Extreme cooling in Northeast China in January and concurrent maximum in the lower stratospheric temperature and ozone: Case studies

IF 4.2 2区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES
Yu Shi , Oleksandr Evtushevsky , Gennadi Milinevsky , Ruixian Yu , Asen Grytsai , Xiaopeng Sun , Xiaolong Wang , Bohdan Novosyadlyj
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Abstract

This paper analyzes the four severe cooling events in Changchun, Northeast China, in January for selected years. The events in the absence of sudden stratospheric warmings were chosen. This excludes the possible effects of warm stratospheric anomalies in the polar vortex region, which may affect midlatitudes. The meridional profiles and maps for the coldest and warmest days of January are compared using the temperature and ozone data from observations and reanalysis. Based on the vertical temperature structure compared to the coldest–warmest days, the lower stratosphere–surface thermal coupling was analyzed, which has not been studied previously. It has been shown that (i) temperature increase by 5–10 °C in the lower stratosphere, (ii) lowering the tropopause by about 2–3 km, (iii) pushing the cold midtropospheric layer from climatological about 3 km to the surface with formation of the midlatitude temperature minimum, and (iv) a decrease in surface temperature in Changchun by 15–24 °C, concurrently occurred on the coldest days compared to the warmest days. Cold air in the region of the midlatitude minimum temperature, merging with the cold air of higher latitudes, contributes to the formation of the cold air outbreak pattern. The main elements of stratospheric and tropospheric dynamics (quasi-stationary and traveling planetary waves, zonally asymmetric Brewer–Dobson circulation, deformation of the tropopause and tropospheric isotherms) involved in extreme cooling events are analyzed. Because of the positive correlation between total ozone and temperature in the lower stratosphere, extremely high total ozone over the midlatitude region may serve as an indicator of warm stratospheric anomaly and possible downward thermal forcing.

Abstract Image

中国东北地区 1 月份出现极度降温,同时低平流层温度和臭氧达到最高值:案例研究
本文分析了中国东北长春部分年份一月份的四次严重降温事件。本文选择了没有出现平流层突然变暖的事件。这样就排除了极地涡旋区平流层暖异常可能对中纬度地区造成的影响。利用观测数据和再分析数据中的温度和臭氧数据,比较了 1 月份最冷和最热日子的经向剖面和地图。根据与最冷-最热天相比的垂直温度结构,分析了低平流层-地表热耦合,这是以前没有研究过的。研究表明:(i) 低平流层温度上升 5-10 °C;(ii) 对流层顶降低约 2-3 km;(iii) 中对流层冷层从气候学上的约 3 km 推向地表,形成中纬度温度最低点;(iv) 与最暖日相比,最冷日长春地表温度下降 15-24 °C。中纬度最低气温区域的冷空气与高纬度冷空气融合,促成了冷空气爆发模式的形成。分析了极端降温事件所涉及的平流层和对流层动力学的主要因素(准静止和行进行星波、带状不对称布鲁尔-多布森环流、对流层顶变形和对流层等温线)。由于臭氧总量与平流层下部的温度呈正相关,中纬度地区上空极高的臭氧总量可作为平流层暖异常和可能的向下热强迫的指标。
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
Atmospheric Environment
Atmospheric Environment 环境科学-环境科学
CiteScore
9.40
自引率
8.00%
发文量
458
审稿时长
53 days
期刊介绍: Atmospheric Environment has an open access mirror journal Atmospheric Environment: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. Atmospheric Environment is the international journal for scientists in different disciplines related to atmospheric composition and its impacts. The journal publishes scientific articles with atmospheric relevance of emissions and depositions of gaseous and particulate compounds, chemical processes and physical effects in the atmosphere, as well as impacts of the changing atmospheric composition on human health, air quality, climate change, and ecosystems.
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