برآورد ارزش اقتصادی آب در بخش کشاورزی (مطالعه موردی باغات شهرستان گچساران)
محورهای موضوعی : Business Administration and Entrepreneurship
1 - دانش آموخته مدیریت کشاورزی دانشگاه آزاد اسلامی واحد گچساران ایران
2 - استادیار گروه مدیریت کشاورزی دانشگاه آزاد اسلامی واحد گچساران
کلید واژه: بهرهوری, ارزش اقتصادی آب, شهرستان گچساران, توابع تولید,
چکیده مقاله :
مقدمه: به علت محدودیت منابع آبی در کشور، تعیین ارزش اقتصادی آب به عنوان رویکردی جدید، در مدیریت و بهرهبرداری از منابع آب ضروری به شمار میآید. بر این اساس هدف کلی این پژوهش برآورد ارزش اقتصادی آب در باغات شهرستان گچساران میباشد. روش: جامعه آماری در پژوهش حاضر شامل باغداران شهرستان گچساران است که تعداد آنان 2900 نفر بود. برای انتخاب نمونه آماری از جدول کرجسی و مورگان استفاده شد و بر اساس این جدول تعداد افراد نمونه ۲۶۲ نفر تعیین شد. ابزار گردآوری داده ها پرسشنامه محقق ساخته بود که برای سنجش روایی آن از پانل متخصصان و برای محاسبه پایایی ابزار گردآوری تحقیق از آزمون آلفای کرنباخ استفاده گردید. مقدار آلفای کرونباخ کل پرسشنامه78/0 بدست آمد که این مقدار برای انجام تحقیق قابل قبول میباشد. نتایج: با توجه به مجموع کششهای تولیدی نهادههای تابع کاب-داگلاس میزان بازده نسبت به مقیاس محصولات باغی در شهرستان گچساران در سال 1396، 7.55 میباشد که نشان میدهد با افزایش 7.55 درصدی نهادههای تولید در شهرستان گچساران، عملکرد محصولات باغی 7.55 درصد افزایش مییابد. به منظور تعیین ارزش اقتصادی آب کشاورزی، از توابع تولیـد کاب داگلاس، ترانسندنتال و ترانسلوگ استفاده شده است. نتیجه گیری: نتایج حاصل از برآورد توابع تولید مورد بررسی نشان داد تابع کاب داگلاس با توجه به سادگی و ضرایب معنیدار نسبت به سایر توابع (ترنسندنتال و ترانسلوگ) برتری داشت و برآورد ارزش اقتصادی آب بر اساس آن برابر با 585،060 ریال میباشد
Due to the limited water resources in the country, determining the economic value of water as a new approach is essential in managing and utilizing water resources. The general objective of research is to estimate the economic value of water in Gachsaran gardens. The Statistical Society in this research was gardeners of Gachsaran city with 2900 people. To select the statistical sample, Krejcy and Morgan tables were used. based on this table, the sample size was 262 people. A researcher-made questionnaire was used to collect data. To assess the validity of the research tools, a panel of experts including the professors of the Agricultural Management Department of Islamic Azad University of Gachsaran Branch was used and to calcute the reliability of the research tool Cronbach's alpha test was used and the Cronbach's alpha value of the entire questionnaire (0.78) was calculated, this value is acceptable to do the research. According to the total production elasticities of Cob-Douglas subordinate inputs, the rate of return relative to the scale of horticultural products in Gachsaran is 7.55%, indicating that with 7.55% increase in production input in Gachsaran, the horticultural product increases by 7.55%. In order to determine the economic value of agricultural water, the functions of Cobb Douglas, Transcendental and Transgul production have been used. The results of the estimation of production functions showed that the Cobb Douglas function according to its simplicity and coefficients was superior to other functions (Transcendental and Transgul), and the estimated economic value of water is 585,060 Rials.
1. Mansouri Yekta,. R. 2014. Water Resources Engineering and Sustainable Development Case Study: (Mehran Ilam Plain). Proceedings of the first national conference of architecture. Civil and Urban Environment. Hamedan. [In Persian].
5. Debertin D. L, 1986. Agricultural Production Economics. Macmillan Publication Company, New York
6. Saraei Tabrizi., M. Mousavi, S.M, and Talechi Langroudi, H. 2021. Investigating the economic value of water in environmental, agricultural and industry use (Case Study: Urmia Lake Basin). Journal of Human and Environment, No. 58: 79-95. [In Persian].
7. Bani Assadi., M. Sepahvand., A. and Zare Mehrjerdi. M.J. 2017. Water pricing in wheat crop production (Case Study of Arzubih Plain in Kerman Province). The third national conference of water management in the field (water -based demand). Karaj, Soil and Water Research Institute. [In Persian].
8. Beigi., A. Pordel., A. and Khashi Siuki. A. 2017. Investigation of Agricultural Price of Agricultural Agriculture in Arry Regions (Case Study: Birjand County of South Khorasan Province) Third National Water Management National Conference (Water Demand Conditional). Karaj, Institute of Soil and Water Research. [In Persian].
9. Vaziri., A. Vakil Pour., M. and Mortazavi. S.A 2016. Investigating the Economic Primation Effect of irrigation water on the pattern of cultivation in Dehgolan plain. Journal of Scientific and Research in Economics Research.
10. Parhizgari., A. and Badieh Barzin H. 2017 Determining the economic value of water and simulating the behavior of farmers in the vineyard in reducing agricultural water resources. Journal of Water Research in Agriculture. 31 (1): 105-118. [In Persian].
11. Gulzari., Z. Ashrafi., F. and Keramatzadeh. A. 2016. Estimates of the economic value of water in wheat crop production in Gorgan County. Water Research in Agriculture. 30 (4): 457-466. [In Persian].
