Asadi, H., and Soltani, GH. 2000. A study of domestic and agricultural water consumers to water rates. Agricultural Economics and Development 8 (32): 167-185. (In Persian).
Ahmadzadeh, S.S., keikha, A., Kavand, H., and Sargazi, A. 2013. Determination farmming program using positive mathematical programming (A case study in Zabol). Research Journal in Operations and Applications 3 (38): 51-60. (In Persian).
Arfini, F., and Paris, Q. 1995. A positive mathematical programming model for regional analysis of agricultural policies, In: Sotte F. (Ed.), The Regional Dimension in Agricultural Economics andPolicies, EAAE, Proceedings of the 40th Seminar, Ancona, Italy.
Baniasadi, M., and Zare Mehrgerdi, M.R. 2010. Investigate the effects of culture on rural poverty in the context of Orzooiyeh city Kerman. Agricultural Economics 4 (2): 183-209. (In Persian).
Bakhshi, A., Moghaddasi, R., and Daneshvar kakhki, M. 2011. Positive mathematical programming model to analyze the effects of alternative water pricing policies in the plains of Mashhad. Journal of Agricultural Economics and Development 25 (3): 284-294. (In Persian).
Cortignani, R., and Severini, S. 2009. Modeling farm-level adoption of deficit irrigation using Positive Mathematical Programming. Agricultural Water Management 96 (12): 1785–1791.
Donati, M., Bodini, D., Arfini, F., and Zezza, A. 2013. An integrated PMP model to assess the development of agro-energy crops and the effect on water requirements. Bio-based and Applied Economics 2 (3): 301-321.
Golkaran Moghadam, S. 2014. Compare and analyze the performance of farmers in selected cities in Khorasan Razavi province. Agricultural Economics and Development 21 (82): 79-101. (In Persian).
Gharghani, F., Boostani, F., and Soltani, GH. 2009. Investigating the effect of irrigation water reduction and water price increase on cropping pattern by positive mathematical programming, Case study of Eghlid city in Fars province. Journal of Agricultural Economics Research 1 (1): 57-74. (In Persian).
He, L., Tyner, W.E., Doukkali, R., and Siam, G. 2006. Policy options to improve water allocation efficiency: analysis on Egypt and Morocco. Water International 31 (3): 320–337.
Heckelei, T. 2002. Calibration and estimation of programming models for agricultural supply analysis. University of Bonn. 159 p.
Howitt, R.E. 1995. Positive mathematical programming. American Journal of Agricultural Economics 77 (2): 329-342.
Karim Keshte, M., Koopahi, M., and Kimia, A. 2002. Efficient use of water Sistan river (A Case study of water gradient). Economic and Agricultural Development 9 (221): 135-197. (In Persian).
Keramatzade, A., Chizari, Ah., and Sherzeai, G.H. 2012. The role of water in determining the economic value of agricultural water market with positive mathematical approach to planning (PMP) Case Study: Sweet Valley Bojnoord dam downstream. Iranian Journal of Agricultural Economics and Development Research 42 (1): 27-43. (In Persian).
Khalilian, S., and Mousavi, H. 2005. Assessing the risk effects of irrigation systems under the context of a case study in Shahrekord. Special Edition of Agricultural Economics and Development 13: 113-129. (In Persian).
Khadem Adam, N. 1992. Economic Policy Makers in Different Systems. The second edition ney, Iran.
Kimiay Khalil Abad, A. 1999. Optimal allocation of agricultural water to the Sistan River. Master's Thesis, Faculty of Agriculture, University of Sistan and Baluchestan, Iran. (In Persian).
Moeinoldini, Z., Salarpour, M., and Mohammadi, H. 2015. The effect of increasing water prices and reducing irrigation water in surface water consumption fields of Kerman province using positive mathematical programming corrected. Agricultural Economics and Development 23 (89): 21-46.
Moaienoldini, Z., Salarpour, M., and Mohammadi, H. 2016. The consequence of rising prices and decreasing of water level irrigation water user in the fields of Kerman province with positive planning approach corrected. Agricultural Economics and Development 23 (89): 21-46. (In Persian).
Medellin-Azuara, J., Howitt, R.E., Waller-Barrera, C., Mendoza-Espinosa, L.G., Lund, J.R., and Taylor, J.E. 2009. A calibrated agricultural water demand model for three regions in Northern Baja California. Agrociencia 43 (2): 83-96.
Medellin – Azuara, J., Howitt, R.E., and Harou, J.J. 2012. Predicting farmer responses to water pricing, rationing and subsidies assuming profit maximizing investment in irrigation technology. Journal of Agricultural Water Management 108:73-82
Nikoei, A., and Zibaei, M. 2009. Decision support system in managing agricultural water crisis with emphasis on irrigation, Case study in Zayandehrood watershed. Sixth Iranian Agriculture Economics Conference, Karaj.
Paris, Q., and Howitt, R.E. 1998. An analysis of ill-posed production problems using Maximum Entropy. American Journal of Agricultural Economics 80 (1): 124-138.
Paris, Q., and Arfini, F. 2000. Frontier cost functions, self-selection, price risk, PMP and Agenda 2000. Rivista di Economia Agraria 55 (2): 211-242.
Parhizkari, A., and Sabohi, M. 2013. Simulate the reactions of farmers to reduce available water resources policy. Water Management and Irrigation 3 (2): 59-74. (In Persian).
Rahnema, A., Kohansal, M.R., and Dourandish, A. 2012. Estimation of water economical value using positive mathematical programming approach in Ghoochan city. Journal of Agricultural Economics 6 (4): 133-150. (In Persian).
Sabohi, M., Soltani, GH., and Zibaei, M. 2007. Investigating the effect of irrigation water price changes on private and social benefits using positive mathematical programming. Journal of Agricultural Sciences and Technology 21 (1): 53-71. (In Persian).
Varziri, A., Vakilpour, M.H., and Mortazavi, S.A. 2016. The effects of economic pricing of irrigation water on cropping pattern in the Dehgolan plain. Journal of Agricultural Economics Research 8 (31): 81-100. (In Persian).