تعیین بهرهوری فیزیکی و اقتصادی آب کشاورزی: مطالعهی موردی شهرستان دزفول
محورهای موضوعی : فصلنامه علمی -پژوهشی تحقیقات اقتصاد کشاورزیفاطمه ملارضاقصاب 1 , عباس عبدشاهی 2 , افشین مرزبان 3
1 - دانشجوی کارشناسی ارشد توسعه روستایی دانشگاه علوم کشاورزی و منابع طبیعی خوزستان
2 - عضو هیئت علمی دانشگاه کشاورزی و منابع طبیعی رامین اهواز
3 - استادیار گروه مکانیزاسیون و ماشینهای کشاورزی دانشگاه علوم کشاورزی و منابع طبیعی خوزستان
کلید واژه: رگرسیون, بهرهوری فیزیکی آب, بهرهوری اقتصادی آب, محصولات زراعی و باغی,
چکیده مقاله :
مطالعهی حاضر، با محاسبهی بهرهوری فیزیکی و اقتصادی آب در محصولات زراعی و باغی شهرستان دزفول در سال زراعی 96-1395، این محصولات را از نظر بهرهوری آب اولویتبندی نموده است. همچنین عوامل موثر بر بهرهوری فیزیکی و اقتصادی آب با استفاده از یک مدل رگرسیون، تعیین گردید. دادههای مورد نیاز با روش نمونهگیری تصادفی طبقهای و با تکمیل پرسشنامه از یک نمونهی 221 نفری از کشاورزان شهرستان مذکور، به دست آمد. نتایج نشان داد که، بالاترین بهرهوری فیزیکی آب به ترتیب مربوط به محصول کاهو (8/22 کیلوگرم بر مترمکعب)، هویج (03/15 کیلوگرم بر مترمکعب) و پیاز (19/9 کیلوگرم بر مترمکعب) و پایینترین بهرهوری فیزیکی آب مربوط به نارنج (67/0 کیلوگرم بر مترمکعب) و گریپفروت (84/0 کیلوگرم بر مترمکعب) میباشد. نتایج تحلیل رگرسیون نیز نشان داد که متغیرهای نوع محصول، سن، سابقهی و تحصیلات کشاورز، سطح زیرکشت، داشتن شغل غیرکشاورزی، نوع منبع آب و روش آبیاری بر بهرهوری فیزیکی و متغیرهای سن و سابقهی کشاورز، شغل غیرکشاورزی، بافت خاک و نوع منبع آب بر بهرهوری اقتصادی آب موثرند.
In this study, physical and economic water productivities of agronomic and horticulture crops of Dezful city were calculated, and the priority cultivation of these crops was determined in the 2016. A regression model was used to investigate factors affecting water productivity. Necessary data were collected using stratified random sampling by completing a quetionaire of 221 farmers. The results indicated that maximum physical productivity is related to lettuce (22.8 kgh-1), carrot (15.03 kgh-1) and onion (9.19 kgh-1) and minimum physicsl productivity is related to orange (0.67 kgh-1) and grapefruit (0.84 kgh-1) respectively. The results also indicated that variables such as type of crop, age, experience and education level of farmers, planting area, nonagricultural job, kind of water source and irrigation method affect physical water productivity and variables such as age and experience of farmers, nonagricultural job, soil texture and type of water source affect economic water productivity.
- Abbasi, F., Naseri, A., Sohrab, F., Baghani, J., Abbasi, N., & Akbari, M. (2015). Promoting water use productivity. Agricultural Engineering Research Institute. Agricultural Extension, Education and Research Organization, Iran. (In Persian)
- Al-Said, F.A., Ashfaq, M., Al-Barhi, M., Hanjra, M.A. & Khan, I.A. (2012). Water productivity of vegetables under modern irrigation methods in Oman. Published Online in Wiy Onlie Library (Wileyonlinelibrary.com). DOI:10.1002/ird.1644.
- Blanco, C.D.P., & Thaler, T. (2014). An input-output assessment of water productivity in the Castile and león region (Spain). Water Journal, (6): 929-944.
- Bostani, F., & Mohammadi, H. (2007). Studying productivity of and demand for water in sugar beet production in Eqlid district. Journal of Sugar Beet, 23(2):185-196. (In Persian)
- Fathi, F., & Zibaee, M. (2012). Determination of crop pattern, strategy and optimal irrigation for sustainable water resources using an ideal planning approach. Iranian Water Resources Research Quarterly, 8 (1): 10-19. (In Persian)
- Ghazali, S., Mirzaei, A., & Soltani, Gh.R. (2014). Investigating the physical and economic productivity of agricultural water, Case study of Fars province. International Journal of Analytical Resources for Water Resources and Development Quarterly 2(3):125-134. (In Persian)
- Haghighi, B., Boroumand Nasab, S., & Nasseri, A.A. (2015). Effect of different irrigation management systems on irrigation method and strips on potato yield and water productivity. Water Research in Agriculture. 29 (2):181-193. (In Persian)
- Heidari, N. (2009). Issues, challenges, and strategies for promoting agricultural water productivity in Iran, the 12th National Irrigation and Drainage Committee of Iran. Irrigation Management in Iran. Challenges and Perspectives: 57-78. (In Persian)
- Heidari, N. (2014). Evaluation of agricultural water productivity indicator and performance of governmental water policies and programs in this field. Quarterly of Parliament and Strategy, 21(78):178-199. (In Persian)
- Ishraqi, F., & Ghasemian, S.D. (2012). Investigating the economic efficiency of water consumption in Golestan province. Journal of Water Research in Agriculture, 26 (3): 317-322. (In Persian)
- Javan, J., & Fall Soliman, M. (2008). Water crisis and the need to pay attention to agricultural water productivity in dry areas (case study; Birjand Plain). Geography and Development, (11):115-138. (In Persian)
- Keshavarz, A., & Dehghani Sannech, H. (2012). Water productivity index and future agricultural strategy of the country. Journal of Economic Strategy, 1 (1):199-233. (In Persian)
- Keshavarz, A., & Dehghanisanij, H. (2013). Water productivity and future agriculture in the country. Voice of Keshavarz Monthly, 31: 2-3.
