Three-dimensional water quality model based on FVCOM for total load control management in Guan River Estuary, Northern Jiangsu Province

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• 作者：Li Zhang ; Weibo Lin ; Keqiang Li ; Jianming Sheng…
• 关键词：water quality model ; FVCOM ; total load control management ; Guan River Estuary ; Yellow Sea
• 刊名：Journal of Ocean University of China
• 出版年：2016
• 出版时间：April 2016
• 年：2016
• 卷：15
• 期：2
• 页码：261-270
• 全文大小：1,715 KB
• 参考文献：Borja, Á., Elliott, M., Carstensen, J., Heiskanen, A. S., van de Bund, W., 2010. Marine management Towards an integrated implementation of the European Marine Strategy Framework and the Water Framework Directives. Marine Pollution Bulletin, 60: 2175–2186.CrossRef
  Cerco, C. F., and Noel, M. R., 2013. Twenty-one-year simulation of Chesapeake Bay water quality using the ce-qual-icm eutrophication model. Journal of the American Water Resources Association, 49(5): 1119–1134.
  Chen, C., Beardsley, R. C., and Cowles, G., 2006. An unstructured grid, Finite Volume Coastal Ocean Model (FVCOM) system. Oceanography, 19(1): 78–89.CrossRef
  Chen, B. L., He, X. R., Wang, T. Y., and Liu, H., 2008. Heavy metals pollution and potential ecological risk in sediment of Lianyungang sea area. Marine Environmental Science, 27: 246–249 (in Chinese with English Abstract).
  Chen, C., Liu, H., and Beardsley, R. C., 2003. An unstructured, finite-volume, three-dimensional, primitive equation ocean model: Application to coastal ocean and estuaries. Journal of Atmospheric and Oceanic Technology, 20: 159–186.CrossRef
  Cui, C., Hua, W., Yuan, G., Jiao, X., Fang, N., Lu, Y., Zhang, X., and Mao, C., 2013. Survey and evaluation on water quality of coastal area in Guanhe estuary. China Resources Comprehensive Utilization, 31(12): 41–44 (in Chinese with English Abstract).
  Dobson, F. W., and Smith, S. D., 1988. Bulk models of solar radiation at sea. Quarterly Journal of the Royal Meteorological Society, 114(479): 165–182.CrossRef
  Dou, C., Liu, J., Lu, J., Lü, H., and Tian, H., 2007. Water quality investigation research in Guan River Sea area. Environmental Science and Management, 32: 29–32 (in Chinese, with English Abstract).
  Fitzpatrick, J. J., 2009. Assessing skill of estuarine and coastal eutrophication models for water quality managers. Journal of Marine Systems, 76: 195–211.CrossRef
  GESAMP (Joint Group of Experts on the Scientific Aspects of Marine Pollution), 1991. Coastal Modelling. Reports and Studies, GESAMP, 43: 187pp.
  Halpern, B. S., Walbridge, S., Selkoe, K. A., Kappel, C. V., Micheli, F., D’Agrosa, C., Bruno, J. F., Casey, K. S., Ebert, C., Fox, H. E., Fujita, R., Heinemann, D., Lenihan, H. S., Madin, E. M. P., Perry, M. T., Selig, E. R., Spalding, M., Steneck, R., and Watson, R., 2008. A global map of human impact on marine ecosystems. Science, 319(5865): 948–952.CrossRef
  Han, H. Y., Li, K. Q., Wang, X. L., Shi, X. Y., Qiao, X. D., and Liu, J., 2011. Environmental capacity of nitrogen and phosphorus pollutions in Jiaozhou Bay, China: Modeling and assessing. Marine Pollution Bulletin, 63: 262–266.CrossRef
  He, X., Pang, Y., Song, X., Chen, B., Feng, Z., and Ma, Y., 2014. Distribution, sources and ecological risk assessment of PAHs in surface sediments from Guan River Estuary, China. Marine Pollution Bulletin, 80: 52–58.CrossRef
  Islam, S., and Tanaka, M., 2004. Impacts of pollution on coastal and marine ecosystems including coastal and marine fisheries and approach for management: A review and synthesis. Marine Pollution Bulletin, 48: 624–649.CrossRef
  Kalnay, E., Kanamitsu, M., Kistler, R., Collins, W., Deaven, D., Gandin, L., Iredell, M., Saha, S., White, G., Woolen, J., Zhu, Y., Chelliah, M., Ebisuzaki, W., Higgins, W., Janowiak, J., Mo, K. C., Ropelewski, C., Wang, J., Leetma, A., Reynolds, R., Jenne, R., and Joseph, D., 1996. The NCEP/NCAR 40-year reanalysis project. Bulletin of the American Meteorological Society, 77(3): 437–471.CrossRef
  Kirkpatrick, G. J., Millie, D. F., Moline, M. A., and Schofield, O., 2000. Optical discrimination of a phytoplankton species in natural mixed populations. Limnology and Oceanography, 45(2): 467–471.CrossRef
  Li, K. Q., Zhang, L., Li, Y., Zhang, L. J., and Wang, X., 2015. A three-dimensional water quality model to evaluate the environmental capacity of nitrogen and phosphorus in Jiaozhou Bay, China. Marine Pollution Bulletin, 91: 306–316.CrossRef
  Li, K. Q., Wang, X., Han, X., Shi, X., and Chen, H., 2009. Modelling nitrogen and phosphorus dynamics in mesocosm pelagic ecosystem in Laizhou Bay in China. Journal of Ocean University of China, 8(2): 319–323.CrossRef
