Market-based groundwater resources allocation mechanism: An inter-sectoral water exchanges programming analysis

Abstract

This study aims to analyze the effects of local water market formation in a limited region of the Gavkhuni Basin, located in the center of Iran. An economic optimization mathematical model, called ‘inter-sectoral water exchanges programming’ (IWEP), is developed to address the study objectives. The proposed model seeks to maximize the net benefit of participating agents in the water market mechanism. This model can determine the scope of production activities and the monthly volume of water exchange through different technical methods of water transfer. Results demonstrate that the agriculture sector contributes to an increase in the productions of the agriculture industries and building industries through selling its surplus water. Although farm agents sell only 1% of their groundwater permits to industrial agents, the total net benefit of the agents is increased by more than 30%, compared to when the water market is not implemented. The shared aquifer method, based on common pool groundwater resources, is identified as a suitable technical method for water transfer in the groundwater markets. Finally, the socio-hydrological analysis of groundwater exchanges reveals that the inter-sectoral water market at the local scale can increase the region's employment rate by 45% and mitigate more pressure on the aquifer to meet water demands in the industry sector. These results clarify the efficient role of market-based groundwater allocation approach under water scarcity conditions.