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春季西太平洋海表面温度对我国江南春雨的影响
引用本文:张博,钟珊珊,赵滨,何金海,陈隆勋.春季西太平洋海表面温度对我国江南春雨的影响[J].应用气象学报,2011,22(1):57-65.
作者姓名:张博  钟珊珊  赵滨  何金海  陈隆勋
作者单位:1.国家气象中心, 北京 100081
基金项目:国家自然科学基金重点项目
摘    要:利用NCAR提供的第5代全球大气环流模式CAM3.1探讨了春季西太平洋副热带地区海表面温度对我国江南春雨的影响。数值试验结果表明:春季西太平洋副热带地区海表面温度升高可引起同期东亚—西太平洋副热带纬向海陆热力差异减弱,进而引起3—4月青藏高原东南侧的低涡强度减弱,该低涡与西太平洋副热带高压之间的位势梯度减小,中低纬度西太平洋副热带高压强度减弱,其北侧的850 hPa西南风强度相应减弱,因此西南暖湿气流输送也随之减弱,造成江南地区的水汽通量辐合强度明显减弱,这种环流分布状况将不利于出现较强的江南春雨,导致江南春雨强度明显减小。

关 键 词:气候学    江南春雨    数值模拟    春季西太平洋副热带地区海表面温度
收稿时间:2/4/2010 12:00:00 AM

The Influence of the Subtropical Sea Surface Temperature over the Western Pacific on Spring Persistent Rains
Zhang Bo,Zhong Shanshan,Zhao Bin,He Jinhai and Chen Longxun.The Influence of the Subtropical Sea Surface Temperature over the Western Pacific on Spring Persistent Rains[J].Quarterly Journal of Applied Meteorology,2011,22(1):57-65.
Authors:Zhang Bo  Zhong Shanshan  Zhao Bin  He Jinhai and Chen Longxun
Affiliation:1.National Meteorological Center, Beijing 1000812.School of Atmospheric Sciences, Nanjing University of Information Science & Technology, Nanjing 2100443.Chinese Academy of Meteorological Sciences, Beijing 100081
Abstract:Using the Community Atmospheric Model Version 3.1 (CAM3.1) provided by National Center for Atmospheric Research (NCAR), the influence of the East Asian subtropical zonal land-sea thermal difference on the spring persistent rains is studied. The results show that the monthly sea surface temperature over the western Pacific (15°—35°N, 120°—150°E) are two months ahead of schedule, the seasonal conversion of the East Asia—the western Pacific subtropical zonal land-sea thermal difference is delayed, and the thermal difference between the East Asia and the western Pacific in spring is decreased. Under this condition, the intensity of the southwest winds at 850 hPa over East China in March and April decreases, and the rainfall over the region to south of 30°N decreases during the period from March to April, the remarkable decreasing periods are mid-March and mid-late April. The result shows that the intensity of spring persistent rains decreases due to the little land-sea thermal difference. The important role of the East Asian subtropical zonal land-sea thermal difference on the spring persistent rains over Southeastern China is verified. As far as the mechanisms are concerned, the results are as follows.When the land-sea thermal difference of subtropical zonal is minished, the intensity of vortex over the southeastern Tibetan Plateau weakens and then the geopotential difference between this vortex and the western Pacific subtropical high minishes. The western Pacific subtropical high over the middle and low latitudes weakens, and the intensity of the southeast wind decreases over the region to north of the western Pacific subtropical high. Therefore, the southeast warm moist airflows decrease and the convergence intensity of the moisture flux divergence weakens. Under this general circulation conditions, there are no heavy spring persistent rains.
Keywords:climatology  spring persistent rains  numerical simulation  the subtropical sea surface temperature over the western Pacific in spring
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