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珊瑚礁雀鲷的最大热极限取决于体型大小,并且对未来不久的海洋酸化具有耐受性。

Maximum thermal limits of coral reef damselfishes are size dependent and resilient to near-future ocean acidification.

作者信息

Clark Timothy D, Roche Dominique G, Binning Sandra A, Speers-Roesch Ben, Sundin Josefin

机构信息

University of Tasmania (Institute for Marine and Antarctic Studies) & CSIRO Agriculture and Food, Hobart, TAS 7000, Australia

Institute of Biology, University of Neuchâtel, 2000, Neuchâtel, Switzerland.

出版信息

J Exp Biol. 2017 Oct 1;220(Pt 19):3519-3526. doi: 10.1242/jeb.162529. Epub 2017 Jul 28.

DOI:10.1242/jeb.162529
PMID:28754716
Abstract

Theoretical models predict that ocean acidification, caused by increased dissolved CO, will reduce the maximum thermal limits of fishes, thereby increasing their vulnerability to rising ocean temperatures and transient heatwaves. Here, we tested this prediction in three species of damselfishes on the Great Barrier Reef, Australia. Maximum thermal limits were quantified using critical thermal maxima (CT) tests following acclimation to either present-day or end-of-century levels of CO for coral reef environments (∼500 or ∼1000 µatm, respectively). While species differed significantly in their thermal limits, whereby exhibited greater CT (37.88±0.03°C; =47) than (37.68±0.02°C; =85) and (36.58±0.02°C; =63), end-of-century CO had no effect () or a slightly positive effect (increase in CT of 0.16°C in and 0.21°C in ) on CT Contrary to expectations, early-stage juveniles were equally as resilient to CO as larger conspecifics, and CT was higher at smaller body sizes in two species. These findings suggest that ocean acidification will not impair the maximum thermal limits of reef fishes, and they highlight the critical role of experimental biology in testing predictions of theoretical models forecasting the consequences of environmental change.

摘要

理论模型预测,溶解态二氧化碳增加导致的海洋酸化将降低鱼类的最高热限,从而增加它们对海洋温度上升和短暂热浪的脆弱性。在此,我们在澳大利亚大堡礁的三种雀鲷中对这一预测进行了测试。在适应珊瑚礁环境中当前或世纪末水平的二氧化碳(分别约为500或1000微大气压)后,使用临界热最大值(CT)测试对最高热限进行了量化。虽然物种的热限存在显著差异,其中[物种名称1]表现出比[物种名称2](37.68±0.02°C;n = 85)和[物种名称3](36.58±0.02°C;n = 63)更高的CT(37.88±0.03°C;n = 47),但世纪末的二氧化碳水平对CT没有影响([具体情况说明1])或有轻微的积极影响([物种名称2]的CT增加0.16°C,[物种名称3]的CT增加0.21°C)。与预期相反,早期幼鱼对二氧化碳的耐受性与较大的同种个体相同,并且在两个物种中较小体型时CT更高。这些发现表明,海洋酸化不会损害珊瑚礁鱼类的最高热限,并且它们突出了实验生物学在测试预测环境变化后果的理论模型方面的关键作用。

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