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GUO Zhong-yang, GAN Jia-yuan, DAI Xiao-yan, GUO Ya-fen, LI Wei. Study on the features of thermodynamic field influencing MCSs trajectories over the Tibetan Plateau(Chinese)[J]. Journal of East China Normal University (Natural Sciences), 2008, (2): 1-7.
Citation:
GUO Zhong-yang, GAN Jia-yuan, DAI Xiao-yan, GUO Ya-fen, LI Wei. Study on the features of thermodynamic field influencing MCSs trajectories over the Tibetan Plateau(Chinese)[J]. Journal of East China Normal University (Natural Sciences), 2008, (2): 1-7.
GUO Zhong-yang, GAN Jia-yuan, DAI Xiao-yan, GUO Ya-fen, LI Wei. Study on the features of thermodynamic field influencing MCSs trajectories over the Tibetan Plateau(Chinese)[J]. Journal of East China Normal University (Natural Sciences), 2008, (2): 1-7.
Citation:
GUO Zhong-yang, GAN Jia-yuan, DAI Xiao-yan, GUO Ya-fen, LI Wei. Study on the features of thermodynamic field influencing MCSs trajectories over the Tibetan Plateau(Chinese)[J]. Journal of East China Normal University (Natural Sciences), 2008, (2): 1-7.
Clustering methods of K-means and CLARANS were applied to analyze the spatial distribution features of the thermodynamic field that influenced Mesoscale Convective Systems (MCSs) moving eastward out of the Tibetan Plateau from June to August in 1998, using data from the high resolution limited area analysis and forecasting system (HLAFS) provided by China National Meteorological Center; and the thermodynamic conditions favoring the trajectories and propagations of MCSs were obtained. The results indicate that the changes of the spatial distribution features of temperature field, humidity field and water vapor flux divergence field are essential factors to predict the development and evolution of MCSs.