我国潮汐潮流区域预报的发展

doi:10.11867/j.issn.1001-8166.2008.04.0331

地球科学进展 ›› 2008, Vol. 23 ›› Issue (4): 331 -336. doi: 10.11867/j.issn.1001-8166.2008.04.0331

综述与评述下一篇

我国潮汐潮流区域预报的发展

方国洪，魏泽勋，王永刚

国家海洋局第一海洋研究所，山东青岛 266061

收稿日期:2008-02-26 修回日期:2008-03-25 出版日期:2008-04-10
通讯作者: 方国洪 E-mail:fanggh@fio.org.cn
基金资助:
国家自然科学基金项目“中国近海及邻近海区海洋与地球潮汐相互作用研究”（编号：40676009）资助.

Development of Tide and Tidal Current Regional Prediction in China

Fang Guohong，Wei Zexun，Wang Yonggang

First Institute of Oceanography, State Oceanic Administration, Qingdao 266061,China

Received:2008-02-26 Revised:2008-03-25 Online:2008-04-10 Published:2008-04-10

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简要回顾了我国潮汐潮流区域预报的发展过程。1959—1964年期间按前苏联杜瓦宁方法编制的永久潮流表是第一代预报产品，该产品提供了我国近海若干站点5 m层潮流预报资料。1970—1978年期间按方国洪提出的方法而研制的永久预报图表集是第二代预报产品，提供了基本上覆盖我国近海的多层潮流预报资料；这两代产品均以纸质图表为载体。2005—2006年期间方国洪等研制了第三代预报产品，覆盖了我国近海各海区，分辨率达到5′×5′，垂向10层，并可自动内插到任意点和任意水层。同时介绍了三代产品的研发过程及基本原理

关键词: 潮流, 潮汐区域预报, 中国近海

This paper reviews the development of the tide and tidal current prediction in China. The first generation prediction product was developed in 1959-1964. This product, called the Perpetual Tidal Current Tables, provided predicted tidal current data at 5 m depth at the same limited stations. These tables were compiled based on the method developed by Дуванин. The second generation prediction product, called the Atlas of Perpetual Tide and Tidal Current Prediction for China Adjacent Seas, was completed during 1970-1978. This product was compiled based on the method developed by Fang Guohong. The atlas covered nearly entire sea areas adjacent to China and provided tidal current data at 5 levels in the vertical. Both the first and second generation products used printed paper as platforms. During 2005-2006 we developed the third generation prediction product. This product covered the entire China adjacent seas, with a resolution of 5′×5′ and 10 levels in the vertical. The product allowed interpolation to an arbitrary location and level. The development processes and the basic principles are introduced in the present paper.

Key words: Tide, Tidal current, Regional prediction, China adjacent seas.

中图分类号:

P731.34

[1] Consortium of Universities for the Advancement of Hydrologic Science [R/OL]. http://www.cuahsi.org/hos.html，2007.

[2] Reckhow K，Band L，Duffy C，et al. A Paper Prototype of the Neuse Watershed. CUAHSI Technical Report #6. [EB/OL]. http://www.cuahsi.org/publications/Neuse_Report_final.pdf，2004.

[3] Rosnay Joel de. The Macro Scope: A new World Scientific System [M]. USA:HarperCollins Publishers，1979.

[4] Natural Environment Research Council [EB/OL] .http://www.nerc.ac.uk/locar，2007.

[5] Hooper R，Duncan J. Designing Hydrologic Observatories as a Community Service. CUAHSI Technical Report #7 [EB/OL]. http://www.cuahsi.org/publications/cuahsi_tech_rpt_7DRAFT.pdf，2005.

[6] Smith J，Welty C，Potter K，et al. Visions for Hydrologic Science Research. CUAHSI Technical Report #1 [EB/OL]. http://www.cuahsi.org/publications/cuahsi_tech_rpt_1.pdf，2002.

[7] Maidment D，Graham W，Lall U，et al. Hydrologic Observatory Network CUAHSI Technical Report #2 [EB/OL]. http://www.cuahsi.org/publications/cuahsi_tech_rpt_2.pdf，2002.

[8] Selke J，Krajewski W F，Caelson D，et al. A Technical Report for the Hydrologic Measurement Technology Facility of CUAHSI. Technical Report #3 [EB/OL]. http://www.cuahsi.org/ publications/cuahsi_tech_rpt_3.pdf，2002.

[9] Band L，Ogden F，Butler J，et al. Hydrologic Observatory Network CUAHSI Technical Report #4 [EB/OL]. http://www.cuahsi.org/publications/cuahsi_tech_rpt_4.pdf，2002.

[10] The University Corporation for Atmospheric Research [EB/OL]. http://www.ucar.edu，2006.

[11] Huntington T G. Evidence for intensification of the global water cycle: Review and synthesis [J]. Journal of Hydrology，2006，319: 83-95.

[12] Grigg N，Boyer E，Dozier J，et al. A National Center for Hydrologic Synthesis. A report of a CUAHSI workshop [EB/OL]. http://www.cuahsi.org/publications/cuahsi_tech_rpt_5.pdf，2003.[13] Alexander Karsner（Assistant Secretary） Energy Efficiency and Renewable Energy [EB/OL]. http://www1.eere.energy.gov/office_eere/congressional_test_052405_house.html，2006.

[14] Xiao Honglang，Cheng Guodong . Water issue and management at basin level in Heihe river， northwestern China [J]. Journal of Desert Research，2006，26（1）：218-222. [肖洪浪，程国栋. 黑河流域水问题与流域水管理初研[J] .中国沙漠，2006，26（1）：218-222.]

[15] Leng Shuying，Li Xiubin，Cheng Guodong. The progress of studies on the environmental change and ecological issues in western China [J]. Science Foundation in China，2005，19（5）: 262-266.[冷疏影，李秀彬，程国栋，等. 中国西部环境和生态科学重大研究计划阶段性进展及深入研究的问题[J].中国科学基金，2005，19（5）：262-266.]

[16] Cheng Guodong，Xiao Honglang，Xu Zhongmin，et al. Water issue and its Countermeasure in the inland river basins of northwest China—A case study in Heihe river basin [J]. Journal of Glaciology and Geocryology，2006，28（3）: 406-413.[程国栋，肖洪浪，徐中民，等.中国西北内陆河水问题及其应对策略——以黑河流域为例[J] .冰川冻土，2006，28（3）: 406-413. ]

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