Sturm K. (2005). Regional atmospheric modelling of the stable water isotope cycle.
Saint Martin d'Hères (FRA) ; Montpellier : Univ. Joseph Fourier ; IRD, 160 p. multigr. Th. : Sci. de la Terre et de l'Univers, Université Joseph Fourier. 2005/06/13.
Titre du document
Regional atmospheric modelling of the stable water isotope cycle
Année de publication
2005
Type de document
Diplôme
Auteurs
Sturm K.
Source
Saint Martin d'Hères (FRA) ; Montpellier : Univ. Joseph Fourier ; IRD, 2005,
160 p. multigr.
Diplôme
Th. : Sci. de la Terre et de l'Univers, Université Joseph Fourier. 2005/06/13.
Climate change has recently become a major concerning among scientists and the general public. A better knowledge of past climates helps forecasting the future evolution of climate. Stable water isotopes stand as an outstanding paleo-climate proxy. Physical properties of heavy stable water isotopes (H218O, HDO) cause fractionation processes related to temperature and degree of distillation. If the isotopic signal is correctly inverted, past climate change can be inferred from isotopic archives. Andean ice-cores offer a unique records of tropical climate and its variability through time. However, the interpretation of the isotopic signal is difficult because of complex atmospheric dynamic over South America. For this purpose, we developed a module handling the stable water isotope fractionation processes within the regional circulation model REMO and applied it to South America. The manuscript outlines the major milestones of the present PhD. We first introduce the research toic in the wider scope of climate change; the description of the stable water isotope enabled regional circulation model REMOiso; an initial validation of REMOiso over Europe; an investigation of the seasonal variations of precipitation, atmospheric circulation and isotopic signal over South America; and at last the recording of the south American monsoon system (SAMS) by stable water isotope diagnostics.
Plan de classement
Dynamique de l'eau à l'interface sol-plante-atmosphère [062MECEAU02]
;
Modification du bilan hydrique sous l'influence de l'homme [062MECEAU05]
