Increasing risk of compound wind and precipitation extremes due to tropical cyclones in India

Akshay Rajeev, V. Mishra
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Abstract

Tropical cyclones (TCs) cause compound extremes of rainfall and wind gust. However, their occurrence and impacts on India still need to be better understood. Using ERA5 reanalysis and cyclone eAtlas, we examine the compound extremes of precipitation and wind gust driven by TCs that made landfall over India during 1981–2021. Based on the joint return period of compound extremes, the five worst TCs occurred in May 1990, May 1999, May 2010 (Laila), October 2014 (Hudhud), and May 2020 (Amphan). A majority of TCs during 1981–2021 originated from the Bay of Bengal (BoB) and only a few from the Arabian Sea (AS). While the frequency of all the TCs has either declined or remained stable in the North Indian Ocean (NIO, BoB, AS) during 1981–2021, the frequency of TCs with compound extremes has increased by about three-fold during the most recent decade (2011–2021). Compound extremes driven by TCs affect large regions along the coast and risk infrastructure and human lives. The frequency of TCs with large area of impact (greater than 200 000 km2) compound wind and precipitation extreme extent exhibits a three-fold rise during 1981–2021, indicating an increase in the hazard associated with the compound extremes driven by TCs in India.
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印度热带气旋导致复合风和降水极端事件的风险增加
热带气旋(TCs)造成降雨和阵风的复合极端。然而,它们的发生和对印度的影响仍然需要更好地了解。利用ERA5再分析和气旋eAtlas,我们研究了1981-2021年期间在印度登陆的tc驱动的降水和阵风的复合极端。从复合极值的联合重现期来看,1990年5月、1999年5月、2010年5月(Laila)、2014年10月(Hudhud)和2020年5月(Amphan)是5个最恶劣的极端天气。1981-2021年期间,大多数tc来自孟加拉湾(BoB),只有少数来自阿拉伯海(AS)。1981-2021年期间,北印度洋(NIO、BoB、AS)所有tc的频率要么下降,要么保持稳定,但在最近十年(2011-2021年)中,复合极端tc的频率增加了约3倍。由tc驱动的复合极端天气影响沿海大片地区,并危及基础设施和人类生命。1981-2021年期间,具有大影响面积(大于20万平方公里)复合风和降水极端程度的tc频率增加了3倍,表明与印度tc驱动的复合极端相关的危害增加。
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