Assessment of the effect of climate change on the production of horticultural products with a randomized production approach, Case Study: Date product
Subject Areas : Agricultural Economics ResearchNeda Aliahmadi 1 , Mahmood Hashmitabar 2 , seyed Mehdi Hoseini 3
1 - Ph.D. Student in Agricultural Economics, Faculty of Economics and Management, Sistan and Baluchestan University
2 - Assistant Professor, Department of Agricultural Economics, Faculty of Economics and Management, Sistan and Baluchestan University.
3 - Assistant Professor, Department of Agricultural Economics, Faculty of Economics and Management, Sistan and Baluchestan University.
Keywords: Climate Change, Agriculture, Risk, Fantastic and Pope Model, Date Function,
Abstract :
The most effective climatic variables were identified using Fayoucan's optimization algorithm. In order to test the effect of climate variables on yield and date risk, for each of these areas, the random production function Jost and pop was estimated. The results of temperature and precipitation indexes were for hot and humid regions (0.45 and 0.66), and hot and dry regions (3.04 and 0.18), which indicate regional impact. Annual climate change has caused bad weather for farmers. Annual temperature changes and irregular rainfall changes over the past years, as well as climate change and warming in the future, could lead to serious dangers in reducing crop yields in agriculture. Regarding the unforeseen changes in temperature and precipitation in warm, dry, warm and humid areas, it is recommended that, in order to reduce the risk of yield for dates in the areas, such methods as the use of tolerant cultivars of dates in comparison with temperature and rainfall changes in the regions are recommended.
- Abrishami, H. (2002). Applied Econometrics, Tehran University Press, Tehran University Press. (In Persian)
- Arumugam, S. Kulshreshtha, S.N. Vellangany, I. & Govindasamy, R. (2015). Yield variability in rainfed crops as influenced by climate variables: A micro level investigation into agro-climatic zones of Tamil Nadu, India.
- Barnwal, P & Kotani, K. (2010). Impact of variation in climatic factors on crop yield: A case of rice crop in Andhra Pradesh, India. Econ. Manag. Ser. 17.
- Cabas, J. Weersink, A. & Olale, E. (2010a). Crop yield response to economic, site and climatic variables. Climatic Change, 101 (3-4): 599–616.
- Cabas, J. Weersink, A. & Olale, E. (2010b). Crop yield response to economic, site and climatic variables. Climatic Change, 101 (3-4): 599–616.
- Chen, C. C. McCarl, B. A & Schimmelpfennig, D. E. (2004). Yield variability as influenced by climate: A statistical investigation. Climatic Change, 66 (1/2): 239–261.
- Dashti, GH. Khaksar khiyabani, F. & Ghahramanzadeh, M. (2013). Determining Effective Factors on Production and Risk of Dill Production on Tabriz. Agriculture Economics and Development Research, Isan, 44 (3): 397-389. (In Persian)
- Department of Statistics and Information Technology, Ministry of Agriculture. (2016). Agricultural Statistics of the Agricultural Crop Years of 2012-2013, Tehran, Ministry of Jihad-e Agriculture, Deputy of Planning and Economic.
- Ebrahimi, H. (1998). Selection of Irrigation Methods: Application of AHP. Master's Thesis, Agricultural Promotion and Education Section, Shiraz University. (In Persian)
- Eslami, P. (2011). The role of greenhouse gas emissions from fossil fuel combustion in relation to climate change. National Conference on Climate Change and its Impact on Agriculture and the Environment. Agricultural and Natural Resources Research Center of West Azarbaijan Province (In Persian).
- Ganji, M. H. (2004). Climatic Districts, Scientific Bulletin of the National Center for Climatology, 3(1): 41. (In Persian)
- Ghahramanzade, M. Golbaz, M., Hayati, B. A & Dashti, Q. (2015). The effect of climate variables on yield and yield risk of wheat and corn products in Qazvin province, Agricultural Economics, 8(4): 126-107. (In Persian)
- Hasanthika, W. K. A. M. A. Edirisinghel, J. C. & Rajapakshe, R. D. D. P. (2013). Climate Variability, Risk and Paddy Production Journal of Environmental Professionals Sri Lanka, 2(2): 57-65.
- Hashemi Tabar, M., Akbari, A & Shahrakie, J. (2015). Climate Change and Pattern of Water Resources Allocation in S & B Provinces, Ph.D, Ph.D., S & B University.
- Holst, R., Yu, X & Grün, C. (2013). Climate Change, Risk and Grain Yields in China. J. Integr. Agric. 12: 1279–1291.
