Dynamic processes governing lower-tropospheric HDO/H2O ratios as observed from space and ground
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Publication date
2009
Authors
Frankenberg, C.
Warneke, T
Yoshimura, K.
Aben, I.
Butz, A.
Deutscher, N.
Griffith, D.
Hase, F.
Notholt, J
Schneider, M.
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Abstract
The hydrological cycle and its response to environmental variability such as temperature changes is of prime importance for climate reconstruction and prediction. We retrieved deuterated water/water (HDO/H2O) abundances using spaceborne absorption spectroscopy, providing an almost global perspective on the near-surface distribution of water vapor isotopologs. We observed an unexpectedly high HDO/H2O seasonality in the inner Sahel region, pointing to a strong isotopic depletion in the subsiding branch of the Hadley circulation and its misrepresentation in general circulation models. An extension of the analysis at high latitudes using ground-based observations of and a model study shows that dynamic processes can entirely compensate for temperature effects on the isotopic composition of precipitation
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Frankenberg, C, Warneke, T, Yoshimura, K, Aben, I, Butz, A, Deutscher, N, Griffith, D, Hase, F, Notholt, J, Schneider, M, Schrijver, J & Röckmann, T 2009, 'Dynamic processes governing lower-tropospheric HDO/H2O ratios as observed from space and ground', Science, vol. 325, no. 5946, pp. 1374-1377. < http://www.sciencemag.org >