  Li, K. Q., Wang, X. L., Liang, S. K., Shi, X. Y., Zhu, C. J., and Chen, H., 2008. A nitrogen and phosphorus dynamics model of mesocosm pelagic ecosystem in the Jiaozhou Bay in China. Acta Oceanologica Sinica, 27(5): 98–110.
  Linker, L. C., Batiuk, R. A., Shenk, G. W., and Cerco, C. F., 2013. Development of the Chesapeake Bay watershed total maximum daily load allocation. Journal of the American Water Resources Association, 49(5): 986–1006.
  Liu, S. M., Zhang, J., Chen, S. Z., Chen, H. T., Hong, G. H., Wei, H., and Wu, Q. M., 2005. Factors influencing nutrient dynamics in the eutrophic Jiaozhou Bay, North China. Progress in Oceanography, 66(1): 66–85.CrossRef
  Liu, W. Y., Lou, F., and Yu, Z. Y., 2006. Analysis of river channel scour and silting evolution and natural condition of navigation channel in the Guanhe River Estuary area. Coastal Engineering, 25: 14–21 (in Chinese with English Abstract.
  Lü, X., Song, J., Li, X., Yuan, H., Zhan, T., Li, N., and Gao, X., 2005. Geochemical characteristics of nitrogen in the southern Yellow Sea surface sediments. Journal of Marine Systems, 56(1): 17–27.CrossRef
  Lung, W. S., 2001. Water Quality Modeling For Waste Load Allocations and TMDLs. Wiley, New York, 352pp.
  Millie, F. D., Schofield, M. O., Kirkpatrick, J. G., Johnson, G., Tester, P. A., and Vinyard, B. T., 1997. Detection of harmful algal bloom using photopigments and absorption signature: A case study of the Florida red tide dinoflagellate, Gymnodinium breve. Limnology and Oceanography, 42: 1240–1251.CrossRef
  Min, B. I., Kim, K. O., and Yuk, J. H., 2011. A harmonic-constants sataset derived from the FDM and FEM tidal models, and real-time tidal prediction for the Yellow and East China Seas. Journal of Coastal Research, 64: 1130–1134.
  Moll, A., and Radach, G., 2001. Review of three-dimensional ecological modelling related to the North Sea shelf. In: Synthesis and New Conception of North Sea Research (SYCON)? Working Group 6. Vol 8, Ber Zent Meeres-Klimaforsch University, Hamburg, 225pp.
  Nikolaidis, N. P., Karageorgis, A. P., Kapsimalis, V., Marconis, G., Drakopoulou, P., Kontoyiannis, H., Krasakopoulou, E., Pavlidou, A., and Pagou, K., 2006. Circulation and nutrient modeling of Thermaikos Gulf, Greece. Journal of Marine Systems, 60(1): 51–62.CrossRef
  Nobre, A. M., Ferreira, J. G., Nunes, J. P., Yan, X. J., Bricker, S., Corner, R., Groom, S., Gu, H. F., Hawkins, A. J. S., Hutson, R., Lan, D. Z., Silva, J. D. L., Pascoe, P., Telfer, T., Zhang, X. L., and Zhu, M. Y., 2010. Assessment of coastal management options by means of multilayered cosystem models. Estuarine, Coastal and Shelf Science, 87: 43–62.CrossRef
  Qiao, X., Wang, X., Liang, S., Shi, X., and Li, K., 2011. Modeling COD distribution based on land-sea quasi-simultaneous monitoring of Jiaozhou Bay and its quantitative assessment. Bioinformatics and Biomedical Engineering, (iCBBE) 5th International Conference on IEEE, 1–4.
  Shenk, G. W., and Linker, L. C., 2013. Development and Application of the 2010 Chesapeake Bay watershed total maximum daily load model. Journal of the American Water Resources Association, 49(5): 1042–1056.
  Stow, C. A., Roessler, C., Borsuk, M. E., Bowen, J. D., and Reckhow, K. H., 2003. A comparison of estuarine water quality models for TMDL development in the Neuse River Estuary. Journal of Water Resources Planning and Management, 129: 307–314.CrossRef
  Testa, J. M. Q., Brady, D. C., Toro, D. M. D., Boynton, W. R., Cornwell, J. C., and Kemp, W. M., 2013. Sediment flux modeling: Simulating nitrogen, phosphorus, and silica cycles. Estuarine Coastal and Shelf Science, 131: 245–263.CrossRef
  Tusseau, M. H., Lancelot, T. C., Martin, J. M., and Tassin, B., 1997. 1-D coupled physical-biological model of the northwestern Mediterranean Sea. Deep-Sea Research II, 44(34): 851–880.CrossRef
  Wool, T. A., Davie, S. R., and Rodriguez, H. N., 2003. Development of three-dimensional hydrodynamic and water quality models to support total maximum daily load decision process for the Neuse River Estuary, North Carolina. Journal of Water Resources Planning and Management, 129(4): 295–306.CrossRef
  Xue, Z., He, R., Fennel, K., Cai, W. J., Lohrenz, S., and Hopkinson, C., 2013. Modeling ocean circulation and biogeochemical variability in the Gulf of Mexico. Biogeosciences Discusssions, 10: 7785–7830.CrossRef
  Zou, R., Carter, S., Shoemaker, L., Parker, A., and Henry, T., 2006. Integrated hydrodynamic and water quality modeling system to support nutrient total maximum daily load development for Wissahickon Creek, Pennsylvania. Journal of Environmental Engineering-ASCE, 132(4): 555–566.CrossRef
  
