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LanguageEnglish
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Resource TypePDF
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Uploaded By
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Date Added2017-02-01
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Corporate AuthorshipMutewekil M. Obeidat1,*, Muheeb Awawdeh2 , and Hussein Al-Mughaid3 1 Department of Humanities, Faculty of Science and Arts, Jordan University of Science and Technology, P.O. Box 3030, 22110 Irbid, Jordan. 2 Department of Geography and Geographic Information Systems, King Abdulaziz University, Jeddah, Saudi Arabia. 3 Department of Applied Chemistry, Faculty of Science and Arts, Jordan University of Science and Technology, P.O. Box 3030, 22110 Irbid, Jordan. * mobeidat@just.edu.jo
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Related Resources
An assessment of groundwater pollution in the area surrounding a domestic wastewater treatment
plant in northern Jordan has been carried out. Groundwater in the study area is classified as alkaline
earth water with increased portions of alkalis and prevailing chloride, tending to shift to alkaline water
with the dominance of chloride. This trend indicates mixing between the two end members of fresh
Ca2+-HCO3
–
water and saline Na+-Cl–
water. Spatially, the highest concentrations of the hydrochemical
parameters were found in close proximity of the Al Ramtha Wastewater Treatment Plant (RWWTP). Nitrate,
which is the most common human-introduced pollutant into groundwater resources, was used to evaluate
pollution of phreatic groundwater in the study area. Its concentration (as NO3
–
) ranges between 1 mg/L
and 366 mg/L, with an average of 79 mg/L. A total of 71% of the samples present nitrate concentrations
exceeding the threshold value for anthropogenic sources (20 mg/L), and more than 50% in excess of
World Health Organization (WHO) standards for drinking water (50 mg/L). The most important factors
affecting the magnitude of groundwater pollution are depth to groundwater table, aquifer transmissivity
(hydraulic conductivity), lineaments density, and distance from treatment plant with calculated correlation
coefficients of -0.51, 0.65, 0.70, and -0.75 to nitrate concentration, respectively.