Water Practice and Technology (Dec 2023)

The influence of geoelectrical parameters on the Quaternary aquifer and its protectivity and contamination: a case study from the Khanasser Valley Region, Northern Syria

  • Jamal Asfahani

DOI
https://doi.org/10.2166/wpt.2023.212
Journal volume & issue
Vol. 18, no. 12
pp. 3235 – 3254

Abstract

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The technique of vertical electrical sounding (VES) is used here to evaluate the influence of several geoelectrical parameters of reflection coefficient (RC), fractured constant (FC), anisotropy (λ) of the subsurface hydrogeological layers and protecting layers (hOverb) which affect the overburden protective capacity (OPC) of the Quaternary aquifer in the Khanasser Valley region, Northern Syria. RC varies between a minimum of −0.89 and a maximum of 0.92 with an average of −0.28. FC varies between a minimum of 0.057 and a maximum of 25 with an average of 1.89. λ varies between a minimum of 0.72 and a maximum of 2.31 with an average of 1.24. The overburden-protecting layer (hOverb) varies between a minimum of 1.1 m and a maximum of 28.9 m with an average of 5.36 m. OPC varies between a minimum of 0.01 Ω−1 and a maximum of 13.75 Ω−1 with an average of 0.94 Ω−1. The statistical correlation matrix computed for those parameters highlights the mutual relationships between them. Different empirical equations are consequently established between the mentioned treated parameters and the OPC one. Three different trends of negative exponential function are revealed between anisotropy λ and OPC, indicating the presence of different hydraulic systems. The alteration sequence of impermeable and permeable layers as proven by the available lithological descriptions control the mentioned parameters and their values. The presence of sufficiently thick overburden impermeable layer helps in protecting the Quaternary aquifer from the surficial contamination, and acts as a natural filter slowing and retarding the fluid percolation. The approach developed in this paper with its different established empirical relationships is applied for the first time in Syria, and can be easily undertaken worldwide to assess the different conditions controlling the aquifers protectivity. HIGHLIGHTS A new VES approach is proposed to evaluate the hydrogeophysical characteristics of Quaternary aquifer in Khanasser region, Northern Syria.; Overburden protective capacity (OPC) of the Quaternary aquifer is discussed and documented.; the influence of reflection coefficient (RC), fractured constant (FC), anisotropy (λ) of the subsurface hydrogeological layers, and protecting layers (hOverb), affecting the (OPC) are evaluated.; Statistical correlation matrix is computed to describe the mutual relationships between RC, F,C, λ, hOverb and OPC.; The approach developed can be easily undertaken worldwide to assess the different conditions controlling the aquifers protectivity.;

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