Analysis of Stationary-Wave Nonstationarity in the Northern Hemisphere 500-hPa Height Field |
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| Authors: | ZHOU Guohua WANG Panxing SHI Ning LI Qiaoping SHE Gaojie |
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| Institution: | Institute of Atmospheric Sciences, Nanjing University of Information Science & Technology, Nanjing 210044;Institute of Atmospheric Sciences, Nanjing University of Information Science & Technology, Nanjing 210044;Institute of Atmospheric Sciences, Nanjing University of Information Science & Technology, Nanjing 210044;National Climate Center, China Meteorological Administration, Beijing 100081;Institute of Atmospheric Sciences, Nanjing University of Information Science & Technology, Nanjing 210044 |
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| Abstract: | In this paper, the concept of stationary-wave nonstationarity is presented and elucidated in the framework of the Lorenz circulation decomposition. This concept indicates the relative magnitude of the zonal non-uniform abnormity to the intensity of stationary waves on the monthly mean scale. Based on the Lorenz circulation decomposition, the nonstationarity degree Ius (Ilus) of the global (local) stationary waves is defined, and then used to analyze the stationary-wave nonstationarity at 30°-60°N, where the intensity of
stationary waves at 500 hPa in the Northern Hemisphere, as is well known, is very high. The following findings are obtained: (1) There exist seasonal southward and northward movements in the position of the nonstationarity zones of the global stationary waves. The steady stationary waves occur in midlatitudes (35°-55°N) in winter and in the subtropical region (south of 35°N) in summer, associated with the major troughs over East Asia and North America and the weak European trough in winter, and with the relatively
steady subtropical high system in summer. A high value center of Ius is at 35°N in spring and 50°N in summer, which might be caused by the seasonal variation of stationary-wave intensity, particularly in association with the interannual variability of trough/ridge positions of stationary waves on the monthly mean maps. (2) There exists obvious asymmetry in Ilus, with the steady zones always located in the areas controlled by strong troughs/ridges and the unsteady ones in the areas where the stationary-wave intensity
is low. The Ilus in the subtropics (south of 35°N) is larger in winter than in summer, and vice versa in the midlatitude region (north of 35°N). The summertime distribution of Ilus on the whole shows a rather complicated structure. However, North Europe is the most unsteady area for local stationary waves, as represented by high values of Ilus in both summer and winter, while over the North American continent (about 120°E-60°W), the Ilus is slightly less than 1 in summer, indicating that the stationary waves in this region are more steady than those over other mid and high latitude regions. (3) From North China to Northwest Pacific, there is a high value zone of Ilus in summer, with its center (45°N, 130°E) located in the east of Heilongjiang Province. This influences the summer climate of northern China, including Northeast, North, and Northwest China. It is obvious that the nonstationarity is an intrinsic attribute of stationary waves, and can be regarded as being of the same importance as the intensity and energy-spectrum structure of stationary waves in the studies of the general circulation system. |
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| Keywords: | 500-hPa geopotential height field stationary waves nonstationarity general circulation system |
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