ارزیابی اثر بازار سهم آب بر پایداری منابع آب زیرزمینی با تأکید بر قیمت تعادلی (مطالعه موردی: دشت قزوین)

نوع مقاله : مقاله پژوهشی

نویسندگان

1 دانشجوی دوره دکتری، گروه علوم و مهندسی آب، دانشگاه بین المللی امام خمینی(ره)، قزوین، ایران.

2 دانشیار گروه مهندسی آب، دانشگاه بین المللی امام خمینی، قزوین

3 دکتری شیمی، مدیر اجرایی پروژه بازار آب در استان قزوین.

4 گروه حسابداری، دانشگاه بین‌المللی امام خمینی (ره) ، قزوین ، ایران

چکیده

کاهش تراز آب زیرزمینی در دشت‌های ایران، از جمله دشت قزوین، نگرانی‌های جدی درباره‌ی پایداری منابع آب و تداوم فعالیت‌ کشاورزی ایجاد کرده است. جهت کاهش معضلات ناشی از کاهش حجم آبخوان‌ها، ابزارهای اقتصادی جدیدی مانند بازار سهم آب برای مدیریت منابع آب زیرزمینی مورد توجه قرار گرفته‌ است. از اسفند 1401 به منظور افزایش بهره‌وری و حفاظت از منابع آب زیرزمینی، بازار سهم آب به طور رسمی در دشت قزوین تشکیل شده است و بر اساس سازوکار بازار شکل گرفته، حداقل 10 درصد از حجم معاملات به نفع آبخوان ضبط و ذخیره می‌گردد. در این پژوهش به منظور بررسی اثر تشکیل بازار آب بر تراز آب زیرزمینی به شبیه‌سازی تراز آب زیرزمینی تحت دو سناریو الف) وجود بازار آب و ب) نبود بازار آب، با استفاده از پویایی سیستم‌ها در افق زمانی 25 ساله در بازار ثانویه پرداخته شده است. قیمت آب نقش کلیدی در ورود عرضه کنندگان و میزان عرضه به بازار دارد. به این منظور در ابتدا قیمت تعادلی بازار با استفاده از توابع عرضه و تقاضا محاسبه شد، سپس نرخ ورود به بازار با استفاده از ترکیب نرخ رشد خطی و لجستیک شبیه‌سازی گردید. نتایج نشان داد که تشکیل بازار آب موجب کاهش برداشت تجمعی آب زیرزمینی به میزان حدود 49 میلیون مترمکعب طی دوره 25 ساله نسبت به سناریوی بدون بازار می‌شود و تراز آب زیرزمینی را به میزان 19 سانتی‌متر (معادل 5/0 درصد) بهبود می‌بخشد. با این حال، این میزان بهبود اندک بوده و حتی در سناریوی وجود بازار آب نیز روند کلی تراز آب زیرزمینی همچنان نزولی باقی می‌ماند. بنابراین، بازار آب اگرچه می‌تواند به‌عنوان ابزاری مکمل در مدیریت منابع آب زیرزمینی مؤثر باشد، اما به‌تنهایی برای دستیابی به پایداری آبخوان دشت قزوین کافی نیست.

کلیدواژه‌ها

موضوعات

عنوان مقاله [English]

Evaluating the Impact of the Water Rights Market on the Sustainability of Groundwater Resources with an Emphasis on Equilibrium Price (Case Study: Qazvin Plain)

نویسندگان [English]

  • Seyedeh Marziye Hosseini 1
  • hamed mazandarani zadeh 2
  • Mohammad Mahjoub 3
  • Hamid Azizmohammadlou 4
1 Ph.D. Student, Water Science and Engineering, Imam Khomeini International University, Qazvin, Iran
2 associate professor, water eng. group, Imam Khomeini International University، Qazvin
3 PhD in Chemistry, Executive director of Qazvin province water rights market project.
4 Department of of Accounting, Imam Khomeini International University, Qazvin, Iran.
چکیده [English]

