Skeleton-Forming Responses of Reef-Building Corals under Ocean Acidification
Yixin Li, Hongwei Zhao, Yunpeng Zhao, Xin Liao, J.-Y. Chen, Yanping Qin, Zuhong Lu, Yuehuan Zhang, Chunpeng He

TL;DR
This study explores how ocean acidification affects the skeleton formation of four coral species, revealing diverse strategies and vulnerabilities.
Contribution
The study identifies unique skeleton-forming responses and vulnerabilities in corals under acidified conditions.
Findings
Acropora muricata forms a 'cavity-like' structure to protect its polyp–canal system at the expense of skeletal density.
Pocillopora damicornis and Montipora species show 'osteoporosis'-like skeletal patterns with disordered structures and low bone mass.
Ocean acidification primarily damages pre-existing coral skeletal structures.
Abstract
Ocean acidification is becoming more prevalent and may contribute to coral reef degradation, yet our understanding of its role in global reef decline remains limited. Therefore, there is an urgent need to study the impact of reduced pH levels on the growth patterns of major reef-building corals. Here, we studied the skeleton-forming strategies of 4 widely distributed coral species in a simulated acidified habitat with a pH of 7.6 to 7.8. We reconstructed and visualized the skeleton-forming process, quantified elemental calcium loss, and determined gene expression changes. The results suggest that different reef-building corals have diverse growing strategies in lower pH conditions. A unique “cavity-like” forming process starts from the inside of the skeletons of Acropora muricata, which sacrifices skeletal density to protect its polyp–canal system. The forming patterns in Pocillopora…
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Taxonomy
TopicsCoral and Marine Ecosystems Studies · Ocean Acidification Effects and Responses · Marine Bivalve and Aquaculture Studies
