Spatial and temporal variation in the genetic structure of Dascyllus trimaculatus (Pomacentridae) in the Bohol Sea

Q3 Environmental Science

Philippine Journal of Systematic Biology Pub Date : 2021-07-19 DOI:10.26757/pjsb2020b14017

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Abstract

The potential of microsatellite markers to detect the spatial and temporal genetic structure of reef fish populations within a linear distance of 300 km in the absence of geographic barriers was tested in the Bohol Sea, central Philippines, using the three-spot damselfish Dascyllus trimaculatus. A total of 672 samples from 7 populations in the Bohol Sea were processed to determine temporal and spatial patterns of genetic variability using ten previously developed and tested microsatellite markers. The extent of differentiation was determined based on a variance-based measure of population structure FST and RST, and genetic distances Ds , DA, and dm2, each of which makes different assumptions on the process of migration, mutation, selection, and genetic drift. Patterns of temporal and spatial variation were consistent among 36 possible pairs of populations. Reef groups are defined as (1) the Mantigue-Dinagat on the northeast edge of the Bohol Sea; (2) the Selinog and Dapitan islands, to the southwest and central Bohol sea populations (3) Apo and (4) Sumilon to the west, and (5) Balicasag group to the northwest. The presence of structure in the absence of geographic barriers suggests the influence of strong surface circulation patterns that differ from the east to the west side of the region. The consistency of a population’s genetic signatures over multiple temporal sampling dates implies strong habitat selection for genotypes. Genetic breaks were detected at a distance 4x greater than the marine protected area’s average size, suggesting a minimum linear distance for networking of MPAs should be expanded to this scale. KEYWORDS: Conservation, Hardy-Weinberg equilibrium, marine protected area, microsatellite markers, population genetics, reef fish

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保和海三角鱼(Pomacentridae)遗传结构的时空变异

在没有地理障碍的情况下，微卫星标记在300公里线性距离内检测珊瑚礁鱼类种群的空间和时间遗传结构的潜力在菲律宾中部的波荷海进行了测试，使用了三点三角豆鱼。使用10个先前开发和测试的微卫星标记，对来自波荷海7个种群的672个样本进行了处理，以确定遗传变异的时间和空间模式。分化程度是基于群体结构FST和RST以及遗传距离Ds、DA和dm2的基于方差的测量来确定的，每个距离对迁移、突变、选择和遗传漂移的过程做出不同的假设。在36对可能的种群中，时间和空间变异模式是一致的。礁群被定义为（1）波荷海东北边缘的Mantigue Dinagat；（2） Selinog和Dapitan群岛，西南和中部的波荷海种群（3）Apo和（4）Sumilon，以及（5）西北的Balicasag群。在没有地理屏障的情况下，结构的存在表明了该地区东西两侧不同的强烈地表环流模式的影响。一个种群的遗传特征在多个时间采样日期上的一致性意味着对基因型的强烈栖息地选择。在比海洋保护区平均面积大4倍的距离处检测到基因断裂，这表明海洋保护区网络的最小线性距离应该扩大到这个规模。关键词：保护，Hardy-Weinberg平衡，海洋保护区，微卫星标记，种群遗传学，珊瑚鱼

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来源期刊

Philippine Journal of Systematic Biology Environmental Science-Ecology

CiteScore

1.50

自引率

0.00%

发文量

期刊介绍： The Philippine Journal of Systematic Biology (Print ISSN: 1908-6865; Online ISSN: 2508-0342) is an annual, peer-reviewed journal in English that publishes high quality reports of original research and reviews in the field of Taxonomy & Systematics, Ecology and Conservation Biology. The PJSB is a CHED recognized journal under CHED CMO 50 series of 2017. It is also included in the Clavariate Analysis (formerly a subsidiary of Thomson Reuters) Master Journal List under Zoological Record, BIOSIS Previews and Biological Abstracts.The PJSB is the official publication of the Association of Systematic Biologists of the Philippines (SEC Registration: Association of Philippine Taxonomists, Inc.). The organization financially supports the journal and all its endeavors. The journal aims to build up quality information on animal, plant and microbial diversity in the Philippines. Articles dealing with original research or reviews in Zoological, Botanical or Microbial Systematics, Ecology and Conservation Biology are welcome. Authors are advised to consult a recent issue of PJSB for the current format and style. All manuscripts are reviewed by at least two qualified referees.