The impact of macroalgae on reef-building corals depends on their species, density, and contact status

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Xinming Lei, Chengyue Liu, Xiaolei Yu, Yong Luo, Yuyang Zhang, Jianhui Yang, Guowei Zhou, Hui Huang
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Abstract

Coral reefs are severely threatened by global and local disturbances that can shift reefs from coral to algal dominance. Coral-macroalgae competition is expected to exacerbate coral decline as the interactions increase in frequency. Whereas numerous studies over the last decade have aimed to characterize the interactions and impacts on coral growth and physiology, the underlying mechanisms remain controversial. This study tested the impact of different macroalgal species, densities, and contact status with corals on the physiological response of corals in Sanya Reefs. The results revealed that direct contact with increasing densities of fleshy macroalgae had a negative impact on the photosynthesis, growth rate, and tissue biomass of the two common corals. However, calcified macroalgae did not significantly affect the corals, regardless of whether there was direct contact or not. Under the same conditions, Acropora intermedia appeared to be more susceptible to fleshy macroalgae compared to Porites lutea. This suggested that different corals varied in their susceptibility to various macroalgae. Additionally, the results of the generalized linear mixed model revealed that macroalgal species and contact status with corals were the most important predictors of the impacts of macroalgae on corals, and macroalgal density was another nonnegligible parameter. Overall, macroalgae may have caused a potential functional shift in the composition of coral assemblages on the Sanya reefs by further reducing the already depauperate reef-building coral populations. The negative impacts of macroalgae in Sanya Reefs may serve as an early warning that the persistence of the invaluable ecological functions provided by coral reefs will be increasingly threatened throughout the South China Sea. Our findings could contribute to improving the scientific and effective management practices, fostering sustainable coral reef development in China and beyond.
大型藻类对造礁珊瑚的影响取决于其种类、密度和接触状况
珊瑚礁正受到全球和地方干扰的严重威胁,这些干扰会使珊瑚礁从珊瑚占主导地位转变为藻类占主导地位。随着相互作用频率的增加,珊瑚与大型藻类之间的竞争预计将加剧珊瑚的衰退。在过去十年中,许多研究都旨在描述珊瑚与大型藻类之间的相互作用及其对珊瑚生长和生理的影响,但其基本机制仍存在争议。本研究测试了不同大型藻类的种类、密度以及与珊瑚的接触状态对三亚珊瑚礁珊瑚生理反应的影响。结果表明,直接接触密度不断增加的肉质大型藻类会对两种常见珊瑚的光合作用、生长速度和组织生物量产生负面影响。然而,无论是否直接接触,钙化巨藻对珊瑚的影响都不大。在相同的条件下,Acropora intermedia 似乎比 Porites lutea 更容易受到肉质大型藻类的影响。这表明,不同珊瑚对各种大型藻类的易感性是不同的。此外,广义线性混合模型的结果显示,大型藻类的种类和与珊瑚的接触状况是预测大型藻类对珊瑚影响的最重要因素,而大型藻类的密度是另一个不可忽略的参数。总体而言,大型藻类可能导致三亚珊瑚礁上珊瑚群的组成发生了潜在的功能性变化,进一步减少了已经衰退的造礁珊瑚种群。大型藻类对三亚珊瑚礁的负面影响可能是一个预警,即珊瑚礁所提供的宝贵生态功能的持续性在整个中国南海将受到越来越大的威胁。我们的研究结果将有助于改进科学有效的管理方法,促进中国及中国以外地区珊瑚礁的可持续发展。
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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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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