Controls on the distribution of rare earth elements in shallow groundwaters

• Published in: Water research (Oxford) Vol. 38; no. 16; pp. 3576 - 3586
• Main Authors: Gruau, Gérard, Dia, Aline, Olivié-Lauquet, Gwenaelle, Davranche, Mélanie, Pinay, Gilles
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.09.2004
• Subjects: Dissolved organic carbon; Groundwater; Rare earth elements; Redox processes; Wetland; France; Dissolved organic carbon; Redox processes; Rare earth elements; Groundwater; Wetland
• ISSN: 0043-1354; 1879-2448
• DOI: 10.1016/j.watres.2004.04.056

Shallow groundwater samples (<0.22μm) collected from a small catchment in Western France (Petit Hermitage catchment) were analyzed for their rare earth elements (REE), dissolved organic carbon (DOC) and trace-element (Fe, Mn, Th and U) contents, with the aim to investigate the controlling factors of REE signatures. Two spatially distinct water types are recognized in this catchment based on changes of REE concentrations and variations of Ce anomalies. These include (i) DOC-poor groundwater flowing below the hillslope domains; this type has low REE contents and records conspicuous negative Ce anomalies; (ii) DOC-rich groundwater from the wetland domains, close to the river network; this type displays much higher REE concentrations, and typically lack negative Ce anomalies. Temporal REE concentration variations were assessed in wetland waters. Results show a marked increase of the REE content at the winter–spring transition, along with variations of DOC, Fe and Mn contents and redox potential changes. Using the above data set in conjunction with previously published results on comparable shallow groundwaters, we demonstrate that factors such as aquifer-rock composition or anthropogenic input probably play a minor role in determining the REE signatures of shallow groundwaters. Most likely, the two dominant factors involved are the organic matter content and the redox status of the waters. We suggest that topography might be the ultimate key parameter by its ability to control the DOC content of groundwater at a catchment scale.