气象学报2025,Vol.83Issue(5):1229-1240,12.DOI:10.11676/qxxb2025.20240090
2023年河西走廊中部异常高温干旱特征及其成因
Characteristics and causes of abnormally high temperature and drought in the central Hexi Corridor in 2023
摘要
Abstract
In 2023,the central part of the Hexi Corridor experienced an extreme high temperature and drought that would occur once every 60 years,which adversely affected local agricultural production and ecological environment,causing serious economic losses.This study uses various observational datasets to discuss the characteristics and effects of the high-temperature and drought in the central Hexi Corridor in 2023 from perspectives of meteorology,hydrology,ecology and agriculture.We further examine the responses of summer precipitation in the central Hexi Corridor to anomalous atmospheric circulation and sea surface temperature(SST).The datasets used in this study include monthly precipitation and temperature data during 1951-2023 from six national basic stations in the central Hexi Corridor,the Heihe river runoff data from Yingluoxia hydrological station in the upper reaches of the Heihe river,the FY-3D/MERSI satellite data,the GF-1 satellite data,and the NCEP/NCAR monthly mean reanalysis data,and 88 atmospheric circulation indexes and 26 SST indexes provided by National Climate Centre.The results show that precipitation and average temperature in the central part of the Hexi Corridor from May to September 2023 both exceeded historical extremes,with precipitation reached a new historical low and temperature reached a new historical high.The combined effect of high temperature and low precipitation significantly exacerbated the intensity of drought.In the middle Qilian mountains,the average snow cover area decreased by 45.8%,the annual runoff decreased by 15%,the main reservoir area decreased by 25.8%—66.0%.The characteristics of drought spread are meteorological drought—hydrological drought—ecological and agricultural drought.We find that precipitation in the central Hexi Corridor from May to September had significant multi-scale oscillations in 5,11,17 and 32 a,and multiple time scales showed that 2023 was in a period of less oscillation.When the drought in the central Hexi Corridor was observed,the atmospheric circulation anomalies included a southward shifted ridge line of the western Pacific subtropical high,an eastward shifted ridge point of the western extension,a westward shifted ridge point of the South Asian high pressure,a weaker than normal Indian low,a smaller polar vortex area in the northern hemisphere and Asia,a stronger blocking high in the middle and high latitudes of Asia,and increased longitudinal coverage of the westerly circulation in Eurasia.Meanwhile,positive SST anomalies occurred in the Nino3 area and the west wind drift region,while negative SST anomalies occurred in the Kuroshio region.关键词
高温/降水/干旱灾害/成因/河西走廊Key words
Heat waves/Precipitation/Drought disaster/Causes/Hexi Corridor分类
大气科学引用本文复制引用
刘洪兰,张强,张庭嘉,褚超,张俊国,牛丽娟,李亚丽..2023年河西走廊中部异常高温干旱特征及其成因[J].气象学报,2025,83(5):1229-1240,12.基金项目
国家自然科学基金重点项目(42230611)、宁夏自然科学基金重点项目(2023AAC02088)、甘肃省自然科学基金项目(24JRRA742)、甘肃省气象局科研项目(Ms2024-D-8). (42230611)
