Overview
ABSTRACT
The hydrologic cycle is the series of transformations that occur within the circulation of water. All these transformations are increasingly defined by geochemistry and in particular by the application of isotropic tracing. These analyses allow for the definition, for each of the studied system, of the natural or anthropic origin of the chemical elements, their behaviors, their transport in different compartments (for instance dissolved and/or particle form for rivers), water and deep fluid circulation charts and the interactions between waters and the various types of surrounding rocks. This article is based upon scientific studies and publications conducted by the author and the isotopic geochemists from the French Geological and Mining Research Bureau BRGM.
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Philippe NÉGREL: Head of the Isotopic Tracers and Dating Unit - Metrology, monitoring and analysis department - BRGM (French Geological and Mining Research Bureau)
INTRODUCTION
The concepts of origin, sources, processes and balances often call on common tools and reasoning, among which the use of geochemical tracers plays a predominant role. The tracers used enable the identification of material sources, the conditions and processes of their formation or transformation, the quantification of fluxes, the estimation of element transfer processes between different reservoirs, and the identification of sources of elements of natural or anthropogenic origin. These tracers are often selected for their specific characteristics, and the ultimate aim of their use is to integrate all the data into a hydrochemical model designed to determine water flows, material flows (erosion rates, transfer balances, etc.) in the various compartments of the basin.
The circulations and interactions of water, whether surface or groundwater, with the surrounding rocks, are increasingly documented by the use of geochemistry, and particularly by the application of isotope tracings. For each of the systems studied, isotope tracings make it possible to define the natural or anthropogenic origin of chemical elements, their behavior, their transport in different compartments (e.g., dissolved and/or particulate form for rivers), the circulation patterns of deep waters and fluids, and the interactions between waters and different types of host rock.
This dossier is based on scientific studies and publications carried out by the author and isotope geochemists from the BRGM geological and mining research bureau, in the field of the application of isotope methods to improve knowledge of the water cycle within research programs. This dossier is by no means exhaustive, and includes only a selection of the work carried out.
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Bibliography
- (1) - TREUIL (M.) - Éléments chimiques. Émergence des concepts dans les développements de la pensée humaine et de la recherche scientifique. - In Introduction à la géochimie et ses Applications, R. HAGEMANN et M. TREUIL éditeurs, Commissariat à l'Energie Atomique, Université Pierre et Marie Curie – Paris 6, Collection enseignement, Chap. 1,...
Standards and norms
NIST: NBS 951 SRM (standard reference material)
NIST: NBS 987 SRM
Regulations
Directive 2000/60/EC establishing a framework for Community action in the field of water policy. Official Journal n° L 327 of 22/12/2000.
Websites
CARISMEAU project: isotopic and geochemical characterization of Adour Garonne water bodies http://carismeau.brgm.fr
UNESCO.IAEA International Atomic Energy Agency http://www-naweb.iaea.org
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