Flash drought and heatwave compound events increased in strength and length from 1980 to 2022 in China

IF 6.1 1区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES Weather and Climate Extremes Pub Date : 2024-09-14 DOI:10.1016/j.wace.2024.100720
Kaiqi Fu , Hongyong Yu , Yao Zhang , Dan Zhu , Hongyan Liu , Kaicun Wang
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Abstract

Compound flash drought and heatwave (FDHW) events have garnered increasing amounts of attention due to their substantial impacts on agriculture, water resources, and public health. However, studies on their intensity and classification in China are limited. In this study, we classified FDHW events in China from 1980 to 2022 using a classification framework designed to address regional patterns and explore their characteristics further. The results showed that FDHW events in northern China mostly occurred in early to mid-summer, whereas in southern China, excluding the Southwest River Basin, they occurred predominantly in mid to late summer. Furthermore, the spatial coverage of FDHW events across China significantly expanded. From 1980 to 2022, FDHW events in China evolved toward higher intensities and longer durations. This trend was especially notable in the Jiang-Huai River Basin, the main grain-producing region and a densely populated area of China. From the perspective of land‒atmosphere coupling, the amplifying effect of flash droughts and high temperatures increased with their intensity. When high temperatures reached the extreme level, the amplification effect on flash droughts was evident: 35.76% from the water deficit perspective and 38.82% from the soil moisture perspective. During extreme flash droughts, the amplification effect on high temperatures intensified: 41.51% from the water deficit perspective and 45.06% from the soil moisture perspective. The Southwest River Basin became a hotspot for the interaction between flash droughts and high temperatures. This study has implications for developing science-based policies to tackle risks in the water, energy and food sectors in China.

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从 1980 年到 2022 年,中国暴旱和热浪复合事件的强度和持续时间都在增加
由于其对农业、水资源和公共健康的重大影响,复合型山洪热浪(FDHW)事件已引起越来越多的关注。然而,在中国对其强度和分类的研究非常有限。在本研究中,我们使用一个分类框架对 1980 年至 2022 年中国的 FDHW 事件进行了分类,旨在解决区域模式问题并进一步探索其特征。结果表明,华北地区的FDHW事件多发生在初夏至盛夏,而华南地区(不包括西南流域)的FDHW事件则主要发生在盛夏至夏末。此外,FDHW 事件在中国的空间覆盖范围明显扩大。从 1980 年到 2022 年,中国的 FDHW 事件向强度更大、持续时间更长的方向发展。这一趋势在中国粮食主产区和人口密集区江淮流域尤为明显。从陆地-大气耦合的角度来看,山洪灾害和高温的放大效应随着强度的增加而增强。当高温达到极端水平时,对闪旱的放大效应明显:从水分亏缺角度看,放大效应为 35.76%;从土壤水分角度看,放大效应为 38.82%。在极端暴旱期间,高温的放大效应加剧:从缺水角度看为 41.51%,从土壤水分角度看为 45.06%。西南河流域成为暴旱与高温相互作用的热点地区。这项研究对制定科学的政策以应对中国水、能源和粮食部门的风险具有重要意义。
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来源期刊
Weather and Climate Extremes
Weather and Climate Extremes Earth and Planetary Sciences-Atmospheric Science
CiteScore
11.00
自引率
7.50%
发文量
102
审稿时长
33 weeks
期刊介绍: Weather and Climate Extremes Target Audience: Academics Decision makers International development agencies Non-governmental organizations (NGOs) Civil society Focus Areas: Research in weather and climate extremes Monitoring and early warning systems Assessment of vulnerability and impacts Developing and implementing intervention policies Effective risk management and adaptation practices Engagement of local communities in adopting coping strategies Information and communication strategies tailored to local and regional needs and circumstances
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