• 作者单位：Li Zhang (1) (3)
  Weibo Lin (2)
  Keqiang Li (1)
  Jianming Sheng (2)
  Aihong Wei (2)
  Feng Luo (2)
  Yan Wang (1)
  Xiulin Wang (1)
  Longjun Zhang (3)
  
  1. Key Laboratory of Marine Chemistry Theory and Technology, MOE, College of Chemistry and Chemical Engineering, Ocean University of China, Qingdao, 266100, P. R. China
  3. College of Environmental Science and Engineering, Ocean University of China, Qingdao, 266100, P. R. China
  2. Jiangsu Marine Environmental Monitoring Forecasting Center, Tidal Flat Research Center of Jiangsu, Nanjing, 210036, P. R. China
  
• 刊物主题：Oceanography; Meteorology;
• 出版者：Springer Berlin Heidelberg
• ISSN：1993-5021

文摘

Guan River Estuary and adjacent coastal area (GREC) suffer from serious pollution and eutrophicational problems over the recent years. Thus, reducing the land-based load through the national pollutant total load control program and developing hydrodynamic and water quality models that can simulate the complex circulation and water quality kinetics within the system, including longitudinal and lateral variations in nutrient and COD concentrations, is a matter of urgency. In this study, a three-dimensional, hydrodynamic, water quality model was developed in GREC, Northern Jiangsu Province. The complex three-dimensional hydrodynamics of GREC were modeled using the unstructured-grid, finite-volume, free-surface, primitive equation coastal ocean circulation model (FVCOM). The water quality model was adapted from the mesocosm nutrients dynamic model in the south Yellow Sea and considers eight compartments: dissolved inorganic nitrogen, soluble reactive phosphorus (SRP), phytoplankton, zooplankton, detritus, dissolved organic nitrogen (DON), dissolved organic phosphorus (DOP), and chemical oxygen demand. The hydrodynamic and water quality models were calibrated and confirmed for 2012 and 2013. A comparison of the model simulations with extensive dataset shows that the models accurately simulate the longitudinal distribution of the hydrodynamics and water quality. The model can be used for total load control management to improve water quality in this area. Keywords water quality model FVCOM total load control management Guan River Estuary Yellow Sea