References

  1. J.I. Price, M.T. Heberling, The effects of source water quality on drinking water treatment costs: a review and synthesis of empirical literature, Ecol. Econ., 151 (2018) 195–209.
  2. G. Liu, Y. Zhang, W. Knibbe, C. Feng, W. Liu, G. Medema, W. Meer, Potential impacts of changing supply-water quality on drinking water distribution: a review, Water Res., 116 (2017) 135–148.
  3. Z. Li, M. Yang, D. Li, R. Qi, H. Liu, J. Sun, J. Qu, Nitrobenzene biodegradation ability of microbial communities in water and sediments along the Songhua River after a nitrobenzene pollution event, J. Environ. Sci. China, 20 (2008) 778–786.
  4. C. Wang, Y. Feng, S. Zhao, B. Li, A dynamic contaminant fate model of organic compound: a case study of nitrobenzene pollution in Songhua River, China, Chemosphere, 88 (2012) 69–76.
  5. S.Y. Wee, A.Z. Aris, Endocrine disrupting compounds in drinking water supply system and human health risk implication, Environ. Int., 106 (2017) 207–233.
  6. G.S. Simate, S.E. Lyuke, S. Ndlovu, M. Heydenrych, L.F. Walubita, Human health effects of residual carbon nanotubes and traditional water treatment chemicals in drinking water, Environ. Int., 39 (2012) 38–49.
  7. T. Maqbool, Y. Qin, Q.V. Ly, J. Zhang, C. Li, M.B. Asif, Z. Zhang, Exploring the relative changes in dissolved organic matter for assessing the water quality of full-scale drinking water treatment plants using a fluorescence ratio approach, Water Res., 183 (2020) 1–10, doi: 10.1016/j.watres.2020.116125.
  8. Y. Perrin, D. Bouchon, V. Delafont, L. Moulin, Y. Hechard, Microbiome of drinking water: a full-scale spatio-temporal study to monitor water quality in the Paris distribution system, Water Res., 149 (2019) 375–385.
  9. J. Zhang, S. Lia, C. Jiang, Effects of land use on water quality in a River Basin (Daning) of the Three Gorges Reservoir Area, China: watershed versus riparian zone, Ecol. Indic., 113 (2020) 106226–106236.
  10. F. Li, J. Wang, T. Cao, C. Cui, Spatial and seasonal variability of water quality in the Mopanshan Reservoir (Harbin, Northern China), Water Sci. Technol. Water Supply, 17 (2017) 389–398.
  11. M. Varol, Spatio-temporal changes in surface water quality and sediment phosphorus content of a large reservoir in Turkey, Environ. Pollut., 259 (2020) 113860–113868.
  12. Y. Zhao, Y. Qin, Z. Lei, B. Zheng, Y. Ma, Water quality analysis for the Three Gorges Reservoir, China, from 2010 to 2013, Environ. Earth Sci., 75 (2016) 1225–1236.
  13. S. Nandini, P. Ramírez-García, S.S.S. Sarma, R.A. Gutierrez-Ochoa, Planktonic indicators of water quality: a case study in the Amacuzac River Basin (State of Morelos, Mexico), River Res. Appl., 35 (2019) 268–279.
  14. M.G. Uddin, S. Nash, A.I. Olbert, A review of water quality index models and their use for assessing surface water quality, Ecol. Indic., 122 (2021) 107218–107238.
  15. W. Hou, S. Sun, M. Wang, X. Li, N. Zhang, X. Xinn, L. Sun, W. Li, R. Jia, Assessing water quality of five typical reservoirs in lower reaches of Yellow River, China: using a water quality index method, Ecol. Indic., 61 (2016) 309–316.
  16. T.C. Lobato, R.A. Hauser-Davis, T.F. Oliveira, A.M. Silveira, H.A.N. Silva, M.R.M. Tavares, A.C.F. Saraiva, Construction of a novel water quality index and quality indicator for reservoir water quality evaluation: a case study in the Amazon region, J. Hydrol., 522 (2015) 674–683.
  17. A. Seifi, M. Dehghani, V.P. Singh, Uncertainty analysis of water quality index (WQI) for groundwater quality evaluation: application of Monte-Carlo method for weight allocation, Ecol. Indic., 117 (2020) 106653–106667.
  18. T.E. Gamez, L. Benton, S.R. Manning, Observations of two reservoirs during a drought in central Texas, USA: strategies for detecting harmful algal blooms, Ecol. Indic., 104 (2019) 588–593.
  19. J. Guo, C. Zhang, G. Zheng, J. Xue, L. Zhang, The establishment of season-specific eutrophication assessment standards for a water-supply reservoir located in northeast China based on chlorophyll-a levels, Ecol. Indic., 85 (2018) 11–20.
