Abstract

To study the temporal and spatial variations of the groundwater quantity and quality in response to intensive groundwater exploitation from the Quaternary aquifer in UAE, a water budget model with a cell size of one km2 was developed. The available historical records of groundwater levels and salinity have been used to develop the water table and salinity maps of UAE for the years 1969, 2005, 2010, and 2015. The available water resources and soil information system was used to facilitate validity, cogency, and consistency of the groundwater analysis. The spatial analysis module of GIS was used to define the aquifer setting, saturated thickness, aquifer base elevation, effective porosity, and groundwater salinity at each grid cell. The obtained results indicated that the volume of fresh groundwater resources in the Quaternary aquifer in UAE has decreased from 238 km3 in 1969 to around 10 km3 in 2015. A major part of these depleted fresh groundwater resources was replaced by brackish water, and, therefore, the total groundwater storage in this aquifer has only decreased from 977 in 1969 to 922 km3 in 2015, respectively. If the same groundwater exploitation continues, the freshwater storage in the surficial aquifer might be totally depleted in agricultural areas. Most probably, the brackish groundwater resources will be exploited. In such areas, more attention should be devoted to the management of brackish water resources to avoid the exacerbation of the saltwater intrusion problem. Despite the fact that the obtained results indicate the negative impacts of the improper water resources management in a small part of the arid area, the learned lessons are valid for other arid countries, in particular, using the proper steady state boundary conditions for the initial conditions in modeling the available future management alternatives.

Highlights

  • Due to the lack of monitoring wells and detailed subsurface information, this study focuses on the shallow aquifer (Quaternary aquifer) in the United Arab Emirates (UAE)

  • Emirate covers an area of 63,000 km2 and is made of around 1500 m thick limestone and presently, there is a very slow groundwater deletion storage with a percentage of 0.014% of its present freshwater reserve, this aquifer could be sustainably developed for the water security of the northern part of UAE

  • The carbonate aquifer in Abu Dhabi Emirate covers an area of 63,000 km2 and is made of around 1500 m thick limestone and marl interbedded with gypsum and dolomite7 and of 24 evaporates Formations of Lower Eocene to Miocene age

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Summary

Introduction

Precipitation varies spatially, and data from several representative gauges are being used to estimate the average precipitation for the area and to evaluate its reliability seasons/days. Is in thecomprehensive application of of technology, brought about bya aworld rapidleader and very desalination technology, brought about by a rapid and very comprehensive program program of construction of new plants and a detailed research and development of construction of new plants and a detailed research and development campaign It has has been been introduced introduced recently recently and and is is obtained Recycled obtained via via wastewater wastewater and and sewage treatment plants that supply water for agricultural purposes only. UAE has sewage treatment plants that supply water for agricultural purposes only.

Geological Setting
The Unconsolidated Lithological Units
Consolidated Lithological Units
Hydrogeological Setting
Methodology
Water Resources Demand
Amenity
Agriculture
Forestry
Groundwater Supply
Groundwater Storage and Recharge
Groundwater Budget Model Results
Recharge Estimation
Method
Desalinated Water Supply
Treated Wastewater Supply
Groundwater Annual Inflow and Outflow
13. Groundwater the surficial surficial Aquifer

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