Propagations From Extreme Integrated Vapor Transport to Extreme Precipitation Events in North America

IF 3.8 2区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of Geophysical Research: Atmospheres Pub Date : 2024-11-16 DOI:10.1029/2024JD042002
Xiaodong Li, Tongtiegang Zhao
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Abstract

Extreme integrated vapor transport (IVT) is a crucial driving factor of extreme precipitation events (EPEs). This paper presents a complex network-based characterization of propagations from extreme IVT to EPEs. Specifically, the propagations are tracked from extreme IVT to EPEs by event synchronization; and then the source zones of extreme IVT contributing to EPEs are identified by two-layer complex network. A case study is devised for North America based on the daily NCEP/NCAR Reanalysis 1 from 1948 to 2021. Overall, eight communities of EPEs are identified: the west coast of United States (US) tend to receive substantial EPEs from the Pacific Ocean; the Gulf of Alaska tends to receive oceanic EPEs propagating inland; western Canada typically experiences large amount of out tendencies and the EPEs tend to accumulate in the Baffin Island and Labrador Peninsula; the southeastern US and the northern Great Plains tend to experience northward propagations from Mexico. Along the west coast of North America, the propagations from extreme IVT to EPEs typically originate from the eastern North Pacific between 160°W and 110°W, and make landfalls in 4 days. These propagations are influenced by anomalous cyclonic circulations developing over the Gulf of Alaska forced by eastward Rossby waves. The coincidence rate of these propagations with atmospheric rivers is, respectively, 85.31% in autumn, 91.35% in winter, 73.94% in spring, and 64.52% in summer. Overall, the observed propagations from extreme IVT to EPEs yield insights into the mechanism of atmospheric moisture transport and the predictability of precipitation.

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北美极端综合水汽输送对极端降水事件的影响
极端综合水汽输送(IVT)是极端降水事件(EPEs)的重要驱动因素。本文介绍了从极端 IVT 到极端降水事件的复杂网络传播特征。具体来说,通过事件同步追踪从极端 IVT 到极端降水事件的传播,然后通过双层复杂网络识别导致极端降水事件的极端 IVT 源区。根据 1948 至 2021 年 NCEP/NCAR Reanalysis 1 的每日资料,对北美地区进行了案例研究。总体而言,确定了八个 EPEs 群落:美国西海岸倾向于接收来自太平洋的大量 EPEs;阿拉斯加湾倾向于接收向内陆传播的海洋性 EPEs;加拿大西部通常经历大量向外传播的趋势,EPEs 倾向于聚集在巴芬岛和拉布拉多半岛;美国东南部和大平原北部倾向于经历来自墨西哥的向北传播。在北美西海岸,从极端 IVT 到 EPE 的传播通常来自西经 160 度到西经 110 度之间的北太平洋东部,并在 4 天内登陆。这些传播受到在阿拉斯加湾上空形成的异常气旋环流的影响,受东向罗斯比波的作用。这些传播与大气河流的重合率分别为:秋季 85.31%,冬季 91.35%,春季 73.94%,夏季 64.52%。总之,观测到的从极端 IVT 到极端 EPEs 的传播,有助于深入了解大气水汽输送机制和降水的可预测性。
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来源期刊
Journal of Geophysical Research: Atmospheres
Journal of Geophysical Research: Atmospheres Earth and Planetary Sciences-Geophysics
CiteScore
7.30
自引率
11.40%
发文量
684
期刊介绍: JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.
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