广泛的海洋生境丧失和海洋顶级捕食者在变化的海洋中的重新分布。

Widespread habitat loss and redistribution of marine top predators in a changing ocean.

机构信息

Biology Department, Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USA.

Environmental Research Division, Southwest Fisheries Science Center, National Oceanic and Atmospheric Administration, Monterey, CA 93940, USA.

出版信息

Sci Adv. 2023 Aug 9;9(32):eadi2718. doi: 10.1126/sciadv.adi2718.

DOI:10.1126/sciadv.adi2718

PMID:37556548

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10411898/

Abstract

The Northwest Atlantic Ocean and Gulf of Mexico are among the fastest warming ocean regions, a trend that is expected to continue through this century with far-reaching implications for marine ecosystems. We examine the distribution of 12 highly migratory top predator species using predictive models and project expected habitat changes using downscaled climate models. Our models predict widespread losses of suitable habitat for most species, concurrent with substantial northward displacement of core habitats >500 km. These changes include up to >70% loss of suitable habitat area for some commercially and ecologically important species. We also identify predicted hot spots of multi-species habitat loss focused offshore of the U.S. Southeast and Mid-Atlantic coasts. For several species, the predicted changes are already underway, which are likely to have substantial impacts on the efficacy of static regulatory frameworks used to manage highly migratory species. The ongoing and projected effects of climate change highlight the urgent need to adaptively and proactively manage dynamic marine ecosystems.

摘要

西北大西洋和墨西哥湾是全球变暖最快的海洋区域之一，这种趋势预计将持续到本世纪，对海洋生态系统产生深远影响。我们利用预测模型研究了 12 种高度洄游的顶级捕食者的分布情况，并利用气候模式降尺度预测了预期的栖息地变化。我们的模型预测，大多数物种的适宜栖息地将广泛丧失，同时核心栖息地向北大幅转移 >500 公里。这些变化包括一些具有商业和生态重要性的物种适宜栖息地面积高达 >70%的丧失。我们还确定了预测的多物种栖息地丧失热点，这些热点集中在美国东南部和中大西洋海岸的近海地区。对于一些物种，预测的变化已经在进行中，这可能对用于管理高度洄游物种的静态监管框架的有效性产生重大影响。气候变化的持续和预计影响凸显了适应和积极主动地管理动态海洋生态系统的迫切需要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f577/10411898/1099d024e113/sciadv.adi2718-f1.jpg

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Where did they not go? Considerations for generating pseudo-absences for telemetry-based habitat models.

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广泛的海洋生境丧失和海洋顶级捕食者在变化的海洋中的重新分布。

Widespread habitat loss and redistribution of marine top predators in a changing ocean.

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