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Solar cycle modulation of the ENSO impact on the winter climate of East Asia
Author(s) -
Zhou Qun,
Chen Wen,
Zhou Wen
Publication year - 2013
Publication title -
journal of geophysical research: atmospheres
Language(s) - English
Resource type - Journals
eISSN - 2169-8996
pISSN - 2169-897X
DOI - 10.1002/jgrd.50453
Subject(s) - climatology , east asia , anticyclone , extratropical cyclone , troposphere , cyclone (programming language) , environmental science , el niño southern oscillation , sea surface temperature , atmospheric circulation , siberian high , teleconnection , climate change , geography , atmospheric sciences , oceanography , geology , china , archaeology , field programmable gate array , computer science , computer hardware
This study examines how the East Asian winter climate response to the El Niño‐Southern Oscillation (ENSO) varies with the 11‐year solar cycle. The results indicate that the ENSO and East Asian climate relationship is robust and significant during winters with low solar (LS) activity, with evident warming in the lower troposphere over East Asia, which can be closely linked to the decreased pressure gradient between the cold Eurasian continent and the warm Pacific. Moreover, during the LS and El Niño winters, there is a typical rainfall response in Southeast Asia, with wet conditions over South China and dry conditions over the Philippines, Borneo, Celebes, and Sulawesi, which can be explained by the anticyclone over the western North Pacific (WNP). However, during high solar activity winters, both the surface temperature and rainfall anomalies are much less closely associated with the ENSO. The possible mechanism for this solar modulation of the ENSO‐related East Asian climate anomalies may be the change in the tropospheric circulation with the ENSO in both tropical and extratropical regions. Particularly, in the LS cases, an anomalous WNP anticyclone is intensified and a noticeable cyclone occupies northern Northeast Asia, resulting from the changing location and strength of the large‐scale Walker circulation induced by the more pronounced sea surface temperature anomalies associated with the ENSO. Further investigation with long historic data confirms that the relationship between the ENSO and the East Asian winter climate anomalies depends on the phases of 11 year solar cycle, with enhanced East Asian climate variation during the LS winters.

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