梅雨过程及其与环流关系的初步研究
摘要
本文主要应用中国长江中下游17站降水和NCEP的逐日的500hPa高度场资料,在研究了现有的一些梅雨标准之后,选定了相对可信的梅雨标准并确定了梅雨的起始日期。文章着重探讨分析了梅雨期的系统特征及如何改进梅雨标准、梅雨期大气环流的影响过程、梅雨期的降水场分布特点以及梅雨期降水场与高度场的相关特征。结果表明:1)在年代际时间尺度上副热带高压增强,可用582线代替副高脊线作为判断梅雨形势的参考标准。2)长江中下游梅雨期的降水主要存在三个基本地区,且在时间变化上与梅雨期的出现有着明显对应关系,80年代末,长江中下游梅雨的降水特点发生了改变。3)初夏长江中下游雨带的开始日、结束日都有明显的年代际变化特征。长江中下游降水对应于欧亚大陆的位势高度正异常,长江中下游降水与北大西洋中高纬度和西太平洋暖池SST的年代际变率有关。4)梅雨期长江中下游降水多寡与前期4、5月南半球环流存在联系,当4、5月南太平洋中高纬度地区经向环流较为明显,南极涡偏强时,长江中下游地区梅雨期降水易偏多;反之,当4、5月南太平洋中高纬度地区纬向气流较为明显,高纬度西风较弱,南极涡偏弱时,长江中下游地区梅雨期降水易偏少。年际时间尺度上,4—5月平均的AAO指数与6—7月长江流域降水的相关系数为0.31,达到95%置信水平。前期AAO偏强时,后期6—7月长江流域降水将增加,反之亦然。前期AAO的变化通过影响后期夏季西北太平洋副高的强度和位置,引起中国夏季风雨带位置的南北偏差。5)初步确定了一个影响梅雨的同期环流过程。当南半球南印度洋—澳大利亚中高纬度地区纬向(经向)环流发展时,通过一系列的环流过程影响,长江中下游梅雨期降水偏多(偏少)。6)发现了影响梅雨的最主要的遥相关型(EAP、EU和WP),代表站点的降水模态特点也与梅雨的典型的分布相同:主要降水集中在沿海,受副高影响,梅雨后期雨带西伸北抬。当梅雨强度增大时,梅雨西北部的大陆低压加强而西太平洋副热带高压减弱。这些研究结果是对梅雨在1953—2000之间的变化做了一个小结,得出的一些结论还有待今后从动力学原理上加以阐明。
By using the data of 17 stations' precipitation in middle and lower reaches of Yangtze River and the NCEP's daily 500hpa height, this article using the chosen criterion of Meiyu ascertains the initial and final date of Meiyu after choosing out a credible criterion in some existing criterion of Meiyu. In this article, the essential characteristic during Meiyu and how to improve the criterion of Meiyu, the effect process of circulation during Meiyu, the characteristic of precipitation's distributing and the character between the precipitation and height are construed. The result indicate that:1) In interdecadal time scale, the subtropical high intensifying, instead of the ridge line, the line 582 can be used as the referenced criterion to verdict the Meiyu posture. 2) There is three basic precipitation regions in middle and lower reaches of Yangtze River. They have visible homologous relationship with the period of Meiyu in the temporal variation, In the late 1980's, the characteristic of precipitation in midd
le and lower reaches of Yangtze River begins to altering. 3) The initial and final date of the rainband in middle and lower reaches of Yangtze River have the obvious characteristic in interannual change in summer. The precipitation in middle and lower reaches of Yangtze River response to the positive abnormal in Eurasian continent and it also has the relationship with the interannual variability of the middle and high latitude of north Atlantic SST and the west Pacific warm pool. 4) During the Meiyu, the precipitation in middle and lower reaches of Yangtze River has the relationship with southern hemisphere circulation in early April and May. When the meridional circulation in middle and high latitude of South Pacific in April and May is rather obvious and the South Pole eddy is rather strong, the precipitation in middle and lower reaches of Yangtze River may be bigger than ever. When the early AAO is rather strong, the precipitation in middle and lower reaches of Yangtze River in the latter June and July wo
uld be enhanced, v.v.. The variation in the early AAO beget the rainband latitudinal discrepance of the China summer monsoon by means of impacting on the intensity and position of northwest Pacific subtropical high in the late summer. 5) Pointing out a circulation process which may influence the Meiyu in the corresponding period. When south Indian Ocean in southern hemisphere-zonal (meridional) circulation developing in middle latitude and in high latitude of Australian, the precipitation in middle and lower reaches of Yangtze
River rather big (small) after some relative process affecting. 6) The main teleconnection structure (EAP, EU, WP) which affect the Meiyu in middle and lower reaches of Yangtze River is found by means of the varieties of teleconnection from beginning to the end of Meiyu. And the precipitation modes' characteristic of stations is the same as the representative variety during the Meiyu: mostly centralized along the coast, and affecting by the subtropical high, the rainband moves west and north in late of Meiyu. When the intensity of Meiyu increasing, the continental low in the northwest of Meiyu rainband is getting stronger and the west Pacific subtropical high is getting weaker. These results give out a brief summary of the variation about Meiyu in 1953-2000. But some conclusions need to be clarified by using the dynamics theory in future.
