在不同的全球变暖水平下,最容易受到个别和同时发生的极端情况以及近乎永久的极端条件影响的国家

Fulden Batibeniz, M. Hauser, S. Seneviratne
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引用次数: 3

摘要

摘要现在可以肯定的是,人类引发的气候变化正在增加全球极端温度、降水和干旱事件的发生率。这些极端现象的一个关键方面是其潜在的协同效应,可能对社会和环境系统产生重大影响。因此,有必要量化当前和预计气候中同时出现的极端情况,以采取措施并适应与这些条件相关的未来挑战。在这里,我们研究了不同全球变暖水平(GWL)的耦合模型相互比较项目(CMIP6)第六阶段的多模型模拟中单个和并发极端的变化。我们关注极端事件的单独和同时发生,包括热浪、干旱、最大1 d降水量(Rx1天)和极端风(风),以及前工业化时期(1850–1900;参考期)的热浪-干旱和Rx1天-风的组成部分,大致为当前条件(+1 ∘全球变暖的C),以及在三个更高的全球变暖水平(GWL为+1.5、+2和+3 ∘C) 。我们将分析重点放在139个国家和三个气候宏观区域:北部中高纬度国家(MHC)、亚热带国家(STC)和热带国家(TRC)。我们发现,在全球范围内,大多数个人极端情况变得更加频繁,并影响更多的土地面积,以获得更高的全球变暖水平。个别热浪、干旱、Rx1天和GWL较高的极端风的频率变化会导致时间发生变化,并导致不同月份和不同地区同时发生事件的频率不成比例地增加。因此,在+3时,被调查的右旋交叉出现的频率增加了2.0到9.6倍 ∘与前工业化时期相比,全球变暖的C。在+3 ∘C最显著的增长是同时发生的热浪-干旱事件,与工业化前相比,MHC增加了9.6倍,STC增加了8.4倍,TRC增加了6.8倍。相比之下,Rx1日-风事件在TRC增加最多(5.3倍),其次是STC(2.3倍)和MHC(2.0倍),在+3 ∘C关于前工业化时期。根据2015年的人口,这些频率变化意味着82人同时发生的热浪-干旱(Rx1天-风)事件的数量增加 % (41 %) 国家。我们的研究结果还表明,21个国家几乎没有一个时间段(平均每年0个月或仅1个月)没有热浪、干旱、Rx1天和极端天气,气温为+1.5 ∘全球变暖的C,37个国家处于+2 ∘C和处于+3的85个国家 ∘C、 与+1时的2个国家相比 ∘全球变暖的C。这表明,即使在符合《巴黎协定》限制的全球变暖水平下,大量国家也将转向近乎永久的极端条件。鉴于全球变暖水平预计会出现不成比例的频率增加和非活动月数减少,我们的研究结果强烈强调了温室气体排放失控的风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Countries most exposed to individual and concurrent extremes and near-permanent extreme conditions at different global warming levels
Abstract. It is now certain that human-induced climate change is increasing the incidence of extreme temperature, precipitation and drought events globally. A critical aspect of these extremes is their potential concurrency that can result in substantial impacts on society and environmental systems. Therefore, quantifying concurrent extremes in current and projected climate is necessary to take measures and adapt to future challenges associated with such conditions. Here we investigate changes in individual and concurrent extremes in multi-model simulations of the sixth phase of the Coupled Model Intercomparison Project (CMIP6) for different global warming levels (GWLs). We focus on the individual and simultaneous occurrence of the extreme events, encompassing heatwaves, droughts, maximum 1 d precipitation (Rx1day), and extreme wind (wind), as well as the compound events heatwave–drought and Rx1day–wind in the pre-industrial period (1850–1900; reference period), for approximately present conditions (+1 ∘C of global warming), and at three higher global warming levels (GWLs of +1.5, +2 and +3 ∘C). We focus our analysis on 139 countries and three climatic macro-regions: northern mid- and high-latitude countries (MHC), subtropical countries (STC), and tropical countries (TRC). We find that, on a global scale, most individual extremes become more frequent and affect more land area for higher GWLs. Changes in frequency of individual heatwaves, droughts, Rx1day and extreme wind with higher GWLs cause shifts in timing and disproportionate increases in frequency of concurrent events across different months and different regions. As a result, concurrent occurrences of the investigated extremes become 2.0 to 9.6 times more frequent at +3 ∘C of global warming compared to the pre-industrial period. At +3 ∘C the most dramatic increase is identified for concurrent heatwave–drought events, with a 9.6-times increase for MHC, an 8.4-times increase for STC and a 6.8-times increase for TRC compared to the pre-industrial period. By contrast, Rx1day–wind events increased the most in TRC (5.3 times), followed by STC (2.3 times) and MHC (2.0 times) at +3 ∘C with respect to the pre-industrial period. Based on the 2015 population, these frequency changes imply an increase in the number of concurrent heatwave–drought (Rx1day–wind) events per capita for 82 % (41 %) of countries. Our results also suggest that there are almost no time periods (on average 0 or only 1 month per year) without heatwaves, droughts, Rx1day and extreme wind for 21 countries at +1.5 ∘C of global warming, 37 countries at +2 ∘C and 85 countries at +3 ∘C, compared to 2 countries at +1 ∘C of global warming. This shows that a large number of countries will shift to near-permanent extreme conditions even at global warming levels consistent with the limits of the Paris Agreement. Given the projected disproportionate frequency increases and decreasing non-event months across GWLs, our results strongly emphasize the risks of uncurbed greenhouse gas emissions.
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