The decline of groundwater levels in Iran's plains, including the Qazvin Plain, has raised serious concerns about the sustainability of water resources and the continuity of agricultural activities. To mitigate the problems arising from the depletion of aquifer volumes, new economic instruments, such as water rights markets, have been considered for managing groundwater resources. Since February 2023, in order to increase productivity and protect groundwater resources, a water rights market has been officially established in Qazvin Plain, and based on the established market mechanism, at least 10 percent of the transaction volume is recorded and stored for the benefit of the aquifer. In this study, in order to examine the effect of water market formation on groundwater level, the simulation of groundwater level under two scenarios (a) the existence of water market and (B) the absence of water market, using the dynamics of systems in the 25-year time horizon in the secondary market is paid. Water prices play a key role in the entry of suppliers and the amount of supply to the market. To this end, the market equilibrium price was initially calculated using supply and demand functions, then the market entry rate was simulated using a combination of linear growth rate and logistics. The results showed that the establishment of the water market leads to a cumulative reduction in groundwater abstraction of approximately 49 million cubic meters over a 25-year period compared to the no-market scenario, and improves the groundwater level by about 19 centimeters (equivalent to 0.5%). However, this improvement is limited, and even under the water market scenario, the overall trend of the groundwater level remains downward. Therefore, although the water market can be effective as a complementary instrument in groundwater resource management, it is not sufficient on its own to achieve the sustainability of the Qazvin Plain aquifer.

کلیدواژه‌ها [English]

  • Partial Equilibrium
  • Pricing
  • Productivity
  • Water level
  • Water Resources Sustainability

Introduction

The Qazvin Plain, one of Iran’s major agricultural regions, has experienced increasing pressure on its groundwater resources over the past decades. The declining groundwater levels pose a serious threat to the sustainability of agriculture and the economic livelihood of the region. To improve water use efficiency and protect groundwater, a formal water rights market was established in the plain in March 2023. Previous studies on water markets highlight their positive role in reallocating water to higher-value uses, improving productivity, and enhancing pricing mechanisms. However, most of these studies focus on economic outcomes, while few have examined the long-term effects of water market formation on groundwater balance. Building on this literature, the present study investigates the impacts of a water rights market on groundwater levels over a 25-year horizon. Given the crucial role of water prices in influencing water-saving behavior and market participation, economic principles combined with a system dynamics approach are used to analyze market equilibrium and its long-term effects on groundwater resources.

Method

A system dynamics model was developed, consisting of two interacting subsystems: the water resources subsystem and the water market subsystem. In this framework, water prices influence market participation and traded volumes, which in turn affect groundwater extraction and storage. Supply and demand were represented using linear functions estimated from local data, while market growth was modeled through a combination of linear components reflecting external factors such as awareness and incentives, and logistic components capturing price-dependent participation. Annual transaction volumes were simulated, and the effect of partial aquifer recharge was incorporated into the model. The model was calibrated using observed groundwater level data from 2000 to 2019. Model performance was evaluated using RMSE, MAE, and R² indicators, showing satisfactory agreement between observed and simulated values. Sensitivity analysis was conducted to evaluate the effect of varying storage fractions (5%, 10%, 15%, and 20%) on groundwater levels. Two scenarios were simulated: one without a water market, in which water withdrawals follow conventional patterns and illegal abstractions continue, and one with a water rights market incorporating partial recharge. Assumptions included fixed cropping patterns, constant irrigation efficiency, and rational economic behavior of market participants, while structural, technological, or institutional changes were not considered due to data limitations.

Results and disscution

Simulation outputs indicate that groundwater levels decline over the 25-year horizon under both scenarios; however, the rate of decline is lower in the market scenario. Model results show that the establishment of a water rights market reduces cumulative groundwater withdrawals by approximately 49 million cubic meters over the study period. The difference in groundwater levels between the two scenarios increases gradually over time, reflecting the cumulative effect of reduced annual withdrawals under the market mechanism. On average, groundwater levels in the market scenario are approximately 19 cm higher than those in the absence of a market. This gap widens toward the end of the simulation period, indicating the persistent moderating effect of the market on extraction volumes.

Sensitivity analysis of storage fractions in market transactions shows that increasing the fraction can slightly improve groundwater levels by reducing withdrawals. However, excessively high storage fractions increase the effective water price, reduce participation, and limit the overall effect of the market. These findings emphasize the importance of identifying an optimal intermediate storage fraction to balance aquifer protection, economic efficiency, and social acceptance. Overall, while the water rights market provides a positive effect on groundwater sustainability, the impact is limited. The long-term declining trend persists under both scenarios, indicating that additional management and regulatory interventions are necessary.

