太平洋和印度洋表层水温、海平面气压变化关系及对东亚冷夏的影响
CHANGES OF PACIFIC AND INDIAN OCEAN’S SST, SEA LEVEL PRESSURE AND THEIR INFLUENCE ON COLD SUMMER IN EAST CHINA
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摘要: 近10多年来,关于海气关系的研究很多.Wallace和Gutzler1,论证了500hPa高度场上5个遥相关型,而Horel和Wallace2提出太平洋/北美(PNA)型及其与赤道东太平洋海面水温异常的关系。符涂斌和叶笃正3提出“低纬度涛动”,认为所谓南方涛动(SO)和北方涛动4,处于同一振荡系统中,表现为东西向气压振荡的低纬度涛动的两个分量。然而上述研究仅注意了太平洋范围内低纬度海表水温(SST)异常的大气响应,而本文对太平洋和印度洋SST进行联合EOF分析。得出:SST基本距平空间型是西北太平洋分别与东南太平洋和阿拉伯海呈明显反向变化;发现北太平洋和北印度洋海平面气压(SLP)距平有一种跷跷板现象,并称之为北太平洋一北印度洋涛动(PIO),这一现象与东亚冷夏有密切的关系。Abstract: The SST of Pacific and Indian Oceans has been studied through the analyses of EOF. It has been found that the distribution of SST anomaly appears to be clear reversed changes between Northwest Pacific and Southeast Pacific as well as that between Northwest Pacific and Arabian Sea. It is also found that SLP anomely between North Pacific and North Indian Ocean is of a phenomenon of seesaw distribution called North Pacific and North Indian Ocean Oscillation (PIO). The phenomenon has a great influence on cold summer in East Asia.