Population genetic structure of Montipora digitata coral-algal symbiosis in the South China Sea

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-02 DOI:10.1016/j.gecco.2024.e03231
Shuwen Jia , Yi Wang , Yuanchao Li , Zhongjie Wu , Zefu Cai , Jie Shen , Daoru Wang , Shiquan Chen
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Abstract

Species genetic diversity can reflect their adaptability to environmental changes. Coral reefs worldwide are in rapid decline due to climate change and human activities, highlighting the need for conservation intervention. The South China Sea (SCS) is an important biodiversity hotspot, particularly in the Xisha Islands (XS) that contain the majority of coral species in the SCS. However, few studies exist on coral genetic diversity in the SCS. Montipora digitata is the dominant reef-building coral species in the XS. In this study, two mitochondrial DNA fragments and 11 microsatellite markers were employed to investigate the genetic diversity of coral host of M. digitata, and ITS amplicon sequencing was employed to investigate the Symbiodiniaceae community structure. We sampled five wild populations of M. digitata in Hainan Island and the Xisha Islands. Montipora digitata showed low genetic diversity across populations in the SCS. We found significant genetic differentiation between the Sanya (SY) and XS populations but no significant genetic differentiation within XS populations. We identified four Symbiodiniaceae genera, with Cladocopium and Durusdinium being the most common, as well as Gerakladium and Fugacium. The Symbiodiniaceae types of SY and XS are significantly different, C15 is abundant in all populations, while D1a is also abundant in SY. We analyzed the correlation between 16 environmental factors and the genetic diversity of symbionts, genetic diversity of coral host and Symbiodiniaceae community was significantly correlated with sea surface temperature (SST) and other environmental factors. Our study provided a detailed paradigm from the perspective of genetic diversity of how a dominant coral species can be indicative of poor environmental adaptation potential.
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南中国海数码珊瑚-藻类共生的种群遗传结构
物种遗传多样性可以反映其对环境变化的适应能力。由于气候变化和人类活动,全球珊瑚礁正在迅速减少,这凸显了保护干预的必要性。南中国海(SCS)是一个重要的生物多样性热点地区,尤其是西沙群岛(XS),该群岛包含了南中国海的大部分珊瑚物种。然而,有关南中国海珊瑚遗传多样性的研究却很少。Montipora digitata 是西沙群岛最主要的造礁珊瑚物种。本研究采用 2 个线粒体 DNA 片段和 11 个微卫星标记来调查数码梦蝶珊瑚宿主的遗传多样性,并采用 ITS 扩增子测序来调查共生藻科群落结构。我们在海南岛和西沙群岛采集了5个野生种群。在南沙群岛的不同种群中,Montipora digitata的遗传多样性较低。我们发现三亚(SY)和西沙种群之间存在明显的遗传分化,但西沙种群内部没有明显的遗传分化。我们发现了四个共生藻属,其中 Cladocopium 和 Durusdinium 最常见,此外还有 Gerakladium 和 Fugacium。SY 和 XS 的 Symbiodiniaceae 类型有显著差异,C15 在所有种群中都很丰富,而 D1a 在 SY 中也很丰富。我们分析了 16 个环境因子与共生体遗传多样性的相关性,发现珊瑚宿主和共生藻群落的遗传多样性与海面温度(SST)和其他环境因子有显著相关性。我们的研究从遗传多样性的角度提供了一个详细的范例,说明优势珊瑚物种如何能够表明环境适应潜力差。
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CiteScore
7.20
自引率
4.30%
发文量
567
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