The acute lack of natural water resources in Kuwait is indisputable. The country essentially has one limited natural water resource that is groundwater, while the majority of the country's demands are met by seawater desalination. Notwithstanding this scarcity calls for careful foresighted utilization of the water resources, no clear plans is being followed. Attempting to initiate the planning process, this paper gives an assessment of the current status of water resources availability, production, future demand and expected increases in production, in Kuwait. While the desalination and wastewater reuse are only bounded by economical considerations, considerable efforts have already been made in assessing the baseline of the groundwater resources in Kuwait; nonetheless, no estimation is available of the aquifer system potential for sustainable development or even mining. The total water budget in 2001 is estimated at 655 Million m 3 , with desalination, groundwater production, and wastewater reuse constituting 59%, 32% and 9% respectively. The projected water demand for 2010 is 1020 Million m 3 . The plans of the Ministry of Electricity and Water and the Ministry of Public Works indicated that groundwater would cover 52% of the planned additional production, while desalination and wastewater reuse would cover 44% and 4% respectively. While the proposed increase in groundwater production would inevitably consume the only natural water resource of the country, only 40% of the generated wastewater is to be utilized. The absence of integrated planning is also manifested in the total planned production that surpasses the projected demands by more than 17%.
The water policies of Kuwait are in need of major reforms in order to cope with the ever-increasing demands without burdening the country's economy. As it stands, the simple approach of increasing desalination capacities and groundwater withdrawal to meet the demands is hurting the economy as well as the natural resources, and is bound to lead the country into a serious water crisis. In this context, this paper discusses the potential alternatives to the current water policies of Kuwait.
Protecting the quality of groundwater is a necessity that requires significant restrictions on land use. Because such restrictions are of complex socio-economic consequences, they should be carefully adjusted to the spatially varied protection needs. This paper describes the development of a series of maps designed to facilitate groundwater protection decisions according to land surface zoning. The zoning was based on attributes descriptive of the basic elements of risk (hazard, exposure and consequences) to groundwater quality in Kuwait to provide basis for adjusting the protective regulations to the needs. Standardized maps of the major categories of potentially hazardous activities were prepared using ArcGIS. A country scale map combining and ranking all the hazardous activities was prepared using the USEPA's hazard ranking system (HRS). The intrinsic vulnerability of the groundwater was mapped using the DRASTIC model. The relative value of the groundwater was mapped according to the three-component criteria of current and future dependence on groundwater, as well as interaction with environmental resources, which were adapted from USEPA criteria for prioritizing the protection/remediation funds. Agricultural activities and oil-related industries were ranked the most hazardous activities in Kuwait. The patterns of the intrinsic vulnerability seemed to be dictated by the depth to the groundwater and the material of the unsaturated zone. Decision making tools were produced by combining the above maps as follows: (1) vulnerability and hazard maps to produce the risk map, (2) risk and value maps to produce the value weighted risk map, and (3) vulnerability and value maps to produce release consequences map. The produced maps should serve the purposes of identifying all potential monitoring targets, prioritizing of funds allocation for monitoring or other corrective actions, and adjusting the land use restrictions to the needs as well as allocating future potentially hazardous land use, respectively. Benefits of including the groundwater value in the criteria for protecting the resource were illustrated by .kw1 1678 A. A. Fadlelmawla et al. comparing the decisions that would be logically made based on schemes with and without groundwater value as part of the criteria.
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