Impact of Global SST on Decadal Shift of East Asian Summer Climate

East Asia experienced a significant interdecadal climate shift around the late 1970s, with more floods in the valley of the Yangtze River of central-eastern China and more severe drought in North China since then. Whether global SST variations have played a role in this shift is unclear. In the pres...

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Veröffentlicht in:	Advances in atmospheric sciences 2009-03, Vol.26 (2), p.192-201
1. Verfasser:	付建建李双林罗德海
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Sprache:	eng
Schlagworte:	Asian Atmospheric circulation Atmospheric General Circulation Models Atmospheric Sciences Brackish China Climate Computer simulation Drought Earth and Environmental Science Earth Sciences Floods Freshwater Geophysics/Geodesy Global temperatures Marine Meteorology Summer 东亚夏季风东部地区夏季气候大气环流模式年代际气候变化模型模拟气候转变
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container_title	Advances in atmospheric sciences
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creator	付建建李双林罗德海
description	East Asia experienced a significant interdecadal climate shift around the late 1970s, with more floods in the valley of the Yangtze River of central-eastern China and more severe drought in North China since then. Whether global SST variations have played a role in this shift is unclear. In the present study, this issue is investigated by ensemble experiments of an atmospheric general circulation model （AGCM）, the GFDL AM2, since one validation reveals that the model simulates the observed East Asian Summer Monsoon （EASM） well. The results suggest that decadal global SST variations may have played a substantial role in this climate shift. Further examination of the associated atmospheric circulation shows that these results are physically reasonable.
doi_str_mv	10.1007/s00376-009-0192-z
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Whether global SST variations have played a role in this shift is unclear. In the present study, this issue is investigated by ensemble experiments of an atmospheric general circulation model （AGCM）, the GFDL AM2, since one validation reveals that the model simulates the observed East Asian Summer Monsoon （EASM） well. The results suggest that decadal global SST variations may have played a substantial role in this climate shift. 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subjects	Asian Atmospheric circulation Atmospheric General Circulation Models Atmospheric Sciences Brackish China Climate Computer simulation Drought Earth and Environmental Science Earth Sciences Floods Freshwater Geophysics/Geodesy Global temperatures Marine Meteorology Summer 东亚夏季风东部地区夏季气候大气环流模式年代际气候变化模型模拟气候转变
title	Impact of Global SST on Decadal Shift of East Asian Summer Climate
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