应用气象学报
應用氣象學報
응용기상학보
QUARTERLY JOURNAL OF APPLIED METEOROLOGY
2009年
5期
530-538
,共9页
黄菲%李栋梁%汤绪%王式功%王慧
黃菲%李棟樑%湯緒%王式功%王慧
황비%리동량%탕서%왕식공%왕혜
过程透阿雨%夏季风北边缘带%雨带类型%北界位置%水汽输送
過程透阿雨%夏季風北邊緣帶%雨帶類型%北界位置%水汽輸送
과정투아우%하계풍북변연대%우대류형%북계위치%수기수송
soaking rainfall%north boundary belt for summer monsoon%rain band types%north boundary location%moisture transport
利用1951-2006年全国715个站逐日降水资料及NCEP/NCAR逐日和月平均再分析资料,以农作物生长角度为出发点,采用过程透雨量(20 mm)标准确定4-10月出现6次及6次以上过程透雨量作为东亚夏季风区,以北边缘历年波动范围确定夏季风边缘带,根据连续透雨过程达到无旱标准来判断东亚夏季风的开始时间.主要分析了复季风北边缘的年际、年代际变化特征和复季风边缘带的变化范围以及夏季风边缘的推进过程和北边缘变化机制及其对我国降水的影响.结果表明:透雨标准较好地确定了边缘带位置,夏季风北边缘呈现现向南偏移的趋势,边缘带范围有所扩大;北边缘变化与偏南风强弱和水汽输送联系紧密,并且对我国雨带的分布以及北方降水有一定影响,北边缘偏北,雨带偏北,则华北降水偏多.
利用1951-2006年全國715箇站逐日降水資料及NCEP/NCAR逐日和月平均再分析資料,以農作物生長角度為齣髮點,採用過程透雨量(20 mm)標準確定4-10月齣現6次及6次以上過程透雨量作為東亞夏季風區,以北邊緣歷年波動範圍確定夏季風邊緣帶,根據連續透雨過程達到無旱標準來判斷東亞夏季風的開始時間.主要分析瞭複季風北邊緣的年際、年代際變化特徵和複季風邊緣帶的變化範圍以及夏季風邊緣的推進過程和北邊緣變化機製及其對我國降水的影響.結果錶明:透雨標準較好地確定瞭邊緣帶位置,夏季風北邊緣呈現現嚮南偏移的趨勢,邊緣帶範圍有所擴大;北邊緣變化與偏南風彊弱和水汽輸送聯繫緊密,併且對我國雨帶的分佈以及北方降水有一定影響,北邊緣偏北,雨帶偏北,則華北降水偏多.
이용1951-2006년전국715개참축일강수자료급NCEP/NCAR축일화월평균재분석자료,이농작물생장각도위출발점,채용과정투우량(20 mm)표준학정4-10월출현6차급6차이상과정투우량작위동아하계풍구,이북변연력년파동범위학정하계풍변연대,근거련속투우과정체도무한표준래판단동아하계풍적개시시간.주요분석료복계풍북변연적년제、년대제변화특정화복계풍변연대적변화범위이급하계풍변연적추진과정화북변연변화궤제급기대아국강수적영향.결과표명:투우표준교호지학정료변연대위치,하계풍북변연정현현향남편이적추세,변연대범위유소확대;북변연변화여편남풍강약화수기수송련계긴밀,병차대아국우대적분포이급북방강수유일정영향,북변연편북,우대편북,칙화북강수편다.
The summer monsoon brings plentiful water vapor, which is important for vegetation's growth and people's subsistence. The relation between monsoon's northward advance and north boundary's location is consanguineous. There are many monsoon indexes, and northward advancing of summer monsoon has also been investigated a lot. The research method considering vegetation growth angles proves to be accordant with the monsoon's influences on China. Station data and grid data including the daily rainfall data of 715 stations of China from 1951 to 2006 are used to depict the summer monsoon's advancing process. Moisture transport is also investigated using NCEP/NCAR monthly mean and daily reanalysis data. First, the soaking rainfall index is defined to determine the East Asian summer monsoon area. It takes appearing six times and more soaking rainfall (20 mm) processes during April to October as the standard, then the boundary belt positions for summer monsoon are defined according to the range of six times soaking rainfall lines waving variance annually, and wind vector changes in the boundary belt. Analyzing the continual soaking rainfall processes, the time when periods of drought ends is defined as the start time for summer monsoon in East Asian. This start time can represent the summer monsoon's northward advance. Besides, the characteristics of annual and decade variance of East Asian summer monsoon's north boundary and the variance of boundary belt's scopes are analyzed. Furthermore, the advanced process of East Asian summer monsoon's north boundary and its influence to the rainfall in China are investigated. To seek the cause a-bout north boundary for summer monsoon waving unconventionally, it is important to analyze moisture transport which maybe one important gene. The results show that; the soaking rainfall standard ascertains boundary belt location for East Asian summer monsoon preferably, and it appears a tendency of southward moving and the scopes of boundary belt are enlarged. In brief, the location variance of East Asian summer monsoon's north boundary have a close correlation with south wind strength and moisture transport. It also has a certain influence to the rain band distribution of China as well as the precipitation in north of China, north boundary inclined north, also does the rain band, and the rainfall is relatively more in the north of China.