高级搜索

东北移高原低涡引发我国西北两次强降水过程的对比分析

Comparative analysis of two heavy precipitation events in Northwest China induced by northeastward Tibetan Plateau vortices

  • 摘要: 2012年和2013年夏季有两个高原低涡向东北方向移出青藏高原,随后在西北地区引发暴雨天气,其中2013年的高原低涡移动路径更加偏东,其暴雨强度更强、落区偏东且范围更广。基于ERA-Interim再分析资料和台站降水资料,对比分析两次高原低涡移动过程中的大尺度环流以及低涡对强降水的影响,并结合湿位涡进行诊断分析。结果表明:500 hPa河套高压脊与200 hPa西风急流对高原低涡的移动存在显著影响,两者位置及强度的差异是造成两次高原低涡移出位置不同的主要原因。低涡高(低)层辐散(辐合)结构有利于垂直运动的发展,为暴雨提供了有利的动力条件。低涡的低层辐合有利于水汽向暴雨区输送。正压湿位涡诊断结果表明2013年低涡过程暴雨区有更强的不稳定条件;斜压湿位涡诊断表明2013年低涡过程有来自西太平洋的暖湿气流向暴雨中心输送。

     

    Abstract: In the summer of 2012 and 2013, two northeastward-moving Tibetan Plateau vortices (referred to as TPV) moved out of the Tibetan Plateau (referred to as plateau), and then caused heavy rain in the northwest region. In 2013, The moving path of TPV was more eastward, and the heavy rain intensity was stronger, and the falling area was eastward and wider. Based on the ERA-Interim reanalysis data and the stational precipitation data, the large-scale circulation and the influence of TPVs on the heavy precipitation were compared and analyzed during the movement of the two TPVs. The wet potential vortex is used to diagnose the two rainstorms. The results show that the Hetao high pressure ridge at 500 hPa and the westerly jet at 200 hPa have a significant impact on the movement of TPVs. The configuration of divergence (convergence) in the upper (lower) layer of the lower vortex benefits to a stronger upward movement, which provides powerful dynamic conditions for the rainstorms. The convergence of the vortex in the lower level is conducive to the transport of water vapor to the rainstorm area. The diagnostic results of barotropic wet potential vortex (MPV1) indicate that the rainstorm area in 2013 has stronger unstable conditions; the diagnosis of baroclinic wet potential vortex (MPV2) indicates that warm and humid air from the western Pacific is transported to the center of rainstorm in 2013.

     

/

返回文章
返回