Coralie Ranchoux scite author profile

From the study of the Strengbach and Ringelbach watersheds we propose to illustrate the interest of combining the geochemical tracing and geochemical modeling approaches on surface and deep borehole waters, to decipher the diversity of the water flow and the associated water-rock interactions in such elementary mountainous catchments. The results point to a clear geochemical typology of waters depending on the water circulations (deep vs. hypodermic) within the substratum.

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Investigating the role of deep weathering in critical zone evolution by reactive transport modeling of the geochemical composition of deep fracture water

Ackerer

Ranchoux

Lucas

et al. 2021

Geochimica et Cosmochimica Acta

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Characterization of groundwater circulations in a headwater catchment from an analysis of chemical concentrations, Sr-Nd-U isotope ratios, and CFC, SF6 gas tracers (Strengbach CZO, France)

Ranchoux

Chabaux

Viville

et al. 2021

Applied Geochemistry

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Hydrogeochemical modeling of the spatiotemporal variations in 87Sr/86Sr isotope ratios and Sr concentrations of spring waters in a headwater catchment (Strengbach CZO–France)

et al. 2023

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Quantifying geomorphological evolution from ¹⁰Be denudation rates: Insights from high‐resolution depth profiles, topsoils, and stream sediments (Strengbach CZO, France)

Ackerer

Woerd

Mériaux

et al. 2022

Earth Surf Processes Landf

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HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.

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Architecture of the critical zone and geometry of the water pathways in the Strengbach CZO (France)

Chabaux¹,

Lerouge²,

Gal³

et al. 2021

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Hydrogeochemical modeling of the deep water composition in the Strengbach critical zone observatory

Ackerer¹,

Ranchoux²,

Lucas³

et al. 2021

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Combining residence time and isotopic tracers to better understand  groundwater reservoir and flows in a karst thermal aquifer

Ranchoux¹,

Ladouche²,

Montety³

et al. 2022

Preprint

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Karst hydrosystems are complex systems but often undergo high anthropogenic pressure on their water resources in Mediterranean area since it is shared by many actors. The addition of thermal and/or marine components in these systems makes the interpretation of classical methods more difficult. The thermal karst aquifer of Thau Basin (South of France) illustrates well the complexity of such underpressured karst hydrosystems. In the Balaruc-les-Bains area, groundwater results from the convergence and mixing of (i) young and cold karst water, (ii) old, hot and mineralized thermal water and (ii) marine water (Thau Lagoon and/or seawater). In the framework of the Dem'Eaux Thau CPER/FEDER project (2017-2022), we propose to combine tracers of water-rock interaction processes (Sr, Li) and residence time tracers (4He, 14C, 36Cl) to better understand the origin and mean residence times of flow that takes place in the system, with a focus on the thermal water. In particular, the originality of this work was to constraint geological and hydrogeological informations using natural tracers and to calibrate He dating using 14C ages.The combination of Si geothermometer and isotopic Sr signature (87Sr/86Sr) indicates that the thermal reservoir is located in the Jurrassic carbonate formation until 2000m depth. In addition Li concentrations show the existence of deep flows from granitic bed-rock. These new geochemical results allowed to better constraint the location of the thermal reservoir on the geological 3D map of the area and points out the major role of a local fault. However, there is significant uncertainty on the porosities of this reservoir impacting He age dating method. We used Carbon-14 dating in a deep karst well to constrain 4He ages and therefore determine the reservoir porosity. In parallel, the identification and quantification of the thermal flux by Li concentrations, allowed us to correct the 4He concentrations, and to propose a residence time of the thermal water of several thousands of years (10 000 to 50 000 years) which were consistent with the 36Cl results. Thermal water subsequently feed a shallow reservoir (100 &#8211; 300 m) through local fractures and mix with variable proportions of recent karst flows.&#160;

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