LI Bingtian, CAO Anzhou, LV Xianqing. Three-dimensional numerical simulation of M2 internal tides in the Luzon Strait[J]. Acta Oceanologica Sinica, 2015, 34(11): 55-62. doi: 10.1007/s13131-015-0748-y
Citation: LI Bingtian, CAO Anzhou, LV Xianqing. Three-dimensional numerical simulation of M2 internal tides in the Luzon Strait[J]. Acta Oceanologica Sinica, 2015, 34(11): 55-62. doi: 10.1007/s13131-015-0748-y

Three-dimensional numerical simulation of M2 internal tides in the Luzon Strait

doi: 10.1007/s13131-015-0748-y
  • Received Date: 2015-03-19
  • Rev Recd Date: 2015-05-28
  • A three-dimensional isopycnic-coordinate internal tidal model is employed to investigate the generation, propagation, vertical structure and energy conversion of M2 internal tides in the Luzon Strait (LS) with mooring observations. Simulated results, especially the tidal current amplitudes, agree well with observations, demonstrating the reasonability and accuracy of the model. Results indicate that M2 internal tides mainly propagate into three directions horizontally, i.e., eastward towards the western Pacific Ocean, westward towards the Dongsha Island and southwestward towards the South China Sea Basin. In the horizontal direction, tidal current amplitudes decrease as distance increases away from the LS; in the vertical direction, they show an obvious decreasing tendency with depth. Between the double ridges of the LS, a clockwise gyre of M2 baroclinic energy flux appears, which is caused by reflections of M2 internal tides at supercritical topographies, and resonance of M2 internal tides happens along 19.5° and 21.5°N due to the heights and separation distance of the double ridges. The total energy conversion in the LS is about 14.20 GW.
  • loading
  • Alford M H, MacKinnon J A, Nash J D, et al. 2011. Energy flux and dissipation in Luzon Strait: two tales of two ridges. Journal of Physical Oceanography, 41(11): 2211-2222
    Buijsman M C, Kanarska Y, McWilliams J C. 2010a. On the generation and evolution of nonlinear internal waves in the South China Sea. Journal of Geophysical Research, 115: C02012
    Buijsman M C, McWilliams J C, Jackson C R. 2010b. East-west asymmetry in nonlinear internal waves from Luzon Strait. Journal of Geophysical Research, 115: C10057
    Caruso M J, Gawarkiewicz G G, Beardsley R C. 2006. Interannual variability of the Kuroshio intrusion in the South China Sea. Journal of Oceanography, 62(4): 559-575
    Chavanne C, Flament P, Carter M, et al. 2010. The surface expression of semidiurnal internal tides near a strong source at Hawaii. Part I: observations and numerical predictions. Journal of Physical Oceanography, 40(6): 1155-1179
    Chao S Y, Ko D S, Lien R C, et al. 2007. Assessing the west ridge of Luzon Strait as an internal wave mediator. Journal of Oceanography, 63(6): 897-911
    Chen Gengxin, Gan Jianping, Xie Qiang, et al. 2012. Eddy heat and salt transports in the South China Sea and their seasonal modulations. Journal of Geophysical Research, 117: C05021
    Chen Gengxin, Hu Po, Hou Yijun, et al. 2011. Intrusion of the Kuroshio into the South China Sea, in September 2008. Journal of Oceanography, 67(4): 439-448
    Chu P C, Li Rongfeng. 2000. South China Sea isopycnal-surface circulation. Journal of Physical Oceanography, 30(9): 2419-2438
    Chu Xiaoqing, Xue Huijie, Qi Yiquan, et al. 2014. An exceptional anticyclonic eddy in the South China Sea in 2010. Journal of Geophysical Research, 119(2): 881-897
    Du Tao, Tseng Y H, Yan Xiaohai. 2008. Impacts of tidal currents and Kuroshio intrusion on the generation of nonlinear internal waves in Luzon Strait. Journal of Geophysical Research, 113: C08015
    Duda T F, Lynch J F, Irish J D, et al. 2004. Internal tide and nonlinear internal wave behavior at the continental slope in the northern South China Sea. IEEE Journal of Oceanic Engineering, 29(4): 1105-1130
    Eich M L, Merrifield M A, Alford M H. 2004. Structure and variability of semidiurnal internal tides in Mamala Bay, Hawaii. Journal of Geophysical Research, 109: C05010
