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南黄海及东海北部夏季若干水文特征和环流的分析
邹娥梅,郭炳火,汤毓祥,李载学,李兴宰
1.海洋环境科学和数值模拟国家海洋局重点实验室 国家海洋局第一海洋研究所 青岛266003;2.韩国海洋研究所 安山 汉城 425-600
摘要:
利用“中韩黄海水循环动力学合作研究”1997年7月航次和“黄海综合环境调查”1998年8月航次观测所得的CTD资料,对南黄海及东海北部夏季的水文特征和特大洪水年长江冲淡水扩展特征进行探讨。同时还根据夏季所施放的卫星跟踪漂流浮标的轨迹、底层人工水母的漂移路径及等密面深度的分布对夏季环流作了阐述,提出夏季南黄海环流并非单一的气旋式系统,其内部还存在着气旋、反气旋的多个较小的环流;东海北部交替出现气旋、反气旋涡旋。
关键词:  南黄海  东海北部  水文特征  潮致冷水域  环流  涡旋
DOI:
分类号:
基金项目:国家自然科学基金资助项目,49676283号
AN ANALYSIS OF SUMMER HYDROGRAPHIC FEATURES AND CIRCULATION IN THE SOUTHERN YELLOW SEA AND THE NORTHERN EAST CHINA SEA
ZOU E Mei1,2, GUO Bing Huo1,2, TANG Yu Xiang1,2, Jae Hak Lee3, Heung Jae Lie3
1.Key Laboratory of Marine Science and Numerical Modeling,State Oceanic Administration;2.First Institute of Oceanography,State Oceanic Administration,Qingdao,266003;3.Korea Ocean Research and Development Institute , Ansan, Korea Seoul 425-600
Abstract:
Summer hydrographic features and the extension of the Changjiang River Diluted Water in the southern Yellow Sea and northern East China Sea are described, based on the CTD data measured in summer cruise (July 1997) of “PRC-Korea Joint Investigation of Ocean Circulation Dynamics in the southern Yellow Sea” and that (August 1998) of “Comprehensive Hydrographic Investigation in Continental Shelf of the Yellow and the East China Seas”. Analyses show that there are several cold water areas induced by tidal mixing near shore in summer, which is one of the outstanding features in the Yellow Sea. The satellite infrared imagery on the July 28 of 1998 demonstrated the belt of cold water coincided completely with topography near the edge of Subei shallow shoal and it also shows radiated stripes with low temperature alternatively, which implies that the upwelling cold water near the Subei shallow shoal is totally caused by tidal mixing. Changjiang River Diluted Water is another surface important feature in summer. The Changjiang River runoff from the river mouth flowed southeastward firstly, and then turned to northeast at about 31°N, 122°30'E toward the direction of Chejudao to form a distinct fresh water tongue which almost extended through to Chejudao in the high flooding year of 1998. According to the in situ CTD observed data from the August of 1998 and the analysis of historical data, the authors suggested that the extension of Changjiang River Diluted Water could be summarized into three stages after it flows into the sea, i. e. turning, extending and transmitting stages. In the meantime, the summer circulation is also depicted in this paper, based on the satellite drifter buoy trajectories deployed in summer, the bottom drifter trajectories in the July of 1997 and the distribution of depth at 23.0m isopycnal in the August of 1998. The results show that one part of coastal currents near the Subei shallow shoal flow southeastward along the 40–50m isobath, and then turns by east flowing into the East China Sea at about 32°–33°N, whereas another part flows northward along 124°E at about 33°30'N. Thus, an anti-clockwise cyclonic circulation is formed. In the east of the study sea area, there is a warm water tongue with relative high temperature stretching from the northeast to the southwest, which forms a clockwise anticyclonic circulation. The existence of both cyclonic and anticyclonic circulations make the water between 123°E and 124°E flow northward, up to the northern Yellow Sea. Meanwhile, three alternative gyres are present in the northern East China Sea: the cyclonic gyre out of the Changjiang River mouth, the cyclonic gyre between the sea area of 125°–126°30'E, 30°–32°N, and the anticyclonic gyre between 123°30'–124°30'E, 31°– 32°N.
Key words:  Southern Yellow Sea, The northern East China Sea, Hydrographic feature, Cold water induced by tidal mixing, Circulation, Gyre
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