Combining boron isotopes and carbamazepine to trace sewage in salinized groundwater: A case study in Cap Bon, Tunisia

• Published in: Applied geochemistry Vol. 34; pp. 126 - 139
• Main Authors: Cary, L., Casanova, J., Gaaloul, N., Guerrot, C.
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.07.2013; Elsevier
• Subjects: aquifers; boron; case studies; cation exchange; coasts; Earth Sciences; Earth, ocean, space; Engineering and environment geology. Geothermics; Environmental Sciences; Exact sciences and technology; farms; Geochemistry; Global Changes; groundwater; groundwater contamination; groundwater recharge; isotopes; mixing; monitoring; piezometers; planning; Pollution, environment geology; saltwater intrusion; Sciences of the Universe; sewage; Tunisia; wastewater; wastewater treatment; water quality; wells; Tunisia; North Africa; Africa; MED, Tunisia; MED, Tunisia, Korba; Neogene; mixing; oxidation-reduction conditions; ground water; upper Tertiary; degradation; case studies; variability; hydraulics; water resources; aquifers; isotopes; Cenozoic; capes; reversals; cations; Quaternary; Tertiary; salt-water intrusion; tracers; concentration; artificial recharge; contamination; planning; water quality; equilibrium; Miocene; Phanerozoic; boron; sewage; Korba; boron isotopes; Tunisia; carbamazepine
• ISSN: 0883-2927; 1872-9134
• DOI: 10.1016/j.apgeochem.2013.03.004

•Boron isotopes and carbamazepine contents were combined to assess groundwater contamination by effluents.•Carbamazepine contents ranged from 20 to 900ng/L in groundwaters mixed with treated wastewaters.•The chemical and isotopic data showed a high spatial and temporal variability.•The system is highly vulnerable and permanently disturbed by the different temporal dynamics.•Wastewater treatments need to be greatly improved before recharge to prevent further degradation of groundwater quality. The Korba aquifer on the east coast of Cape Bon has been overexploited since the 1960s with a resultant reversal of the hydraulic gradient and a degradation of the quality due to seawater intrusion. In 2008 the authorities introduced integrated water resources planning based on a managed aquifer recharge with treated wastewater. Water quality monitoring was implemented in order to determine the different system components and trace the effectiveness of the artificial recharge. Groundwater samples taken from recharge control piezometers and surrounding farm wells were analyzed for their chemical contents, for their B isotopes, a proven tracer of groundwater salinization and domestic sewage, and their carbamazepine content, an anti-epileptic known to pass through wastewater treatment and so recognized as a pertinent tracer of wastewater contamination. The system equilibrium was permanently disturbed by the different temporal dynamics of continuous processes such as cation exchange, and by threshold processes linked to oxidation–reduction conditions. The B isotopic compositions significantly shifted back-and-forth due to mixing with end-members of various origin. Under the variable contribution of meteoric recharge, the Plio-Quaternary groundwater (δ11B of 35–40.6‰, a mean B concentration of 30μmol/L, no carbamazepine, n=7) was subject to seawater intrusion that induced a high δ11B level (δ11B of 41.5–48.0‰, a mean B concentration of 36μmol/L, and n=8). Fresh groundwater (δ11B of 19.89‰, B concentration of 2.8μmol/L, no carbamazepine) was detected close to the recharge site and may represent the deep Miocene pole which feeds the upper Plio-Quaternary aquifer. The managed recharge water (δ11B of 10.67–13.8‰, n=3) was brackish and of poor quality with a carbamazepine content showing a large short term variability with an average daily level of 328±61ng/L. A few piezometers in the vicinity of the recharge site gradually acquired a B isotopic composition close to the wastewater signature and showed an increasing carbamazepine content (from 20 to 910ng/L). The combination of B isotopic signatures with B and carbamazepine contents is a useful tool to assess sources and mixing of treated wastewaters in groundwaters. Effluent quality needs to be greatly improved before injection to prevent further degradation of groundwater quality.