Escape of H and D From Mars' Atmosphere and the Evolution of its Crustal Water Reservoirs

Details Escape of H and D From Mars' Atmosphere and the Evolution of its Crustal Water Reservoirs Escape of H and D From Mars' Atmosphere and the Evolution of its Crustal Water Reservoirs

Dec 2001

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001agufm.p12e..03h&link_type=abstract

American Geophysical Union, Fall Meeting 2001, abstract #P12E-03

Other

5704 Atmospheres: Composition And Chemistry, 5705 Atmospheres: Evolution, 5707 Atmospheres: Structure And Dynamics, 5749 Origin And Evolution

Scientific paper

The evolution of water on Mars involves preferential escape of hydrogen over deuterium, producing its deuterium rich atmosphere with a D/H ratio 5.2 times that of terrestrial water. In the past decade, several estimates have been made of the magnitudes of current and ancient crustal water reservoirs on Mars that freely exchange with its atmosphere. Some of the differences in the magnitudes of the reservoirs are influenced by differences in the following basic parameters: composition of H, D, H2 and HD at the exobase; thermal history of the atmosphere; escape mechanisms; and the D/H ratio of earlier epochs as inferred from meteorites. The dominant escape mechanism used in the estimates is Jeans escape. However, the Jeans escape flux is enhanced considerably when atmospheric winds and rotation are applied at the exobase . This constraint is of particular importance because the enhancement of the D escape flux can be an order of magnitude greater than the enhancement of the H escape flux. This preferential enhancement of the D escape flux over that of H means that a great deal more H must escape (than in the case without winds and rotation) to attain the same D/H ratio in the today's atmosphere. Another new constraint on reservoir magnitudes comes from the recent interpretation of Martian meteorite data, which suggests that the D/H ratio was 2 times that of terrestrial water at the end of the heavy bombardment period (1). These two constraints together lead to larger current and ancient crustal water reservoirs. Applying Rayleigh fractionation, new estimates of the sizes of the water reservoirs are made using the above constraints along with plausible values for hydrogen and deuterium densities, temperatures, wind speeds and rotation rates at the exobase. (1) Leshin, L. A., 27, 2017-2020, 2000.

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