6533b7d4fe1ef96bd1262686
RESEARCH PRODUCT
δ pattern of dissolved inorganic carbon in a small granitic catchment: the Strengbach case study (Vosges mountains, France)
Dominique AubertAnne ProbstF. AndreuxJean-luc ProbstFrançois Gauthier-lafayePhilippe Amiotte-suchetPhilippe Amiotte-suchetDaniel Vivillesubject
Hydrologygeographygeography.geographical_feature_categoryδ13CSoil organic matterGeochemistryDrainage basinGeologyStructural basinBasementAltitudeGeochemistry and PetrologyDissolved organic carbonSoil waterGeologydescription
Abstract The transfers and origins of dissolved inorganic carbon (DIC) were studied for a year in a soil–spring–stream system in the Strengbach catchment, Vosges mountains, France. This 80 ha experimental research basin is located on the eastern side of the mountains, at an altitude ranging from 883 to 1146 m.a.s.l. and is mainly covered by spruce (80%). Brown acid and podzolic soils developed on a granitic basement, and, as a result, the DIC originates solely from CO2 generated by oxidation of soil organic matter. The ( δ 13 C DIC ) in catchment waters is highly variable, from about −22‰ in the springs and piezometers to about −12‰ in the stream at the outlet of the catchment. In the springs, pronounced seasonal variations of δ 13 C DIC exist, with the DIC in isotopic equilibrium with the soil CO2 that has estimated δ 13 C of about −24‰ in winter and −20‰ in summer. These seasonal variations reflect an isotopic fractionation that seems only induced by molecular diffusion of soil CO2 in summer. In stream water, seasonal variations are small and the relatively heavy DIC (−12‰ on average) is a result of isotopic equilibration of the aqueous CO2 with atmospheric CO2.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1999-07-01 | Chemical Geology |