基于CRA资料的新疆南部暖季大尺度降水和对流性降水特征OA
Characteristics of large-scale precipitation and convective precipitation in southern Xinjiang during warm seasons based on CRA data
新疆南部(以下简称南疆)作为典型干旱区,厘清其降水类型结构及变化特征对理解区域水循环演变至关重要.本文基于1981-2024年5-9月(暖季)CRA资料,应用趋势分析、小波分析、M-K检验等方法,分析南疆暖季大尺度降水(LSP)和对流性降水(CP)的特征、变化趋势及对总降水量(TP)的贡献.结果表明:(1)南疆山区的TP明显大于平原,山区TP主要来源于LSP,LSP占比的高值区集中在山区;CP是平原TP的主要来源,平原也是CP占比的高值区.过去44 a,南疆TP整体呈增长趋势,山区增长趋势较平原更为显著,山区LSP增长率明显大于CP,平原则相反;山区和平原的三类降水在2000年前后发生突变,2005年后均呈现由偏少向偏多转变的特征.(2)暖季各月,山区和平原TP的平均值、变异系数和增长趋势最大值分别出现在8月和6月,其TP的逐月变化趋势分别与LSP和CP较为一致;山区TP和LSP的平均值和增长趋势显著大于平原.山区TP的日变化特征由LSP主导,三类降水的峰值时段差异较大,TP的峰值在5-7月为14:00-23:00,8-9月推后为17:00-02:00;LSP和CP的峰值时段分别为20:00和14:00前后;平原三类降水日变化的峰值时间接近,均出现在20:00-02:00,TP的日变化受LSP和CP共同影响.(3)近44 a南疆暖季的TP呈现多尺度波动特征,山区和平原TP的周期变化特征与各自的LSP一致,2005-2013年2~3 a的变化周期最为显著;山区和平原CP的主要变化周期出现在2000年之后.研究结果可为南疆降水机理研究、人工增雨作业及水资源管理提供科学依据.
Clarifying the structure of precipitation types and their variation characteristics in southern Xinjiang,a typical arid region,is critical for understanding the evolution of the regional water cycle.Based on the China's First Generation Global Atmospheric Reanalysis from May to September(warm seasons)during 1981-2024,this study used various methods,including trend analysis,wavelet analysis,and Mann-Kendall test,to analyze the characteristics and variation trends of large-scale precipitation(LSP)and convective precipitation(CP)in south-ern Xinjiang during warm seasons and their contributions to total precipitation(TP).The results demonstrate that(1)the TP in the mountainous areas of southern Xinjiang is significantly higher than that in the plain areas.TP in mountainous areas of southern Xinjiang is significantly higher than that in plains.LSP is the main source of TP in mountainous areas,where high LSP proportion regions are distributed.CP is the dominant source of TP in plains,which are also high-value areas of CP proportion.Over the past 44 years,TP in southern Xinjiang has shown an overall increasing trend,with a more significant growth trend in mountainous areas than in plains.The growth rate of LSP is obviously higher than that of CP in mountainous areas,while the opposite was true in plains.All three types of precipitation in the mountainous and plain areas changed abruptly around 2000.After 2005,they exhibited a shift from below-normal to above-normal.(2)During each warm season month,the maximum values of mean TP,coefficient of variation,and increasing trend in mountainous and plain areas appear in August and June,respectively.The monthly variation trends of TP are consistent with those of LSP in mountainous areas and with CP in plains,respectively.The mean values and growth trends of TP and LSP are significantly higher in the mountainous areas than in the plain areas.The diurnal variation characteristics of TP in the mountainous areas are dominated by LSP,with distinct differences in the peak periods of the three precipitation types.The TP peak oc-curs from 14:00 to 23:00 during May-July and delays to 17:00 to 02:00 in August-September;the peak periods of LSP and CP occur around 20:00 and 14:00,respectively.In the plain areas,the peak times of the diurnal varia-tions of the three precipitation types are comparable,all occurring from 20:00 to 02:00,and the diurnal variation of TP is jointly influenced by LSP and CP.(3)Over the past 44 years,the TP in southern Xinjiang during warm seasons has exhibited multiscale fluctuations.The periodic variation in TP in the mountainous and plain areas is consistent with their respective LSP.The most significant 2-3 year variation period occurred from 2005 to 2013.The main variation periods of CP in the mountainous and plain areas occurred after 2000.The results of this study provide a scientific basis for research on precipitation mechanisms,artificial precipitation enhancement op-erations,and water resource management in southern Xinjiang.
杨柳;杨霞;蒋靖雯;朱俊橙
巴音郭楞蒙古自治州气象局,新疆 库尔勒 841000新疆维吾尔自治区气象台,新疆 乌鲁木齐 830002南京信息工程大学大气科学院,江苏 南京 210044克拉玛依市气象局,新疆 克拉玛依 834000
CRA资料南疆大尺度降水对流性降水暖季
CMA datasouthern Xinjianglarge-scale precipitationconvective precipitationwarm seasons
《干旱区研究》 2026 (5)
897-906,10
新疆"天山英才"培养计划(2024TSYCJC0046,2023TSYCCX0077,2024TSYCTD0005)新疆维吾尔自治区气象局引导性计划项目(YD2024018)
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