Volume 4 Issue 1
Mar.  2011
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Long-xi HAN, Fei HUO, Juan SUN. 2011: Method for calculating non-point source pollution distribution in plain rivers. Water Science and Engineering, 4(1): 83-91. doi: 10.3882/j.issn.1674-2370.2011.01.008
Citation: Long-xi HAN, Fei HUO, Juan SUN. 2011: Method for calculating non-point source pollution distribution in plain rivers. Water Science and Engineering, 4(1): 83-91. doi: 10.3882/j.issn.1674-2370.2011.01.008
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Method for calculating non-point source pollution distribution in plain rivers

doi: 10.3882/j.issn.1674-2370.2011.01.008
  • 1.

    State Key Laboratory of Hydrology-Water Resources and Hydraulic Engineering, Hohai University, Nanjing 210098, P. R. China

  • 3.

    College of Environmental Science and Engineering, Hohai University, Nanjing 210098, P. R. China

  • 2.

    Key Laboratory of Integrated Regulation and Resource Development on Shallow Lakes, Ministry of Education, Hohai University, Nanjing 210098, P. R. China

Funds:  This work was supported by the Major Science and Technology Program for Water Pollution Control and Treatment in China (Grant No. 2008X07101-005).
More Information
  • Corresponding author: Fei HUO
  • Received Date: 2010-08-04
  • Rev Recd Date: 2010-10-26
    Abstract
  • The land area in river network is divided into some foursquare cells with certain scale for the demand of precision, proceeding from the physical mechanism of the rainfall-runoff and runoff pollution, the non-point source pollution from cells are estimated using the export coefficient of different land use types. According to the terrain of plain river network area and the positions of land cells and river network’s reaches, a principle is advanced which indicates that the non-point source pollution from a land cell should all get into its closest reach. A corresponding relationship between a single land cell and its pollution receiving reach can be obtained under the principle. In view of the above, a spatial distribution model of the rainfall-runoff and non-point source pollution in reaches of plain river network area is established. The method can provide a technological support for the further research on the dynamic effect on water quality which is caused by non-point source pollution.

     

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    • References(21)
  • Bennion, H., Johnes, P., Ferrier, R., Phillips, G., and Haworth, E. 2005. A comparison of diatom phosphorus transfer functions and export coefficient models as tools for reconstructing lake nutrient histories. Freshwater Biology, 50(10), 1651-1670. [doi: 10.1111/j.1365-2427.2005.01428.x]
    Chang, N. B., Chen, H. W., Jeng, K. Y., Ning, S. K., and Lee, C. S. 2001. Evaluation of non-point source loads in the reservoir watershed using the GIS/GPS/RS information technologies and numerical models. Water International, 26(2), 239-251. [doi: 10.1080/02508060108686910]
    Duan, L., Duan, Z. Q., and Xia, S. Q. 2006. Quantification of non-point pollution from uplands in Taihu Lake catchment. Bulletin of Soil and Water Conservation, 26(6), 40-43. (in Chinese)
    Han, L. X., and Jin, Z. Q. 1998. Roughness calibration and formular of area pollution sources based on “Three Steps” method in river network. Journal of Hydraulic Engineering, 29(7), 30-34. (in Chinese)
    Jin, Y., Li, H. P., and Li, J. L. 2007. The impact of non-point pollutant load of land use changes in Taihu Basin. Journal of Agro-Environment Science, 26(4), 1214-1218. (in Chinese)
    Johnes, P., Moss, B., and Phillips, G. 1996. The determination of total nitrogen and total phosphorus concentrations in freshwaters from land use, stock headage and population data: Testing of a model for use in conservation and water quality management. Freshwater Biology, 36(2), 451-473. [doi:10.1046/ j.1365-2427.1996.00099.x]
    Li, H. P., Liu, X. M., and Huang, W. Y. 2004. The non-point output of different land use types in Zhexi Hydraulic Region of Taihu Basin. Acta Geographica Sinica, 59(3), 401-408. (in Chinese)
    Li, Z. F., Yang, G. S., and Li, H. P. 2009. Estimated nutrient export loads based on improved export coefficient model in Xitiaoxi Watershed. Environmental Science, 30(3), 668-672. (in Chinese)
    Pieterse, N. M., Bleuten, W., and Jorgensen, S. E. 2003. Contribution of point sources and diffuse sources to nitrogen and phosphorus loads in lowland river tributaries. Journal of Hydrology, 271(1-4), 213-225. [doi: 10.1016/S0022-1694(02)00350-5]
    Shrestha, S., Kazama, F., and Newham, L. T. H. 2008a. A framework for estimating pollutant export coefficients from long-term in-stream water quality monitoring data. Environmental Modelling and Software, 23(2), 182-194. [ doi: 10.1016/j.envsoft.2007.05.006]
    Shrestha, S., Kazama, F., Newham, L. T. H., Babel, M. S., Clemente, R. S., Ishidaira, H., Nishida, K., and Sakamoto, Y. 2008b. Catchment scale modelling of point source and non-point source pollution loads using pollutant export coefficients determined from long-term in-stream monitoring data. Journal of Hydro-environment Research, 2(3), 134-147. [ doi: 10.1016/j.jher.2008.05.002]
    Sivertun, A., and Prange, L. 2003. Non-point source critical area analysis in the Gisselö watershed using GIS. Environmental Modelling and Software, 18(10), 887-898. [ doi: 10.1016/S1364-8152(03)00107-5]
    Susanna, T. Y., and Chen, W. L. 2002. Modeling the relationship between land use and surface water quality. Journal of Environmental Management, 66(4), 377-393. [doi: 10.1006/jema.2002.0593]
    Vagstad, N., Stalnacke, P., Andersen, H. E., Deelstra, J., Jansons, V., Kyllmar, K., Loigu, E., Rekolainen, S., and Tumas, R. 2004. Regional variations in diffuse nitrogen losses from agriculture in the Nordic and Baltic regions. Hydrology and Earth System Sciences, 8(4), 651-662. [doi: 10.5194/hess-8-651-2004]
    Wang, P. 2006. Study and Application of Non-point Source Pollution Model of River Network Area Based on Digital Basin System. Ph. D. Dissertation. Nanjing: Hohai University. (in Chinese)
    Winter, J. G., and Duthie, H. C. 2007. Export coefficient modeling to assess phosphorus loading in an urban watershed. Journal of the American Water Resources Association, 36(5), 1053-1061. [doi:10.1111/ j.1752-1688.2000.tb05709.x]
    Xia, L. Z., Yang, L. Z., Wu, C. J., and Wu, Y. F. 2003. Distribution of nitrogen and phosphorus loads in runoff in a representative town in Tai Lake Region. Journal of Agro-Environment Science, 22(3), 267-270. (in Chinese)
    Xue, L. H., and Yang, L. Z. 2009. Research advances of export coefficient model for non-point source pollution. Chinese Journal of Ecology, 28(4), 755-761. (in Chinese)
    Yang, L. Z., Wang, D. J., and Xia, L. Z. 2004. Features and ways of control of non-point agricultural pollution in Taihu Area. China Water Resources, (20), 29-30. (in Chinese)
    Zhang, H., and Huang, G. H. 2010. Assessment of non-point source pollution using a spatial multicriteria analysis approach. Ecological Modelling, 222(2), 313-321. [doi: 10.1016./j.ecolmodel.2009.12.011]
    Zobrist, J., and Reichert, P. 2006. Bayesian estimation of export coefficients from diffuse and point sources in Swiss watersheds. Journal of Hydrology, 329(1-2), 207-223. [doi: 10.1016/j.jhydrol.2006.02.014]
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