一项新的SNP分析显示,在易位到残余阿勒格尼木鼠种群后,遗传变异性和丰度增加。

Megan Muller-Girard, Gretchen Fowles, Joseph Duchamp, Samantha Kouneski, Cheryl Mollohan, Timothy J Smyser, Gregory G Turner, Bradford Westrich, Jacqueline M Doyle
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引用次数: 0

摘要

背景:阿勒格尼木鼠(Neotoma magister)分布在整个内陆高地和阿巴拉契亚地区。从历史上看,这些元种群以相对流动的网络形式持续存在,使亚种群之间的基因流动和以前灭绝地区的重新定居成为可能。然而,在过去的45年里,由于栖息地破坏、硬杆可用性下降和蛔虫寄生,阿勒格尼木鼠的丰度在整个物种范围内都有所下降。为了启动对新泽西州一个小的、基因缺失的木鼠亚种群的基因拯救,研究人员于2015年、2016年和2017年将宾夕法尼亚州一个基因健壮的木鼠种群进行了易位。在此,我们评估了这些易位在恢复受体群体遗传多样性方面的功效。结果:我们设计了一个新的134个单核苷酸多态性面板,用于对易位事件前后捕获的6只PA木鼠和82只NJ木鼠进行基因分型。这些数据表明,至少有两个易位的个体成功地产生了至少13个后代,这些后代也能繁殖。此外,在第一组易位之后,整个种群观察到的杂合度大幅上升,达到了与印第安纳州和俄亥俄州种群相当的水平,并在随后的几年中保持在较高水平。在监测期间,丰度也有所增加,这表明宾夕法尼亚的易位引发了对新泽西种群的遗传拯救。结论:我们的结果表明,令人鼓舞的是,很少数量的易位个体可以成功地恢复受威胁种群的遗传多样性。我们的工作还强调了管理非常小的种群所面临的挑战,例如当迁移的个体相对于本地个体具有更高的繁殖成功率时。最后,我们注意到,正在进行的与阿勒格尼木鼠的合作可能会广泛地影响我们对元种群和异质景观中遗传救援的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A novel SNP assay reveals increased genetic variability and abundance following translocations to a remnant Allegheny woodrat population.

A novel SNP assay reveals increased genetic variability and abundance following translocations to a remnant Allegheny woodrat population.

A novel SNP assay reveals increased genetic variability and abundance following translocations to a remnant Allegheny woodrat population.

Background: Allegheny woodrats (Neotoma magister) are found in metapopulations distributed throughout the Interior Highlands and Appalachia. Historically these metapopulations persisted as relatively fluid networks, enabling gene flow between subpopulations and recolonization of formerly extirpated regions. However, over the past 45 years, the abundance of Allegheny woodrats has declined throughout the species' range due to a combination of habitat destruction, declining hard mast availability, and roundworm parasitism. In an effort to initiate genetic rescue of a small, genetically depauperate subpopulation in New Jersey, woodrats were translocated from a genetically robust population in Pennsylvania (PA) in 2015, 2016 and 2017. Herein, we assess the efficacy of these translocations to restore genetic diversity within the recipient population.

Results: We designed a novel 134 single nucleotide polymorphism panel, which was used to genotype the six woodrats translocated from PA and 82 individuals from the NJ population captured before and after the translocation events. These data indicated that a minimum of two translocated individuals successfully produced at least 13 offspring, who reproduced as well. Further, population-wide observed heterozygosity rose substantially following the first set of translocations, reached levels comparable to that of populations in Indiana and Ohio, and remained elevated over the subsequent years. Abundance also increased during the monitoring period, suggesting Pennsylvania translocations initiated genetic rescue of the New Jersey population.

Conclusions: Our results indicate, encouragingly, that very small numbers of translocated individuals can successfully restore the genetic diversity of a threatened population. Our work also highlights the challenges of managing very small populations, such as when translocated individuals have greater reproductive success relative to residents. Finally, we note that ongoing work with Allegheny woodrats may broadly shape our understanding of genetic rescue within metapopulations and across heterogeneous landscapes.

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