Thermal adaptation of the large-scale circulation to the summer heating over the Tibetan Plateau

摘要

The potential vorticity equation is employed to diagnose the variation in the large-scale atmospheric circulation in July by using the NCAR/NCEP daily reanalysis data from 1986 to 1995. Based on the theogy of thermal adaptation, the schematic diagram of the formation and maintenance of the circulation over the Tibetan Plateau is revealed in this paper. The result shows that near the surface of ground is the positive potential vorticity source produced by the increasing diabatic heating with height, which maintains the cyclonic circulation, and that the positive Ertel potential vorticitv (PV) source is balanced by friction dissipation. On the other hand, in the upper troposphere the negative PV produced by the decreasing diabatic heating with height maintains the anticyclone, and it is balanced by the divergence of the negative PV. The Gauss' theorem has been applied to analyze the Ertel potential vorticity flux crossing each of the lateral boundaries of the area over the Tibetan Plateau. The result shows that the negative PV flux is transferred through the eastern and northern boundaries of the area from the Tibetan Plateau region to the outer world. It is evident that the Tibetan Plateau region is an important source of negative vorticity of the atmosphere.