海洋变暖和酸化如何影响全球六种商业化海胆的生命周期:综述

IF 1.1 Q3 FISHERIES
Thomas Uboldi, Frédéric Olivier, Laurent Chauvaud, Réjean Tremblay
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引用次数: 0

摘要

持续的全球变化预计将影响全球许多渔业和水产养殖系统的生产。由于无脊椎动物代表着一个相关的行业,因此预测当前环境变化带来的挑战至关重要。在这篇综述中,我们依靠六种商业化海胆(Loxechinus albus、Mesocentrotus francicanus、Paracentrotus lividus、Strongylocentrotus droebachiensis、Stronglocentrotus intermediatus和Strongylo着rotus purpuratus)的估计生理极限来定义其种群面临海洋变暖和酸化(OW&;A)的脆弱性(或恢复力)。考虑到沿海系统的变化并不一致,而且人口对压力源的反应因其来源而异,我们研究了OW&;A通过纳入估计其分布区域内未来环境突变的研究。交叉引用79项研究,我们发现几个海胆种群可能容易受到预测的OW&;由于某些地区的环境条件预计会超出其估计的生理耐受极限。具体而言,尽管美国西南海岸的白颡鱼似乎受到了较高的热阈值的尊重,但方济各马齿苋和紫色马齿苋南部种群在美国西北部似乎很脆弱。此外,由于预计北极和亚北极地区将出现强烈的变暖,当地卓尔巴奇S.droebachiensis的生产力也可能受到很大影响。最后,由于OW&;A.这篇综述强调了一些海胆种群在当地适应不断变化的环境条件的现状和潜力,揭示了当地各种渔业未来可能面临的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How ocean warming and acidification affect the life cycle of six worldwide commercialised sea urchin species: A review

Ongoing global changes are expected to affect the worldwide production of many fisheries and aquaculture systems. Because invertebrates represent a relevant industry, it is crucial to anticipate challenges that are resulting from the current environmental alterations. In this review, we rely on the estimated physiological limits of six commercialised species of sea urchins (Loxechinus albus, Mesocentrotus franciscanus, Paracentrotus lividus, Strongylocentrotus droebachiensis, Strongylocentrotus intermedius and Strongylocentrotus purpuratus) to define the vulnerability (or resilience) of their populations facing ocean warming and acidification (OW&A). Considering that coastal systems do not change uniformly and that the populations’ response to stressors varies depending on their origin, we investigate the effects of OW&A by including studies that estimate future environmental mutations within their distribution areas. Cross-referencing 79 studies, we find that several sea urchin populations are potentially vulnerable to the predicted OW&A as environmental conditions in certain regions are expected to shift beyond their estimated physiological limit of tolerance. Specifically, while upper thermal thresholds seem to be respected for L. albus along the SW American coast, M. franciscanus and S. purpuratus southern populations appear to be vulnerable in NW America. Moreover, as a result of the strong warming expected in the Arctic and sub-Arctic regions, the local productivity of S. droebachiensis is also potentially largely affected. Finally, populations of S. intermedius and P. lividus found in northern Japan and eastern Mediterranean respectively, are supposed to decline due to large environmental changes brought about by OW&A. This review highlights the status and the potential of local adaptation of a number of sea urchin populations in response to changing environmental conditions, revealing possible future challenges for various local fishing industries.

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