Extreme Events Contributing to Tipping Elements and Tipping Points

IF 4.9 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
A. Romanou, G. C. Hegerl, S. I. Seneviratne, B. Abis, A. Bastos, A. Conversi, A. Landolfi, H. Kim, P. E. Lerner, J. Mekus, B. L. Otto-Bliesner, F. S. R. Pausata, I. Pinto, L. Suarez-Guiterrez
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Abstract

This review article provides a synthesis and perspective on how weather and climate extreme events can play a role in influencing tipping elements and triggering tipping points in the Earth System. An example of a potential critical global tipping point, induced by climate extremes in an increasingly warmer climate, is Amazon rainforest dieback that could be driven by regional increases in droughts and exacerbated by fires, in addition to deforestation. A tipping element associated with the boreal forest might also be vulnerable to heat, drought and fire. An oceanic example is the potential collapse of the Atlantic meridional overturning circulation due to extreme variability in freshwater inputs, while marine heatwaves and high acidity extremes can lead to coral reef collapse. Extreme heat events may furthermore play an important role in ice sheet, glacier and permafrost stability. Regional severe extreme events could also lead to tipping in ecosystems, as well as in human systems, in response to climate drivers. However, substantial scientific uncertainty remains on mechanistic links between extreme events and tipping points. Earth observations are of high relevance to evaluate and constrain those links between extreme events and tipping elements, by determining conditions leading to delayed recovery with a potential for tipping in the atmosphere, on land, in vegetation, and in the ocean. In the subsurface ocean, there is a lack of consistent, synoptic and high frequency observations of changes in both ocean physics and biogeochemistry. This review article shows the importance of considering the interface between extreme events and tipping points, two topics usually addressed in isolation, and the need for continued monitoring to observe early warning signs and to evaluate Earth system response to extreme events as well as improving model skill in simulating extremes, compound extremes and tipping elements.

导致临界要素和临界点的极端事件
这篇综述文章综述和透视了天气和气候极端事件如何在影响地球系统的临界要素和触发临界点方面发挥作用。在气候日益变暖的情况下,极端气候事件可能会诱发一个关键的全球临界点,亚马逊雨林的衰退就是一个例子,除了森林砍伐之外,区域性干旱的增加和火灾也会加剧亚马逊雨林的衰退。与北方森林相关的一个临界点也可能易受高温、干旱和火灾的影响。海洋方面的一个例子是,由于淡水输入的极端变化,大西洋经向翻转环流可能崩溃,而海洋热浪和高酸度极端事件可能导致珊瑚礁崩溃。极端热事件还可能在冰盖、冰川和永久冻土的稳定性方面发挥重要作用。区域性严重极端事件也可能导致生态系统以及人类系统在气候驱动因素的作用下发生倾覆。然而,极端事件与临界点之间的机理联系在科学上仍存在很大的不确定性。通过确定大气、陆地、植被和海洋中导致延迟恢复并可能出现临界点的条件,地球观测对于评估和制约极端事件与临界点之间的联系具有重要意义。在次表层海洋中,缺乏对海洋物理和生物地球化学变化的一致、同步和高频观测。这篇综述文章表明,必须考虑极端事件与临界点这两个通常被孤立处理的主题之间的联系,而且需要持续监测,以观察早期预警信号,评估地球系统对极端事件的反应,以及提高模拟极端事件、复合极端事件和临界点的模型技能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Surveys in Geophysics
Surveys in Geophysics 地学-地球化学与地球物理
CiteScore
10.00
自引率
10.90%
发文量
64
审稿时长
4.5 months
期刊介绍: Surveys in Geophysics publishes refereed review articles on the physical, chemical and biological processes occurring within the Earth, on its surface, in its atmosphere and in the near-Earth space environment, including relations with other bodies in the solar system. Observations, their interpretation, theory and modelling are covered in papers dealing with any of the Earth and space sciences.
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