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Seasonal variation and formation mechanism of the South China Sea warm water
引用本文:Liu Qinyu,Wang Dongxiao,Jia Yinglai,Yang Haijun,Sun Jilin,Du Yan. Seasonal variation and formation mechanism of the South China Sea warm water[J]. 海洋学报(英文版), 2002, 21(3): 331-343
作者姓名:Liu Qinyu  Wang Dongxiao  Jia Yinglai  Yang Haijun  Sun Jilin  Du Yan
作者单位:Liu Qinyu,Wang Dongxiao,Jia Yinglai,Yang Haijun,Sun Jilin,Du Yan1. Physical Oceanography Laboratory & Ocean-Atmosphere Interaction and Climate Laboratory,Ocean University of Qingdao,Qingdao 266003,China2. LED,South China Sea Institute of Ocea
基金项目:This study was supported by the Special Program of the Ministry of Science,Technology of China under contract No. 2001IDIA50041.
摘    要:The South China Sea warm water (SCSWW) is identified as the warm water body withtemperature no less than 28℃ . There are three stages in the seasonal variation of the SCSWW. The SCSWW expands rapidly and deepens quickly in the developing stage. The warm water thickness decreases near the coast of Vietnam and increases near Palawan Island in the steady stage. The SCSWW flinches southward while its thickness off Palawan Island remains no less than 50 m in the flinching stage. The maximum thickness of the SCSWW is always located near the southeastern SCS. The seasonal variation of the SCSWW has a close relationship with seasonal variation of the thermocline. According to the analysis of the numerical experiment results from the Princeton Ocean Model (POM), the mechanism of the seasonal variation of the SCSWW can be interpreted as: (1) in the developing stage, the rapidly expanding and thickening feature of the SCSWW is mainly due to buoyancy flux effect (67% contribution). The weak wind and anticyclonic wi

关 键 词:The South China Sea warm water (SCSWW)  POM model  seasonal variation  mechanism
收稿时间:2002-07-12
修稿时间:2002-08-08

Seasonal variation and formation mechanism of the South China Sea warm water
Liu Qinyu,Wang Dongxiao,Jia Yinglai,Yang Haijun,Sun Jilin and Du Yan. Seasonal variation and formation mechanism of the South China Sea warm water[J]. Acta Oceanologica Sinica, 2002, 21(3): 331-343
Authors:Liu Qinyu  Wang Dongxiao  Jia Yinglai  Yang Haijun  Sun Jilin  Du Yan
Affiliation:Physical Oceanography Laboratory & Ocean-Atmosphere Interaction and Climate Laboratory, Ocean University of Qingdao, Qingdao 266003, China;LED, South China Sea Institute of Oceanology, Chinese Academy of Sciences, Guangzhou 510301, China;Physical Oceanography Laboratory & Ocean-Atmosphere Interaction and Climate Laboratory, Ocean University of Qingdao, Qingdao 266003, China;LED, South China Sea Institute of Oceanology, Chinese Academy of Sciences, Guangzhou 510301, China
Abstract:The South China Sea warm water (SCSWW) is identified as the warm water body withtemperature no less than 28*. There are three stages in the seasonal variation of the SCSWW. The SCSWW expands rapidly and deepens quickly in the developing stage. The warm water thickness decreases near the coast of Vietnam and increases near Palawan Island in the steady stage. The SCSWW flinches southward while its thickness off Palawan Island remains no less than 50 m in the flinching stage. The maximum thickness of the SCSWW is always located near the southeastern SCS. The seasonal variation of the SCSWW has a close relationship with seasonal variation of the thermocline. According to the analysis of the numerical experiment results from the Princeton Ocean Model (POM), the mechanism of the seasonal variation of the SCSWW can be interpreted as: (1) in the developing stage, the rapidly expanding and thickening feature of the SCSWW is mainly due to buoyancy flux effect (67% contribution). The weak wind and anticyclonic wind stress curl (22% contribution) present an environment which facilitates the accumulation of warm water; (2) in the steady stage, the decrease feature near the Vietnam coast and increase eature in southeast of the SCSWW thickness are mainly caused by wind stress (70% contribution); (3) in the flinching stage, the thickness reduction of the SCSWW is mainly due to upwelling and enhanced turbulent mixing caused by wind stress (accounts for 60%).
Keywords:The South China Sea warm water (SCSWW)   POM model   seasonal variation   mecha-
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