Impacts of marine acidification on calcification, respiration and energy metabolism of Zhikong scallop Chlamys farreri
The ocean is becoming more and more acidic in unprecedented speed in the history of the earth resulting from emissions of CO sub(2) by human activities. The survival state of calcification organisms such as shellfish may be threatened by marine acidification. So the calcification rate and respirator...
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| Veröffentlicht in: | Yuye kexue jinzhan 2011-01, Vol.32 (4), p.48-54 |
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| creator | Zhang, Mingliang Zou, Jian Fang, Jian-guang |
| description | The ocean is becoming more and more acidic in unprecedented speed in the history of the earth resulting from emissions of CO sub(2) by human activities. The survival state of calcification organisms such as shellfish may be threatened by marine acidification. So the calcification rate and respiratory rate of Chlamys farreri were investigated using the alkalinity anomaly technique at different pH. It was found that calcification rate and respiration rate decreased significantly as pH declined. Calcification rate decreased by 33% when the pH of water was down to 7.9.At pH 7.3, calcification rate was almost 0, and respiratory rate(R sub(c)) and O sub(2) consumption rate(R sub(o)) were reduced by 14% and 11% respectively. As marine acidification intensifies, the metabolic pathways of C. farreri also changed. All changes above may threaten the survival of C. farreri in the future. |
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The survival state of calcification organisms such as shellfish may be threatened by marine acidification. So the calcification rate and respiratory rate of Chlamys farreri were investigated using the alkalinity anomaly technique at different pH. It was found that calcification rate and respiration rate decreased significantly as pH declined. Calcification rate decreased by 33% when the pH of water was down to 7.9.At pH 7.3, calcification rate was almost 0, and respiratory rate(R sub(c)) and O sub(2) consumption rate(R sub(o)) were reduced by 14% and 11% respectively. As marine acidification intensifies, the metabolic pathways of C. farreri also changed. 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The survival state of calcification organisms such as shellfish may be threatened by marine acidification. So the calcification rate and respiratory rate of Chlamys farreri were investigated using the alkalinity anomaly technique at different pH. It was found that calcification rate and respiration rate decreased significantly as pH declined. Calcification rate decreased by 33% when the pH of water was down to 7.9.At pH 7.3, calcification rate was almost 0, and respiratory rate(R sub(c)) and O sub(2) consumption rate(R sub(o)) were reduced by 14% and 11% respectively. As marine acidification intensifies, the metabolic pathways of C. farreri also changed. All changes above may threaten the survival of C. farreri in the future.</abstract></addata></record> |
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| ispartof | Yuye kexue jinzhan, 2011-01, Vol.32 (4), p.48-54 |
| issn | 2095-9869 |
| language | chi |
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| source | DOAJ Directory of Open Access Journals |
| subjects | Chlamys farreri Marine |
| title | Impacts of marine acidification on calcification, respiration and energy metabolism of Zhikong scallop Chlamys farreri |
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