Conclusions

This study demonstrates that the establishment of a water rights market in the Qazvin Plain can reduce groundwater extraction and slightly improve groundwater levels. However, the effect is modest, and the long-term declining trend continues, indicating that the market alone cannot halt aquifer depletion. The market’s main contribution lies in reducing withdrawal intensity and managing demand rather than producing substantial improvements in groundwater levels. These findings underline the importance of employing the water rights market as a complementary tool within a comprehensive management framework. Appropriate storage fractions, combined with policy measures such as monitoring, enforcement against illegal withdrawals, and improved irrigation efficiency, are essential to achieve meaningful impact. In summary, the water rights market has potential to alleviate pressure on groundwater resources, but it cannot independently resolve the decline in groundwater levels, and must be implemented as part of an integrated and adaptive policy package for sustainable groundwater management.

Funding

This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

Authorship contribution

Conceptualization, Hosseini S.M. and Mazandarani Zadeh H.; methodology, Hosseini S.M., Mazandarani Zadeh H. and Azizmohammadlou H.; software, Hosseini S.M.; validation, Hosseini S.M., Mazandarani Zadeh H; formal analysis, Hosseini S.M., Mazandarani Zadeh H.; investigation, Hosseini S.M. and Mazandarani Zadeh H.; resources, Hosseini S.M.; data curation, Hosseini S.M., Mahjoub M.; writing—original draft preparation, Hosseini S.M.; writing—review and editing, Mazandarani Zadeh H, Mahjoub M.; Azizmohammadlou H. and Hosseini S.M;. All authors have read and agreed to the published version of the manuscript.

Declaration of Generative AI and AI-assisted technologies in the writing process

During the preparation of this work the authors used ChatGPT in order to simulate the water rights market. After using this tool, the authors reviewed and edited the content as needed and take full responsibility for the content of the publication.

Data availability statement

Data available on request from the authors.

Acknowledgements

The authors feel it necessary to express their gratitude to Zist Ab Porab  company for their sincere cooperation in advancing the present research.

Ethical considerations

The authors avoided data fabrication, falsification, and plagiarism, and any form of misconduct.

Conflict of interest

The authors declare no conflict of interest. 

