Li Yichun, Liu Jingui. A numerical study on salinity stratification at the Oujiang River Estuary, China[J]. Acta Oceanologica Sinica, 2019, 38(11): 40-50. doi: 10.1007/s13131-019-1497-0
Citation: Li Yichun, Liu Jingui. A numerical study on salinity stratification at the Oujiang River Estuary, China[J]. Acta Oceanologica Sinica, 2019, 38(11): 40-50. doi: 10.1007/s13131-019-1497-0

A numerical study on salinity stratification at the Oujiang River Estuary, China

doi: 10.1007/s13131-019-1497-0
  • Received Date: 2018-09-17
  • The Oujiang River Estuary (ORE) is a macrotidal estuary with drastic variation of river discharge and large tidal range. Numerical simulations based on the unstructured grid, Finite-Volume, primitive equation Community Ocean Model (FVCOM) are conducted to investigate the intratidal and intertidal variations of salinity with an extremely upstream river boundary and large computational domain. The dynamic equation of potential energy anomaly is adopted to evaluate the stratification and mixing processes from model results. Meanwhile, the stability of estuarine stratification on different timescales and its spatial variation are studied using estuarine Richardson number and stratification parameter. The critical values of tidal range and river discharge that determine the stratification state are obtained. The critical values exhibit distinct spatial difference. The north branch of the ORE exhibits well-mixed conditions when the tidal range exceeds 3.8, 4.0 and 4.6 m at upper inlet, middle segment and the river mouth, respectively. When river discharge is below 280 m3/s or exceeds 510 m3/s, the upper part of the north branch is well-mixed sustainably. Near the river mouth, river discharge of 280 m3/s is a rough critical value that separates well-mixed and stratified states. It is also concluded that periodic stratification exists in the North Channel. The lower estuary appears to be partially stratified at early ebb or early flood tide, and well-mixed in other tidal stages. The stratification only develops during early ebb in the upper segment. The enhancement of stratification is mainly caused by longitudinal advection and lateral velocity shear, while turbulent mixing and longitudinal tidal strain are the main factors of stratification attenuation.
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  • Burchard H, Baumert H. 1998. The formation of estuarine turbidity maxima due to density effects in the salt wedge. A hydrodynamic process study. Journal of Physical Oceanography, 28(2):309-321, doi: 10.1175/1520-0485(1998)028<0309:TFOETM>2.0.CO;2
    Burchard H, Hofmeister R. 2008. A dynamic equation for the potential energy anomaly for analysing mixing and stratification in estuaries and coastal seas. Estuarine, Coastal and Shelf Science, 77(4):679-687, doi: 10.1016/j.ecss.2007.10.025
    Chant R J, Stoner A W. 2001. Particle trapping in a stratified flood-dominated estuary. Journal of Marine Research, 59(1):29-51, doi: 10.1357/002224001321237353
    Chen Changsheng, Liu Hedong, Beardsley R C. 2003. An unstructured grid, finite-volume, three-dimensional, primitive equations ocean model:application to coastal ocean and estuaries. Journal of Atmospheric and Oceanic Technology, 20(1):159-186, doi: 10.1175/1520-0426(2003)020<0159:AUGFVT>2.0.CO;2
    Cheng Peng, Wilson R E, Chant R J, et al. 2009. Modeling influence of stratification on lateral circulation in a stratified Estuary. Journal of Physical Oceanography, 39(9):2324-2337, doi: 10.1175/2009JPO4157.1
    de Boer G J, Pietrzak J D, Winterwerp J C. 2008. Using the potential energy anomaly equation to investigate tidal straining and advection of stratification in a region of freshwater influence. Ocean Modelling, 22(1-2):1-11, doi: 10.1016/j.ocemod.2007.12.003
    de Vries J J, Ridderinkhof H, Maas L R M, et al. 2015. Intra-and inter-tidal variability of the vertical current structure in the Marsdiep basin. Continental Shelf Research, 93:39-57, doi: 10.1016/j.csr.2014.12.002
    Dyer K R. 1997. Estuaries:A Physical Introduction. 2nd ed. New York:John Wiley & Sons
    Fischer H B. 1972. Mass transport mechanisms in partially stratified estuaries. Journal of Fluid Mechanics, 53(4):671-687, doi: 10.1017/S0022112072000412
    Flores R P, Rijnsburger S, Horner-Devine A R, et al. 2017. The impact of storms and stratification on sediment transport in the Rhine region of freshwater influence. Journal of Geophysical Research, 122(5):4456-4477
