Modeling the Optimal Use of New Technologies for Water Conservation among Farmers

Document Type : Research Paper

Authors

1 Assistant Professor, Department of Agricultural Extension and Education, Faculty of Crop Sciences, Sari Agricultural Sciences and Natural Resources University. Sari.Iran

2 Graduate PhD. Agricultural Extension, Department Agricultural Extension and Education, University of Tehran, Karaj, Iran

Abstract

  The purpose of this study was to investigate the factors affecting behavior of using new technologies for water conservation among farmers in Sari County. That was done by adopting the Davis model. The population of the study consisted of 30788 farmers in Sari County that 220 were selected through multistage random sampling. The research tool was a questionnaire which its validity determined through sustainable agriculture expert and Diagnostic validity with using an average variance extracted (AVE). The reliability was confirmed with using Cronbach's alpha and composite reliability (CR). To explain the effectiveness, factor analysis and structural equation modeling with LISREL software, version 8.80 was used. According to the findings, water conservation behavior was relatively low in 40.9% of farmers. According to the results of the optimal model of using new water conservation technologies, farmers directly explained different dimensions of attitude 82% of the variance of the intention to water conservation behavior. Also, the intension to behavior of explained about 58% of the variance of water conservation behavior in farmers. Farmers' perceptions of technology (perceived of usefulness and perceived ease of use) was able to explain 91% of the variance of attitude, 75% of variance of intention to use and 52% of variance of water conservation behavior.

