从拉格朗日角度理解2022年11月下旬中国上空一次冷空气爆发演变的物理过程

IF 6.4 1区 地球科学 Q1 ENVIRONMENTAL SCIENCES Advances in Climate Change Research Pub Date : 2023-10-01 DOI:10.1016/j.accre.2023.08.009
Jin-Ning Che , Bo Liu , Shang-Feng Li , Cheng You , Kara Hartig , Lei Chen
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引用次数: 1

摘要

2022年11月26日至12月1日,强冷气团从西北向南席卷中国,造成了一次全国性的冷空气暴发(CAO),其特征是气温急剧骤降,伴有雨雪和强风。在这次CAO事件中主导冷气团增强的物理过程尚不清楚。本文在拉格朗日回溯的框架下,采用一种新颖的方法研究了用干静态能(DSE)表示的CAO情况的演化。将DSE变化分解为短波辐射、长波辐射、潜热和湍流过程四个绝热加热项,可以识别出优势过程。总的来说,在这种情况下,大部分冷空气包裹来自新地岛东部,在到达中国之前穿过西伯利亚中部。因此,这些航空包裹主要表现在西北-东南路径上。不同区域的冷空气增强持续时间不同。冷空气团在到达华北地区(西北、华北和东北)之前经历了较长的冷却期(约9 d),而南方地区(华中、华东和华南)经历了相对较短的冷却期(6-8 d),因此华北地区的冷空气强度大于南方地区,特别是华东和华南地区。在所有6个子区域中,长波辐射冷却被确定为冷空气增强的主要贡献者,潜热过程是次要贡献者。冷空气团在接近和经过这些地区时的减弱是由湍流过程和短波加热驱动的。西伯利亚中部和贝加尔湖被确定为冷空气增强的关键地区。此外,影响中国西北的空气包裹在经过准噶尔盆地时被强烈冷却,而华北平原是到达中国中部、东部和南部的空气包裹的关键冷却区域。从拉格朗日的角度来看,这些发现提供了对驱动冷空气包裹行为的物理过程的见解,这将有助于理解CAOs过去变化和未来预测所涉及的机制。
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Understanding the physical processes in the evolution of a cold air outbreak over China in late November 2022 from a Lagrangian perspective

From 26 November to 1 December 2022, intense cold air masses swept across China from northwest to south, resulting in a nationwide cold air outbreak (CAO) case characterised by drastic and sudden temperature drops with rain, snow and strong winds. The physical processes that dominate the intensification of the cold air masses during this CAO event remain unclear. In this study, the evolution of the CAO case, which is indicated by the dry static energy (DSE), is investigated using a novel approach in the framework of Lagrangian backtracking. The dominant processes can be identified by decomposing the DSE change into four diabatic heating terms due to shortwave radiation, longwave radiation, latent heat and turbulent processes. Overall, in this case, most of the cold air parcels originated from the east of Novaya Zemlya and crossed Central Siberia before reaching China. Thus, these air parcels mainly manifested on the northwest‒southeast path. The duration of the cold air intensification differed between subregions. The cold air parcels experienced long cooling periods (approximately 9 d) before reaching northern China (i.e. Northwest, North and Northeast China), whilst the southern parts (i.e. Central, East and South China) underwent relatively short cooling periods (6–8 d). Accordingly, the cold air affecting northern China is more intense than that affecting the southern parts, especially for East and South China. For all six subregions, longwave radiative cooling is identified as the dominant contributor to the cold air intensification, and the latent heat processes as the secondary contributor. The weakening of cold air parcels as they approach and pass over these regions is driven by turbulent processes and shortwave heating. Central Siberia and Lake Baikal are identified as key areas for the intensification of cold air passing over both regions. In addition, air parcels affecting Northwest China are intensely cooled as they pass over the Junggar Basin, while the North China Plain is a key area for cooling air parcels reaching Central, East and South China. From a Lagrangian perspective, these findings provide insights into the physical processes driving the behaviour of cold air parcels, which would help understand the mechanisms involved in the past changes and future projections in CAOs.

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来源期刊
Advances in Climate Change Research
Advances in Climate Change Research Earth and Planetary Sciences-Atmospheric Science
CiteScore
9.80
自引率
4.10%
发文量
424
审稿时长
107 days
期刊介绍: Advances in Climate Change Research publishes scientific research and analyses on climate change and the interactions of climate change with society. This journal encompasses basic science and economic, social, and policy research, including studies on mitigation and adaptation to climate change. Advances in Climate Change Research attempts to promote research in climate change and provide an impetus for the application of research achievements in numerous aspects, such as socioeconomic sustainable development, responses to the adaptation and mitigation of climate change, diplomatic negotiations of climate and environment policies, and the protection and exploitation of natural resources.
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