Nonpoint source pollution

被引:11
作者
Islam F. [1 ,3 ]
Lian Q. [1 ,3 ]
Ahmad Z.U. [1 ,3 ]
Zappi M.E. [2 ,3 ]
Yao L. [4 ]
Gang D.D. [1 ,3 ]
机构
[1] Department of Civil Engineering, University of Louisiana at Lafayette, Lafayette, 70504, LA
[2] Department of Chemical Engineering, University of Louisiana at Lafayette, Lafayette, 70504, LA
[3] Center for Environmental Technology, The Energy Institute of Louisiana, P. O. Box 43597, Lafayette, 70504, LA
[4] Collaborative Innovation Center of Water Security for Water Source Region of Mid-line of South-to-North Diversion Project of Henan Province, Nanyang Normal University, Nanyang, 473061, Henan
来源
Water Environment Research | 2018年 / 90卷 / 10期
关键词
Agricultural runoff; Best management practices; Mathematical model; SWAT; Urban stormwater;
D O I
10.2175/106143017X15131012188033
中图分类号
U6 [水路运输]; TV91 [];
学科分类号
0824 ;
摘要
A review of the literature published during year 2017 on topics relating to nonpoint source pollution (NPS) is presented. This article is written with a view to cater the need of nonpoint source pollution research and to summarize the new advancements in NPS control. Research developments on assessing, monitoring, and controlling the nonpoint source pollution are the main focus of this review. Future research topics related to NPS are also recommended. © 2018 Water Environment Federation.
引用
收藏
页码:1872 / 1898
页数:26
相关论文
共 114 条
  • [61] Mcechan M.B., Barnes A., Fychan R., Marley C.L., A Simulation Modelling Study of Water Pollution Caused by Outwintering of Cows, Comp. Electron. Agr., 142, pp. 397-405, (2017)
  • [62] Mekonnen B.A., Mazurek K.A., Putz G., Modeling of Nutrient Export and Effects of Management Practices in a Cold-climate Prairie Watershed: Assiniboine River Watershed, Canada. Agr. Water Manage., 180, pp. 235-251, (2017)
  • [63] Mockler E.M., Deakin J., Archbold M., Gill L., Daly D., Bruen M., Sources of Nitrogen and Phosphorus Emissions to Irish Rivers and Coastal Waters: Estimates from a Nutrient Load Apportionment Framework, Sci. Total Environ., pp. 326-339, (2017)
  • [64] Moeder M., Carranza-Diaz O., Lopez-Angulo G., Vega-Avina R., Chavez-Duran F.A., Jomaa S., Winkler U., Schrader S., Reemtsma T., Delgado-Vargas F., Potential of Vegetated Ditches to Manage Organic Pollutants Derived from Agricultural Runoff and Domestic Sewage: A Case Study in Sinaloa (Mexico), Sci. Total Environ., 598, pp. 1106-1115, (2017)
  • [65] Nigam G.K., Sahu R.K., Sinha M.K., Deng X., Singh R.B., Kumar P., Field Assessment of Surface Runoff, Sediment Yield and Soil Erosion in the Opencast Mines in Chirimiri Area, Chhattisgarh, India. Phys. Chem. Earth, 101, Parts A/B/C, pp. 137-148, (2017)
  • [66] Nosrati K., Identification of a Water Quality Indicator for Urban Roof Runoff, Sustainability of Wat. Qual. and Ecol., 9-10, pp. 78-87, (2017)
  • [67] Oliveira L.M., Maillard P., Pinto E.J.A., Application of a Land Cover Pollution Index to Model Non-point Pollution Sources in a Brazilian Watershed, Catena, 150, pp. 124-132, (2017)
  • [68] Ortiz-Reyes E., Anex R.P., A Life Cycle Impact Assessment Method for Freshwater Eutrophication Due to the Transport of Phosphorus from Agricultural Production, J. Clean. Prod., 177, pp. 474-482, (2017)
  • [69] Ouyang W., Cai G., Tysklind M., Yang W., Hao F., Liu H., Temporal-spatial Patterns of Three Types of Pesticide Loadings in a Middle-high Latitude Agricultural Watershed, Water Res, 122, pp. 377-386, (2017)
  • [70] Ouyang W., Huang W., Hao X., Tysklind M., Haglund P., Hao F., Watershed Soil Cd Loss after Long-Term Agricultural Practice and Biochar Amendment under Four Rainfall Levels, Water Res, 122, pp. 692-700, (2017)
234567891011