  20. S. Huo, C. Ma, B. Xi, J. Su, F. Zan, D. Ji, Z. He, Establishing eutrophication assessment standards for four lake regions, China, J. Environ. Sci., 25 (2013) 2014–2022.
  21. B. Liu, C. Liu, G. Zhang, Z. Zhao, S. Li, J. Hu, H. Ding, Y. Lang, X. Li, Chemical weathering under mid- to cool temperate and monsoon-controlled climate: a study on water geochemistry of the Songhuajiang River system, northeast China, Appl. Geochem., 31 (2013) 265–278.
  22. J. Zhang, S. Li, R. Dong, C. Jiang, M. Ni, Influences of land use metrics at multi-spatial scales on seasonal water quality: a case study of river systems in the Three Gorges Reservoir Area, China, J. Cleaner Prod., 206 (2019) 76–85.
  23. J. Zhang, T. Huang, L. Chen, D. Zhu, L. Zhu, L. Feng, X. Liu, Impact of the Three Gorges Reservoir on the hydrologic regime of the river-lake system in the middle Yangtze River, J. Cleaner Prod., 258 (2020) 121004–121017.
  24. X. Wang, F. Zhang, Multi-scale analysis of the relationship between landscape patterns and a water quality index (WQI) based on a stepwise linear regression (SLR) and geographically weighted regression (GWR) in the Ebinur Lake oasis, Environ. Sci. Pollut. Res., 25 (2018) 7033–7048.
  25. China MOEP, Water Quality-Determination of Permanganate Index, CRAES, GB 11892–89, 1989, pp. 184–187.
  26. China MOEP, Environmental Quality Standards for Surface Water, CRAES, GB3838–2002, 2002, pp. 207–218.
  27. China MOEP, Standard Examination Methods for Drinking Water, CRAES, GB/T 5750–2006, 2006, pp. 80–92.
  28. China MOEP, Water Quality-Determination of Ammonia Nitrogen-Nessler’s Reagent Spectrophotometry, CRAES, HJ 535–2009, 2009, 42 p.
  29. China MOEP, Water Quality-Determination of Total Nitrogen Alkaline Potassium Persulfate Digestion UV Spectrophotometric Method, CRAES, HJ 636–2012 2012, 16 p.
  30. Y. Xu, W. Geng, L. Zhang, Environmental Hygiene Workbook (Revised Edition), People’s Medical Publisher, Beijing, 1992, pp. 395–400.
  31. M. Varol, CO2 emissions from hydroelectric reservoirs in the Tigris River basin, a semi-arid region of southeastern Turkey, J. Hydrol., 569 (2019) 782–794.
  32. J. Wang, Z. Fu, H. Qiao, F. Liu, Assessment of eutrophication and water quality in the estuarine area of Lake Wuli, Lake Taihu, China, Sci. Total Environ., 650 (2019) 1392–1402.
  33. A. Shakibaeinia, S. Kashyap, Y.B. Dibike, T.D. Prowse, An integrated numerical framework for water quality modelling in cold-region rivers: a case of the lower Athabasca River, Sci. Total Environ., 569–570 (2016) 634–646.
  34. Y. Zhai, X. Xia, G. Yang, H. Lu, G. Ma, G. Wang, Y. Teng, W. Yuan, S. Shrestha, Trend, seasonality and relationships of aquatic environmental quality indicators and implications: an experience from Songhua River, NE China, Ecol. Eng., 145 (2020) 105706–105715.
  35. Z. Wang, Z. Zhang, J. Zhang, Y. Zhang, H. Liu, S. Yan, Largescale utilization of water hyacinth for nutrient removal in Lake Dianchi in China: the effects on the water quality, macrozoobenthos and zooplankton, Chemosphere, 89 (2012) 1255–1261.
  36. X. Sun, M. Chen, D. Wei, Y. Du, Research progress of disinfection and disinfection by-products in China, J. Environ. Sci., 81 (2019) 52–67.
  37. S.Y. Kimura, A. Ortega-Hernandez, Formation mechanisms of disinfection byproducts: recent developments, Curr. Opin. Environ. Sci. Health, 7 (2019) 61–68.
  38. J. He, X. Bian, C. Zhang, L. Zhang, Analysis on water quality during melting ice of Songhua river basin, Water Resour. Hydropower Northeast China, 38 (2020) 45–46+72.
  39. F. Gu, C. Wu, L. Bai, J. Zhao, Water quality assessment of typical urban lakes in Songhua River basin, J. Jilin Inst. Chem. Technol., 36 (2019) 53–57.
  40. K.C.B. Krishna, A. Sathasivan, G. Kastl, Effectiveness of breakpoint chlorination to reduce accelerated chemical chloramine decay in severely nitrified bulk waters, Chemosphere, 117 (2014) 692–700.