By using the data of 17 stations' precipitation in middle and lower reaches of Yangtze River and the NCEP's daily 500hpa height, this article using the chosen criterion of Meiyu ascertains the initial and final date of Meiyu after choosing out a credible criterion in some existing criterion of Meiyu. In this article, the essential characteristic during Meiyu and how to improve the criterion of Meiyu, the effect process of circulation during Meiyu, the characteristic of precipitation's distributing and the character between the precipitation and height are construed. The result indicate that:1) In interdecadal time scale, the subtropical high intensifying, instead of the ridge line, the line 582 can be used as the referenced criterion to verdict the Meiyu posture. 2) There is three basic precipitation regions in middle and lower reaches of Yangtze River. They have visible homologous relationship with the period of Meiyu in the temporal variation, In the late 1980's, the characteristic of precipitation in midd
le and lower reaches of Yangtze River begins to altering. 3) The initial and final date of the rainband in middle and lower reaches of Yangtze River have the obvious characteristic in interannual change in summer. The precipitation in middle and lower reaches of Yangtze River response to the positive abnormal in Eurasian continent and it also has the relationship with the interannual variability of the middle and high latitude of north Atlantic SST and the west Pacific warm pool. 4) During the Meiyu, the precipitation in middle and lower reaches of Yangtze River has the relationship with southern hemisphere circulation in early April and May. When the meridional circulation in middle and high latitude of South Pacific in April and May is rather obvious and the South Pole eddy is rather strong, the precipitation in middle and lower reaches of Yangtze River may be bigger than ever. When the early AAO is rather strong, the precipitation in middle and lower reaches of Yangtze River in the latter June and July wo
uld be enhanced, v.v.. The variation in the early AAO beget the rainband latitudinal discrepance of the China summer monsoon by means of impacting on the intensity and position of northwest Pacific subtropical high in the late summer. 5) Pointing out a circulation process which may influence the Meiyu in the corresponding period. When south Indian Ocean in southern hemisphere-zonal (meridional) circulation developing in middle latitude and in high latitude of Australian, the precipitation in middle and lower reaches of Yangtze
River rather big (small) after some relative process affecting. 6) The main teleconnection structure (EAP, EU, WP) which affect the Meiyu in middle and lower reaches of Yangtze River is found by means of the varieties of teleconnection from beginning to the end of Meiyu. And the precipitation modes' characteristic of stations is the same as the representative variety during the Meiyu: mostly centralized along the coast, and affecting by the subtropical high, the rainband moves west and north in late of Meiyu. When the intensity of Meiyu increasing, the continental low in the northwest of Meiyu rainband is getting stronger and the west Pacific subtropical high is getting weaker. These results give out a brief summary of the variation about Meiyu in 1953-2000. But some conclusions need to be clarified by using the dynamics theory in future.
引文
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