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Determination of global water value to improve water management in Ardabil plain, Iran

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Ardabil plain is under water deficit due to its cold and dry climate in both drinking and agricultural water supply. One solution that can partially address this issue is comprehensive water management. In this study, to determine the global water value, both agricultural water and drinking water were valuated separately in Ardabil plain, Iran. In agriculture, major crops were valuated using the production function method. In the next step, the willingness to pay (WTP) extra for municipal drinking water was investigated. Finally, the results of irrigation water and drinking water assessment were combined to obtain the global water value. In addition, to obtain global water value, economic values in agricultural and urban drinking water were determined, which in agricultural sector was equal to 43,654,248 $ and in drinking water sector was equal to 8,546,384 $. Based on these results, the global water value was 52,200,632 $.
Czasopismo
Rocznik
Strony
791--799
Opis fizyczny
Bibliogr. 33 poz.
Twórcy
  • Faculty of Agricultural Sciences, University of Guilan, P.O.BOX 41635-3756, Rasht, Iran
  • Faculty of Agricultural Sciences, University of Guilan, P.O.BOX 41635-3756, Rasht, Iran
  • Department of Water Engineering and Environment, Caspian Sea Basin Research Center, Tehran, Iran
  • Faculty of Agricultural Sciences, University of Guilan, P.O.BOX 41635-3756, Rasht, Iran
Bibliografia
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  • 4. Behailu S, Kume A, Desalegn B (2012) Household’s WTP extra for improved water service: a case study in Shebedino District. South Ethiop Water Environ J 26(3):429–434
  • 5. Briscoe J (1996) Water as an Economic Good: The Idea and What it Means in Practice. Proceedings of the ICID World Congress. Cairo, Egypt
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  • 8. Emami Meibodi A, Haghdoost E, Pakdin J (2011) Estimating the value of drinking water for the households in Larestan by using a contingent valuation method. Iran J Econ Res 16(46):47–60
  • 9. Entele BR, Lee J (2020) Estimation of household WTP extra for fluoride-free water connection in the Rift Valley Region of Ethiopia: a model study. Groundw Sustain Dev 10:100329
  • 10. Esmaeili A, Shahsavari Z (2011) Valuation of irrigation water in South-western Iran using a hedonic pricing model. Appl Water Sci 1(3–4):119–124
  • 11. Esmaili-Mukher Fardoui MA, Ebrahimi K, Araginejad Sh, Fazlollah H (2018) Determination of economic value of agricultural water by crop pricing approach in Markazi province. J Water Irrig Manag 8(1):149–163
  • 12. Green WH (1993) Econometric analysis. Macmillan Publishing Company, New York
  • 13. Halter AN, Carter HO, Hocking JG (1957) A note on the transcendental production function, Farm Econ. 966–974.
  • 14. Griffin C, Briscoe J, Singh B, Ramasubban R, Bhatia R (1995) Contingent valuation and actual behavior: predicting connections to new water systems in Kerala India. World Bank Econ Rev 9(1):373–395
  • 15. Jianjun J, Wenyu W, Ying F, Xiaomin W (2016) Measuring the WTP extra for drinking water quality improvements: results of a contingent valuation survey in Songzi China. J Water Health 14(3):504–512
  • 16. Karamatzadeh A, Chizari AM, Sharzeei Gh (2011) The role of the water market in determining the economic value of agricultural water by mathematical planning approach (case study: downstream lands of the Sweet Bojnord Valley Dam). Iran J Agri Econ Dev Res 42–2(1):29–44
  • 17. Khaledian MR, Mailhol JC, Ruelle P, Dejean C (2012) Effect of cropping strategies on irrigation water productivity of durum wheat. Plant, Soil Environ 59(1):29–36
  • 18. Moffat B, Motlaleng GR, Thukuza A (2011) Households’ WTP extra for improved water quality and reliability of supply in Chobe ward Maun. Botswana J Econ 8(12):45–61
  • 19. Mohammadi H, Farajzadeh Z, Dehbashi V, Shahraki A, Ansarienik H (2013) Selecting a model for predicting the prices of livestock products. Agri Econ Dev 81(21):101–131
  • 20. Nouri-Khajebelagh R, Khaledian MR, Kavoosi-Kalashami M (2021) Economic value of irrigation water for major crops in the Ardabil plain. Iran Irrig Drain 70(5):1359–1367
  • 21. Panahi A (2015) Integrated Watershed Management in Climate Change. M.Sc., Agricultural Engineering, Water Resources Engineering, Razi University
  • 22. Parhizkari A, Badie-Barzin H (2017) Determining the economic value of water and simulating the behavior of farmers in the Takestan region in reducing agricultural water resources. J Water Res Agri 31(1):105–118
  • 23. Rezaei G, Khaledian MR, Kavoosi-Kalashami M, Rezaei M (2022) Prioritization of areas suitable for rice cultivation based on the economic value of irrigation water. Irrig Drain. https://doi.org/10.1002/ird.2685
  • 24. Rogers P, Bhatia R, Huber A (1998) Water as a social and economic good: how to put the principle into practice. Global Water Partnership/ Swedish International Development Cooperation Agency S105–25 Stockholm, Sweden
  • 25. Salar-Ashayeri M, Khaledian MR, Kavoosi-Kalashami M, Rezaei M (2018) The economic value of irrigation water in paddy farms categorized according to mechanization levels in Guilan province. Iran Agri Water Manag 202:195–201
  • 26. Salar-Ashayeri M, Khaledian MR, Kavoosi-Kalashami M, Rezaei M (2020) Simulation of water allocation in Sefidroud irrigation and drainage network for sustainability of rice production. Paddy Water Environ 18:607–621
  • 27. Seckler D (1996) New Era in water management. International Irrigation Management Institute. Colombo, Sri Lanka.
  • 28. Sule BF, Okeola OG (2010) Measuring WTP extra for improved urban water supply in Offa City, Kwara State, Nigeria. Water Sci Technol: Water Supply 10(6):933–941
  • 29. Tahamipour M, Kavoosi-Kalashami M (2012) Applying CVM for economic valuation of drinking water in Iran. Int J Agri Manage Dev (IJAMAD) 2:209–214
  • 30. Tahamipour M, Kavoosi Kalashami M, Chizari A (2015) Irrigation water pricing in Iran: the gap between theory and practice. Int J Agric Manage Dev 5(2):109–116
  • 31. Vásquez WF, Mozumder P, Hernandez-Arce J, Berrens RP (2009) WTP extra for safe drinking water: evidence from Parral. Mexico J Environ Manage 90(11):3391–3400
  • 32. Whittington D, Briscoe J, Mu X (1987) WTP extra for water in rural areas: methodological approaches and an application in Haiti. WASH Project, Field Report No. 213. Washington, D.C.
  • 33. World Bank (1995) The World Bank and irrigation. A World Bank Operations Evaluation Study, Washington
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e79d219f-b54b-4780-af83-7843d262e265
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