. Yates, E. Bowles, D. Fraser
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引用次数: 15

摘要

自然界的经验工作很少量化具有不同有效种群大小和遗传多样性的野生种群在暴露于生态重要环境条件梯度时的表现。为了实现这一目标,将来自12个种群大小和遗传多样性差异很大的孤立种群或封闭元种群的鳟鱼幼鱼移植到以前没有鱼的池塘中,这些池塘跨越了生态重要变量的广泛梯度。我们评估了全基因组变异、有效种群大小(Ne)、池塘栖息地和初始体型对两个适应度相关指标(生存和生长)的影响。遗传变量对两种适合度相关性均无影响,适合度相关性主要由生境(池塘温度、深度和pH)和初始体型决定。这些结果表明,一些低基因组多样性、低Ne和长期隔离的脊椎动物种群可能是变异的重要来源,能够在变化的环境中保持适应性,并最终坚持和适应变化的环境。我们的研究结果也强调了改善可用栖息地和减缓栖息地退化对物种保护的重要性。
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Small population size and low genomic diversity have no effect on fitness in experimental translocations of a wild fish
Little empirical work in nature has quantified how wild populations with varying effective population sizes and genetic diversity perform when exposed to a gradient of ecologically important environmental conditions. To achieve this, juvenile brook trout from 12 isolated populations or closed metapopulations that differ substantially in population size and genetic diversity were transplanted to previously fishless ponds spanning a wide gradient of ecologically important variables. We evaluated the effect of genome-wide variation, effective population size (Ne), pond habitat, and initial body size on two fitness correlates (survival and growth). Genetic variables had no effect on either fitness correlate, which was determined primarily by habitat (pond temperature, depth, and pH) and initial body size. These results suggest that some vertebrate populations with low genomic diversity, low Ne, and long-term isolation can represent important sources of variation and are capable of maintaining fitness in, and ultimately persisting and adapting to, changing environments. Our results also reinforce the paramount importance of improving available habitat and slowing habitat degradation for species conservation.
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