- Huang, H. & Khanna, M. (2010). An econometric analysis of US crop yield and cropland acreage: implications for theimpact of climate change. Selected Paper Prepared for Presentation at the Agricultural & Applied Economics Association, 25–27.
- Isik, M. & Devadoss, S. (2006). An analysis of the impact of climate change on crop yields and yield variability. Applied Economics, 38 (7): 835–844.
- Javadi, Z., Fallah GHalhari, Gh & Entezari, A. (2014). The Role of Climate Parameters on Almond Crop Performance Case Study: Sabzevar, Journal of Clinical Research, No. 17 and Eighteenth. (In Persian)
- Just, R. E. & Pope, R. D. (1978). Stochastic Specification of Production Functions and Economic implications. Journal ofEconometrics, 7 (488): 67–86.
- Just, R. E., & Pope, R. D. (1979). Production function estimation and related risk considerations.
- Kamali, Gh. (2002). Examples of harmful damage to Iranian agriculture in the form of probabilistic measures. Case study: Tehran, Geographical Research Magazine No. 63(64): 149-165 (In Persian)
- Kochaki, A. & Nasiri, M. (2009). Effects of Climate Change with Co2 Concentration on Wheat Yield in Iran and Evaluation of Compatibility Strategies, Journal of Iranian Crop Research, 6(1).
- Kupahi, M. Barykhani, H. Kavoosi Kalashmi, M & Sasuli, M. (2009). The Effect of Inputs Use on Rice Production Risk in Guilan Province. Journal of Agricultural and Natural Resources Sciences, 13th, ninth and eighth. (In Persian)
- Mahmoudi, N. Karbasi, A. & Shahnoosy, N. (2015). Risk Analysis of Rainfall Fluctuations in Wheat Dams, Scientific and Technical Journal of Nivar, No. 88-89. (In Persian)
- McCarl, B. A. Villavicencio, X. & Wu, X. (2008). Climate Change and Future Analysis: Is Stationarity Dying? AmericanJournal of Agricultural Economics, 90 (5), 1241–1247. doi:10.1111/j.1467-8276.2008.01211.x.
- Mirzabaev, A. (2013). Climate volatility and change in Central Asia: Economic impacts and adaptation.
- Mosa Nezhad, M. Gh. (2000). Determination of Potato Efficiency and Risk in Fars Province, Modares Science Journal, 1: 36-44. (In Persian)
- Nassiri Mahallati, M. Koshiki, A. Kamali, Gh. & Marashi, H. (2006). Investigating the Climate Change Effects on Iran's Agricultural Climate Indices. Journal of Agricultural Sciences and Technology. 2 (7). (In Persian)
- Nazari, Mm.R. & Hosseini, S. S. (2013). Investigating the effects of climate change on sub-agriculture of Iran, Ph.D thesis of Tehran University.
- Palanisami, K. Ranganathan, C.R. Kakumanu, K.R & Nagothu, U.S. (2011). A Hybrid Model to Quantify the Impact of Climate Change on Agriculture in Godavari Basin, India. Energy Environ. Res. 1, 32.
- Poudel, S. & Kotani, K. (2013). Climatic impacts on crop yield and its variability in Nepal: Do they vary across seasons and altitudes? Clim. Change 116, 327–355.
- Pour Khabazi, A.R & Pour Khobbaz, H. R. (2002). The main environmental issues of this century, Mashhad, the company publishes.
- Redsma, P. Lansink, A. O. & Ewert, F. (2009). Economic impacts of climatic variability and subsidies on European agriculture and observed adaptation strategies. Meeting Adapt Strategy Glob Change. 14: 35-59.
- Salighe, M. & Faramarz Barry, M. (2001). Impact of low pressure Pakistan on southeastern Iran, research project of Sistan and Baluchestan University.
- Sarker, M.A.R. Alam, K. & Gow, J. (2014). Assessing the effects of climate change on rice yields: An econometric investigation using Bangladeshi panel data. Econ. Anal. Policy 44, 405–416.
- Shahraki, J. Sabohi Saboni, M. & Yaqoubi, M. (2017). Analysis of the effect of climate change on wheat production with a randomized production function approach. Natural hazards stress, 6 (11): 84-69. (In Persian)
- Yakubi, M. (2016). The Economic Assessment of Climate Change Effects on the Production of Strategic Products of the Iranian Agricultural Sector and its Environmental Cost Modeling, Ph.D., Agricultural Economics, Sistan and Baluchestan University.
- Yazdani, S. & Sasuli, M.R. (2007). A study on the effect of consumption of inputs on the risk of rice production in Shaft city of Guilan province. Journal of Economics and Agriculture, 2 (1): 46-3. (In Persian)
_||_