Ahmadzadeh H, Morid S, Delavar M and Srinivasan R (2016) Using the SWAT model to assess the impacts of changing irrigation from surface to pressurized systems on water productivity and water saving in the Zarrineh Rud catchment. Agricultural Water Management 175:15-28
Ahmadzadeh H (2012) Assessment of agricultural water productivity using SWAT model: A case study on Zarrinehrud basin. M.Sc Thesis, University of Tarbiat Modares (In Persian)
Arnold JG, Allen PM and Bernhardt G (1993) A comprehensive surface-groundwater flow model. Journal of hydrology 142(1-4):47-69
Bengs C and Schmidt-Thomé K (2006) Urban-rural relations in Europe. EPSON Final Report: 482
Farokhnia A and Morid S (2013) Assessment of the effects of temperature and precipitation variations on the trend of river flows in Urmia Lake Watershed. Journal oh Water and Wastewater 25(3):86-97
Friedman J, Hastie T and Tibshirani R (2001) The elements of statistical learning (Vol. 1): Springer series in statistics. Springer, Berlin
Friedman JH and Fisher NI (1999) Bump hunting in high-dimensional data. Statistics and Computing 9(2):123-143
Gosain A, Rao S, and Basuray D (2006) Climate change impact assessment on hydrology of Indian River basins. Current Science 90(3):346-353
Groves DG and Lempert RJ (2007) A new analytic method for finding policy-relevant scenarios. Global Environmental Change 17(1):73-85
Hall JW, Lempert RJ, Keller K, Hackbarth A, Mijere C and McInerney DJ (2012) Robust climate policies under uncertainty: a comparison of robust decision making and info‐gap methods. Risk Analysis 32(10):1657-1672
International Climate Talks- COP 21 (2016) http://unfccc.int/paris_agreement/items/9485.php
Jones RN (2000) Analysing the risk of climate change using an irrigation demand model. Climate Research 14(2):89-100
Lempert RJ and Groves DG (2010) Identifying and evaluating robust adaptive policy responses to climate change for water management agencies in the American west. Technological Forecasting and Social Change 77(6):960-974
Lempert RJ, Groves DG, Popper SW, and Bankes SC (2006) A general, analytic method for generating robust strategies and narrative scenarios. Management Science 52(4):514-528
Mansouri B, Ahmadzadeh H, Massah Bavani A, Morid S, Delavar M, and Lotfi S (2014) Assessment of climate change impacts on water resources in Zarrinehrud Basin using SWAT model, Journal of Water and Soil 28(6):1191-1203 (In Persian)
Matrosov E, Padula S and Harou JJ (2013) Selecting portfolios of water supply and demand management strategies under uncertainty-contrasting economic optimization and ‘robust decision making’ approaches. Water Resources Management 27(4):1123-1148
Prutsch A, Grothmann T, Schauser I, Otto S, and McCallum S (2010) Guiding principles for adaptation to climate change in Europe. European Environment Agency ETC/ACC Technical Paper, 6
Savage L (1954) The foundations of statistics. Dover Publications, 1972 Reprint
Walker WE, Haasnoot M and Kwakkel JH (2013) Adapt or perish: a review of planning approaches for adaptation under deep uncertainty. Sustainability 5(3):955-979
Wilby RL and Dessai S (2010) Robust adaptation to climate change. Weather 65(7):180-185
Zaman MR, Morid S, and Delavar M (2016) Evaluating climate adaptation strategies on agricultural production in the Siminehrud catchment and inflow into Lake Urmia, Iran using SWAT within an OECD framework. Agricultural Systems 147:98-110