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Coral responses to ocean warming and acidification: Implications for future distribution of coral reefs in the South China Sea
- Yuan, Xiangcheng, Guo, Yajuan, Cai, Wei-jun, Huang, Hui, Zhou, Weihua, Liu, Sheng
- Marine pollution bulletin 2019 v.138 pp. 241-248
- acidification, calcification, carbon dioxide, carbon dioxide enrichment, coastal water, coral reefs, corals, ocean acidification, ocean warming, pH, refuge habitats, surface water temperature, water pollution, South China Sea
- The annual sea surface temperature increased at a rate of 0.038 to 0.074 °C/year in recent decade, and pH decreased at a rate of 0.012–0.014/year in two coastal waters of the South China Sea. Therefore, a culture experiment was conducted to study the effects of acidification and warming on coral calcification rates. The calcification of three coral species were significantly reduced during the exposure to elevated CO2, while other three coral species were not significantly affected. The reef coral Pocillopora damicornis was resistant to high CO2, but was not able to survive during the exposure to 33 °C in our culture experiments. Our findings suggested that some corals might not survive in tropical areas if coral could not adapt to warming rapidly, and subtropical coastal waters with temperature of <30 °C will serve as refugia for the corals resistant to high CO2 at the end of this century.