1. Amirnejad, H., & Taslimi, M. (2021). Providing Production and Employment Development Strategies in the Livestock Sub-Sector of Mazandaran Province. Journal of Entrepreneurial Strategies in Agriculture, 8(16): 24-36. (In Persian). [
DOI:10.52547/jea.8.16.24]
2. Amirnejad, H., & Asadpour-Kordi, M. (2017). Effects of climate change on wheat production in Iran. Agricultural Economics Research, 9(35): 163-182 (In Persian).
3. Ansari, M.T., Bameni-Moghadam, M., Khoshgooyan-Fard. A., & Samaran, E. (2006). Application of quantile regression in mental health analysis. Scientific-Research Journal of Social Welfare, 5(20): 49-59 (In Persian).
4. Asadi, H., Yavari, G.R., & Ebrahimi Miri, T. (2021). Economic evaluation of establishing edible mushroom production business in Kahrizak sanatorium of Alborz province. Journal of Entreneurship and Agriculture, 12-19 (In Persian). [
DOI:10.52547/jea.8.15.12]
5. Bameni-Moghadam, M., & Khoshgooyan Fard. A. (2004). The application of the quantile regression in finding the distribution of expected welfare. Scientific-Research Journal of Social Welfare. 4(15): 57-77 (In Persian).
6. Benhin, J. (2006). Climate Change and South African Agriculture: Impacts and Adaptation Options. The Centre for Environmental Economics and Policy in Africa. University of Pretoria, Pretoria, South Africa.
7. Bozzola, M., Massetti, E., Mendelsohn, R., & Capitanio, F. (2017). A Ricardian analysis of the impact of climate change on Italian agriculture. European Review of Agricultural Economics, 45(1): 57-79. [
DOI:10.1093/erae/jbx023]
8. Chatzopoulos, T., & C. Lippert. (2015). Adaptation and climate change impacts: A structural Ricardian analysis of farm types in Germany. Journal of Agricultural Economics, 66(2): 537-554. [
DOI:10.1111/1477-9552.12098]
9. Chatzopoulos, T. (2015). Microeconometric analysis of the impacts of climate change on German agriculture: applications and extensions of the Ricardian approach.
10. Chiotti, Q.P., & Jahnston, T. (1995). Extending the boundaries of climate change research: a discussion on agriculture, Journal of Rural Studies, 11 (3): 335-350. [
DOI:10.1016/0743-0167(95)00023-G]
11. Eid, H.M., El-Marsafawy, S.M., & Ouda, S.A. (2007). Assessing the economic impacts of climate change on agriculture in Egypt: A Ricardian Approach. Policy Research Working Paper 4293. World Bank.
12. Ha, T.V., Dang, N.H., Tran, M.D., Van-Vu, T.T., & Trung, Q. (2019). Determinants influencing financial performance of listed firms: Quantile regression approach. Asian Economic and Financial Review, 9(1): 78-90. [
DOI:10.18488/journal.aefr.2019.91.78.90]
13. Hoseini, S.S., Nazari, M., & Araghinejad. Sh. (2013). Investigating the impacts of climate change on agricultural sector with emphasis on the role of adaptation in this sector. Iranian Journal of Agricultural Economics and Development Research, 44(1): 1-16 (In Persian).
14. Huong, N.T.L. Y.S Bo & Fahad, S. (2019). Economic impact of climate change on agriculture using Ricardian approach: A case of northwest Vietnam. Journal of the Saudi Society of Agricultural Sciences, 18(4): 449-457. [
DOI:10.1016/j.jssas.2018.02.006]
15. Liu, H., Li, X., Fischer, G., & L. Sun. (2004). Study on the impacts of climate change on China's agriculture. Climatic Change, 65(1-2): 125-148. [
DOI:10.1023/B:CLIM.0000037490.17099.97]
16. Mano, R., & Nhemachena. C. (2007). Assessment of the Economic Impacts of Climate Change on Agriculture in Zimbabwe, A Ricardian Approach. Policy Research Working Paper 4292. World Bank. [
DOI:10.1596/1813-9450-4292]
17. Mozaffari-Khoshrodi, S. M. (2016). Study of effective factors on employment in agricultural processing industries in Mazandran province (Case study: food and beverage industries). MSc. Degree Thesis, University of Guilan, Department of Agricultural Economics, Rural Development (In Persian).