مراجع

Abbasi, H., Minouei, M., & Rahnamay Roodposhti, F. (2025). Dynamic Modeling of Iran’s Integrated Water Market. Journal of Resource Management and Decision Engineering, 4(2), 1-12.
Abbasi, R., Sedaghati, H. R., & Shafiei, S. (2022). Proposing an economic order quantity (EOQ) model for imperfect quality growing goods with stochastic demand. Research in Production and Operations Management13(1), 105-127. (In Persian).
Abolhassani, L., Shahnoushi, N., Rahnama, A., Azam Rahmati, E., & Heiran, F. (2019). The Role of Water Market Formation in Using the Water Resources in Agricultural Sector: A Case Study of Mashhad Plain in Iran. Agricultural Economics and Development, 27(2), 1-29 . (In Persian).
Ahmadi, A., Zolfagharipoor, M. A., & Ebrahimi, B. (2019). Challenges and considerations of regional water market rights, a case study: Isfahan-Borkhar Plain. Iran-Water Resources Research, 14(5), 146-159. (In Persian).
Akbarpour, A., Tosan, M., & Shamshirgaran, R. (2025). Emerging Trends in the Integrating Remote Sensing and Machine Learning for Groundwater Resources Management: A Bibliometric Study. Iran-Water Resources Research, 21(1), 127-148 . (In Persian).
Alam, M. J., Sarma, P. K., Begum, I. A., Connor, J., Crase, L., Sayem, S. M., & McKenzie, A. M. (2024). Agricultural Extension Service, Technology Adoption, and Production Risk Nexus: Evidence from Bangladesh. Heliyon, 10(14).
Amouzegari, P., Panahi, M., & Mirnia, M. K. (2020). Local Market Analysis of Groundwater Resources Exchange in Alashtar Watershed, Iran. Watershed Engineering and Management, 12(2), 454-466 . (In Persian).
Badie Barzin, H., Khamri, E., Fari Moghadam, Z., & Parhizkari, A. (2018). The Effects of Regional Water Markets Formation on Balancing the Supply and Demand of Irrigation Water in the Sistan Region. Iran-Water Resources Research14(3), 253-256 . (In Persian).
Bruno, E. M., Jessoe, K. K., & Hanemann, W. M. (2024). The Dynamic Impacts of Pricing Groundwater. Journal of the Association of Environmental and Resource Economists, 11(5), 1201-1227.
Dashtizadeh, R., Liaghat, A., Sohrabi, T., Noory, H., Kerachian, R., & Bazr Afshan, J. (2025). Examining the Impacts of Water Market Establishment on Groundwater Resources and Economy in the Absence of Sufficient Management Rules and Monitoring: A Case Study of Hashtgerd Plain. Iran-Water Resources Research21(2), 163-181. (In Persian).
Fadaei Fard, M. N., Ebrahimi, K., & Behzadpour, M. (2025). The role of water market in improving the economic value of agricultural water resources. Water and Irrigation Management, 15(1), 55-73. (In Persian).
Hashemi, M., Mazandarani zadeh, H., Daneshkare Arasteh, P., & Zarghami, M. (2020). Evaluation of Management Policies to Smultaneously Maintain Groundwater Resources and Farmers' Livelihoods Using the System Dynamics and Game Theory. Iran-Water Resources Research, 16(3), 1-17. (In Persian).
Hosseini, S. M., & Mazandarani Zadeh, H. (2022). Optimal Water Allocation among Agricultural Consumers Using Crop Pattern Change Approach to Improve Farmers' Livelihood. Irrigation Sciences and Engineering45(3), 47-61. (In Persian).
Hosseini, S. M., Mazandarani Zadeh, H.,  Azizmohammadlou, H., & Mahjoub, M. (2025). Estimating the Water Supply Function in Secondary and Productivity Markets, Case Study: Qazvin Water Share Market. Iran-Water Resources Research21(1), 112-126. (In Persian)
Hosseini, S. M., Mazandarani Zadeh, H., Azizmohammadlou, H., & Mahjoub, M. (2025). Economic Analysis of the Secondary Water Market and Estimating the Equilibrium Price (Case Study: Qazvin Province). Water and Irrigation Management, 15(3), 543-562. (In Persian).
Howe, C. W., & Goemans, C. (2003). Water transfers and their impacts: Lessons from three Colorado water markets 1. JAWRA Journal of the American Water Resources Association, 39(5), 1055-1065.
Hyndman, R. J., & Koehler, A. B. (2006). Another Look at Measures of Forecast Accuracy. International journal of forecasting, 22(4), 679-688
Jaffari, A., Sharafati, A., Neshat, A., & Hosseini, S. A. (2025). Challenges of Water Resources Governance under the Impact of Climate Change and Water Transfer. Journal of Ecohydrology, 12(2), 780. (In Persian).
Jenab, M., Ramezani Etedali, H., & Daneshkar Arasteh, P. (2022). Investigation of groudwater level decreasing effects on Qazvin aquifer hydrodynamic characteristics. Iranian Journal of Soil and Water Research53(6), 1373-1386. (In Persian).
Kanooni, A., Hasani, Y., Garaei, K., & Dindar, A. (2020). The Effects of Water Market Development on Farmers' Selective Cultivation Pattern in Sabalan Irrigation Network, Ardabil. Iran-Water Resources Research16(2), 323-333. (In Persian).
