大巴山和平行岭谷地形对中尺度对流系统及暴雨的作用OA
Effect of Daba Mountain and the Parallel Ridge-Valley Topography on Mesoscale Convective Systems and Heavy Rainfall
利用加密自动站资料、ERA5再分析资料和雷达探测资料,分析了 2021年6月17-18日大巴山南麓川东平行岭谷地区北部一次大暴雨过程的环流形势、中尺度对流系统的组织和传播特征,以及大巴山和平行岭谷地形对大暴雨的共同作用.结果表明,此次大暴雨发生在大巴山与川东平行岭谷地形交汇处,先后经历了三次中尺度对流系统的演变.多条东北—西南向带状对流系统沿着平行岭谷组织和发展,对流单体列车效应和多条雨带叠加效应加强了降水.盆地冷锋和地面辐合线对中尺度对流系统的触发和组织有重要作用.盆地冷锋东移,与沿巫山和长江河谷入侵的东路冷空气发生锢囚,有利于对流系统的加强和维持.大巴山地形对暴雨的作用体现在阻挡和热动力抬升方面,迎风坡地形对水汽和能量输送有阻挡和汇聚作用,东西向水汽辐合带和假相当位温高值区在大巴山南麓维持,边界层锋生、正涡度区、低层辐合区和上升运动区均沿着大巴山倾斜发展.平行岭谷地形对暴雨的作用则体现在边界层水汽聚集、地面辐合线维持以及中尺度锢囚锋的形成等方面,使得北移的中尺度对流系统在大巴山南麓发展旺盛,从而引发此次山区大暴雨事件.
Using automatic station data,ERA5 reanalysis data,and radar detection data,this paper analy-zes the synoptic situation,mesoscale convective system and propagation characteristics,as well as the combined effects of the parallel ridge-valley in East Sichuan Region and the Daba Mountain on a heavy rain-fall event in 17-18 June 2021.The results show that the heavy rainfall occurred in the junction area of the Daba Mountain and the parallel ridge-valley region,and it went through three stages of evolution of meso-scale convective systems.Multiple northeast-southwest oriented strip-shaped convective systems were organized developing along the mountains of the parallel ridge-valley,with convective cell train effects and rainband stacking effects intensifying the precipitation.The cold front over the basin and the surface con-vergence line played an important role in triggering and organizing the mesoscale convective systems.Ad-ditionally,the cold front over the basin interacted with the eastward-moving cold air invading along the Wushan Mountain and the Yangtze River Valley,leading to the strengthening and maintenance of the con-vective systems.The role of the Daba Mountain in the heavy rainfall was reflected in the blocking effect and thermodynamic uplift.The windward slope of the terrain had a blocking and converging effect on the transport of water vapor and energy,with east-west oriented water vapor convergence belts and high pseudo-equivalent potential temperature areas maintaining on the southern slope of the Daba Mountain.The boundary layer frontogenesis,positive vorticity areas,low-level convergence areas,and upward motion areas developed along the slope of the Daba Mountain.The role of the parallel ridge-valley terrain in pre-cipitation was reflected in the aggregation of boundary layer water vapor,the quasi-stationary maintenance of the surface convergence line,and the formation of mesoscale occlusion fronts,which caused the meso-scale convective systems to move northward to the southern slope of the Daba Mountain.The mesoscale convective systems stagnated there and developed vigorously,thus triggering this heavy rainfall event in the mountainous area.
罗娟;李国平;刘超;刘俸霞;陈泠羽
重庆市气象台,重庆 401147成都信息工程大学大气科学学院,成都 610225重庆市气象台,重庆 401147重庆市万盛经开区气象局,万盛 400800重庆市万盛经开区气象局,万盛 400800
天文与地球科学
山区大暴雨大巴山川东平行岭谷中尺度对流系统地形作用
mountainous heavy rainfallDaba Mountainthe parallel ridge-valley in eastern Sichuanmesoscale convective systemterrain effect
《气象》 2026 (1)
70-82,13
国家自然科学基金项目(42175002)、中央引导地方科技发展项目(2024ZYD0175)和重庆市气象部门人才支持性项目(RCZC-202301)共同资助
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