Biomineralisation of corals inhabiting extreme and marginal environments

Q2 Agricultural and Biological Sciences Australian Zoologist Pub Date : 2024-03-11 DOI:10.7882/az.2024.011
Dayana Chadda-Harmer, Maria Byrne, S. Foo
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Abstract

Climate change is the primary threat to coral reefs, causing catastrophic coral mortality on a global scale. Stressors such as ocean acidification limit calcium carbonate availability needed to build skeletons. A wealth of research has shown that climate stressors impair the ability of coral to produce and maintain their skeletons, thereby disrupting functions critical to maintaining coral health as well as threatening the ecologically significant framework for reef building. There are natural marginal and extreme environments however, where coral reefs thrive despite unfavourable conditions. These habitats provide a natural long-term setting to examine the impact of multiple interacting climate change factors on corals and understand the adaptations required by corals to inhabit these conditions. We review studies of coral skeletogenesis in extreme and marginal environments, with a particular focus on mangrove habitats due to their natural fluctuations in temperature, pH and oxygen, analogous to those projected under climate change models. The changes in coral skeletal morphology under stress are described as are the techniques used to visualise these changes. In marginal and extreme environments, corals experience lower calcification rates and produce more porous, less robust skeletons whilst maintaining normal rates of linear extension, suggesting the integrity of coral skeletons are likely to be threatened under future ocean conditions. The biomineralisation processes of corals inhabiting extreme and marginal environments remains an underexplored area of research and has the potential to yield valuable insights into how corals might adapt to climate change and the mechanisms that underlie their resilience to global environmental change.
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栖息在极端和边缘环境中的珊瑚的生物矿化作用
气候变化是珊瑚礁面临的主要威胁,在全球范围内造成了灾难性的珊瑚死亡。海洋酸化等压力限制了构建骨骼所需的碳酸钙供应。大量研究表明,气候压力会损害珊瑚生成和维持骨骼的能力,从而破坏对维持珊瑚健康至关重要的功能,并威胁到具有重要生态意义的珊瑚礁建设框架。然而,在一些自然边缘和极端环境中,尽管条件不利,珊瑚礁仍能茁壮成长。这些栖息地提供了一个天然的长期环境,以研究多种相互作用的气候变化因素对珊瑚的影响,并了解珊瑚在这些条件下栖息所需的适应性。我们回顾了极端环境和边缘环境中珊瑚骨骼生成的研究,尤其关注红树林生境,因为这些生境的温度、pH值和氧气会自然波动,与气候变化模型预测的情况类似。本文介绍了压力下珊瑚骨骼形态的变化,以及将这些变化可视化的技术。在边缘和极端环境中,珊瑚的钙化率较低,生成的骨骼更多孔、更不坚固,但仍能保持正常的线性延伸率,这表明在未来的海洋条件下,珊瑚骨骼的完整性可能会受到威胁。栖息在极端和边缘环境中的珊瑚的生物矿化过程仍然是一个未被充分开发的研究领域,它有可能为珊瑚如何适应气候变化以及珊瑚对全球环境变化的适应力机制提供有价值的见解。
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来源期刊
Australian Zoologist
Australian Zoologist Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
2.50
自引率
0.00%
发文量
43
期刊介绍: The Royal Zoological Society publishes a fully refereed scientific journal, Australian Zoologist, specialising in topics relevant to Australian zoology. The Australian Zoologist was first published by the Society in 1914, making it the oldest Australian journal specialising in zoological topics. The scope of the journal has increased substantially in the last 20 years, and it now attracts papers on a wide variety of zoological, ecological and environmentally related topics. The RZS also publishes, as books, and the outcome of forums, which are run annually by the Society.
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