Abbaspour KC, Yang J, Maximov I, Siber R, Bogner K, Mieleitner J, Srinivasan R (2007) Modelling hydrology and water quality in the pre-alpine/alpine Thur watershed using SWAT. Journal of Hydrology 333(2-4):413-430
Arnold JG, Srinivasan R, Muttiah RS, Williams JR (1998) Large area hydrologic modeling and assessment; part I: model development. Journal of American Water Resources Association 34(1):73-89
Arnold J, Kiniry J, Srinivasan R, Williams J, Haney E, Neitsch S (2011) Soil and water assessment tool input/output file documentation: Version 2009. US Department of Agriculture–Agricultural Research Service, Grassland, Soil and Water Research Laboratory, Temple, TX and Blackland Research and Extension Center, Texas AgriLife Research, Temple, TX. Texas Water Resources Institute Technical Report
Butcher JB, Parker A, Johnson T, Weaver CP (2010) Nationwide watershed modeling to evaluate potential impacts of climate and land use change on hydrology and water quality. In Watershed Modeling, Proceedings of the 2010 Watershed Management Conference (pp. 1078-1089). Madison, WI: ASCE
Degefie T and Bewket W (2011) Surface runoff and soil erosion estimation using the SWAT model in the Keleta Watershed, Ethiopia. Land Degradation and Development 22(6):551-564
Delavar M, Morid R, Morid, S (2016) Modeling of water resources and agriculture systems in Tashk Bakhtegan catchment. Ministry of Energy (In Persian)
Delavar M, Hajihosseini H, Morid S (2017) Modeling of water resources and agriculture systems in Karkheh catchment. Preparation of a comprehensive model of hydrological simulation of Karkheh Basin to evaluate the effects of environmental changes on discharge upstream of Karkheh Dam and development of long-term flow forecasting system. Khuzestan Water and Power Organization, Ahvaz
Dembélé M, Schaefli B, Mariéthoz G, Ceperley N, Zwart SJ (2017) Water accounting plus for sustainable water management in the Volta river basin, West Africa. EGUGA, 10220
Eid HM, El-Marsafawy SM, Ouda SA (2007) Assessing the economic impacts of climate change on agriculture in Egypt: a Ricardian approach. World Bank Policy Research Working Paper (4293)
Farokhnia A (2015) The role of land use change and trends in climate variables on the hydrology of the Urmia Lake Basin. PhD Thesis, Tarbiat Modares University (In Persian)
Jha MK, Gassman PW, Panagopoulos Y (2015) Regional changes in nitrate loadings in the Upper Mississippi River basin under predicted mid-century climate. Regional Environmental Change 15:449-460
Karimi P, Bastiaanssen WGM, Molden D (2013a) Water accounting plus (WA+) – a water accounting procedure for complex river basins based on satellite measurements. Hydrology and Earth System Sciences 17:2459-2472
Karimi P, Molden D, Bastiaanssen W, Cai X (2012b) Water accounting to assess use and productivity of water: evolution of a concept and new frontiers. Water Accounting: International Approaches to Policy and Decision-Making, edited by: Godfrey, J. M. and Chalmers, K, 76-88
Karimi P, Molden D, Notenbaert A, Peden D (2012) Nile basin farming systems and productivity. In The Nile river basin; water, agriculture, governance and livelihoods. Edited by Awulachew, et al. Routledge, U.K., 133-153
Karimi P, Bastiaanssen W, Molden D, Cheema M (2013b) Basin-wide water accounting based on remote sensing data: an application for the Indus Basin. Hydrology and Earth System Sciences 17(7)
Kim NW, Chung M, Won YS, Arnold JG (2008) Development and application of the integrated SWAT–MODFLOW model. Journal of Hydrology 365(1-2):1-16
Krysanova V, Srinivasan R (2015) Assessment of climate and land use change impacts with SWAT. Regional Environtal Change 15:431-434
Kurukulasuirya P and Ajwad MI (2006) Application of the ricardian technique to estimate the impact of climate change on smallholder farming in Sri Lanka. Climate Change 81(1)
Lankford B, (2012) Fictions, fractions, factorials and fractures; on the framing of irrigation efficiency. Agricultural Water Management 108:27-38
Ministry of Energy (2013) Updating the comprehensive water plan of Maharloo-Bakhtegan. Jamab, (In Persian)
Ramos MC and Martinez-casasnovas JA (2015) Soil water content, runoff and soil loss prediction in a small ungauged agricultural basin in the Mediterranean region using the Soil and Water Assessment Tool. The Journal of Agricultural Science 153(3):481-496
Molua E and Lambi CM (2007) The economic impact of climate change on agriculture in Cameroon. World Bank Development Research Group, Sustainable Rural and Urban Development Team. Policy Res. Work, p.4364
Pisinaras V, Petalas Ch, Gikas GD, Gemitzi A, Tsihrintzis VA (2010) Hydrological and water quality modeling in a medium-sized basin using the Soil and Water Assessment Tool (SWAT). Desalination 250:274-286
Sanghi A and Mendelsohn R (2008) The impacts of global warming on farmers in Brazil and India. Global Environmental Change 18(4):655-665
Seckler D (1999) Revisiting the IWMI paradigm: Increasing the efficiency and productivity of water use. International Water Management Institute
Seo SN and Mendelsohn R (2008) Measuring impacts and adaptations to climate change: A structural Ricardian model of African livestock management1. Agricultural Economics 38(2):151-165
Ullrich A and Volk M (2009) Application of the Soil and Water Assessment Tool (SWAT) to predict the impact of alternative management practices on water quality and quantity. Agricultural Water Management 96:1207-1217
Vazquez-Amábile GG and Engel BA (2005) Use of SWAT to compute groundwater table depth and streamflow in the muscatatuck river watershed. Transactions of the ASAE, American Society of Agricultural Engineers 48(3):991-1003
Wang G, Yang H, Wang L, Xu Z, Xue B ( 2012) Using the SWAT model to assess impacts of land use changes on runoff generation in headwaters. Hydrological Processes 28(3):1032-1042
Wang L, Zhang M, Chen X (2007) Runoff simulation in Xixi Watershed of the Jinjiang basin based on SWAT model. Journal of Subtropical Resources and Environment 2(1):28-33
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