Karkhaneh, M., Sarlak, A., & Hozhbar Kiani, K. (2020). The Role of Market in Optimum Allocation of Water in Shazand Plain. Water and Irrigation Management, 10(2), 347-363. (In Persian).
Kucharavy, D., & De, Guio R. (2015). Application of  Logistic Growth Curve. Procedia engineering, 131, 280-290.
Mai, T., Mushtaq, S., Loch, A., Reardon-Smith, K., & An-Vo, D. A. (2019). A systems thinking approach to water trade: Finding leverage for sustainable development. Land Use Policy, 82, 595-608.‏
Makvandi, A., Mohamadi, H., Kardavani, P., Jvadi, S., & Farajzadeh as, M. (2020). A Survey of Water Resources Sustainability in Zayandehrood Basin Using Sustainability Indices and GMS Model (Case Study: Najaf Abad Aquifer in Zayandehrood Basin). Irrigation Sciences and Engineering43(3), 197-211. (In Persian).
Matinju, M. H., & Alizadeh, H. (2021). Hydro-Economic Agent-Based Modelling for Simulation of the Water Market in Mojen. Iran-Water Resources Research, 16(4), 127-142. (In Persian).
Mazandarani Zadeh, H., & Hoseini, M. (2023). Investigating the Effect of Agricultural Product Price Forecasting on Groundwater Level Using Systems Dynamics, in order to Simultaneously Maintain the Welfare of Farmers and Groundwater Resources. Iranian Journal of Soil and Water Research, 53(11), 2565-2582. (In Persian).
Mazandarani Zadeh, H., & Hosseini, S. M. (2025). Assessing the Economic Efficiency of Water Distribution in the Agricultural Sector through Crop Pattern Modification (Case Study: Qazvin Plain Irrigation Network). Irrigation Sciences and Engineering, 48(1), 39-57. (In Persian).
Ministry of Jihad Agriculture. (2000–2023). Agricultural Statistics Yearbook. (In persian).
Mponji, R. F., Cao, X., Wang, J., & Jia, X. (2024). Meta-analysis on Farmers’ Adoption of Agricultural Technologies in East Africa: Evidence from Chinese Agricultural Technology Demonstration Centers. Agriculture, 14(11), 2003.
Rajabi Khamse, K., Nikbakht Shahbazi, A., Fathian, H., & Zohrabi, N. (2021). Izeh Plain Subsidence Modeling Using MODFLOW Mathematical Code. Iran-Water Resources Research16(4), 112-126. (In Persian).
Razzaq, A., Qing, P., Abid, M., Anwar, M., & Javed, I. (2019). Can the Informal Groundwater Markets Improve Water Use Efficiency and Equity? Evidence From a Semi-arid Region of Pakistan. Science of The Total Environment, 666: 849-857
Riab Consulting Engineers. (2023). Preparation of the water resources balance up to the 2017–2018 water year in the Namak Lake Basin. Iran Water Resources Management Company.
Sabuhi, M., & Parhizkari, A. (2014). Analysis of the economic and welfare impacts of establishing irrigation water market in Qazvin Province. Journal of Agricultural Economics & Development, 27(4), 338-350. (In Persian).
Safari, S., Sharghi, S., Kerachian, R., & Noory, H. (2023). A Market-based Mechanism for Long-term Groundwater Management Using Remotely Sensed Data. Journal of Environmental Management, 332, 117409.
Shabani rouchi, Z., Yazdani, S., & Moghaddasi, R. (2024). Estimating the Amount of Saving in Water Consumption under the Condition of Forming a Water Market and Examining Its Welfare Effects: A Case Study of Hashtgerd Plain in Alborz Province of Iran. Agricultural Economics and Development, 31(4), 73-101. (In Persian).
Soil and Water Research Institute of Iran. (2025). Iranian Crop Water Requirement System. (In persian).
Stanski, H. R., Wilson, L. J., & Burrows, W. R. (1989). Survey of Common Verification Methods in Meteorology.
Valipour, E., Rasouli, M. M., & Ketabchi, H. (2023). Groundwater Resources Withdrawal and Depletion Estimation Methods (Part 1: Methods Based on International Experiences). Water and Irrigation Management, 13(2), 385-405. (In Persian).
Xu, T., Wu, Z., Tian, G., & Shi, Z. (2024). Does Water Rights Trading Promote the Efficiency of Water Use? Empirical Evidence from Pilot Water Rights Trading in China. Water Supply, 24(8), 2670-2687.
Zarei Ghorkhodi, A., & Shahnazari, A. (2024). Evaluating the Impact of Creating a Water Market on Improving Productivity Using a Mathematical Programming Model (Case Study: Tajen Watershed). Water and Irrigation Management, 14(1), 207-221. (In Persian).
Zetland, D. (2021). The Role of Prices in Managing Water Scarcity. Water Security, 12: 100081.
Zhao, M., Ancev, T., & Vervoort, R. W. (2024). Water Market Functionality: Evidence from the Australian Experience. Water Resources Research, 60(2), e2022WR033938.
Zibaei, M., & Malek varnosfaderani, M. M. (2017). Potential Effects of a Water Market on Enhancing Water Productivity and Reducing Water-related Conflicts in Fars Province, Iran. Journal of Water and Wastewater; Ab va Fazilab, 28(1), 126-138. (In Persian).
 
 
تحقیقات آب و خاک ایران
دوره 57، شماره 2
اردیبهشت 1405
صفحه 491-512

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