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四川盆地一次暖性西南低涡大暴雨的中尺度分析

Mesoscale analysis on one warm Southwest Vortex rainstorm in the Sichuan basin

  • 摘要: 2021年8月7—8日,四川盆地中东部出现大暴雨、局地特大暴雨,是重庆2021年度社会影响最大的一次暴雨过程。采用多源观测及ERA5再分析资料,对此次大暴雨过程进行诊断分析。结果表明:大暴雨发生在低槽移入四川盆地诱发暖性西南低涡背景下,具有显著的阶段性、跳跃性和极端性特征。大暴雨先后形成于西南低涡中心东南部、西南低涡东侧和西南低涡南侧暖湿的边界层辐合线附近。各阶段大暴雨均由移动缓慢、维持时间达3~6 h的β中尺度对流系统影响形成,暖湿不稳定和弱垂直风切变为β中尺度对流系统的形成提供了有利的环境条件。涡度分析表明,西南低涡的发展主要源于低空辐合及垂直涡度输送效应,但暴雨区的正涡度发展与西南低涡并不完全相同,水平涡度倾侧效应较为显著。第一阶段暴雨区正涡度主要源于对流层中低层西南低涡中心附近显著的低空辐合、涡度垂直输送及水平涡度倾侧效应;第二阶段和第三阶段暴雨区正涡度主要源于边界层辐合及边界层以上的水平涡度倾侧效应,边界层辐合触发暖湿大气中的中尺度对流活动促进了第二阶段和第三阶段大暴雨的形成。

     

    Abstract: Torrential rain with the greatest social impact in Chongqing in the year of 2021 occurred in the central and eastern parts of Sichuan basin from August 7 to August 8. Using multi-source observation and ERA5 reanalysis data, the characteristics of mesoscale convective systems during the heavy rain process were analyzed. The heavy rainfall occurred under the background of the warm Southwest Vortex induced by the trough moving into the Sichuan basin, and had evident characteristics of stages, bounds, and extremes. The heavy rainfall formed successively in the southeast of the Southwest Vortex center and near the boundary layer convergence line in the east and south of the Southwest Vortex. The heavy rainfall of each stage was produced by mesoscale-β convective systems which moved slowly and maintained for 3~6 h. Warm and humid instability and weak vertical wind shear provided favorable environment for the development of mesoscale convective systems. Vorticity analysis showed that the development of the Southwest Vortex was mainly due to the low-level convergence and vertical vorticity transport. However, the development of positive vorticity in the rainstorm area was not exactly the same as that of the Southwest Vortex, and the horizontal vorticity tilting effect was relatively significant. The positive vorticity of the heavy rainstorm area in the first stage was mainly due to the significant low-level convergence, vertical vorticity transport, and horizontal vorticity tilting effect near the Southwest Vortex center in the middle and low level troposphere. The positive vorticity of the heavy rainstorm area in the second and third stages were mainly due to the horizontal vorticity tilting effect above the boundary layer and the convergence in the boundary layer. The boundary convergence triggered mesoscale convective activities in the warm and humid atmosphere, which promoted the heavy rain in the second and the third stages.

     

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