    Geyer W R, MacCready P. 2014. The estuarine circulation. Annual Review of Fluid Mechanics, 46:175-197, doi: 10.1146/annurev-fluid-010313-141302
    Hansen D V, Rattray Jr M. 1965. Gravitational circulation in straits and estuaries. Journal of Marine Research, 23:104-122
    Li Ming, Zhong Liejun, Boicourt W C. 2005. Simulations of Chesapeake Bay estuary:Sensitivity to turbulence mixing parameterizations and comparison with observations. Journal of Geophysical Research, 110(C12):C12004, doi: 10.1029/2004JC002585
    Lin Weibo, Wang Yigang, Ruan Xiaohong, et al. 2012. Modeling residual circulation and stratification in Oujiang River Estuary. China Ocean Engineering, 26(2):351-362, doi: 10.1007/s13344-012-0027-z
    MacCready P, Geyer W R. 2010. Advances in estuarine physics. Annual Review of Marine Science, 2:35-58, doi: 10.1146/annurev-marine-120308-081015
    Marques W C, Fernandes E H L, Rocha L A O. 2011. Straining and advection contributions to the mixing process in the Patos Lagoon estuary, Brazil. Journal of Geophysical Research, 116(C3):C03016
    Mayer D G and Butler D G, 1993. Statistical validation. Ecological Modelling, 68:21–32, doi: 10.1016/0304-3800(93)90105-2
    Monismith S G, Burau J R, Stacey M T. 1996. Stratification dynamics and gravitational circulation in northern San Francisco Bay. In:Hollibaugh T, ed. San Francisco Bay:The Ecosystem. Washington, DC:American Association for the Advancement of Science Pacific Division
    Prandle D. 1985. On salinity regimes and the vertical structure of residual flows in narrow tidal estuaries. Estuarine, Coastal and Shelf Science, 20(5):615-635, doi: 10.1016/0272-7714(85)90111-8
    Pu Xiang, Shi J Z, Hu Guodong, et al. 2015. Circulation and mixing along the North Passage in the Changjiang River estuary, China. Journal of Marine Systems, 148:213-235, doi: 10.1016/j.jmarsys.2015.03.009
    Ralston D K, Geyer W R, Traykovski P A, et al. 2013. Effects of estuarine and fluvial processes on sediment transport over deltaic tidal flats. Continental Shelf Research, 60(Suppl):S40-S57
    Shanghai Marine Engineering Survey and Design Institute (SMESDI). 2005. Field measurements of Hydrology and sediment in Wenzhou Oujiang Reclamation project -Technical Report
    Sharples J, Simpson J H, Brubaker J M. 1994. Observations and modelling of periodic stratification in the Upper York River Estuary, Virginia. Estuarine, Coastal and Shelf Science, 38(3):301-312, doi: 10.1006/ecss.1994.1021
    Simpson J H, Bowers D. 1981. Models of stratification and frontal movement in shelf seas. Deep Sea Research Part A. Oceanographic Research Papers, 28(7):727-738
    Simpson J H, Brown J, Matthews J, et al. 1990. Tidal straining, density currents, and stirring in the control of estuarine stratification. Estuaries, 13(2):125-132, doi: 10.2307/1351581
    Simpson J H, Sharples J, Rippeth T P. 1991. A prescriptive model of stratification induced by freshwater runoff. Estuarine, Coastal and Shelf Science, 33(1):23-35, doi: 10.1016/0272-7714(91)90068-M
    Valle-Levinson A. 2010. Definition and classification of estuaries. In:Valle-Levinson A, ed. Contemporary Issues in Estuarine Physics. Cambridge:Cambridge University Press, 1-11
    Wang Shunzhong, Li Haolin. 2001. Model study of Yangfushan reclamation project in Oujiang River. Ocean Engineering (in Chinese), 19(1):51-58
    Wang Liuyang, Shen Yongming. 2014. Study on hydrodynamic environment of land-making project at Wenzhou shoal. Chinese Journal of Hydrodynamics (in Chinese), 29A(1):67-75
    Warner J C, Sherwood C R, Arango H G, et al. 2005. Performance of four turbulence closure models implemented using a generic length scale method. Ocean Modelling, 8(1-2):81-113, doi: 10.1016/j.ocemod.2003.12.003
    Willmott C J. 1981. On the validation of models. Physical Geography, 2(2):184-194, doi: 10.1080/02723646.1981.10642213
    Xu Ting, You Xueyi. 2016. Effects of large-scale embankments on the hydrodynamics and salinity in the Oujiang River Estuary, China. Journal of Marine Science and Technology, 22(1):71-84, doi: 10.1007/s00773-016-0394-x
    Xu Ting, You Xueyi. 2017. Numerical simulation of suspended sediment concentration by 3D coupled wave-current model in the Oujiang River Estuary, China. Continental Shelf Research, 137:13-24, doi: 10.1016/j.csr.2017.01.021
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