Keywords

References

  1. Abdollahzadeh G., Sharifzadeh M.S., & Khajeshahkohi A. (2015). Evaluation and comparison of sustainability levels of rice production in Sari County. Space Economy and Rural Development, 4(3), 111-135. (In Farsi)
  2. Agriculture Jihad-e' Management of Sari (2016). Agricultural perspective of Sari County. Available in: http://jkmaz.ir/Home/ShowDetailsMenuContent?MenuId=2491
  3. Ahmadi, K., Ebadzade, H.R., Hatami, F., Hosseinpour, R., & Abdeshah, H. (2019a). Agricultural Statistics 2018. Volume 3 Horticultural Products. Ministry Of Jihad-E-Agriculture, Deputy for Planning and Economy, Information and Communication Technology Center. First Edition, 166 Pages. (In Farsi)
  4. Ahmadi, K., Ebadzade, H.R., Hatami, F., Hosseinpour, R., & Abdeshah, H. (2019b). Agricultural Statistics of the Crop Year 2017-18. the First Volume of Crops. Ministry Of Jihad-E-Agriculture, Deputy for Planning and Economy, Information and Communication Technology Center. First Edition, 95 Pages. . (In Farsi)
  5. Alambaigi, A. & Akbari, M. (2020). Human-water resources interface in agriculture sector of Iran: A historical-theoretical understanding. Iranian Journal of Agricultural Economics and Development Research, 2(51), 361-376. . (In Farsi)
  6. Azami, A., Zarafshani, K., Dehghani Sanich, H., & Gorji, A. (2011). Determine farmers’ satisfaction towards pressurized irrigation systems in Kermanshah Province.  Journal of Water and Soil, 25(4), 845-853. (In Farsi)
  7. Behbahani Motlagh, M. Sharifzadeh. M. Sh., Abdollahzadeh, Gh. & Mahboobi. M.R. (2017). Farmers' adoption behavior of pressurized irrigation technology in Dashtestan County. Iran Agricultural Extension and Education Journal. 13(1), 89-103.
  8. Chuchird, R., Sasaki, N., & Abe, I. (2017). Influencing factors of the adoption of agricultural irrigation technologies and the economic returns: a case study in Chaiyaphum Province, Thailand. Sustainability, 9, 15-24.
  9. Damisa, M.A., Abdolsalam, Z., & Kehinde A. (2008). Determinants of farmers’ satisfaction with their irrigation system in Nigeria. Trends in Agricultural Economics. 1(1), 8-13.
  10. Emadi, M. (2019). Reduction of groundwater level by one to two meters in Mazandaran. Director of Water Resources Conservation of Mazandaran Regional Water Company. Https://B2n.Ir/404854. (In Farsi)
  11. Eshaghi, R., Hejazi, Y., Rezvanfar, A., & Alambaigi, A. (2017).  Logic analysis of the dimensions of innovation and attitude effects on the Environmental behavior of Ardabil Province Rural in Relation to Conservation Technology. Iranian Journal of Agricultural Economics and Development Research, 48(1), 79-92. (In Farsi)
  12. Fabian, V.H. (2013). Facilitating conservation agriculture in Namibia through understanding farmers’ planned behavior and decision making. Second Cycle, A2E. Alnarp: SLU, Department of Work Science, Business Economics, and Environmental Psychology.
  13. FAO. (2017). Water for sustainable food and agriculture. A report produced for the G20 Presidency of Germany, Rome, and 2017.1-33pp.
  14. Farhadi, F. (2019). IRNA. New Irrigation in 2,000 Hectares of Gardens and Farms in Mazandaran. Director of Water, Soil and Technical and Engineering Affairs of Mazandaran Jihad Agriculture Organization. Https://B2n.Ir/783692. (In Farsi)
  15. Gebrehaweria Gebregziabher, G. Giordano, M.A., Langan S. & Namara R.E. (2014). Economic analysis of factors influencing adoption of motor pumps in Ethiopia. Journal of Development and Agricultural Economics. 6(12), 490-500.
  16. Gholikhani, N., Hosseini, S.M., & Omidi nahafabadi, M. (2013). Investigating Factors Affecting Adoption on Innovations Related to Advanced Irrigation Systems by Farmers in the Karaj Township. Journal of agricultural extension and education research. 2 (22), 37-48.
  17. Hair, J., Hult, G.T.M., Ringle, C.M., & Sarstedt, M. (2017). A Primer on partial least squares structural equation modeling (PLS-SEM). Second Edition. Printed In The United States of America, 374pp. SAGE Publications, Inc.
  18. Hair, J., Ringle, C.M., Sarstedt, M. & Ringle, C.M. (2019). When to Use and How to Report the Results of PLS-SEM. Emerald Publishing Limited (EBL), 31(1), 2-24.
  19. Hoghoghi Isfahani, M. (2013). Water resources systems in Iranian agriculture. Samar Publishing In Collaboration with the Iranian Advisory Society. 400pp. (In Farsi)
  20. Hong, S.J, Thong, J.Y.L. & Tam, K.Y. (2006). Understanding continued information technology usage behavior: a comparison of three models in the context of Mobile Internet. Decision Support Systems: 42, 1819-1834.
  21. Hooman, H.A. (2014). Structural Equation Modeling with LISREL Application. SAMT Publishment, 340pp. (In Farsi)
  22. Kalantari, Kh. (2009). Structural equation modeling in socio-economic research (With LISREL And SIMPLIS Software). First Edition,  Tarh & Manzar Consulting Engineers, 244pp. (In Farsi)
