1- Agriculture– Jihad Organization of East Azerbaijan. 2018. Available Online at:
https://www.eaj.ir/.
2- Ahmadifar R., Mousavi S.M., and Rahimzadegan M. 2020. Investigating the effects of climate change on groundwater (case study: Sarab Plain). Water and Soil Science 30(1): 153-166. (In Persian with English abstract)
3-
Alefi KH.,
Dashti G., and
Ghahremanzadeh M. 2018.The impact of climatic factors on land use change between annually crops groups in Iran: application of spatial fractional multinomial logit model. Agricultural Economics 11(4): 21-40. (In Persian with English abstract)
4- Allen R.G., Pereira L.S., Raes D., and Smith M. 1998. Crop evapotranspiration-guidelines for computing crop water requirements-FAO Irrigation and drainage paper 56. FAO, Rome. 300(9): D05109.
5- Amin A., Iqbal J., Asghar A., and Ribbe L. 2018. Analysis of current and future water demands in the upper Indus basin under IPCC climate and socio-economic scenarios using a hydro-economic WEAP model. Water 10(5): 1-20.
6- Binswanger H.P. 1980. Attitudes toward risk: experimental measurement in rural India. American Journal of Agricultural Economics 62(3): 395-407.
7- Blanco- Gutiérrez I., Varela-Ortega C., and Purkey D. 2013. Integrated assessment of policy interventions for promoting sustainable irrigation in semi-arid environments: a hydro-economic modeling approach. Journal of Environmental Management 128:144–160.
8- Buysse J., Van Huylenbroeck G., and Lauwers L. 2007. Normative, positive and econometric mathematical programming as tools for incorporation of multifunctionality in agricultural policy modeling. Agriculture, Ecosystems & Environment 120: 70-81.
9- Cattivelli L., Rizza F., Badeck F.W., Mazzucotelli E., Mastrangelo A.M., Francia E., Mare C., Tondelli A., and Michele Stanca A. 2008. Drought tolerance improvement in crop plants: an integrated view from breeding to genomics. Field Crops Research 105: 1-14.
10- Chavas J.P. 2004. Risk analysis in theory and practice. Elsevier Academic Press.
11- Esteve P., Varela-Ortega C., Blanco-Gutiérrez I., and Downing T.E. 2015. A hydro-economic model for the assessment of climate change impacts and adaptation in irrigated agriculture. Ecological Economics 120: 49-58.
12- FAO, WFP., and IFAD. 2012. The state of food insecurity in the world: economic growth is necessary but not sufficient to accelerate reduction of hunger and malnutrition, food and agricultural organization of the United Nations (FAO), the international fund for agricultural development (IFAD), and the world food programming (WFP), FAO, Rome, Italy.
13- Foster T., Brozović N., and Butler A.P. 2014. Modeling irrigation behavior in groundwater systems. Water Resource Research 50: 6370–6389.
14- Friedman M., and Savage L.J. 1948. The utility analysis of choices involving risk. The Journal of Political Economy 56: 279-304.
15- Groves D.G., Yates D., and Tebaldi C. 2008. Developing and applying uncertain global climate change projections for regional water management planning. Water Resources Research 44: 1-16.
16- GWP (Global Water Partnership). 2000. Integrated water resources management. Global water partnership TAC background Paper 4. Stockholm, Sweeden.
17- Hazell P.B., and Norton R.D. 1986. Mathematical programming for economic analysis in agriculture. Macmillan, New York.
18- Kahil M.T., Dinar A., and Albic J. 2015. Modeling water scarcity and droughts for policy adaptation to climate change in arid and semiarid regions. Journal of Hydrology 522: 95-102.
19- Kazemzadeh M., Malekian A., Moghaddam Nia A., and Khalighi Sigaroudi Sh. 2019. Evaluation of climate change impacts on hydrological characteristics of watershed (case study: Aji- Chai Watershed). Iran Watershed Management Science & Engineering 13(45): 1-12. (In Persian with English abstract)
20- Lee H., Sumner D. and Howtt R. 2001. Potential economic impacts of irrigation-water reductions estimated for Sacramento Valley. California Agriculture 55(2): 33-40.
21-
Mahmoodi A., and
Parhizkari A. 2015.Economic analysis of the climate change impacts on products yield, cropping pattern and farmer's gross margin (case study: Qazvin plain). Journal of Economic Growth and Development Research 5(3): 25-40. (In Persian with English abstract)
22- Mainuddin M., Kirby M., and Qureshi M.E. 2007. Integrated hydrologic-economic modelling for analyzing water acquisition strategies in the Murray River Basin. Agricultural Water Management 93: 123-135.
