Critex

In the perspective of a temporal and spatial exploration of aquatic environments (surface and groundwater), we developed a technique for field continuous measurements of dissolved gases with a precision better than 1% for N₂, O₂, CO₂, He, Ar, 2% for Kr, 8% for Xe, and 3% for CH₄, N₂O and Ne. With a large resolution (from 1 × 10^–9 to 1 × 10^–2 ccSTP/g) and a capability of high frequency analysis (1 measure every 2 s), the CF-MIMS (Continuous Flow Membrane Inlet Mass Spectrometer) is an innovative tool allowing the investigation of a large panel of hydrological and biogeochemical processes in aquatic systems. Based on the available MIMS technology, this study introduces the development of the CF-MIMS (conception for field experiments, membrane choices, ionization) and an original calibration procedure allowing the quantification of mass spectral overlaps and temperature effects on membrane permeability. This study also presents two field applications of the CF-MIMS involving the well-logging of dissolved gases and the implementation of groundwater tracer tests with dissolved ⁴He. The results demonstrate the analytical capabilities of the CF-MIMS in the field. Therefore, the CF-MIMS is a valuable tool for the field characterization of biogeochemical reactivity, aquifer transport properties, groundwater recharge, groundwater residence time and aquifer-river exchanges from few hours to several weeks experiments.

Copyright © 2016 American Chemical Society

(Eliot Chatton¹, Thierry Labasque¹, Jérôme de La Bernardie¹, Nicolas Guihéneuf^1,2, Olivier Bour¹, and Luc Aquilina¹)

Télécharger: WP81_EC_Gas_tracing

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1. Géosciences Rennes (UMR CNRS 6118)-OSUR, University of Rennes 1, Rennes, France
2. University of Guelph, 50 Stone Road East, Guelph, Ontario Canada