Other
Scientific paper
May 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001e%26psl.188..253r&link_type=abstract
Earth and Planetary Science Letters, Volume 188, Issue 1-2, p. 253-268.
Other
50
Scientific paper
The change in oxygen isotopic composition of precipitation is modeled using equilibrium fractionation during Rayleigh distillation linked to the thermodynamics of atmospheric ascent and water vapor condensation. The primary controllers of the vertical variation in isotopic composition with elevation are the low elevation temperature and relative humidity as these control the vertical distribution of condensation. An empirical fit of precipitation versus model condensation based on Alpine stations is derived. This fit is represented in the model as the weighted mean composition of condensation within a 1000 m thick air parcel 1500+/-500 m above the ground surface and is used for all other regions. Comparison of model versus observed modern precipitation reveals a close fit, particularly of more highly elevated sites. Comparison of modern waters in the Himalayas and southern Tibet with model predictions, particularly as revealed by comparison of observed and predicted hypsometry provides additional support to the validity of the model. Finally, application of this model to estimates of paleo-waters in the Himalayas and southern Tibet reveals that this region had already achieved its present hypsometry by the Late Miocene, about 10 Ma ago.
Currie Brian S.
Pierrehumbert Raymond T.
Rowley David B.
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