Investigation of uranium geochemistry along groundwater flow path in the Continental Intercalaire aquifer (Southern Tunisia)

Investigation of uranium geochemistry along groundwater flow path in the Continental Intercalaire aquifer (Southern Tunisia)

Environmental tracers (2H, 18O, isotopes of Uranium) and geochemical processes occurring within groundwaters from the Continental Intercalaire (CI) in Southern Tunisia were used to understand the hydrodynamics and the recharge conditions of this aquifer. This study investigates the chemical and isot...

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Bibliographic Details
Published in:Journal of environmental radioactivity Vol. 157; pp. 67 - 76
Main Authors: Dhaoui, Z., Chkir, N., Zouari, K., Ammar, F. Hadj, Agoune, A.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-06-2016
Subjects:
Activity ratios
Aquifers
Continental Intercalaire
Deuterium - analysis
Geochemistry
Ground-water flow
Groundwater
Groundwater - analysis
Hydrodynamics
Isotopes
Oxygen Isotopes - analysis
Radiation Monitoring
Radioactivity
Recharging
Tunisia
Uranium
Uranium - analysis
Water Pollutants, Radioactive - analysis
MED, Tunisia
Africa, Sahara Desert
Tunisia, Chott
Geochemistry
Uranium
Continental Intercalaire
Activity ratios
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Summary:Environmental tracers (2H, 18O, isotopes of Uranium) and geochemical processes occurring within groundwaters from the Continental Intercalaire (CI) in Southern Tunisia were used to understand the hydrodynamics and the recharge conditions of this aquifer. This study investigates the chemical and isotopic compositions of the CI groundwater. The water types are dominated by Na+, SO42−, Cl− throughout most of the basin with a general increase in total dissolved solids from the Saharan Platform margins towards the Chotts region. Large scale groundwater flow paths are toward the Chotts region. The stable isotopes composition of the analyzed groundwater ranges from −8.8 to −6‰ vs V-SMOW for δ18O and from −67 to −40‰ vs V-SMOW for δ2H. The relatively enriched stable isotopes contents suggest the contribution of the Dahar sandstones outcrops in the current recharge of the CI aquifer in an arid context. However, the most depleted values in heavy isotopes indicate a paleorecharge of the aquifer under wetter conditions revealing a long residence time of groundwaters. The results from water samples using alpha spectrometry method indicate a range in 238U concentrations and 234U/238U activity ratios (AR) of 0.044–1.285 μg kg−1 and 1.2 to 8.84 respectively. The geochemistry of uranium isotopes in groundwater is controlled by many factors, essentially, the influence of water rock interactions, the preferential dissolution of 234U relative to 238U due to alpha recoil and the mixing processes between different waters with distinct AR as well as 238U concentrations. •Characterization of groundwater aquifer in terms of U-contents.•Study of geochemical processes of U isotopes in the Continental Intercalaire aquifer along the groundwater pathway.•Investigation of factors controlling U concentrations and the activity ratios.•Confirmation of results from U evolution with stable isotopes variation along groundwater flow path.
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ISSN:0265-931X
1879-1700
DOI:10.1016/j.jenvrad.2016.03.005