Abbott MB, and Ionescu F (1967) On the numerical computation of nearly horizontal flows. Journal of Hydraulic Research 5(2):97-117
Afkhami M, Shariat M, Jaafarzadeh N, Ghadiri H, and Nabizadeh R (2007) Regional water quality management for the Karun–Dez River basin, Iran. Water and Environment Journal 21(3):192-199
Afshar A, and Masoumi F (2016) Waste load reallocation in river–reservoir systems: Simulation–optimization approach. Journal of Environmental Earth Sciences 75(1):75-53
Afshar A, Masoumi F, and Sandoval Solis S (2018) Developing a reliability-based waste load allocation strategy for river-reservoir systems. Journal of Water Resources Planning and Management 144(9):52-64
Ashtiani EF, Jamshidi S, Niksokhan H, and Ashtiani AF (2015) Value index, a novel decision making approach for waste load allocation. International Journal of Environmental, Chemical, Ecological, Geological and Geophysical Engineering 9(6):624-628
Burn DH, and Yulianti JS (2001) Waste-load allocation using genetic algorithms. Journal of Water Resources Planning and Management 127(2):121-129
Cardwell H, and Ellis H (1993) Stochastic dynamic programming models for water quality management. Water Resources Research 29(4):803-813
Delavar M, Morid S, and Moghadasi M (2015) Optimization of water allocation in irrigation networks considering water quantity and quality constrains, Case study: Zayandehroud Irrigation Networks .Journal of Iran-Water Resources Research 11(2):84-96 (In Persian)
Eberhart RC, and Shi Y (1998) Comparison between genetic algorithms and particle swarm optimization. Springer 611-616 pp
Fakouri B, Mazaheri M, and Samani JM (2018) Management scenarios methodology for salinity control in rivers (case study: Karoon River, Iran). Journal of Water Supply: Research and Technology-Aqua 68(1):74-86
Farjoudi ZS, Moridi A, and Mousavi Nadoushani SS (2019) Applying bankruptcy approach in allocating point and non-point pollution in rivers. Journal of Iran-Water Resources Research 15(2):88-97 (In Persian)
Huang G, and Loucks DP (2000) An inexact two-stage stochastic programming model for water resources management under uncertainty. Civil Engineering Systems 17(2):95-118
Jamshidi A, Samani JMV, Samani HMV, Zanini A, Tanda MG, and Mazaheri M (2020) Solving Inverse Problems of Unknown Contaminant Source in Groundwater-River Integrated Systems Using a Surrogate Transport Model Based Optimization. Journal of Water 12(9):2415-2441
Kanda EK, Kosgei JR, and Kipkorir EC (2015) Simulation of organic carbon loading using MIKE 11 model: A case of River Nzoia, Kenya. Water Practice and Technology 10(2):298-304
Karamouz M (2005) Waste-load allocation model for seasonal river water quality management: Application of sequential dynamic genetic algorithms. Journal of Scientia Iranica 12(2)-117-130
Kashefipour SM, and Falconer RA (2002) Longitudinal dispersion coefficients in natural channels. Water Research 36(6):1596-160
Khoshkam H, Saadatpour M, and Heidarzadeh N (2017) Single/multi waste load allocation in Gheshlagh River; Simulation-optimization approach. Journal of Iran-Water Resources Research 13(2):99-114 (In Persian)
Li Y, and Huang G (2010) Dual-interval fuzzy stochastic programming method for long-term planning of municipal solid waste management. Journal of Computing in Civil Engineering 24(2):188-202
Liebman JC, and Lynn WR (1966) The optimal allocation of stream dissolved oxygen. Water Resources Research 2(3):581-591
Loucks DP, Revelle CS, and Lynn WR (1967) Linear progamming models for water pollution control. Management Science 14(4):166-181
Maas EV, and Hoffman GJ (1977) Crop salt tolerance–current assessment. Journal of the Irrigation and Drainage Division 103(2):115-134
Mahjouri N (2015) Waste load allocation in rivers: A state of the art review and prospects for future studies. Journal of Iran-Water Resources Research 11(2):117-134 (In Persian)
McNeal B, and Coleman N (1966) Effect of solution composition on soil hydraulic conductivity. Soil Science Society of America Journal 30(3):308-312
Meysami R and Niksokhan MH (2020) Evaluating robustness of waste load allocation under climate change using multi-objective decision making. Journal of Hydrology 588(2020):1-10
Mujumdar P and Sasikumar K (2002) A fuzzy risk approach for seasonal water quality management of a river system. Water Resources Research 38(1):1-9
Munns R and Termaat A (1986) Whole-plant responses to salinity. Functional Plant Biology 13(1):143-160
Nikoo MR, Kerachian R, and Karimi A (2012) A nonlinear interval model for water and waste load allocation in river basins. Water Resources Management 26(10):2911-2926.
