Genetic Structure of the Vulnerable Tricolored Bat (Perimyotis subflavus)

Pub Date : 2023-02-02 DOI:10.3161/15081109ACC2022.24.2.002
Alynn M. Martin, M. Vonhof, M. Henshaw, Jessica M. Dreyer, Susan K. Munster, Laura E. Kirby, Amy L. Russell
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Abstract

The tricolored bat (Perimyotis subflavus) has experienced extensive declines in regional abundance — near 30% as of 2013 — due to disease, habitat loss, and anthropogenic conflict. There is urgency to determine whether the species should be protected in the United States; however, critical species-specific information required to make this decision is lacking. Here, we address those critical knowledge gaps by (i) estimating genetic diversity, and (ii) assessing population structure. We utilized sequence data from a 562 base pair region of the mitochondrial genome and eight autosomal microsatellite loci from 14 sampling locations across the core of P. subflavus' range and found substantial diversity in both data types. Further, we found contrasting patterns of population structure between the data types. Weak evidence for population structure was detected using the mitochondrial data, with the most probable population break dividing eastern and western sampling sites, and evidence for isolation-by-distance across the sampled region. Conversely, we detected no evidence for structure or isolation-by-distance using microsatellite data, revealing a panmictic population. The findings reported here represent a baseline understanding of genetic diversity and structure for P. subflavus; additional analyses using samples collected post white-nose syndrome emergence are required to understand losses in genetic diversity due to recent population declines.
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易感三色蝙蝠(periimyotis subflavus)的遗传结构
由于疾病、栖息地丧失和人为冲突,三色蝙蝠(periimyotis subflavus)在区域数量上经历了广泛的下降——截至2013年接近30%。决定这个物种是否应该在美国受到保护是迫在眉睫的;然而,缺乏做出这一决定所需的关键物种特定信息。在这里,我们通过(i)估计遗传多样性和(ii)评估种群结构来解决这些关键的知识空白。我们利用来自线粒体基因组562个碱基对区域的序列数据和来自14个采样点的8个常染色体微卫星位点的序列数据,发现这两种数据类型存在很大的多样性。此外,我们还发现了数据类型之间的人口结构的对比模式。利用线粒体数据发现了关于种群结构的微弱证据,最可能的种群断裂划分了东部和西部采样点,并有证据表明在采样区域内按距离隔离。相反,我们使用微卫星数据没有发现结构或距离隔离的证据,揭示了一个泛型种群。这里报告的研究结果代表了对亚黄假单胞菌遗传多样性和结构的基本认识;需要对白鼻综合征出现后收集的样本进行进一步分析,以了解由于最近种群数量下降而导致的遗传多样性损失。
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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