The impact of water supply on farming systems: A sustainability assessment

Abolpour, 2018, A realistic evaluation of crop water productivity for sustainable farming of wheat in Kamin Region, Fars Province, Iran, Agric. Water Manag., 195, 94, 10.1016/j.agwat.2017.10.006 Alipour, 2013, Evaluation of energy flow in irrigated wheat agro-ecosystems. A case study: Shahr-e-Rey City, J. Agric. Sci. Sustain. Prod., 23, 59 Bakhshi, 2011, Application of positive mathematical programming model to analyze the effects of alternative water pricing policies in mashhad plain, Agric. Econ. Dev., 284 Chen, 2016, Groundwater simulation for efficient water resources management in Zhangye Oasis northwest China, Environ. Earth Sci., 75, 1, 10.1007/s12665-016-5458-z Cortignani, 2009, Modeling farm-level adoption of deficit irrigation using positive mathematical programming, Agric. Water Manag., 96, 1785, 10.1016/j.agwat.2009.07.016 Cortignani, R., Severini, S., 2010. The impact of reforming the Common Agricultural Policy on the sustainability of the irrigated area of Central Italy. An empirical assessment by means of a positive mathematical programming model the impact of reforming the common agricultural policy on t. In: 120th EAAE Semin. External Cost Farming Act. Econ. Eval. Environ. Reper. Regul. Fram. Donati, 2013, An integrated PMP model to assess the development of agro-energy crops and the effect on water requirements, Bio-based Appl. Econ., 2, 301 Fathi, 2010, Factors affecting management of groundwater utilization using multi-objective programming model: A case study of Firoozabad Plain, J. Agric. Sci. Technol. Water Soil Sci., 53, 155 Gallego-Ayala, 2011, Irrigation water pricing instruments: A sustainability assessment, Spanish J. Agric. Res., 9, 981, 10.5424/sjar/20110904-449-10 Gómez-Limón, 2009, Alternative approaches to the construction of a composite indicator of agricultural sustainability: An application to irrigated agriculture in the Duero basin in Spain, J. Environ. Manage., 90, 3345, 10.1016/j.jenvman.2009.05.023 Gómez-Limón, 2010, Empirical evaluation of agricultural sustainability using composite indicators, Ecol. Econ., 69, 1062, 10.1016/j.ecolecon.2009.11.027 Hassanwand, 2014, Simulation of farmer’s behavior by applying water reduction policy on the pattern of cultivation using Positive Mathematical Programming (PMP), Q. J. Village Dev., 71 Hatirli, 2006, Energy inputs and crop yield relationship in greenhouse tomato production, Renew. Energy, 31, 427, 10.1016/j.renene.2005.04.007 Heckelei, 2012, Positive mathematical programming approaches – Recent developments in literature and applied modelling, Bio-based Appl. Econ., 1, 109 Howitt, 1995, Positive mathematical programming, Am. J. Agric. Econ., 77, 329, 10.2307/1243543 Howitt, R.E., Msangi, S., 2002. Reconstructing disaggregate production functions, Paper to be presented at the Xth Congress of the European Association of Agricultural Economists, Zaragoza, Spain, pp. 28–31. Jahangirpur, 2012 Júdez, 2001, Effects of the measures envisaged in Agenda 2000 on arable crop producers and beef and veal producers: an application of Positive Mathematical Programming to representative farms of a Spanish region, Agric. Syst., 67, 121, 10.1016/S0308-521X(00)00051-2 Karami, 2011, Evaluation of the relationship between meteorological drought and the decline in groundwater level in Tabriz plain, Geogr. Plan., 16, 111 Kouchaki, 2004, Assessment of crop diversity in Iran, Res. Dev. Agric. Hortic, 63 Management of Fars Regional Water Authority,, 2015. Fars, Iran. Managing Director of Planning of Water and Wastewater Engineering Company, 2017 Mehrabibasharabadi, 2011, Energy input-output analysis in Iran’s agricultural sector, Agric. Econ. Dev., 74 Mohammadi, 2003, The effect of recent droughts on the groundwater resource reduction in hamedan plains, Geogr. Res., 115 Mousavi, 2011, Evaluation of agricultural water policy from groundwater resources of the Positive Mathematical Programming (PMP): a case study of Eghlid city, Econ. Res., 11 Paris, 2001, Symmetric positive equilibrium problem: A framework for rationalizing economic behavior with limited information, Am. J. Agric. Econ., 83, 1049, 10.1111/0002-9092.00229 Paris, 2011 Paris, 1998, An analysis of ill-posed production problems using maximum entropy, Am. J. Agric. Econ., 80, 124, 10.2307/3180275 Ritz, W.O.B., Eckelei, T.H.H., Olff, H.E.W., 2003. Symmetric positive equilibrium problem: A framework for rationalizing economic behavior with limited information: comment 85, 1078–1081. Salehi, 2017, The effect of environmental beliefs on farmers’ sustainable behavior using groundwater resources in fars province, Iran. Agric. Ext. Educ. Sci., 1, 175 Shiraz Municipality, 2017 Shokoohi, 2010, Investigating the effect of acceptance of laser leveling on water demand management in Marvdasht city, Agric. Econ., 5, 73 Solazzo, 2014, A PMP model for the impact assessment of the Common Agricultural Policy reform 2014-2020 on the Italian tomato sector, New Media, 13, 9 Van Cauwenbergh, 2007, SAFE—A hierarchical framework for assessing the sustainability of agricultural systems, Agric. Ecosyst. Environ., 120, 229, 10.1016/j.agee.2006.09.006 Zhen, 2003, Operational indicators for measuring agricultural sustainability in developing countries, Environ. Manage, 32, 34, 10.1007/s00267-003-2881-1