Comparison and Hydrochemical Characterization of Groundwater Resources in the Arabian Peninsula: A Case Study of Al-Baha
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YDROCHEMISTRY, HYDROBIOLOGY: ENVIRONMENTAL ASPECTS
Comparison and Hydrochemical Characterization of Groundwater Resources in the Arabian Peninsula: A Case Study of Al-Baha and Al-Qassim in Saudi Arabia Fahad N. Al-Barakaha, *, Anwar A. Alya, b, **, Emad H. S. Abaakhelc, ***, Abdulwahid M. Al-Rizkidd, ****, Abdulaziz G. Alghamdia, and Mohammad S. Al-Sewailema a
Soil Sciences Department, Food Sciences and Agriculture, King Saud University, P.O. Box 2460, Riyadh, 11451 Saudi Arabia b Soil and Water Science Department, Faculty of Agriculture, Alexandria University, Alexandria, Egypt c Food and Drug Authority, Riyadh, Saudi Arabia d Ministry of Environment, Water and Agriculture, Riyadh, Saudi Arabia *e-mail: [email protected] **e-mail: [email protected] ***e-mail: [email protected] ****e-mail: [email protected] Received December 31, 2018; revised March 28, 2019; accepted May 30, 2019
Abstract—The objective of this study was to compare and assess the quality and study the hydrochemistry of groundwater in the Al-Baha and Al-Qassim areas, representing the Arabian Shield and Arabian Shelf, respectively, of the Arabian Peninsula. The chemical and microbiological constituents of the groundwaters of the two sites were acquired and compared. The Al-Baha analyses indicated that the underground water near urban area is subject to contamination by E. coli and nitrate. However, the dissolved salts and soluble ions were at an acceptable level according to WHO standards. In Al-Qassim, 77% of the studied groundwater samples were inappropriate for drinking because of high salinity; however, 60% had slight to moderate salinity hazard for use in irrigation. At both regions, trace elements were found to be within acceptable limits for irrigation and drinking. Piper, Schoeller, and Durov diagrams showed that the majority of the investigated groundwaters in Al-Baha were calcium–magnesium, chloride–sulfate water type. However, 51% of the studied waters in Al-Qassim were sodium, chloride, sulfate water type. The geology of Al-Baha is comprised of gypsum, anhydride, and dolomite. The geology of Al-Qassim is dominantly comprised of halite. The saturation index indicated that the Al-Baha groundwaters are undersaturated with respect to halite, gypsum, and anhydrite; however, the groundwaters of Al-Qassim are undersaturated with respect to halite. The approach utilized in this investigation could be useful in similar environments worldwide. Keywords: groundwater, water quality, hydrochemistry, water type, assessment DOI: 10.1134/S0097807820050073
INTRODUCTION Earth supports life due to the presence of water. It will be “the oil of the 21st century,” and proper water conservation and management will be essential for future economic development in all countries [20, 21]. A region of the highest water scarcity is the Middle East. Because of the region’s inadequate water resources coupled with ongoing population growth [19], the Kingdom of Saudi Arabia (KSA) and other countries in this arid region may face water shortages and suffer mismanagemen
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