Ryan J. Nevatte, Michael R. Gillings, Kirby Morejohn, Lara Ainley, Libby Liggins, Morgan S. Pratchett, Andrew S. Hoey, Peter C. Doll, Brendon Pasisi, Jane E. Williamson
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Here, we analyse the mitochondrial marker cytochrome oxidase 1 (CO1) to examine the genetic diversity and connectivity of <i>T. maxima</i> in two regions: Australia's Coral Sea Marine Park and the Cook Islands. Samples were collected from 13 reefs within the Coral Sea Marine Park and ten islands within the Cook Islands archipelago. <i>Tridacna maxima</i> across the sampled region of the Coral Sea did not display any population structure, whereas significant population structure was detected for <i>T. maxima</i> within the Cook Islands. For the Cook Islands, most pairwise comparisons involving an island in the northern group (Manihiki) were significant, as were comparisons for Palmerston (a more centrally located island) and the southern islands, Rarotonga and Mangaia. Both regions displayed high haplotype diversities (> 0.90), indicating that they are important repositories of genetic diversity. Additional CO1 data from throughout <i>T. maxima</i>'s distribution showed that the Coral Sea clams belonged to the clade occurring in the South-Western Pacific Ocean, whilst those from the Cook Islands belonged to a unique clade found in the Central Pacific Ocean. This clade extended from Fiji in the west to French Polynesia in the east and the atolls of Palmyra and Tarawa (Kiribati) in the north. 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引用次数: 0
摘要
巨蛤(Tridacna 和 Hippopus)是一种大型海洋双壳类动物,栖息在印度洋-太平洋地区的热带和亚热带珊瑚礁中。印度-太平洋许多地区的砗磲种群数量已经减少,并继续受到捕捞和环境变化的威胁。小砗磲(Tridacna maxima)分布于整个印度-太平洋地区,在其分布范围内已进行过多次系统地理学研究。然而,由于其分布范围很广,有几个地区的小砗磲种群的遗传多样性和连通性尚未得到研究。在此,我们分析了线粒体标记物细胞色素氧化酶 1(CO1),以研究两个地区 T. maxima 的遗传多样性和连通性:澳大利亚珊瑚海海洋公园和库克群岛。样本采集自珊瑚海海洋公园内的 13 个珊瑚礁和库克群岛群岛内的 10 个岛屿。珊瑚海取样区域内的最大砗磲没有显示出任何种群结构,而库克群岛内的最大砗磲则发现了明显的种群结构。就库克群岛而言,涉及北部岛屿(马尼希基岛)的大多数配对比较都是显著的,帕默斯顿岛(一个位于更中心的岛屿)和南部岛屿拉罗汤加岛(Rarotonga)和曼加伊亚岛(Mangaia)的比较也是显著的。这两个地区都显示出较高的单倍型多样性(> 0.90),表明它们是重要的遗传多样性宝库。来自整个 T. maxima 分布区的 CO1 数据显示,珊瑚海的蛤蜊属于西南太平洋的支系,而库克群岛的蛤蜊则属于太平洋中部的一个独特支系。该支系西起斐济,东至法属波利尼西亚,北至帕尔米拉环礁和塔拉瓦环礁(基里巴斯)。我们对这些地区的遗传多样性和种群结构的评估将有助于该物种的管理决策。
Of Clams and Clades: Genetic Diversity and Connectivity of Small Giant Clams (Tridacna maxima) in the Southern Pacific Ocean
Giant clams (Tridacna and Hippopus) are large marine bivalves occupying tropical and subtropical reefs in the Indo-Pacific. Giant clam populations have declined in many areas of the Indo-Pacific and continue to be threatened by harvesting and environmental change. The small giant clam (Tridacna maxima) occurs throughout the Indo-Pacific and has been subject to several phylogeographic studies across its range. However, given its broad range, there are several areas where the genetic diversity and connectivity of T. maxima populations has not been characterised. Here, we analyse the mitochondrial marker cytochrome oxidase 1 (CO1) to examine the genetic diversity and connectivity of T. maxima in two regions: Australia's Coral Sea Marine Park and the Cook Islands. Samples were collected from 13 reefs within the Coral Sea Marine Park and ten islands within the Cook Islands archipelago. Tridacna maxima across the sampled region of the Coral Sea did not display any population structure, whereas significant population structure was detected for T. maxima within the Cook Islands. For the Cook Islands, most pairwise comparisons involving an island in the northern group (Manihiki) were significant, as were comparisons for Palmerston (a more centrally located island) and the southern islands, Rarotonga and Mangaia. Both regions displayed high haplotype diversities (> 0.90), indicating that they are important repositories of genetic diversity. Additional CO1 data from throughout T. maxima's distribution showed that the Coral Sea clams belonged to the clade occurring in the South-Western Pacific Ocean, whilst those from the Cook Islands belonged to a unique clade found in the Central Pacific Ocean. This clade extended from Fiji in the west to French Polynesia in the east and the atolls of Palmyra and Tarawa (Kiribati) in the north. Our assessment of genetic diversity and population structure in these regions will assist with management decisions for the species.
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