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投稿时间:2022-05-26 修订日期:2023-05-19
投稿时间:2022-05-26 修订日期:2023-05-19
中文摘要: 利用多源观测资料及ERA5(0.25°×0.25°)再分析资料,对2021年6月9日夜里浙江首场梅汛期局地暖区暴雨的降水成因进行了诊断分析。结果表明:此次过程环流形势与典型梅雨完全不同,属于弱天气背景下的局地暖区暴雨;南海低压和西太平洋副热带高压之间东南气流的维持,为暴雨区提供充沛的水汽来源,925hPa超低空偏南风急流的加强有利于低层增温增湿,不稳定层结加剧,暴雨区位于急流轴左侧;整层高湿背景及较低的自由对流高度导致的弱抬升条件就能触发对流,中高层气旋性辐合旋转加强使暴雨加强,较厚的暖云层有利于提高降水效率;地面中尺度辐合带的生成激发了初始对流,其维持和加强不断激发对流云团生成,产生列车效应,导致暴雨形成。龙门山小尺度地形有利于东南气流在迎风坡强迫抬升,对流加强,且垂直速度的发展程度与地形有较好的对应关系,地形高度越高,激发的垂直速度越强。
中文关键词: 暖区,弱天气背景,超低空急流,地形
Abstract:Based on multi-source observation data and ERA5 (0.25°×0.25°) reanalysis data, the causes of the first rainstorm in the local warm sector of Zhejiang in the Meiyu period over the night of 9 June 2021 are analyzed. The results are as follows. The circulation situation of this process was different from that of the typical Meiyu, and belonged to the rainstorm in the local warm sector under a weak weather background. The maintenance of the southeast air flow between the South China Sea low pressure and the western Pacific subtropical high provided abundant water vapor for the rainstorm area. The strengthening of 925 hPa ultra-low level southerly jet was conducive to the increase in temperature and humidity in the low layer and the aggravation of unstable stratification, and the rainstorm area was located on the left side of the jet axis. The weak lifting condition caused by the high humidity background triggered convection. The strengthening of cyclonic convergence and rotation in the middle and high layers strengthened the rainstorm, and the thicker warm cloud layer was benefitial to improving the precipitation efficiency. The formation of mesoscale convergence zone stimulated the initial convection, and its maintenance and strengthening stimulated the formation of convective cloud clusters, producing train effect and leading to the formation of rainstorm. The small-scale topography of Longmen Mountain was favorable for the forced uplift of southerly air flow on the windward slope, strengthening the convection. The development of vertical velocity had a good corresponding relationship with the height of the topography. The higher the topography height, the stronger the verticle velocity to be stimulated.
文章编号: 中图分类号: 文献标志码:
基金项目:浙江省自然科学基金联合基金项目(LZJMD23D050001)和浙江省气象局重点科技计划项目(2022ZD02)共同资助
作者 | 单位 |
沈晓玲 | 浙江省绍兴市气象局,绍兴 312000 |
冯博 | 浙江省绍兴市柯桥区气象局,柯桥 312030 |
李锋 | 浙江省诸暨市气象局,诸暨 311800 |
徐一平 | 浙江省绍兴市气象局,绍兴 312000 |
引用文本:
沈晓玲,冯博,李锋,徐一平,2024.一次弱天气背景下浙江局地暖区暴雨成因分析[J].气象,50(2):170-180.
SHEN Xiaoling,FENG Bo,LI Feng,XU Yiping,2024.Cause Analysis of Rainstorm in Local Warm Sector Under a Weak Weather Background in Zhejiang Province[J].Meteor Mon,50(2):170-180.
沈晓玲,冯博,李锋,徐一平,2024.一次弱天气背景下浙江局地暖区暴雨成因分析[J].气象,50(2):170-180.
SHEN Xiaoling,FENG Bo,LI Feng,XU Yiping,2024.Cause Analysis of Rainstorm in Local Warm Sector Under a Weak Weather Background in Zhejiang Province[J].Meteor Mon,50(2):170-180.