18. Mendelsohn, R., & Reinsborough, M. (2007). A Ricardian analysis of US and Canadian farmland. Climatic change, 81(1), 9-17. [
DOI:10.1007/s10584-006-9138-y]
19. Ministry of Agriculture of Iran. (2018). Agricultural Statistics, agricultural years of 2016-2017, first volume: agricultural crops.
20. Mojaverian, S.M., Ahmadi Kaliji, S., & Aminravan, M. (2015). Application of the Ricardian approach to investigating the effect of climate change on agricultural land rent. Iranian Journal of Agricultural Economics and Development Research, 46(3), 481-491 (In Persian).
21. Momeni, S., & Zibaei, M. (2013). The potential effects of climate change on the agricultural sector of Fars province. Journal of Agricultural Economics and Development, 27(3), 169-179. (In Persian).
22. Molua, E.L. (2007). The economic impact of climate change on agriculture in Cameroon. World Bank Policy Research Working Paper, (4364). [
DOI:10.1596/1813-9450-4364]
23. Parhizkari, A. (2017). Evaluate the effects of climate change on agricultural production and farmers' income situation in down lands of Taleghan dam. Agricultural Economics Research, 9(436), 125-152 (In Persian).
24. Parhizkari, A., Mahmoodi, A., & Shokatfadaee. M. (2017). Economic analysis of the effects of climate change on available water resources and agricultural products in the watersheds of Shahrood. Agricultural Economics Research, 9(133), 23-50 (In Persian).
25. Pazokinejad, Z., & Bageriyan, M. (2018). Farmers' Attitudes Toward Agricultural Entrepreneurship to Adapt with the Impact of Climate Change and its Effective Factors. Journal of Entrepreneurial Strategies in Agriculture, 5 (9): 51-57. (In Persian). [
DOI:10.29252/jea.5.9.51]
26. Pede, V. O., Luis, J. S., Paris, T. R., & McKinley, J. D. (2012). Determinants of household income: A quantile regression approach for four rice-producing areas in the Philippines. Asian Journal of Agriculture and Development, 9(1362-2016-107601): 65-76. [
DOI:10.37801/ajad2012.9.2.5]
27. Ramirez-Villegas, J., Salazar, M., Jarvis, A., & Navarro-Racines, C. E. (2012). A way forward on adaptation to climate change in Colombian agriculture: perspectives towards 2050. Climatic change, 115: 611-628. [
DOI:10.1007/s10584-012-0500-y]
28. Thapa, S., & Joshi, G. R. (2010). A Ricardian analysis of the climate change impact on Nepalese agriculture.
29. Todisco, F., & Vergni, L. (2008). Climatic changes in central Italy and their potential effects on corn water consumption. Agriculture and Forest Meteorology, 148: 1-11. [
DOI:10.1016/j.agrformet.2007.08.014]
30. Tubiello, F. N., Rosenzweig, C., Goldberg, R. A., Jagtap, S., & Jones, J. W. (2002). Effects of climate change on US crop production: simulation results using two different GCM scenarios. Part I: wheat, potato, maize, and citrus. Climate Research, 20(3): 259-270. [
DOI:10.3354/cr020259]
31. Vaseghi, E., & Esmaeili, A. (2009). Investigation of the economic impacts of climate change on Iran agriculture: a Ricardian approach (case study: wheat). Science and technology of Agriculture and Natural Resources, 12(45): 685-696 (In Persian).
32. Wayne, G. P. (2013). The beginner's guide to representative concentration pathways. Skeptical science, 25.
33. Zarakani, F., Kamali, G., & Chizari, A. (2014). The effect of climate change on the economy of rainfed wheat (a case study in Northern Khorasan). Agricultural Ecology, 6(2): 301-310 (In Persian).