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Factors Determining the Adoption of the Pressurized Irrigation Systems by Farmers in Ardabil Province | ||
| Journal of Research and Rural Planning | ||
| مقاله 3، دوره 7، شماره 3 - شماره پیاپی 23، اسفند 2018، صفحه 17-28 اصل مقاله (930.13 K) | ||
| نوع مقاله: Scientific Articles | ||
| شناسه دیجیتال (DOI): 10.22067/jrrp.v7i3.66609 | ||
| نویسنده | ||
| Mojtaba Sookhtanlou* | ||
| University of Mohaghegh Ardabili | ||
| چکیده | ||
| Purpose- One of the most important strategies facing drought and agriculture water shortage in North-West Iran is developing pressurized irrigation systems (PISs). In this regard, the present study aims to investigate the factors determining the adoption of the PISs by farmers in Ardabil Province. Design/methodology/approach- First, by drought zoning of Ardabil Province (by SPI method and GIS software), three regions including regions with mild, moderate and severe drought levels were determined. In the second step, using multi-stage cluster sampling, adopter and non-adopter farmers of the PISs were selected from three regions of study (n= 415). Also, the logistic regression was used to determine the affective and distinctive factors of farmers' groups. Findings- According to the results of logistic regression analysis, the predictive power of model was 0.622 and the sensitivity of the regression model to determine the model validation was obtained as 85.8%. Also, from among 17 factors of study, 7 factors of education level, farm income, knowledge about the PISs, the infrastructure for PISs, the effect of local weather conditions, the trust towards the optimality of PISs and the improvement in farm water management, positively impacted on the adoption and use of PISs. Among effective factors, knowledge about the PISs (Wald: 32.676), the trust towards the optimality of PISs (Wald: 27.855) and the infrastructure for PISs (Wald: 21.648) were the most important factors predicting to the decision to adopt and use PISs among farmers. Research limitations/implications- Since the study was carried out in a large area of the province, accessing the farmers and experts in the Ardabil Province was difficult and time consuming. Practical implications- The agricultural extension and education programs and PRA method, can provide the basis for the adoption of PISs among most of the farmers. Also, the infrastructure programs for the implementation and setting up of PISs are the priority of governmental projects to develop the PISs in the regions of the study. Originality/value- It seems that identifying and providing the necessary infrastructure for implementing pressurized irrigation programs should be based on the scientific needs assessment of the agricultural fields’ conditions in different regions. Also, proper the appropriate government funding and financial support for the appropriate infrastructure of PISs will increase the willingness of farmers to adopt and use of the PISs. | ||
| کلیدواژهها | ||
| drought؛ pressurized irrigation systems (PISs)؛ standardized precipitation index (SPI)؛ Ardabil Province | ||
| مراجع | ||
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1. Al-Subaiee, F. S., Al-Ghobari, H. M., Baig, M. B., EI-Hagi, E. A., & Abu-Riziga, M. T. (2013). Studies on adoption of irrigation methods by the date palm farmers in Al-Qasim area, Kingdom of Saudi Arabia. Bulgarian Journal of Agricultural Science, 19(6), 1337-1345.
2. Cremades, R., Wang, J., & Morris, J. (2015). Policies, economic incentives and the adoption of modern irrigation technology in China. Earth System Dynamics, 6, 399–410.
3. Dinar, A., Campbell, M., & Zilberman, D. (2004). Adoption of improved irrigation and drainage reduction technologies under limiting environmental condition. Journal of Environmental and Resource Economics, 2(4), 373-398.
4. Jayakumar, M., Surendran, U., & Manickasundaram, P. (2015). Drip fertigation program on growth, crop productivity, water and fertilizer-use efficiency of Bt cotton in Semiarid Tropical Region of India, Communications in Soil Science and Plant Analysis, 46(3), 293-304.
5. Khoshnodifar, Z., Sookhtanlo, M., & Gholami, H. (2012). Identification and measurement of indicators of drought vulnerability among wheat farmers in Mashhad County, Iran. Annals of Biological Research, 3(9), 4593-4600.
