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与EAWM相关的海陆气相互作用及亚洲夏季风
作者姓名:Bueh Cholaw  Ji Liren  Sun Shuqing  Cui Maochang
作者单位:Bueh Cholaw,Ji Liren and Sun Shuqing LASG,Instilute of Atmospheric Physics,Chinese Academy of Sciences,Beijing 100029 Cui Maochang Institute of Oceanologr,Chinese Academy of Sciences,Qingdao 266071
基金项目:This work was jointly supported by Key Project of Chinese Academy of Sciences (KZCX2-203), Na- tional Natural Science Foundatio
摘    要:基于观测资料分析,本文讨论了与东亚冬季风(EAWM)异常活动相联系的海-陆-气系统的特征,指出它往往是随后亚洲夏季风异常的一个信号。我们分析并确定了一类重要的海气耦合模态,即EAWM。它所包含的海-气双向相互作用,使该模态的SSTA分布得以发展和持续。特别是在西太平洋和南海等关键地区,SSTA异常将从冬季维持到夏季。在强冬季风年,青藏高原积雪冬季在其东部出现负距平区,春季则延伸到高原西北部。SSTA及高原积雪分布,共同构成调制亚洲季风环流的重要因子,它将有助于1)随后南海季风和季风降水的增强;2)梅雨期西太平洋副高偏北,长江流域少雨;3)夏季我国东北和日本多雨;4)阿拉伯海和印度东北多雨,而印度西南部及孟加拉湾少雨。总之,强EAWM及相联的海气相互作用,一定程度上,预示着亚洲夏季风的活动特征。

关 键 词:EAWM  海-陆-气相互作用  年际变化  亚洲夏季风

EAWM-Related Air-Sea-Land Interaction and the Asian Summer Monsoon Circulation
Bueh Cholaw,Ji Liren,Sun Shuqing,Cui Maochang.EAWM-Related Air-Sea-Land Interaction and the Asian Summer Monsoon Circulation[J].Advances in Atmospheric Sciences,2001,18(5):659-673.
Authors:Bueh Cholaw  Ji Liren  Sun Shuqing and Cui Maochang
Affiliation:LASG, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029,LASG, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029,LASG, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029,Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071
Abstract:Based on the data analysis, this study further explores the characteristics of East Asian winter monsoon (hereafter, EAWM, for brevity) as well as the related air-sea-land system, and illustrates how and to what degree anomalous signals of the subsequent Asian summer monsoon are rooted in the preceding EAWM ac tivity. We identified an important air-sea coupled mode, i.e., the EAWM mode illustrated in Section 3. In cold seasons, strong EAWM-reiated air-sea two-way interaction is responsible for the development and persistence of the SSTA pattern of EAWM mode. As a consequence, the key regions, i.e., the western Pacific and South China Sea (hereafter, SCS, for brevity), are dominated by such an SSTA pattern from the winter to the following summer. In the strong EAWM years, the deficient snow cover dominates eastern Tibetan Plateau in winter, and in spring, this anomaly pattern is further strengthened and extended to the northwestern side of Tibetan Plateau. Thus, the combined effect of strong EAWM-related SSTA and Tibetan snow cover constitutes an important factor in modulating the Asian monsoon circulation. The ac tive role of the EAWM activity as well as the related air-sea-land interaction would, in the subsequent sea sons, lead to: 1) the enhancement of SCS monsoon and related stronger rainfall; 2) the northward displace ment of subtropical high during Meiyu period and the related deficient rainfall over Meiyu rainband; 3) above-normal precipitation over the regions from northern Japan to northeastern China in summer; 4) more rainfall over the Arabian Sea and Northeast India, while less rainfall over southwest India and the Bay of Bengal. The strong EAWM-related air-sea interaction shows, to some degree, precursory signals to the following Asian summer monsoon. However, the mechanism for the variability of Indian summer monsoon subsequent to the strong EAWM years remains uncertain.
Keywords:EAWM  Air-sea-land interaction  Interannual variability  Asian summer monsoon
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