Nikoo MR, Kerachian R, Karimi A, and Azadnia AA (2013) Optimal water and waste-load allocations in rivers using a fuzzy transformation technique: A case study. Environmental Monitoring and Assessment 185(3):2483-2502
Nikoo MR, Kerachian R, Karimi A, Azadnia AA, and Jafarzadegan K (2014) Optimal water and waste load allocation in reservoir–river systems: a case study. Environmental Earth Sciences 71(9):4127-4142
Qin XS, Huang GH, Zeng GM, Chakma A, and Huang Y (2007) An interval-parameter fuzzy nonlinear optimization model for stream water quality management under uncertainty. European Journal of Operational Research 180(3):1331-1357
Qin X, Huang G, Chen B, and Zhang B (2009) An interval-parameter waste-load-allocation model for river water quality management under uncertainty. Environmental Management 43(6):999-1012
Revelle CS, Loucks DP, and Lynn WR (1968) Linear programming applied to water quality management. Water Resources Research 4(1):1-9
Revelli R, and Ridolfi L (2004) Stochastic dynamics of BOD in a stream with random inputs. Advances in Water Resources 27(9):943-952
Saadatpour M and Afshar A (2007) Waste load allocation modeling with fuzzy goals; simulation-optimization approach. Water Resources Management 21(7):1207-1224
Saadatpour M, Afshar A, and Khoshkam H (2019) Multi-objective multi-pollutant waste load allocation model for rivers using coupled archived simulated annealing algorithm with QUAL2Kw. Journal of Hydroinformatics 21(3):397-410
Sadak D, Ayvaz MT, and Elçi A (2020) Allocation of unequally-weighted wastewater discharge loads using a simulation-optimization approach. Journal of Hydrology 589(2020):125-158
Saremi A, Sedghi H, Manshouri M, and Kave F (2010) Development of multi-objective optimal waste model for Haraz River. World Applied Sciences Journal 11(8):924-929
Sasikumar K, and Mujumdar P (1998) Fuzzy optimization model for water quality management of a river system. Journal of Water Resources Planning and Management 124(2):79-88
Tung YK and Hathhorn WE (1990) Stochastic waste load allocation. Ecological Modelling 51(2):29-46
Yandamuri S, Srinivasan K, and Murty Bhallamudi S (2006) Multiobjective optimal waste load allocation models for rivers using nondominated sorting genetic algorithm-II. Journal of Water Resources Planning and Management 132(3):133-143
Yu Y, Zhang H, and Lemckert C (2014) Salinity and turbidity distributions in the Brisbane River estuary, Australia. Journal of Hydrology 519:3338-3352
Zhang M, Ni J, and Yao L (2018) Pigovian tax-based equilibrium strategy for waste-load allocation in river system. Journal of Hydrology 563:223-241
Zhou X, Huang G, Zhu H, and Yan B, (2015) Two-stage chance-constrained fractional programming for sustainable water quality management under uncertainty. Journal of Water Resources Planning and Management 141(5):04014074
Zolfagharipoor MA and Ahmadi A (2016) A decision-making framework for river water quality management under uncertainty: Application of social choice rules. Journal of Environmental Management 183:152-16