Assessing the response of marine fish communities to climate change and fishing.

IF 8.3 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Mingpan Huang, Yiting Chen, Wenliang Zhou, Fuwen Wei
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Abstract

Globally, marine fish communities are being altered by climate change and human disturbances. We examined data on global marine fish communities to assess changes in community-weighted mean temperature affinity (i.e., mean temperatures within geographic ranges), maximum length, and trophic levels, which, respectively, represent the physiological, morphological, and trophic characteristics of marine fish communities. Then, we explored the influence of climate change and fishing on these characteristics because of their long-term role in shaping fish communities, especially their interactive effects. We employed spatial linear mixed models to investigate their impacts on community-weighted mean trait values and on abundance of different fish lengths and trophic groups. Globally, we observed an initial increasing trend in the temperature affinity of marine fish communities, whereas the weighted mean length and trophic levels of fish communities showed a declining trend. However, these shift trends were not significant, likely due to the large variation in midlatitude communities. Fishing pressure increased fish communities' temperature affinity in regions experiencing climate warming. Furthermore, climate warming was associated with an increase in weighted mean length and trophic levels of fish communities. Low climate baseline temperature appeared to mitigate the effect of climate warming on temperature affinity and trophic levels. The effect of climate warming on the relative abundance of different trophic classes and size classes both exhibited a nonlinear pattern. The small and relatively large fish species may benefit from climate warming, whereas the medium and largest size groups may be disadvantaged. Our results highlight the urgency of establishing stepping-stone marine protected areas to facilitate the migration of fishes to habitats in a warming ocean. Moreover, reducing human disturbance is crucial to mitigate rapid tropicalization, particularly in vulnerable temperate regions.

评估海洋鱼类群落对气候变化和捕鱼的反应。
在全球范围内,海洋鱼类群落正受到气候变化和人类干扰的改变。我们研究了全球海洋鱼类群落的数据,以评估群落加权平均温度亲和性(即地理范围内的平均温度)、最大长度和营养级的变化,它们分别代表了海洋鱼类群落的生理、形态和营养特征。然后,我们探讨了气候变化和捕捞对这些特征的影响,因为气候变化和捕捞对鱼类群落的形成具有长期作用,尤其是它们之间的交互影响。我们采用空间线性混合模型来研究它们对群落加权平均特征值以及不同长度和营养组鱼类丰度的影响。在全球范围内,我们观察到海洋鱼类群落的温度亲和性最初呈上升趋势,而鱼类群落的加权平均长度和营养级则呈下降趋势。然而,这些变化趋势并不显著,这可能是由于中纬度群落的巨大差异造成的。在气候变暖的地区,捕捞压力增加了鱼类群落的温度亲和性。此外,气候变暖与鱼类群落加权平均长度和营养级的增加有关。低气候基线温度似乎减轻了气候变暖对温度亲和性和营养级的影响。气候变暖对不同营养级和体型级相对丰度的影响均呈现非线性模式。小型和体型相对较大的鱼类可能会从气候变暖中受益,而中型和体型最大的鱼类则可能处于不利地位。我们的研究结果凸显了建立台阶式海洋保护区的紧迫性,以促进鱼类向气候变暖海洋中的栖息地迁移。此外,减少人类干扰对减缓快速热带化至关重要,尤其是在脆弱的温带地区。
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来源期刊
ACS Applied Materials & Interfaces
ACS Applied Materials & Interfaces 工程技术-材料科学:综合
CiteScore
16.00
自引率
6.30%
发文量
4978
审稿时长
1.8 months
期刊介绍: ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.
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