Risi C., Bony S., Vimeux Françoise. (2008). Influence of convective processes on the isotopic composition (delta O-18 and delta D) of precipitation and water vapor in the tropics : 2. Physical interpretation of the amount effect - art. no. D19306. Journal of Geophysical Research - Atmospheres, 113 (D19), ISSN 0148-0227.
Titre du document
Influence of convective processes on the isotopic composition (delta O-18 and delta D) of precipitation and water vapor in the tropics : 2. Physical interpretation of the amount effect - art. no. D19306
Journal of Geophysical Research - Atmospheres, 2008,
113 (D19), ISSN 0148-0227
In the tropics, the proportion of heavier water isotopes in precipitation is anticorrelated with the precipitation amount. The physical processes underlying this so-called amount effect are still poorly understood and quantified. In the present study, stable water isotopes ((H2O)-O-18 and HDO) have been introduced in a single column model including the Emanuel convection parameterization. We investigate the physical processes underlying the amount effect and propose a methodology to quantify their relative contributions. We focus on convective processes, since the idealized framework of the single column models does not allow us to consider the effects of large-scale horizontal advections of air masses of different isotopic signatures. We show that two kinds of processes predominantly explain the amount effect: first, the reevaporation of the falling rain and the diffusive exchanges with the surrounding vapor; and second, the recycling of the subcloud layer vapor feeding the convective system by convective fluxes. This highlights the importance of a detailed representation of rain evaporation processes to simulate accurately the isotopic composition of precipitation in the tropics. The variability of the isotopic composition on different timescales ( from days to months) is also studied using a unidimensional simulation of the Tropical Ocean - Global Atmosphere - Coupled Ocean-Atmosphere Response Experiment (TOGA-COARE) campaign. The amount effect is best observable at intraseasonal or longer timescales. The period of time over which convective activity significantly affects the isotopic composition of precipitation is related to the residence time of water within atmospheric reservoirs.
