Refrences
- Azizy. J. & Torkamani. J. (2002). Optimal utilization of the forest using mathematical programming Motad. Journal Of agricultural Economic and development, 10(39):pp. 103-124.
- Agriculture Organization of Zanjan city. (2015). Statistical Yearbook of the agricultural sector 2007-2015.,
- Bakhshi. M., Peicani. Gh., Hoseini. S. & Salehi A. (2010). Effects of the removal of fertilizer subsidy and the policy of direct payments crops and inputs (case study agriculture Sabzevar City). Journal of Agricultural Economics,4(2):pp.185-207
- Boustani, F., & Mohammadi, H. (2010). Determination of optimal cropping pattern due to water deficit: a case study in the south of iran. American-Eurasian J. Agric. & Environ. Sci, 7(5): pp.591-595
- Ghorbani. M. & Dehghaniyan. S. (2006). The impact of price and non Price the The cultivated area of sugar beet in Khorasan City. Journal Of Sugar Beet, 22(1): 101-113.
- Jalali. M., & Aftekhr. J. A. (2008). Application of nonlinear model for water resource planning in optimizing crop pattern Karkhe coastal plains. Water Resources Management Conference 3 th, Tabriz. Iran.
- Jahani. M., & Asghari. A. (2006). Determining the mathematical structure of the cost of wheat in Arasbaran region. Journal of Agricultural sciences, 12(2):pp.250-233.
- Jitea, L.M. (2011). Appropriate Methods for Evaluating the Agricultural Policies’ Consequences at Farm Level. Not Bot Hort Agrobot Cluj, 39(1): pp.126-133
- Komijani, A. (1997). Historical analysis of pricing policies and evaluate their performance in recent decades in Iran. Institute of Economic Research and Development, Faculty of Economics, Tehran University.
- Kohpai, M. (2000). Principles of Agricultural Economics. Seventh Edition,: Tehran University Press. 467 p.
- Medellin-Azuara, J., Howitt, R.E. & Harou, J.J. (2014). Predicting farmer responses to water pricing, rationing and subsidies assuming profit maximizing investment in irrigation technology. Agricultural Water Management, 108: 73-82.
- Mohsenpour, R. & Zibai, M. (2010). Determining the optimal pattern cultivated land is under the dam using non-linear programming and deficit irrigation strategies. Journal of Agricultural Economics and Development, 18 (71):pp. 1-22
- Mohseni, A., & Zibai, M. (2009). Analysis of the consequences of increasing acreage of canola in the prairie city Namdan Gulf: An Application of Positive Mathematical Programming. Journal of Science and Technology of Agriculture and Natural Resources, 13 (47 (b)): pp.773-784.
- Moeinadin, Z. (2010). The response of farmers to price policies and irrigation water rationing in the city of Kerman, thesis for a master's degree in Agricultural Economics, Faculty of Agriculture, University of Zabol .
- Mortazavi, et al. (2014). Impact of pricing policy on canola production in Iran,Journal of Economic Research,No13, Vol 4, P 127-146.
- Nori, K. (2003). The efficiency of rice pricing policy in Iran, Journal of Research and Development, 61:pp.74-81.
- Arfini, F. & Donati, M. (2007). Endogenous Prices In Mathematical Programming Models For Agricultural Policy Analysis. Working Paper 10:p10- 29P.
- Paris, Q. (2001). Dynamic positive equilibrium problem. Working paper, No. 01-005, Department of Agricultural and Resource Economics University of California Davis.
- Paris, Q. (2011). Economic Foundations of Symmetric Programming.first edition, Cambridge, PP: 340-410.
- Paris, Q. & Howitt, R.E. (1998). Analysis of Ill-Posed production problems using maximum entropy. American Journal of Agricultural Economics, 80:pp. 124-138.
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