遗传分析显示哥斯达黎加中东部加勒比海低地洪都拉斯白蝙蝠Ectophylla alba种群之间的高度连通性

Pub Date : 2022-08-18 DOI:10.3161/15081109ACC2022.24.1.003
Edgar G. Gutiérrez, B. Rodríguez‐Herrera, Juan Antonio Baeza, Ma. Isabel Salazar, Jorge Ortega
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引用次数: 0

摘要

模糊性、生态需求和森林斑块都会影响种群之间的基因流动。这些方面对于维持种群的遗传多样性至关重要。白纹叶蝙蝠是叶蝙蝠科的一种果蝙蝠,有特殊的觅食和栖息地要求。缺乏对这种专业蝙蝠群体遗传学的研究。在本研究中,使用10个微卫星位点来评估该蝙蝠物种的当前遗传结构。对哥斯达黎加的六个地方进行了评估。这些地方被包括在低地森林的遗迹中,周围是牧场、种植园、城市地区和道路。我们的结果表明,在大多数研究的基因座上观察到的遗传群体具有中等的遗传多样性,在观察到的杂合性和预期的杂合度之间没有统计学上的显著差异。大多数遗传变异是在抽样群体中而不是在抽样群体之间观察到的。Mantel检验显示遗传多样性与地理距离之间没有显著相关性。这些结果表明,在所研究的区域内,E.alba种群没有表现出栖息地破碎化的影响。我们认为,森林斑块的增加是最近才出现的,无法改变采样地区的遗传多样性。目前人口之间的迁移似乎足够高,可以平衡各地区的等位基因频率。
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Genetic Analyses Reveal High Connectivity among Populations of the Honduran White Bat Ectophylla alba in the Caribbean Lowlands of Central Eastern Costa Rica
Vagility, ecological requirements, and forest patches can all influence gene flow among populations. These aspects are critical for the maintenance of genetic diversity in populations. Ectophylla alba is a fruit bat belonging to the family Phyllostomidae with specialized feeding and habitat requirements. Studies examining population genetics in this specialist bat are lacking. In this study, ten microsatellite loci were used to evaluate the current genetic structure of this bat species. Six localities in Costa Rica were evaluated. These localities are included in a landscape with remnants of lowland forests surrounded by cattle pastures, plantations, urban areas, and roads. Our results suggest a genetic population with moderate genetic diversity that was observed at most studied loci, with a statistically non-significant difference between the observed and expected heterozygosity. Most of the genetic variation was observed within rather than among sampled populations. The Mantel test showed a non-significant correlation between genetic diversity and geographic distance. These results suggest that E. alba populations have not shown an effect of habitat fragmentation in the studied area. We argue that the increase of forest patches is too recent to alter genetic diversity among sampled localities. Current migration among populations appears to be high enough to balance allele frequencies among localities.
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