  23. Khalili Joybari, ‌ R., ‌ Redaei, M. Baghban Jalodar, A. & Bahramnejad, F. (2018). Abstract of Mazandaran Province Planning Studies. Prepared By The Management And Planning Organization - Deputy For Program And Budget Coordination - Planning And Productivity Group. (In Farsi)
  24. Khan, S., Hanjra, M.A., & Mu, J. (2009). Water Management and Crop Production for Food Security in China: A Review. Agricultural Water Management, 96(3), 349-360.
  25. Kulkarni, S. (2011). Innovative technologies for water saving in irrigated agriculture. International Journal of Water Resources and Arid Environments. 1(3), 226-231.
  26. Lee, S. & Kim, B.G. (2009). Factors affecting the usage of intranet: a confirmatory study. Computers in Human Behavior, 25: 191-201.
  27. Yazdanpanah. M., Zobaidi. T., Salahi-Moghaddam. N. & Rouzaneh. D. (2019). Factors affecting adoption of modern irrigation technology by farmers (The Case of Behbahan Township). Iran Agricultural Extension and Education Journal.15 (1), 127-141. (In Farsi)
  28. Mahboubi, M.R., Esmaeilie, M. & Yaghobi, J. (2011). Impeding and facilitating factors influencing on using new irrigation methods by farmers: case of West Boshroyeh Township in Southern Khorasan. Journal of Water and Irrigation Management, 1(1): 87-98. (In Farsi).
  29. Michailidis, A., Koutsouris, A., & Nastis, S. (2011). Adoption of sustainable irrigation practices in water scarce areas. Bulgarian Journal of Agricultural Science, 17(5), 579-591.
  30. Nabiafjadi, S., Shabanali Fami, H., & Rezvanfar, A. (2015). Investigating of farmers knowledge level about agriculture water management technologies in Falavarjan County. Iranian Journal of Irrigation and Drainage. 2(9), 242-251.
  31. Nejadrezaei. N., Allahyari. M.S. Sadeghzadeh. M., Michailidis. A. & Hamid El Bilali. A. (2018). Factors Affecting Adoption of Pressurized Irrigation Technology among Olive Farmers in Northern Iran. Applied Water Science. 8(190):1-9.
  32. Nejati, B. (2011). Comparison of water efficiency in agricultural utilization systems (Case Study: Agricultural Subdivision of Khosf District). Master's Thesis in Geography and Rural Planning. Faculty of Literature and Humanities. Birjand University. (In Farsi)
  33. Noroozi, O., & Chizari, M. (2006). Effective cultural and social factors regarding attitude of wheat farmers of Nahavand Township toward sprinkler irrigation development. Iranian Agricultural Extension and Education Journal, 2(2), 59-69. (In Farsi)
  34. Pino, G., Toma, P., Rizzo, C., Miglietta P.P., Alessandro M. P. & Guido, G. (2017). Determinants of farmers’ intention to adopt water saving measures: evidence from Italy. Sustainability, 9(77), 1-14.
  35. Rafiei Darani, H., & Bakhshudeh, M. (2008). Investigating the factors affecting the development and acceptance of sprinkler irrigation (A Case Study of Isfahan Province). Iranian Journal of Agricultural Economics and Development Research Journal. 39 (1), 21-30.
  36. Rahimifayzabad, F., Yazdanpanah, M., Forouzani, M., & Mohammad Zadeh, S. (2016). Determining the factors affecting farmer’s water conservation behavior in Selsele Township: application of the norm activation model. Iranian Journal of Agricultural Economics and Development Research, 47(2): 379-390.(In Farsi)
  37. Razzaghi Borkhani, F. (2016). Designing a model for establishing good agricultural practices for garden sustainability. Ph.D. of Agricultural Extension, Faculty of Agricultural Economics and Development, University of Tehran. . (In Farsi)
  38. Reimer, A. P., Weinkauf, D. K. & Prokopy, L. S. (2012). The influence of perceptions of practice characteristics: an examination of agricultural best management practice adoption in two Indiana watersheds.  Journal of Rural Studies, 28(1): 118–128.
  39. Rezaei, R.., Safa, L. & Ganjkhanloo, M.M. (2020). Understanding farmers’ ecological conservation behavior regarding the use of integrated pest management- an application of the technology acceptance model. Global Ecology and Conservation, 22,1-18.
  40. Saatsaz, M. (2020). A historical investigation on water resources management in Iran. Environment, Development and Sustainability, 22, 1749–1785.
  41. Shahroodi A.S. & Chizari,M. (2006). Water users’ cooperative strategy to realize the sustainable management of agricultural water conservation. Jihad Magazine, 247, 109-92. (In Farsi).
  42. Zhang, B., Fu, Z., Wang. J., & Zhang, L. (2019). Farmers’ adoption of water-saving irrigation technology alleviates water scarcity in Metropolis Suburbs: A case study of Beijing, China. Agricultural Water Management, 212, 349-357.
Iranian Journal of Agricultural Economics and Development Research
Volume 51, Issue 4
November 2020
Pages 699-714

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