| 摘要: |
| 海洋中沿岸的上升流是近岸环流的重要组成部分,它能把低温、高盐和富含营养盐的深底层海水带到真光层,为浮游生物的光合作用提供充足的养料,从而对海区的初级生产力分布和生物资源量产生深刻影响。
赵保仁等(1992,1993,2001)曾报道过,在长江口海区的北部,大约以31°30′N、122°40′E为中心,在经纬方向上各达1度左右的上升流区,来自深底层的变性后的台湾暖流高盐水,在这里可以上升到5~10m层附近水域,并显著地影响到长江口的盐度分布和长江冲淡水的扩散特征及初级生产力的分布特征。近年来的观测,如1988年7月的东海海洋通量调查(白虹等,2002)和1998年8月的中韩黄海联合调查(邹娥梅等,2001)也都一再证实在长江口北部水域存在着上升流现象。此外,王辉(1996)还曾用数值方法模拟出了长江口的上升流现象。为进一步探讨这一上升流的形成机制,李徽翡等(2002)曾用POM(Mellor,1996;Blumberg等,1987)以5′×5′的水平网格计算了东中国海的三维环流特征,在他们的计算结果中,几乎所有已被观测所证实的东中国海的环流现象,都得到了较成功的数值模拟。本文将用这一模式计算得到的垂直流速,讨论长江口海区的上升流现象及其形成机制,为今后的研究提供重要的科学依据。 |
| 关键词: 长江口 数值模拟 上升流 |
| DOI: |
| 分类号: |
| 基金项目:中国科学院海洋研究所调查研究报告第4480号。国家自然科学基金资助项目,49676279号;国家重点研究发展规划资助项目,G1999043808号。 |
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| NUMERICAL SIMULATION OF UPWELLING IN THE CHANGJIANG RIVER MOUTH AREA |
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ZHAO Baoren, LI Huifei, YANG Yuling
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Institute of Oceanology, The Chinese Academy of Sciences
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| Abstract: |
| With the vertical velocity obtained by POM for simulating the circulation in the East China Seas, the upwelling and downwelling in the Changjiang River Mouth area are discussed. This simulation showed convincingly that upwelling exists in the area of the northern part of the Changjiang River Mouth; and that the downwelling which exists in its southern part which separates the upwelling at the Chang jiang River Mouth from the Men and Zhe coastal upwelling. This simulation showed that the upwelling at the Chang jiang River Mouth is caused by interaction of the Taiwan Warm Current with the slope bottom topography; and that southwest the monsoon in summer can strengthen the upwelling at the Changjiang River Mouth and the Men and Zhe coastal upwelling. |
| Key words: Chang jiang River Mouth upwelling numerical simulation |
