Flash drought: A state of the science review

WIREs Water Pub Date : 2024-01-09 DOI:10.1002/wat2.1714
Jordan I. Christian, Mike Hobbins, Andrew Hoell, Jason A. Otkin, Trent W. Ford, Amanda E. Cravens, Kathryn A. Powlen, Hailan Wang, Vimal Mishra
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Abstract

In the two decades, since the advent of the term “flash drought,” considerable research has been directed toward the topic. Within the scientific community, we have actively forged a new paradigm that has avoided a chaotic evolution of conventional drought but instead recognizes that flash droughts have distinct dynamics and, particularly, impacts. We have moved beyond the initial debate over the definition of flash drought to a centralized focus on the triad of rapid onset, drought development, and associated impacts. The refinement toward this general set of principles has led to significant progress in determining key variables for monitoring flash drought development, identifying notable case studies, and compiling fundamental physical characteristics of flash drought. However, critical focus areas still remain, including advancing our knowledge on the atmospheric and oceanic drivers of flash drought; developing flash drought-specific detection indices and monitoring systems tailored to practitioners; improving subseasonal-to-seasonal prediction of these events; constraining uncertainty in flash drought and impact projections; and using social science to further our understanding of impacts, particularly with regard to sectors that lie outside of our traditional hydroclimatological focus, such as wildfire management and food-security monitoring. Researchers and stakeholders working together on these critical topics will assure society is resilient to flash drought in a changing climate.

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闪电干旱:科学现状综述
自 "闪旱 "一词出现以来的二十年间,针对这一主题开展了大量研究。在科学界,我们积极创建了一种新的范式,它避免了传统干旱的混乱演变,而是承认闪旱具有独特的动态,特别是影响。我们已经超越了最初关于闪旱定义的争论,集中关注快速发生、干旱发展和相关影响这三要素。通过对这套一般原则的完善,我们在确定监测闪旱发展的关键变量、确定著名的案例研究以及汇编闪旱的基本物理特征方面取得了重大进展。然而,关键的重点领域仍然存在,包括增进我们对造成山洪暴发干旱的大气和海洋驱动因素的了解;开发针对山洪暴发干旱的探测指数和监测系统,为实践者量身定制;改进对这些事件的分季节到季节性预测;限制山洪暴发干旱和影响预测中的不确定性;以及利用社会科学进一步了解影响,特别是在我们传统的水文气候学重点之外的领域,如野火管理和粮食安全监测。研究人员和利益相关者在这些关键问题上的合作将确保社会在不断变化的气候中对闪旱具有抗灾能力。
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