Mid-century climate change impacts on tornado-producing tropical cyclones

IF 6.1 1区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Dakota C. Forbis , Christina M. Patricola , Emily Bercos-Hickey , William A. Gallus Jr.
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引用次数: 0

Abstract

Tornadoes are a co-occurring extreme that can be produced by landfalling tropical cyclones (TCs). These tornadoes can exacerbate the loss of life and property damage caused by the TC from which they were spawned. It is uncertain how the severe weather environments of landfalling TCs may change in a future climate and how this could impact tornado activity from TCs. In this study, we investigated four TCs that made landfall in the U.S. and produced large tornado outbreaks. We performed four-member ensembles of convective-allowing (4-km resolution) regional climate model simulations representing each TC in the historical climate and a mid-twenty-first century future climate. To identify potentially tornadic storms, or TC-tornado (TCT) surrogates, we used thresholds for three-hourly maximum updraft helicity and radar reflectivity, as tornadoes are not resolved in the model. We found that the ensemble-mean number of TCT-surrogates increased substantially (56–299%) in the future, supported by increases in most-unstable convective available potential energy, surface-to-700-hPa bulk wind shear, and 0–1-km storm-relative helicity in the tornado-producing region of the TCs. On the other hand, future changes in most-unstable convective inhibition had minimal influence on future TCT-surrogates. This provides robust evidence that tornado activity from TCs may increase in the future. Furthermore, TCT-surrogate frequency between 00Z and 09Z increased for three of the four cases, suggesting enhanced tornado activity at night, when people are asleep and more likely to miss warnings. All of these factors indicate that TC-tornadoes may become more frequent and a greater hazard in the future, compounding impacts from future increases in TC winds and precipitation.

本世纪中叶气候变化对龙卷风热带气旋的影响
龙卷风是由登陆的热带气旋(TC)共同引发的极端天气。这些龙卷风会加剧由其引发的热带气旋所造成的人员伤亡和财产损失。目前还不确定在未来气候中登陆的热带气旋的恶劣天气环境会发生怎样的变化,以及这将如何影响热带气旋的龙卷风活动。在本研究中,我们调查了登陆美国并引发大规模龙卷风的四个热带气旋。我们对历史气候和 21 世纪中叶未来气候下的每场热带气旋进行了四成员对流允许(4 千米分辨率)区域气候模式模拟集合。为了识别潜在的龙卷风风暴或热带气旋-龙卷风(TCT)替代物,我们使用了每三小时最大上升气流螺旋度和雷达反射率的阈值,因为龙卷风在模式中是不分辨的。我们发现,未来 TCT 代用体的集合均值数量大幅增加(56-299%),这得益于最不稳定对流可用势能、地表至 700 hPa 体积风切变以及龙卷风生成区 0-1 公里风暴相关切变的增加。另一方面,最不稳定对流抑制的未来变化对未来 TCT 代用指标的影响微乎其微。这提供了强有力的证据,证明未来由热带气旋引起的龙卷风活动可能会增加。此外,在四个案例中,有三个案例在 00Z 至 09Z 之间的 TCT 代用频率增加,这表明夜间龙卷风活动增强,而此时人们正在熟睡,更有可能错过警报。所有这些因素都表明,未来热带气旋-龙卷风可能会变得更加频繁,危害也会更大,从而加剧未来热带气旋风和降水增加所带来的影响。
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
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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