Influence of upwelling on the shallow water chemistry in a small wetland riparian zone (Basque Country)

► The fractured bedrock is at least as dynamic as the upper clayed deposits. ► The presence of more fractured zones allow the upwelling of deeper groundwater. ► The hydrochemistry study helps in locating areas influenced by hydraulic windows. Many hydrologic conceptual models in riparian areas assum...

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Bibliographic Details
Published in:Applied geochemistry 2012-04, Vol.27 (4), p.854-865
Main Authors: Martínez-Santos, M., Ruíz-Romera, E., Martínez-López, M., Antigüedad, I.
Format: Article
Language:English
Subjects:
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Exact sciences and technology
Geochemistry
Pollution, environment geology
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Summary:► The fractured bedrock is at least as dynamic as the upper clayed deposits. ► The presence of more fractured zones allow the upwelling of deeper groundwater. ► The hydrochemistry study helps in locating areas influenced by hydraulic windows. Many hydrologic conceptual models in riparian areas assume that the alluvial deposits zone is hydraulically more active than the fractured bedrock below. Therefore, these models undervalue the possible contribution of deeper groundwater from the fractured bedrock system. A hydrochemical study, under various hydrological conditions, has been carried out in a small riparian zone of the Salburua wetland (Basque Country) in order to highlight the conceptual model. This wetland is included in a wide Quaternary aquifer, which has been declared a Nitrate Vulnerable Zone. The results of this study suggest that the fractured bedrock is at least as dynamic as the upper clayey deposits. The presence of more fractured zones, which act as hydraulic “windows”, allow the upwelling of deeper groundwater and, consequently, make the upper alluvial deposits and the fractured bedrock water systems to be cross-connected. Nevertheless, this upwelling is limited to some small areas in the riparian zone. As a result of this local interaction, several chemical reactions have been observed and the hydrochemical characteristics of shallow groundwater undergo seasonal variations. The study shows that a hydrologic conceptual model, which does not consider the hydraulic activity of the fractured bedrock, can be too simplistic. The presence of hydraulic windows could be considered throughout the entire Quaternary aquifer, knowledge of which could help the managers of the Vulnerable Zone and the wetland to take more effective measures for regulation and conservation.
ISSN:0883-2927
1872-9134
DOI:10.1016/j.apgeochem.2012.01.007