气候驱动的加利福尼亚海流系统中好氧栖息地丧失。

Climate-driven aerobic habitat loss in the California Current System.

机构信息

School of Oceanography, University of Washington, Seattle, WA, USA.

College of Marine Science, University of South Florida, St. Petersburg, FL, USA.

出版信息

Sci Adv. 2020 May 15;6(20):eaay3188. doi: 10.1126/sciadv.aay3188. eCollection 2020 May.

DOI:10.1126/sciadv.aay3188

PMID:32440538

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7228741/

Abstract

Climate warming is expected to intensify hypoxia in the California Current System (CCS), threatening its diverse and productive marine ecosystem. We analyzed past regional variability and future changes in the Metabolic Index (Φ), a species-specific measure of the environment's capacity to meet temperature-dependent organismal oxygen demand. Across the traits of diverse animals, Φ exhibits strong seasonal to interdecadal variations throughout the CCS, implying that resident species already experience large fluctuations in available aerobic habitat. For a key CCS species, northern anchovy, the long-term biogeographic distribution and decadal fluctuations in abundance are both highly coherent with aerobic habitat volume. Ocean warming and oxygen loss by 2100 are projected to decrease Φ below critical levels in 30 to 50% of anchovies' present range, including complete loss of aerobic habitat-and thus likely extirpation-from the southern CCS. Aerobic habitat loss will vary widely across the traits of CCS taxa, disrupting ecological interactions throughout the region.

摘要

预计气候变暖将加剧加利福尼亚海流系统（CCS）的缺氧现象，威胁到其多样而富有生产力的海洋生态系统。我们分析了过去该地区的变化和未来的变化，使用的是代谢指数（Φ），这是一种衡量环境满足依赖温度的生物体氧气需求的物种特异性指标。在整个 CCS 地区，各种动物的特征表明，Φ 具有强烈的季节性和十年际变化，这意味着当地物种已经经历了可用有氧生境的大幅波动。对于 CCS 的一个关键物种——北方凤尾鱼来说，其长期的生物地理分布和丰度的十年际波动都与有氧生境的体积高度一致。预计到 2100 年，海洋变暖以及氧气的损失将导致 Φ 在凤尾鱼现有分布范围的 30%至 50%下降到临界水平，包括南部 CCS 地区完全丧失有氧生境——这可能导致凤尾鱼灭绝。有氧生境的丧失将在 CCS 分类群的各个特征中广泛变化，从而破坏整个地区的生态相互作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2e51/7228741/330be29fbacb/aay3188-F1.jpg

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气候驱动的加利福尼亚海流系统中好氧栖息地丧失。

Climate-driven aerobic habitat loss in the California Current System.

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