Feasibility of forming a water market in the east of Mazandaran province and optimization of participatory models in its implementation

Document Type : Complete scientific research article

Authors

1 Ph.D. Student in Irrigation and Drainage Engineering, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran

2 Corresponding Author, Associate Prof., Dept. of Water Engineering, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran

3 Associate Prof., Dept. of Water Engineering, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran

Abstract

Abstract
Background and objectives: In all the upstream documents of the water sector, especially the six development plans, special emphasis has always been placed on the management of water resources. One of the ways to control the supply and demand of water crisis is to create and discover the price of water in the water market pricing table. The implementation of the water market in a region requires many infrastructure facilities, which in the current situation requires spending a huge budget from the government to implement or complete these. Current studies show that one of the ways to solve this crisis is to use public and social participation.
Materials and methods: Since the vast province of Mazandaran plays a special role in the economic structure and provision of food security of the country and is known as the hub of agriculture, tourism and water industry of the country, therefore, in this survey that was carried out in the eastern regions of Mazandaran province By selecting 50 points in the cities of Sari, Mian Darud, Neka, Behshahr and Golugah and selecting two points in each village (100 points in total) during the years 2021 and 2022, the feasibility of implementing an official water market in this region and Also, by evaluating the partnership models, including the design construction loanmethod (DBF), construction lease operation transfer (B.L.O.T), construction ownership performance method (B.O.O) and public-private partnership (P.P.P) method, in an area of 1000 hectares in Behnmir basin was used to identify the most optimal model using the hierarchical method (AHP) and also introduced a new model called public private partnership with hydro-social approach (PSP) to form a water market in this area.
Results: Surveys show that the price of water for one hectare of rice in the years 1400 and 1401 is equivalent to 480 and 900 million rials per hectare of real water rights in the plain. For 1399, 1400 and 1401, respectively, water sales per hectare are 1.5, 5.4 and 9 million tomans, assuming the hydromodule index of water in paddy fields with the transfer of water from streams of the third and fourth grade soil to the amount of 10,000 cubic meters in the four stages of rice cultivation. Therefore, the price per cubic meter of water in these years has been paid 150, 540 and 900 tomans respectively in the private sector for paddy cultivation. Currently, informal water markets are operating in the eastern regions and water is being bought and sold at very high prices among farmers. But the informality of this market does not play a role in the management of water demand, and it is considered necessary to complete and develop the infrastructure projects of the irrigation network in order to make this market official.
Conclusion: As a result, it can be said that in order to innovate in this research by using the new public-private partnership model with a hydro-social approach (P.S.P.P) based on the water reliability model, which is the most efficient model in terms of water supply and demand, in addition to creating and completing Infrastructure, economic well-being, high efficiency of water can be the basis of optimal water consumption, due to the hydro-social approach of the convergence of stakeholders and water-sharing groups or water bodies (farmers' cooperatives). with farmers' micro-economy) should be formed and implemented easily in the region.

Keywords

Main Subjects

References

1.Ahmadi, A., Zolfagharipoor, A. M. A., & Ebrahimi, B. (2018). Challenges and Considerations of Regional Water Market Rights, a Case Study: Isfahan Borkhar Plain. Iran-Water Resources Research. 14 (5), 137-148.
2.Cunningham, R. (2002). Reform of water resource control in England and Wales. Journal of Water Law, 13 (1), 35-44.
3.Garrick, D. E. (2015). Water Allocation in Rivers under Pressure: Water Trading, Transaction Costs and Transboundary Governance in the Western US and Australia.Edward Elgar Publishing.
4.Hajizadeh, R., Hesam, M., & Sharifan, H. (2022). Assessing the current situation of the water market in the east of Mazandaran and comparing it with domestic and foreign markets. Specialized scientific quarterly of agricultural research and sustainable environment. 3 (2), 8-18. [In Persian]
5.Keramatzadeh, A., & Arabi, M. (2020). Investigating the Local Water Markets in the North Khorasan Province (Case Study: Downstream of Shivan Barzoo Dam). Iran-Water Resources Research. 16 (2), 334-345.
6.Maleki, N., Shakeri Bostanabad, R., Salehi Komroudi, M., & Seyedabadi, S. (2021). Investigating the status of  the combined water security index of Iranian provinces in the period of 2012-2017: application of multi-criteria analysis methods. Journal of water and sustainable development. 8 (2), 21-32. [In Persian]
7.Matinju, M. H., & Alizadeh, H. (2020). Determination of Operation of the Informal Water Market in Comparison. With One Type of the Formal Market (The Case Study of Mojen Region). Water Management in Agriculture. 7 (1), 95-108.
8.Mosavi, M. H., Khoshkalam Khosrowshahi, M., & Ahmadi, R. (2022). The feasibility of financing projects related to renewable energy through Public-Private Partnership (PPP) in Iran's economy. Program and Development Research Quarterly. 3 (9), 7-41. [In Persian]
9.Naseri, D., Shamsipour, A., & Rezvani, M. (2019). Evaluation and zoning of land suitability for rangeland using AHP-FUZZY method (Case study: saghezchi chay catchmen, Ardabil). Human and Environment. 50, 85-102.
10.Poshtvan, H. (2022). Groundwater market framework and requirements. Tadbir Water Management Institute of Iran, Chamber of Commerce, Industries, Mines and Agriculture of Kerman Province. [In Persian]
11.Razaghi Burkhani, F., Azizi Khalkhali, T., & Barati, A. A. (2023). Analysis of water security situation for agricultural development of Mazandaran province. The third national conference on water resource management strategies and environmental challenges. June 3, 2023.
12.Rinaudo, J. D., & Donoso, G. (2019). State, market or community failure? Untangling the determinants of groundwater depletion in Copiapó (Chile). International Journal of Water Resources Development, 35 (2), 283-304.
13.Safaee, V., Davary, K., & Pourmohammad, Y. (2019). Necessity of Water, Energy and Food Nexus Based on the Strategic Plan For Sustainable Development. Journal of Water and Sustainable Development. 6 (2), 9-14. [In Persian]
14.Safari, N., Zarghami, M., Behboudi, D., & Alami, M. T. (2016). Market-Based Welfare Effects Modeling in Regional Allocation of Water Compared to the Administrative Allocation by Developing Cooperative Game; Case Study. Iran-Water Resources Research. 12 (3), 22-34. [In Persian]
15.Salariyan, M. (2014). Development of water resources and modern management transformation in irrigation. Journal of Water and Sustainable Development. 1 (2), 83-90. [In Persian]
16.Tahmasebi, A., & Askari Bozayeh, F. (2017). The Water Market and its Promise for Managing Water Demand. Water Management in Agriculture. 4 (2), 45-52.
17.Wheeler, S. A., Loch, A., Zuo, A., & Bjornlund, H. (2014). Reviewing the adoption and impact of water markets in the Murray‒Darling Basin, Australia. Journal of Hydrology, 518, 28-41.
18.Zekri, S., & Eeaster, E. (2005). Estimating the potential gains from water markets: A case study from Tunisia. Agricultural Water Management. 72 (1), 161-175.
Journal of Water and Soil Conservation
Volume 31, Issue 4
January 2025
Pages 137-157

Files

Share

How to cite

Statistics