    Gerkema, T, Lam F P A, Maas L R M. 2004. Internal tides in the Bay of Biscay: Conversion rates and seasonal effects. Deep-Sea Research Part II: Topical Studies in Oceanography, 51(25-26): 2995-3008
    Holloway P E, Merrifield M A. 1999. Internal tide generation by seamounts, ridges, and islands. Journal of Geophysical Research, 104(C11): 25937-25951
    Hu Jianyu, Kawamura H, Hong Huasheng, et al. 2000. A review on the currents in the South China Sea: seasonal circulation, South China Sea warm current and Kuroshio intrusion. Journal of Oceanography, 56(6): 607-624
    Huan Lee I, Wang Yuhuai, Yang Y, et al. 2012. Temporal variability of internal tides in the northeast South China Sea. Journal of Geophysical Research, 117: C02013
    Jan S, Chern C S, Wang J, et al. 2012. Generation and propagation of baroclinic tides modified by the Kuroshio in the Luzon Strait. Journal of Geophysical Research, 117: C02019
    Jan S, Lien R C, Ting Chihua. 2008. Numerical study of baroclinic tides in Luzon Strait. Journal of Oceanography, 64(5): 789-802
    Kämpf J. 2009. Long Waves in A Channel: Ocean Modeling for Beginners: Using Open-Source Software. Berlin: Springer
    Kang S K, Foreman M G G, Crawford W R, et al. 2000. Numerical modeling of internal tide generation along the Hawaiian Ridge. Journal of Physical Oceanography, 30(5): 1083-1098
    Li Qiang. 2014. Numerical assessment of factors affecting nonlinear internal waves in the South China Sea. Progress in Oceanography, 121: 24-43
    Miao Chunbao, Chen Haibo, Lü Xianqing. 2011. An isopycnic-coordinate internal tide model and its application to the South China Sea. Chinese Journal of Oceanology and Limnology, 29(6): 1339-1356
    Munk W. 1997. Once again: once again—tidal friction. Progress in Oceanography, 40(1-4): 7-35
    Munk W, Wunsch C. 1998. Abyssal recipes II: energetics of tidal and wind mixing. Deep-Sea Research Part I: Oceanographic Research Papers, 45(12): 1977-2010
    Niwa Y, Hibiya T. 2004. Three-dimensional numerical simulation of M2 internal tides in the East China Sea. Journal of Geophysical Research: Oceans (1978-2012), 109(C4)
    Ray R D, Mitchum G T. 1996. Surface manifestation of internal tides generated near Hawaii. Geophysical Research Letters, 23(16): 2101-2104
    Ray R D, Mitchum G T. 1997. Surface manifestation of internal tides in the deep ocean: Observations from altimetry and island gauges. Progress in Oceanography, 40(1-4): 135-162
    Rudnick D L, Boyd T J, Brainard R E, et al. 2003. From tides to mixing along the Hawaiian Ridge. Science, 301(5631): 355-357
    Simmons H L, Hallberg R W, Arbic B K. 2004. Internal wave generation in a global baroclinic tide model. Deep-Sea Research Part II: Topical Studies in Oceanography, 51(25-26): 3043-3068
    Wang Dongping. 2012. Diurnal modulation of semidiurnal internal tides in Luzon Strait. Ocean Modelling, 59-60: 1-10
    Wu Lidan, Miao Chunbao, Zhao Wei. 2013. Patterns of K1 and M2 internal tides and their seasonal variations in the northern South China Sea. Journal of Oceanography, 69(4): 481-494
    Xu Zhenhua, Yin Baoshu, Hou Yijun. 2011. Multimodal structure of the internal tides on the continental shelf of the northwestern South China Sea. Estuarine, Coastal and Shelf Science, 95(1): 178-185
    Xu Zhenhua, Yin Baoshu, Hou Yijun, et al. 2013. Variability of internal tides and nearinertial waves on the continental slope of the northwestern South China Sea. Journal of Geophysical Research: Oceans, 118(1): 197-211
    Xu Zhenhua, Yin Baoshu, Hou Yijun, et al. 2014. Seasonal variability and north-south asymmetry of internal tides in the deep basin west of the Luzon Strait. Journal of Marine Systems, 134: 101-112
    Zhao Zhongxiang. 2014. Internal tide radiation from the Luzon Strait. Journal of Geophysical Research: Oceans, 119(8): 5434-5448
  • 加载中

Catalog

    通讯作者: 陈斌, bchen63@163.com
    • 1. 

      沈阳化工大学材料科学与工程学院 沈阳 110142

    1. 本站搜索
    2. 百度学术搜索
    3. 万方数据库搜索
    4. CNKI搜索

    Article Metrics

    Article views (1466) PDF downloads(1249) Cited by()
    Proportional views
    Related

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return