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超过1.5°C后数百年的不可逆冰川变化和槽谷水。

Irreversible glacier change and trough water for centuries after overshooting 1.5 °C.

作者信息

Schuster Lilian, Maussion Fabien, Rounce David R, Ultee Lizz, Schmitt Patrick, Lacroix Fabrice, Frölicher Thomas L, Schleussner Carl-Friedrich

机构信息

Department of Atmospheric and Cryospheric Sciences (ACINN), Univ. Innsbruck, Innsbruck, Austria.

Bristol Glaciology Centre, School of Geographical Sciences, Univ. of Bristol, Bristol, UK.

出版信息

Nat Clim Chang. 2025;15(6):634-641. doi: 10.1038/s41558-025-02318-w. Epub 2025 May 19.

DOI:10.1038/s41558-025-02318-w
PMID:40520442
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12158768/
Abstract

Exceeding 1.5 °C of global warming above pre-industrial levels has become a distinct possibility, yet the consequences of such an overshoot for mountain glaciers and their contribution to raising sea levels and impacting water availability are not well understood. Here we show that exceeding and then returning to below 1.5 °C will have irreversible consequences for glacier mass and runoff over centuries. Global climate and glacier simulations project that a 3.0 °C peak-and-decline scenario will lead to 11% more global glacier mass loss by 2500 compared with limiting warming to 1.5 °C without overshooting. In basins where glaciers regrow after peak temperature, glacier runoff reduces further than if the glaciers stabilize, a phenomenon we call 'trough water'. Half the studied glaciated basins show reduced glacier runoff with overshoot compared with without for decades to centuries after peak warming. These findings underscore the urgency of near-term emissions reductions and limiting temperature overshoot.

摘要

全球变暖超过工业化前水平1.5°C已成为一种明显的可能性,然而,这种升温幅度对山岳冰川的影响以及它们对海平面上升和水资源可利用性的作用尚未得到充分理解。我们在此表明,超过1.5°C然后再回到1.5°C以下,将在数百年内对冰川质量和径流产生不可逆转的影响。全球气候和冰川模拟预测,到2500年,与将升温限制在不超过1.5°C的情况相比,3.0°C的先升后降情景将导致全球冰川质量损失多11%。在温度峰值后冰川重新生长的流域,冰川径流比冰川稳定时减少得更多,我们将这种现象称为“低谷水”。在一半的研究冰川流域中,与未出现升温超调的情况相比,在升温峰值后的数十年至数百年间,升温超调导致冰川径流减少。这些发现凸显了近期减排和限制温度超调的紧迫性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a81d/12158768/59a22923374b/41558_2025_2318_Fig7_ESM.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a81d/12158768/ab8646958bc6/41558_2025_2318_Fig1_HTML.jpg
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本文引用的文献

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Overconfidence in climate overshoot.对气候超调的过度自信。
Nature. 2024 Oct;634(8033):366-373. doi: 10.1038/s41586-024-08020-9. Epub 2024 Oct 9.
2
Achieving net zero greenhouse gas emissions critical to limit climate tipping risks.实现温室气体净零排放对于限制气候临界点风险至关重要。
Nat Commun. 2024 Aug 1;15(1):6192. doi: 10.1038/s41467-024-49863-0.
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Global glacier change in the 21st century: Every increase in temperature matters.21世纪的全球冰川变化:温度的每一次升高都至关重要。
Science. 2023 Jan 6;379(6627):78-83. doi: 10.1126/science.abo1324. Epub 2023 Jan 5.
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Exceeding 1.5°C global warming could trigger multiple climate tipping points.全球变暖超过 1.5°C 可能引发多个气候临界点。
Science. 2022 Sep 9;377(6611):eabn7950. doi: 10.1126/science.abn7950.
5
Possibility for strong northern hemisphere high-latitude cooling under negative emissions.负排放情况下北半球高纬度地区出现强烈降温的可能性。
Nat Commun. 2022 Mar 1;13(1):1095. doi: 10.1038/s41467-022-28573-5.
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Nonlinear sensitivity of glacier mass balance to future climate change unveiled by deep learning.深度学习揭示了冰川质量平衡对未来气候变化的非线性敏感性。
Nat Commun. 2022 Jan 20;13(1):409. doi: 10.1038/s41467-022-28033-0.
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Accelerated global glacier mass loss in the early twenty-first century.二十一世纪初全球冰川质量加速损失。
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