23- Maneta M.P., Torres M.O., Wallender W.W., Vosti S., Howitt R., Rodrigues L., Bassoi L.H., and Panday S. 2009. A spatially distributed hydro economic model to assess the effects of drought on land use, farm profits, and agricultural employment. Water Resources Research 45: 1-19.
24- Medellan-Azuara J., Harou J.J., and Howitt R.E. 2010. Estimating economic value of agricultural water under changing conditions and the effects of spatial aggregation. Science of Total Environment 408(3): 5639–5648.
25- Mirmusavi SH. 2005. The study of oscillations of temperature and precipitation in the North-West of Iran in order to assessment of the changes of climate elements trend. PhD thesis, Physical Geography, University of Tabriz. (In Persian with English abstract)
26- Morid S., and Massah Bavani A.R.M. 2010. Exploration of potential adaptation strategies to climate change in the Zayandeh Rud irrigation system, Iran. Irrigation and Drainage 59(2): 226-238.
27- Parhizkari A. 2018. Evaluate the effects of climate change impertinence on agricultural production and farmer's income situation in down lands of Taleghan dam.Journal of agricultural Economics Research 9(36): 125-152. (In Persian with English abstract)
28- Purkey D.R., Joyce B., Vicuna S., Hanemann M.W., Dale L.L., Yates D and Dracup J.A.J. 2008. Robust analysis of future climate change impacts on water for agriculture and other sectors: a case study in the Sacramento Valley. Climatic Change 87: 109-122.
29- Qureshi M.E., Ahmad M.U.D., Whitten S.M. and Kirby M. 2014. A multi-period positive mathematical programming approach for assessing economic impact of drought in the Murray-Darling Basin, Australia. Economic Modelling 39: 293-304.
30- Rafiei Darani H., Kohansal M.R., Ghorbani M., and Saboohi M. 2017. An integrated hydro-economic modeling to evaluate marketing reform policies of agricultural products. Bulgarian Journal of Agricultural Science 2(2): 189–197.
31- Rosenzweig M.R., and Binswanger H.P. 1992. Wealth, weather risk, and the composition and profitability of agricultural investments. The Economic Journal 103(416): 56-78.
32- Salahi B., Valizadeh kamran K.H., and Ghavidel Rahimi Y. 2008. The simulation of Tabriz temperature and precipitation in atmospheric carbon dioxide doubling condition using Goddard institute of space studies general circulation model (GIS GCM). Geographical Research Quarterly 39(62): 55-66. (In Persian with English abstract)
33- Salami H., Shahnooshi N., and Thomson K.J. 2009. The economic impacts of drought on the economy of Iran: An integration of linear programming and macro econometric modeling approaches. Ecological Economics 68(4): 1032-1039.
34- Sanikhani H., Dinpajoh Y., Pour Yusef S., Ghavidel S.Z., and Solati B. 2014. The impacts of climate change on runoff in watersheds (case study: Ajichay watershed in East Azerbaijan province, Iran). Journal of Water and Soil 27(6): 1225-1234. (In Persian with English abstract)
35- Sarie Sarraf B., Jalali Ansaroodi T., and Sarafrouzeh F. 2015. The effects of global warming on the climate of cities located in the Urmia Lake Basin. Biannual Journal of Urban Ecology Researches 6(2): 33-48. (In Persian with English abstract)
36- Sieber J., and Purkey D. 2011. User guide for WEAP21 (water evaluation and planning system). Stockholm Environment Institute. Available online from: www. weap21.org.
37- ULRP. 2018. Urmia Lake Restoration Program. www. http://www.ulrp.ir.
38- Varela-Ortega C., Blanco-Gutie´rrez I., Esteve P., Bharwani S., Fronzek S., and Downing T.E. 2016. How can irrigated agriculture adapt to climate change? Insights from the Guadiana basin in Spain. Regional Environmental Change 16(1): 59–70.
39- Varela-Ortega C., Blanco-Gutiérrez I., Swartz C., and Downing T.E. 2011. Balancing groundwater conservation and rural livelihoods under water and climate uncertainties: an integrated hydro-economic modeling framework. Global Environmental Change 21(2): 604-619.
40- Veijalainen N., Dubrovin T., Marttunen M., and Vehvileinen B. 2010. Climate change impacts on water resources and lake regulation in the Vuoksi watershed in Finland. Water Resource Management 24: 3437-3459.
41- Von Neuman J., and Morgenstern O. 1944. Theory of games and economic behavior. Princeton University Press, Princeton, NJ.
42- Zahedi M., Sari Saraf B., and Jameei J. 2007. The analysis of spatio-temporal variations of temperature in the North-West of Iran. Geography and Development5(10): 183-197. (In Persian with English abstract)
43- Zhang P., Zhang J., and Chen M. 2017. Economic impacts of climate change on agriculture: the importance of additional climatic variables other than temperature and precipitation. Journal of Environmental Economics and Management 83: 8-31.
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