Biocalcification of Corals and their Response to Global Climate Change

机译：珊瑚生物化及其对全球气候变化的回应

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The response of calcifying marine organisms, especially from corals - arguably among the most biologically diverse and ecologically important ecosystems on the planet - could have a potential mitigating role in buffering atmospheric CO_2. Here we report that the organic substances that participate in biocalcification in coral skeletons contain a carbonic anhydrase (CA) enzyme which is a biological catalyst responsible for the interconversion of CO_2 and bicarbonate. Also, it appears that the internal physiological condition of the body of corals has precisely evolved to respond to external environmental conditions. We find that the CA in the organic matrix acts as "keys" to control those internal conditions to enable a response to external environmental change. This study of biocalcification process can be used as a tool for understanding coral mineralization in nature and global climate change, and also has implications for CO_2 capture from the atmosphere.

机译：钙化海洋生物，特别是来自珊瑚的反应 - 可以在地球上的最生物学多样化和生态上重要的生态系统中可以在缓冲大气CO_2中具有潜在的缓解作用。在这里，我们报告称，参与珊瑚骨架中生物化的有机物质含有碳酸酐酶（CA）酶，其是负责CO_2和碳酸氢盐的互连的生物催化剂。此外，似乎珊瑚身体的内部生理状况精确地发展以应对外部环境条件。我们发现有机矩阵中的CA充当“键”，以控制这些内部条件，以实现对外部环境变化的反应。这项对生物抗原过程的研究可作为理解自然和全球气候变化的珊瑚矿化的工具，并且对来自大气的CO_2捕获也有影响。

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《International Conference on Bioenvironment, Biodiversity and Renewable Energies》|2011年||共4页
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M. Azizur Rahman; Ryuichi Shinjo;
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中图分类 X17-532;
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biocalcification; coral mineralization; carbonic anhydrase; climate change; organic matrix;

机译：生物抗原;珊瑚矿化;碳酸酐酶;气候变化;有机基质;

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4. Biocalcification of Corals and their Response to Global Climate Change [C] . M. Azizur Rahman, Ryuichi Shinjo International Conference on Bioenvironment, Biodiversity and Renewable Energies . 2011

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Biocalcification of Corals and their Response to Global Climate Change

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