Tracing groundwater salinization processes in an inland aquifer: A hydrogeochemical and isotopic approach in Sminja aquifer (Zaghouan, northeast of Tunisia)

Tracing groundwater salinization processes in an inland aquifer: A hydrogeochemical and isotopic approach in Sminja aquifer (Zaghouan, northeast of Tunisia)

Sminja plain is an inland aquifer in Zaghouan prefecture, northeast of Tunisia. In some parts of the aquifer, salinity exceeds 13 g L−1, which poses serious problems to the safe use of the groundwater in irrigation and drinking purposes. The present work aims to delineate the saline water plumes and...

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Bibliographic Details
Published in:Journal of African earth sciences (1994) Vol. 147; pp. 511 - 522
Main Authors: Mejri, Sabrine, Chekirbene, Anis, Tsujimura, Maki, Boughdiri, Mabrouk, Mlayah, Ammar
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2018
Subjects:
Groundwater salinization
Irrigation return-flow
Rock-water interaction
Sminja aquifer
Groundwater salinization
Rock-water interaction
Irrigation return-flow
Sminja aquifer
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Summary:Sminja plain is an inland aquifer in Zaghouan prefecture, northeast of Tunisia. In some parts of the aquifer, salinity exceeds 13 g L−1, which poses serious problems to the safe use of the groundwater in irrigation and drinking purposes. The present work aims to delineate the saline water plumes and to understand their salinization processes. A field survey including surface water and groundwater sampling was conducted. The taken samples were analyzed for major chemical elements (Na+, Ca2+, Mg2+, K+, Cl−, SO42− and NO3−) and stables isotopes composition (18O and 2H). The geochemical data were used to characterize and classify the water samples. Stable isotopes are useful tools to understand recharge processes and to differentiate between salinity origins. Indeed, the saline groundwater zones are concentrated in the center, the north-west (Aziz mountain) and south-west parts of the plain (City Al Fahs). The evolution of the groundwater salinization according to the main flow direction is principally caused by rock-water interaction which is mainly represented by the dissolution/precipitation of minerals dispersed in the saline reservoir formation and ion exchange reaction. Stable isotopes signature indicates that some water samples are originated from the infiltration of modern precipitation. Non-evaporated water is rapidly infiltrated to the saturated zone with relatively lower contents of δ18O and δ2H. Thus, most of the samples are presenting enrichment in heavy isotopes which highlight the occurrence of evaporation process of meteoric water prior to groundwater recharge. Furthermore, anthropogenic phenomenon represented by the return-flow of irrigation water and the use of nitrogen fertilizers were identified as non negligible contamination sources in the northeastern part of the aquifer near the irrigated perimeters. These wide variations in water salinity indicate variability in geochemical process controlling aquifer water mineralization in Sminja plain. •Samples were taken from 52 (surface and groundwater) wells in March 2015.•The study area is an inland aquifer, in some parts, salinity exceeds 13 g L−1.•This work aims to investigate origin and process of groundwater mineralization.•Hydrochemical and isotopic data are used to characterize water salinization.•Salinization is the result of water-rock interaction and agriculture activities.
ISSN:1464-343X
1879-1956
DOI:10.1016/j.jafrearsci.2018.07.009