珊瑚骨骼孔隙率的增减随海洋酸化适应而变化。

Gains and losses of coral skeletal porosity changes with ocean acidification acclimation.

作者信息

Fantazzini Paola, Mengoli Stefano, Pasquini Luca, Bortolotti Villiam, Brizi Leonardo, Mariani Manuel, Di Giosia Matteo, Fermani Simona, Capaccioni Bruno, Caroselli Erik, Prada Fiorella, Zaccanti Francesco, Levy Oren, Dubinsky Zvy, Kaandorp Jaap A, Konglerd Pirom, Hammel Jörg U, Dauphin Yannicke, Cuif Jean-Pierre, Weaver James C, Fabricius Katharina E, Wagermaier Wolfgang, Fratzl Peter, Falini Giuseppe, Goffredo Stefano

机构信息

1] Department of Physics and Astronomy, University of Bologna, Viale Berti Pichat 6/2, 40127 Bologna, Italy [2] Centro Enrico Fermi, Piazza del Viminale 1, 00184 Rome, Italy.

Department of Management, University of Bologna, Via Capo di Lucca 34, 40126 Bologna, Italy.

出版信息

Nat Commun. 2015 Jul 17;6:7785. doi: 10.1038/ncomms8785.

DOI:10.1038/ncomms8785

PMID:26183259

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4518299/

Abstract

Ocean acidification is predicted to impact ecosystems reliant on calcifying organisms, potentially reducing the socioeconomic benefits these habitats provide. Here we investigate the acclimation potential of stony corals living along a pH gradient caused by a Mediterranean CO2 vent that serves as a natural long-term experimental setting. We show that in response to reduced skeletal mineralization at lower pH, corals increase their skeletal macroporosity (features >10 μm) in order to maintain constant linear extension rate, an important criterion for reproductive output. At the nanoscale, the coral skeleton's structural features are not altered. However, higher skeletal porosity, and reduced bulk density and stiffness may contribute to reduce population density and increase damage susceptibility under low pH conditions. Based on these observations, the almost universally employed measure of coral biomineralization, the rate of linear extension, might not be a reliable metric for assessing coral health and resilience in a warming and acidifying ocean.

摘要

预计海洋酸化将影响依赖钙化生物的生态系统，可能减少这些栖息地提供的社会经济利益。在此，我们研究了生活在地中海一处二氧化碳排放口所造成的pH梯度沿线的石珊瑚的适应潜力，该排放口可作为一个天然的长期实验环境。我们发现，为应对较低pH值下骨骼矿化的减少，珊瑚会增加其骨骼大孔隙率（特征尺寸>10微米），以维持恒定的线性延伸率，这是生殖产出的一个重要标准。在纳米尺度上，珊瑚骨骼的结构特征并未改变。然而，较高的骨骼孔隙率、降低的堆积密度和硬度可能会导致在低pH条件下种群密度降低和损伤易感性增加。基于这些观察结果，几乎被普遍采用的珊瑚生物矿化测量指标——线性延伸率，可能不是评估变暖及酸化海洋中珊瑚健康状况和恢复力的可靠指标。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4f06/4518299/45cf61c2a794/ncomms8785-f1.jpg

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PLoS One. 2014 Mar 11;9(3):e91792. doi: 10.1371/journal.pone.0091792. eCollection 2014.

Attributing reductions in coral calcification to the saturation state of aragonite, comments on the effects of persistent natural acidification.

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A time-domain nuclear magnetic resonance study of Mediterranean scleractinian corals reveals skeletal-porosity sensitivity to environmental changes.

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Future reef decalcification under a business-as-usual CO2 emission scenario.

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Reduced calcification and lack of acclimatization by coral colonies growing in areas of persistent natural acidification.

Proc Natl Acad Sci U S A. 2013 Jul 2;110(27):11044-9. doi: 10.1073/pnas.1301589110. Epub 2013 Jun 17.

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珊瑚骨骼孔隙率的增减随海洋酸化适应而变化。

Gains and losses of coral skeletal porosity changes with ocean acidification acclimation.

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