Hydrogeochemical and isotopic investigation and water quality assessment of groundwater in the Sisseb El Alem Nadhour Saouaf aquifer (SANS), northeastern Tunisia

Abstract

In the Sisseb El Alem Nadhour Saouaf basin (SANS), as in all other arid regions, surface water is scarce and groundwater is the greatest most important source of water for all uses. This study aims to identify the processes governing groundwater mineralization in order to assess the suitability of the groundwater for drinking and agriculture purposes. This research used a geodatabase which includes information on hydrogeology, geochemistry, land cover, and geology. We identified the most important factors involved in the deterioration of water quality, including anhydrite and gypsum dissolution, silicate weathering, downward leakage between aquifers, evaporation, groundwater over-exploitation, and the overuse of fertilizers. Furthermore, the two following important factors were identified: the intrusion of Sebkhat El Kelbia and the vertical flow from the deep aquifer. Results were used to develop a conceptual geochemical model, wherein three geochemical regions were differentiated. Statistical techniques, such as Principal Component Analysis (PCA) and Hierarchical Cluster Analysis (HCA) were used to confirm the water affinities and the presence of three different geochemical regions. The water quality index (WQI), Wilcox and Richards's diagrams were performed to assess the suitability of groundwater to drinking and irrigation purposes. These indexes confirm the fact that the groundwater of this aquifer is not suitable for irrigation, neither for drinking. Furthermore, 18O and deuterium isotope data indicate the importance of evaporation in the basin, and the recharge with modern rainfall.