6. Kulshreshtha, S. N., & Brown, W. J. (2007). Role of farmers' attitudes in adoption of irrigation in Saskatchewan. Irrigation and Drainage Systems, 7(2), 85-98.
7. Madhava Chandran, K., & Surendran, U. (2016). Study on factors influencing the adoption of drip irrigation by farmers in humid tropical Kerala, India. International Journal of Plant Production, 10(3), 347-364.
8. Mahboubi, M. R., Esmailie Aval, M., & Yaghoubi, J. (1390/2011). Impeding and facilitating factors influencing on using new irrigation methods by farmers: Case of West Boshroyeh Township in Southern Khorasan (Iran). Journal of Water and Irrigation Management, 1(1), 87-98. [In Persian]
9. McKee, T. B., Doesken, N. J., & Kleist, J. (1993). The relationship of drought frequency and duration to time scales. Proceedings of 8th Conference on Applied Climatology, Anaheim, California, U.S.A., 179-184.
10. Molaei, M. (2011). Relative advantage of producing agricultural crops in Ardabil Province (Iran). World Applied Sciences Journal, 15(6), 860-866.
11. Moreno, G., & Sunding, D. (2005). Joint estimation of technology adoption and land allocation with implication for the design of conservation policy. American Journal of Agricultural Economics, 87(4), 1009-1019.
12. Naderi, G., Mohammadi, S., Imani, A., & Karami, M. (2014). Habitat selection of Williams’ Jerboa (Allactaga Williamsi Thomas, 1897) in Ardabil Province, Iran. Turkish Journal of Zoology, 38, 432-436.
13. Novruzi, O., & Chizari, M. (2006). Effective factors involved in adoption of sprinkler irrigation: A case study in wheat farmers in Nahavand County, Iran. 22nd Annual Conference Proceedings. Clearwater beach, Florida, USA.
14. Pei, F., Li, X., Liu, X., & Lao, C. (2013). Assessing the impacts of droughts on net primary productivity in China Fengsong. Journal of Environmental Management, 114, 362-371.
15. Qassim, A. (2003). Sprinkler Irrigation: A Situation Analysis. Institute of Sustainable Irrigated Agriculture (ISIA), at Tatura, Australia. The International Programme for Technology and Research in Irrigation. DPI, Victoria.
16. Saymohammadi, S., Zarafshani, K., Tavakoli, M., Mahdizadeh, H., & Amiri, F. (2017). Prediction of climate change induced temperature & precipitation: The case of Iran. Sustainability, 9(1), 146.
17. Schuck, E., Frasier, W., Webb, R., Ellingson, L., & Umberger, W. (2005). Adoption of more technically efficient irrigation systems as a drought response. International Journal of Water Resource Development, 21(4), 651-662.
18. Tahmasebi, A. (2009). Indigenous knowledge for water management in Iran’s dry land, Siraf. International Journal of Environmental Studies, 66(3), 317-325.
19. Thuc, T. (2012). Study on droughts in the south central and the central highlands. VNU Journal of Science, Earth Sciences, 28, 125-132.
20. Wambua, R. M., Mutua, B. M., & Raude, J. M. (2015). Spatio-temporal drought characterization for the Upper Tana River Basin, Kenya using the Standardized Precipitation Index (SPI). World Journal of Environmental Engineering, 3(4), 111-120.
21. Xu, L.H., Wang, Q., & Duan, J. M. (2013). The temporal and spatial distribution of droughts during summer corn growth in Yunnan Province based on SPEI. Scientia Agricultural Sinica, 35; 1024–1034.
22. Yosefinejhad, A., Chaharsooghi, H., Arayesh, B., & Elyasi, S. (1393/2014). Factors affecting the adoption of pressurized irrigation systems by beneficiaries in Mehran City. Bulletin of Environment, Pharmacology and Life Sciences, 3(5), 199-201. [In Persian] | ||
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