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Modelling the vertical profiles of O2 and pHin saturated freshwater sediments

Published online by Cambridge University Press:  15 January 2009

V. Devallois
Affiliation:
IRSN/DEI/SECRE/Laboratoire de Modélisation Environnementale, CE Cadarache, Bâtiment 159, 13115 Saint Paul lez Durance, France. Université d’Aix-Marseille I, II, III - CNRS, Laboratoire Chimie Provence – UMR6264, Equipe « Chimie de l’Environnement Continental », 3 place Victor Hugo, case 29, 13331 Marseille cedex 3, France
P. Boyer
Affiliation:
IRSN/DEI/SECRE/Laboratoire de Modélisation Environnementale, CE Cadarache, Bâtiment 159, 13115 Saint Paul lez Durance, France.
J. L. Boudenne
Affiliation:
Université d’Aix-Marseille I, II, III - CNRS, Laboratoire Chimie Provence – UMR6264, Equipe « Chimie de l’Environnement Continental », 3 place Victor Hugo, case 29, 13331 Marseille cedex 3, France
B. Coulomb
Affiliation:
Université d’Aix-Marseille I, II, III - CNRS, Laboratoire Chimie Provence – UMR6264, Equipe « Chimie de l’Environnement Continental », 3 place Victor Hugo, case 29, 13331 Marseille cedex 3, France
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Abstract

Sediment-water interactions play an important role in influencing the water quality of aquatic systems. Water quality managementof freshwater systems needs to take into account this behaviour, which depends largely on early diagenetic processes thatcondition the physical and biogeochemical properties of the sediment. Among these processes, the redox transformations resultingfrom the oxidation of organic matter by the microbial activity have a major influence on the biogeochemical properties of sediments.In particular, these reactions condition the vertical profiles of nutrient concentrations, pH and metals along the sedimentarycolumn. This paper presents a method which couples both experimental and modelling approaches in order to characterise andanalyse the biogeochemistry of freshwater sediments. The modelling approach is based on a coupling between biogeochemicalprocesses and interstitial diffusion. As pore water pH influences the behaviour of the biogeochemical species, we have extendedthese models to allow for the calculation of pH by taking into account the inventory of protons consumed or produced by differentbiogeochemical reactions. In parallel, an analytical protocol has been developed to obtain vertical distributions of the main physicochemicalparameters in natural sediments cores. To illustrate this approach, we apply our method to sediments cores sampled inthe Durance, a river in the south-east of France.

Type
Research Article
Copyright
© Université Paul Sabatier, 2008

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