Upwind convective influences on the isotopic composition of atmospheric water vapor over the tropical Andes

Upwind convective influences on the isotopic composition of atmospheric water vapor over the tropical Andes

We take advantage of the spatial coverage provided by the Tropospheric Emission Spectrometer on‐board the Aura satellite to evaluate processes that control seasonal variations in atmospheric water vapor HDO/H2O values (δDvapor) over the tropical Andes. δDvapor is lower in austral summer (December, J...

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Veröffentlicht in:Journal of geophysical research. Atmospheres 2014-06, Vol.119 (12), p.7051-7063
Hauptverfasser: Samuels-Crow, Kimberly E., Galewsky, Joseph, Hardy, Douglas R., Sharp, Zachary D., Worden, John, Braun, Carsten
Format: Artikel
Sprache:eng
Schlagworte:
Atmospheric Infrared Sounder
Atmospheric water
atmospheric water vapor
Atmospherics
Climate change
Control equipment
Convection
Distillation
Geophysics
Glaciers
hydrogen isotope ratios
Meteorology
Monsoons
Quelccaya Ice Cap
Satellites
Seasonal variations
Summer
tropical Andes
Tropospheric Emission Spectrometer
Water vapor
Winter
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Zusammenfassung:We take advantage of the spatial coverage provided by the Tropospheric Emission Spectrometer on‐board the Aura satellite to evaluate processes that control seasonal variations in atmospheric water vapor HDO/H2O values (δDvapor) over the tropical Andes. δDvapor is lower in austral summer (December, January, and February, DJF) than austral winter (June, July, and August, JJA), which is broadly consistent with precipitation studies and with δ18Osnow preserved in tropical Andean glaciers. In DJF, 64% of δDvapor measurements over the tropical Andes are lower than predicted by Rayleigh distillation while 40% of JJA δDvapor measurements are lower than predicted by Rayleigh distillation. Air that has lower δDvapor than predicted by Rayleigh distillation at a given water vapor concentration (q) encounters low minimum outgoing longwave radiation (
ISSN:2169-897X
2169-8996
DOI:10.1002/2014JD021487