12. Tahamiipour Zarandi., M. and Yazdani. S. 2016. The Role of Economic Tools in Integrated Management of Water Resources: A Case for Irrigation Water Pricing System in Wedding Basins of West Iran. Iranian Economics and Agricultural Development Research. (3): 545-556. [In Persian].
13. Mozaffari., M.M. 2016. Request for irrigation water in Ardalan plain with emphasis on pricing policy. Journal of Water and Soil Resources Protection. 5 (4): 48- 67. [In Persian].
14. Parhizgari., A. Khodadadi Hosseini., M. and Taghizadeh Ranjbar., H. and Mahmoudi. A. 2015. Determining the appropriate economic strategy for protecting the groundwater resources of Qazvin Plain. Journal of Rural Development Strategies 2 (4): 477-496. [In Persian].
15. Kurdwani., P. 2011. Water resources and issues in Iran, surface water and underground and their exploitation issues. Tenth Edition, University of Tehran. Tehran. [In Persian].
16. Bosworth B, Cornish G. Perry C, van Steenbergen F. 2002. Water Charging in Irrigated Agriculture: Lessons from the Literature. Report OD 145. HR Wallingford, Wallingford, UK.
17. Mobini Dehkordi., A. 2004. Demand Management and Water Supply, Suitable Mechanism for Consolidation of Water Challenge in the Future, Journal of Agriculture Engineering and Natural Resources, No. 2: 35-46. [In Persian].
18. Chu, L., and Grafton, R.Q. 2020. Water pricing and the value-add of irrigation water in Vietnam: Insight from a crop choice model fitted to a national household survey. Agricultural Water Management.
19. Assaadi, M.A., Khalilian, S., and Mousavi, S.H.A. 2019. Determining the economic value of water in wheat and rapeseed fields (case study: Qazvin plain irrigation network). Journal of Water Resources Engineering. 12: 137-148. [In Persian].
20. Fengjiao M. B, Hui Gaoa A, Egrinya E, Zhanzhong J, Lipu Hana, Jintong L, 2016. An economic valuation of groundwater management for Agriculture in Luancheng County, North China. Agricultural Water Management. 163(1): 28–36.
21. Watto M A, Mugera A. W, 2016. Irrigation water demand and implications for groundwater pricing in Pakistan. Water Policy 18(3): 565-585.
22. Ziolkowska J. J, 2015. Evaluating the shadow price of water for irrigation: a case study of the high plains. Agricultural and applied economics association 2014 annual meeting. Minneapolis. Minnesota.
23. Frija A, Chebil A, 2013. Marginal value of irrigation water in wheat production systems of central Tunisia. 4th international conference of the African association of agricultural economists. Hammamet. Tunisia.
24. Medellín-Azuara J, Harou J.J, Howitt R. E, 2010. Estimating economic value of agricultural water under changing conditions and the effects of spatial.
25. Molle F, Venot J, Hassan Y, 2008 Irrigation in the Jordan Valley: Are Water Pricing Policies Overly Optimistic? Agricultural Water Management. 95: 427-438.
26. Riesgo. L, Gomez-Limon J. A, 2006. Multi-Criteria policy scenario analysis for public regulation of irrigated agriculture. Journal of Agricultural Systems. 91: 1-28.
27. Gomes-Limon J, Riesgo L, 2004. Irrigation water pricing: differential impacts on irrigated farms. Agricultural Economics. 31: 47-66.
28. Doppler W, Salman A.Z, Al-Karablieh E K, Wolff H.P, 2002. The Impact of Water Price Strategies on the Allocation of Irrigation Water: The case of the Jordan Valley. Agricultural Water Management. 55:171-182.
29. Gallego-Alyala J, 2012. Selecting irrigation water pricing altenatives using a multimethodogical approach. Math. Comp. Model. 55: 861-883.
30. Turkmani., J. 1998. Determination of Reconciliation, Technical Efficiency and Factors Affecting It, Fars Province Case Study, Journal of Agricultural Economics and Development, No. 24. [In Persian].
31. Gajrati., D. 1993. Economist principles. Translated by Hamid Abysshim. University of Tehran Publications, Volumes 1 and 2. [In Persian].
32. Griffin R. 1987. Selecting functional for in Production analysis. Western Journal of Agricultural Economics, 12: 216-227.
33. Hussein Zad., J. and Salami. H. 2004. Selection of production function to estimate the economic value of agricultural water agriculture case study of wheat production. Agriculture and Development Economy. 12 (48): 63 -71. [In Persian].
34. Hussein Zad., J. Salami., H. and Sadr. K. 2007. Estimating the economic value of water in the production of crops using flexible production functions: Maragheh Plain of Bonab. Agriculture knowledge. 17:1-15. [In Persian].
35. Salami., H., Mohammad Nejad A. and Mohammadi Nejad. 2002. Determining the economic value of agricultural water using flexible production functions (case study of Saveh plain). Horticultural Science, Journal of Agricultural Science and Industries. Ferdowsi University of Mashhad.16(2): 85-97. [In Persian].
36. Samadi Nejad. A. and Salami., H. 2001. Economic Value of Agricultural Water (Case Study of Saveh Central Plain). Masters of Agriculture Economics. Faculty of Agriculture. University of Tehran. [In Persian].
37. Huang Q, Rozelle S, Howitt R, Hung J, 2006. Irrigation water pricing policy in China. American Agricultural Economics Association Annual Meeting, July 23-26, 2006. Long Beach, CA.
38. Ahmadpour, M., and Sabuhi Sabooni. M. 2008. Water pricing in the agricultural sector using mathematical planning method. Case Study of the Dashtestan District. Agriculture Economy. 3 (3): 121-141. [In Persian].
_||_
