Abstract
In the mid 20th century, great efforts were made to investigate the formation process of high-latitude cold vortex, which is regarded as a major weather system in the atmospheric circulation. In the late 1970s, Chinese researchers noticed that the Northeast China cold vortex (NECV) is an active and frequently occurring weather system over Northeast Asia, which is generated under specific conditions of topography and land–sea thermal contrast on the local and regional scales. Thereby, the NECV study was broadened to include synoptic situations, mesoscale and dynamic features, the heavy rain process, etc. Since the 21st century, in the context of the global warming, more attention has been paid to studies of the mechanisms that cause the NECV variations during spring and early summer as well as the climatic impacts of the NECV system. Note that the NECV activity, frequent or not, not only affects local temperature and precipitation anomalies, but also regulates the amount of precipitation over northern China, the Huai River basin, and the middle and lower reaches of Yangtze River. The NECV influence can even reach the Guangdong–Guangxi region. However, compared to the achievements for the blocking system study, theoretical studies with regard to the NECV system are still insufficient. Research activities regarding the mechanisms for the NECV formation, particularly theoretical studies using linear or weak nonlinear methods need to be strengthened in the future. Meanwhile, great efforts should be made to deepen our understanding of the relations of the NECV system to the oceanic thermal forcing, the low-frequency atmospheric variations over mid–high latitudes, and the global warming.
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Supported by the National Natural Science Foundation of China (41630424, 41275096, 41175083, 41305059, and 41405094) and China Meteorological Administration Special Public Welfare Research Fund (GYHY201106016 and GYHY201006020).
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Lian, Y., Shen, B., Li, S. et al. Mechanisms for the formation of Northeast China cold vortex and its activities and impacts: An overview. J Meteorol Res 30, 881–896 (2016). https://doi.org/10.1007/s13351-016-6003-4
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DOI: https://doi.org/10.1007/s13351-016-6003-4