- Kiani, A. (2015). Guidelines for water productivity in farms. Technical and Engineering Research Division, Golestan Agricultural and Natural Resources Research Center, Agricultural Research, Training and Promotion Organization. pp. 1-16. (In Persian)
- Lei, Z., Nico, H., Liesbeth, D., & Xiaping, S. (2013). Water users associations and irrigation water productivity in northern China. Ecological Economics, 95:128-136.
- Li, J., Zhu, T., Mao, X., & Adeloye, A. J. (2016). Modeling crop water consumption and water productivity in the middle reaches of Heihe river basin. Computers and Electronics in Agriculture, 123: 242-255.
- Liu, J. Zehnder, A.J.B., & Yang, H. (2008). Drops for crops: Modelling crop water productivity on a global scale. Global NEST Journal, 10(3): 295-300.
- Mahboobi, M.R., Esmaeili Aval, M., & Yaghobi, J. (2011). Preventive and preventive factors for the application of new irrigation methods by farmers: Case of West of Boshroieh city in South Khorasan, Water Management and Irrigation, 1(1):87-98. (In Persian)
- Moghimi, M.M., & Sepaskhah, A.R. (2014). Consideration of water productivity for farm water management in different conditions of water availability for dominant summer crops. Iran Agricultural Research, 33(2):47-62. (In Persian)
- Pouran, R., Raghfar, H., Ghasemi, A., & Bazazan, F. (2017). Evaluating the economic value of virtual water with maximizing productivity of Irrigation water. Journal of Applied Economics Studies, 6(21): 189-212. (In Persian)
- Rosegrant, M., Cai, X., Cline, S., & Nakagawa, N. (2002). The role of rainfed agriculture in the future of global food production. Environment and Production Technology Division. International Food Policy Research Institute 90: 1-127.
- Salemi, H.R., & Tavakoli, A. (2007). Increasing irrigation water productivity in rice ultivars in Isfahan. Journal of Agricultural Engineering Research, 8(1): 61-74. (In Persian)
- Sepahvand, M. (2009). Comparison of water requirement, water productivity and economical water productivity of wheat and rapeseed in the west of Iran in wet years. Iran Water Reaserch Journal. 3(4):63-68. (In Persian)
- Seydan, S.M., Ghadami Firouzabadi, A., & Dehghanisanij, H. (2018). Investigation of affecting factors on water productivity improvement of crop products in Hamadan province. Iranian Journal of Irrigation and Drainage, 4(12):775-787. (In Persian)
- Seyedan, S.M., & Mottaghi, M. (2019). Determination of the physical and economic water productivity for grain and forage corn under modern and traditional irrigation systems in Hamadan Province. Journal of Water and Sustainable Development, 6(1): 1-8. (In Persian)
- Taheri, P. (2009). The role of consumption pattern correction in water resources management in different parts of urban, rural, agricultural and industrial. National Conference on Water Crisis Management, February, 2008. Islamic Azad University of Marvdasht, Marvdasht, Iran. (In Persian)
- Tangen, S. (2005). Demystifying productivity and performance. International Journal of Productivity and Performance Management, 54(1):34-46.
- Tavakoli, A.R., Oweis, T., Farahani, H., Ashrafi, S, Asadi, H., Siadat, H., and Liaghat, A. (2010). Improving rainwater productivity with supplemental irrigation in upper Karkheh river basin of Iran, CPWF project, improving on-farm agricultural water productivity in the Karkheh river basin (PN8). Water and Food, 6:1-103. (In Persian)
- Van Halsema, G.E., & Vincent, L. (2012). Efficiency and productivity terms for water management: A matter of contextual relativism versus general absolutism. Agricultural Water Management, 108: 9-15.
- Vazifedoust, M. van Dam, J.C., Feddes, R.A., & Feizi, M. (2008). Increasing water productivity of irrigated crops under limited water supply at field scale. Agricultural Water Management, 95:89-102.
- Zamani, O., Mortazavi, A., & Balali, H. (2012). Economical water productivity of agricultural products in Bahar plain, Hamadan. Journal of Water Reaserch in Agriculture, 28(1):51-61. (In Persian)
- Zwart S.J., & Bastiaanssen W.G.M. (2004) Review of measured crop water productivity values for irrigated wheat, rice, cotton and maize. Agricultural Water Management, 69(2):115-133.
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