华北地区寒潮的主要类型及其历史变迁

IF 2.3 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Atmospheric and Oceanic Science Letters Pub Date : 2024-03-21 DOI:10.1016/j.aosl.2024.100487
Xinyi Cheng , Yiyi Zhang , Jiandong Li , Xin Hao
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引用次数: 0

摘要

东亚地区的寒潮(CW)事件对社会经济、生态系统和人类健康产生了重大影响。根据 1980-2019 年间 10 月至次年 3 月的每日寒潮记录和 K-means 聚类,本研究确定了中国的两种区域性寒潮类型(T1 和 T2)。T1区域性化武主要影响中国东北地区,而T2区域性化武主要影响中国北部和东部地区。与 T1 相比,T2 区域性干旱的强度更大、持续时间更长、影响区域更广。1980-2019 年间,T1 区域性 CWs 的发生频率显著增加,而 T2 区域性 CWs 的发生频率没有变化趋势。虽然在 T1 和 T2 区域 CW 事件中都观察到了西伯利亚高气压的扩大,但两种区域 CW 在对流层中层的波列模式存在差异。在 T1 区域 CW 事件中,西伯利亚-蒙古上空负-正 500 hPa 位势高度异常的波列削弱了东亚低槽,导致西伯利亚冷空气东移。T1 区域 CW 频率的增加趋势可能与全球变暖导致的 500 hPa 位势高度的线性趋势有关。与 T2 区域 CW 事件相关的波列在乌拉尔山脉、蒙古和华北地区形成了脊-槽-脊环流异常。这导致冷空气向东南入侵。本文的结论表明,在预报中国的区域性CW事件时,应共同考虑西伯利亚高空放大和对流层中层波列模式。摘要寒潮事件对东亚地区的社会经济、生态环境和人体健康影响巨大。根据1980-2019 年间10 月至次年3 月的每日寒潮记录和K-means 聚类,本文识别出了中国两种不同类型的区域性寒潮(T1 和 T2)。t1区域性寒潮主要影响东北地区,t2区域性寒潮则主要影响华北和东部地区。与 t1 区域性寒潮相比, t2 区域性寒潮强度更强, 持续时间更长, 影响范围更广。1980-2019年期间,t1区域性寒潮的频率显著增加, 而t2区域性寒潮的频率则没有趋势变化。t1和t2区域性寒潮事件均与西伯利亚高压增强有关,然而与它们相关的对流层中层波列明显不同。在 T1 区域性寒潮事件发生期间,西伯利亚-蒙古上空出现负-正模态的 500-HPa位势高度异常波列, 削弱了东亚大槽,导致西伯利亚冷空气东移。T1区域寒潮频次增加趋势可能与全球变暖引起的500-hPa位势高度的线性趋势变化有关。与 t2 区域寒潮事件相关的波列则在乌拉尔山脉, 蒙古和华北地区形成了脊-槽-脊环流异常, 导致冷空气向东南方向入侵。本文得出结论, 由于两类区域寒潮影响不同, 西伯利亚高压增强和对流层中层波列模态在我国区域性寒潮事件的预报中应综合考虑。
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Predominant types of regional cold waves in North China and their historical changes

Cold wave (CW) events in East Asia have a significant impact on the social economy, ecosystems, and human health. Based on daily CW records from October to March during 1980–2019 and K-means clustering, this study identified two types of regional CW (T1 and T2) in China. T1 regional CWs mainly struck Northeast China, whereas T2 regional CWs primarily affected the northern and eastern regions of China. Compared to T1, T2 regional CWs were more intense, lasted longer, and had a broader region of influence. During 1980–2019, there was a significant increase in the frequency of T1 regional CWs, while the frequency of T2 regional CWs showed no trend. Although amplification of the Siberian high was observed in both T1 and T2 regional CW events, there were differences in the wave train patterns in the middle troposphere between the two regional CWs. During T1 regional CW events, a wave train with negative–positive 500-hPa geopotential height anomalies over Siberia–Mongolia weakened the East Asian trough, causing an eastward movement of cold air from Siberia. The increasing trend of T1 regional CW frequency may be attributable to the linear trends of 500-hPa geopotential height caused by global warming. The wave train associated with T2 regional CW events formed ridge–trough–ridge circulation anomalies over the Ural Mountains, Mongolia, and North China. This led to a southeastward intrusion of the cold air. The conclusions of this paper indicate that the Siberian high amplification and mid-tropospheric wave train pattern should be jointly considered in forecasting regional CW events in China.

摘要

寒潮事件对东亚地区的社会经济, 生态系统和人体健康影响巨大. 根据1980−2019 年间10月至次年3月的每日寒潮记录和K-means聚类, 本文识别出了中国两种不同类型的区域性寒潮(T1 和 T2). T1区域性寒潮主要影响东北地区, T2区域性寒潮则主要影响华北和东部地区. 与T1区域性寒潮相比, T2区域性寒潮强度更强, 持续时间更长, 影响范围更广. 1980–2019年期间, T1区域性寒潮的频率显著增加, 而T2区域性寒潮的频率则没有趋势变化. T1和T2区域性寒潮事件均与西伯利亚高压增强有关, 然而与它们相关的对流层中层波列明显不同. 在T1区域性寒潮事件发生期间, 西伯利亚-蒙古上空出现负-正模态的500-hPa位势高度异常波列, 削弱了东亚大槽, 导致西伯利亚冷空气东移. T1区域寒潮频次增加趋势可能与全球变暖引起的500-hPa位势高度的线性趋势变化有关. 与T2区域寒潮事件相关的波列则在乌拉尔山脉, 蒙古和华北地区形成了脊-槽-脊环流异常, 导致冷空气向东南方向入侵. 本文得出结论, 由于两类区域寒潮影响不同, 西伯利亚高压增强和对流层中层波列模态在我国区域性寒潮事件的预报中应综合考虑.

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来源期刊
Atmospheric and Oceanic Science Letters
Atmospheric and Oceanic Science Letters METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
4.20
自引率
8.70%
发文量
925
审稿时长
12 weeks
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