Annual Cycle of Rainfall in the Western North Pacific and East Asian Sector

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题名:	Annual Cycle of Rainfall in the Western North Pacific and East Asian Sector
作者:	Chou, C (Chou, Chia) Huang, LF (Huang, Li-Fan) Tseng, LS (Tseng, Lishan) Tu, JY (Tu, Jien-Yi) Tan, PH (Tan, Pei-Hua)
贡献者:	大氣系
关键词:	LARGE-SCALE CIRCULATION SOUTH CHINA SEA MADDEN-JULIAN OSCILLATION NON-ENSO YEARS SUMMER MONSOON INTERANNUAL VARIABILITY WINTER MONSOON EL-NINO CONVECTIVE ADJUSTMENT TROPICAL VARIABILITY
日期:	2009-04
上传时间:	2011-12-07 11:45:56 (UTC+8)
摘要:	The annual cycle of precipitation over the western North Pacific and East Asian (WNP-EA) sector has five major periods: spring, the first and second wet periods, fall, and winter. In this study, processes that induce precipitation in each period are examined from a large-scale point of view. The wet phase over this sector has two distinct periods, which are dominated by the Asian summer monsoon circulation induced by the land-ocean contrast of net energy into the atmospheric column ( F net). In the first wet period, the pre-mei-yu/mei-yu rainband is directly associated with a moisture flux convergence caused by the southwesterly Asian summer monsoon flow and the southeasterly trade winds, and indirectly associated with a dynamic feedback induced by this horizontal moisture convergence. The tropical convection, in the meantime, is associated with a rising motion that is induced by positive F(net). In the second wet period, the WNP summer monsoon gyre dominates the rainfall of this region, which is partially associated with warmer local sea surface temperature (SST) via positive F net. The land-sea contrast of F net and the atmosphere-ocean interaction also play an important role in establishing the monsoon gyre. The dry phase over the WNP-EA region is the winter period in which precipitation is associated with winter stormactivities and large-scale lifting associated with a pressure surge. In the two transition phases, due to a difference in heat capacity, the atmosphere and ocean have distinct impacts on precipitation, albeit similar solar insolations during the two periods. In the spring period, the atmospheric condition is favorable for convection, while the ocean surface is relatively colder, so the horizontal moisture advection associated with the westward extent of the Pacific subtropical high, which is different from a typical winter frontal system, is a major source for the spring rain. In the fall period, however, the atmospheric conditions dominated by the Asian winter monsoon circulation suppress convection, while relatively warmer SST still maintains tropical convection over the southern part of the WNP-EA region. Over the northern part of the WNP-EA region, the fall precipitation is associated with frontal systems, similar to those in winter.
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