摘要
赤道印度洋SST的分析研究证实了偶极子型振荡的存在,它在9-11月较强而在1-4月较弱。若以海温西高东低为偶极子振荡正位相,以海温东高西低为负位相,则一般是正位相时振荡要强于负位相。印度洋偶极子也存在年际(主要周期为4-5年)和年代际(主要周期为25-30年)变化。分析研究表明,印度洋偶极子对亚洲季风活动有明显影响,因为亚洲地区对流层低层的风场,南亚高压和西太平洋副高强度都与印度洋偶极子有关。另外,印度洋偶极子还对北美和南印度洋(包括澳大利亚和南美)地区的大气环流和气流有影响。
The SST variation in the equatorial Indian Ocean is studied with special interest in analyzing its dipole oscillation feature. The dipole oscillation appears to be stronger in September-November and weaker in January-April with higher SST in the west region and lower SST in the east region as the positive phase and higher SST in the east region and lower SST in the west region as the negative phase. Generally, the amplitude of the positive phase is larger than the negative phase. The interannual variation (4-5 year period) and the interdecadal variation (25-30 year period) also exist in the dipole. The analyses also showed the significant impact of the Indian Ocean dipole on the Asian monsoon activity, because the lower tropospheric wind fields over the Southern Asia, the Tibetan high in the upper troposphere and the subtropical high over the northwestern Pacific are all related to the Indian Ocean dipole. On the other, the Indian Ocean dipole still has significant impact on atmospheric circulation and climate in North America and the southern Indian Ocean region (including Australia and South Africa).
基金
This work was supported by the National Key Basic Science Program in China (Grant No.1998040903) and Chinese NSF (Grant No 498
关键词
印度洋偶极子
海温异常(SSTA)
亚洲季风
气候影响
Indian Ocean dipole
sea surface temperature anomaly (SSTA)
Asian summer monsoon
climate impact