干旱区研究2026,Vol.43Issue(3):500-513,14.DOI:10.13866/j.azr.2026.03.05
昆仑山北坡两次极端暴雨事件的大气环流特征对比
A comparative analyses of the atmospheric circulation features associated with two extreme rainstorms on the northern slope of the Kunlun Mountains
摘要
Abstract
Rainstorms on the northern slope of the Kunlun Mountains are of strong disaster-causing potential,pos-ing significant challenges for refined forecasting and early warning.Therefore,gaining an in-depth understanding of the regional differences in their formation mechanisms is the key to improving rainstorm forecast accuracy.Us-ing the data from meteorological observation stations in south Xinjiang,the fifth generation atmospheric reanaly-sis of the European Centre for Medium-Range Weather Forecasts,and the analysis data of the Global Data Assim-ilation System,this study comparatively analyzes the formation mechanisms of two extreme rainstorm events in the western section(case"5·18")and the middle section(case"6·24")of the northern slope of Kunlun Moun-tains.The results indicate that although the two rainstorms occurred under similar circulation backgrounds,they differed in the vertical structure of the influencing systems,water vapor transport,and the dynamic and thermody-namic coupling mechanisms.Prior to both rainstorms,the atmosphere was featured with high temperature and high humidity on the northern slope of the Kunlun Mountains.The geopotential height anomalies over the mid-high latitudes of Eurasia both displayed a"positive-negative-positive"distribution pattern.Additionally,the ma-jor influencing system at 500 hPa was the Central Asian low vortex in both cases.For case"5·18",the South Asia high was in the Qinghai-Xizang high pattern,and the Central Asia low vortex exhibited a deep vertical struc-ture,forming a stable synoptic situation of"combined actions from both east and west".The joint effects of the pumping action of upper-level divergence,the mid-level baroclinic frontogenesis,and the low-level topographic forcing triggered a large-scale systematic ascending motion.Additionally,three airflows carrying water vapor and unstable energy were found to strongly converge at the western section of the northern slope of the Kunlun Moun-tains,subsequently triggering the"5·18"rainstorm.During this process,water vapor was transported primarily through northern and western paths from the ocean surface of Iceland and eastern Europe.For case"6·24",the South Asia high was in a double-center pattern,while the Central Asia low vortex presented a shallow vertical structure.The combined effects of low-level shear convergence,topographic forcing,and mountain-valley ther-mal circulation jointly triggered the"6·24"rainstorm.In contrast,the dynamic conditions and energy release effi-ciency were both weaker than those in case"5·18".Besides,local water vapor also played an important role in addition to the water vapor from the western and northern paths.The findings can deepen the understanding of the formation mechanisms of heavy rainfall in different regions on the northern slope of the Kunlun Mountains,thereby providing scientific support for refined forecasting,early warning,and disaster prevention and mitigation in this area.关键词
昆仑山北坡/极端暴雨事件/大气环流/中亚低涡/对比分析Key words
northern slope of the Kunlun Mountains/extreme rainstorm events/atmospheric circulations/Cen-tral Asian Low Vortex/comparative analysis引用本文复制引用
努尔比亚·吐尼牙孜,杨霞,米日古丽·米吉提..昆仑山北坡两次极端暴雨事件的大气环流特征对比[J].干旱区研究,2026,43(3):500-513,14.基金项目
新疆"天山英才"培养计划(2023TSYCCX0077) (2023TSYCCX0077)
