下垫地形对印度半岛季风后气旋系统的影响

J. Phadtare
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摘要

在季风后气旋季节,向西移动的气旋系统登陆往往导致印度半岛东海岸出现极端降雨。海岸上空的静止气旋系统可以产生持续数天的强降雨,并导致灾难性的洪水。本研究分析了一个在东海岸上空传播和静止的气旋系统的动力学,突出了停滞背后可能的原因。利用一个再分析数据集给出了这两个系统的涡度预算。涡旋拉伸和水平涡度平流在预算中占主导地位。垂直平流和倾斜项在地形上是显著的。系统西(东)侧涡度水平平流为正(负),有利于向西传播。在静止涡旋中,涡旋伸展仅限于地形上游。在涡旋传播过程中,涡旋在其通过过程中在地形上发生伸展。沿海站的无线电探空数据显示,在静止情况下,低空风受到地形阻塞。相反,在传播情况下,气流越过地形障碍。因此,上游地形辐合对涡旋环流的优势可能是系统在海岸上空停滞的原因。
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Influence of Underlying Topography on Post-Monsoon Cyclonic Systems over the Indian Peninsula
During the post-monsoon cyclone season, the landfalls of westward-moving cyclonic systems often lead to extreme rainfall over the east coast of the Indian peninsula. A stationary cyclonic system over the coast can produce heavy rainfall for several days and cause catastrophic flooding. This study analyzes the dynamics of a propagating and stationary cyclonic system over the east coast, highlighting the possible cause behind the stagnation. The vorticity budgets of these two systems are presented using a reanalysis dataset. Vortex stretching and horizontal vorticity advection were the dominant terms in the budget. Vertical advection and tilting terms were significant over the orography. The horizontal advection of vorticity was positive (negative) on the western (eastern) side of the systems and, thus, favored westward propagation. Vortex stretching was confined to the upstream of orography in the stationary vortex. In the propagating vortex, the vortex stretching occurred over the orography during its passage. Data from the radiosonde soundings over a coastal station showed orographic blocking of the low-level winds in the stationary case. Conversely, the flow crossed the orographic barrier in the propagating case. Thus, the predominance of the upstream orographic convergence over the vortex circulation can be the reason for system stagnation over the coast.
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