Formation of methane in comet impacts: implications for Earth, Mars, and Titan

Details Formation of methane in comet impacts: implications for Earth, Mars, and Titan Formation of methane in comet impacts: implications for Earth, Mars, and Titan

Apr 2004

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004icar..168..475k&link_type=abstract

Icarus, Volume 168, Issue 2, p. 475-483.

Mathematics

Logic

39

Evolution, Impact Processes, Prebiotic Environments, Planetary Formation, Terrestrial Planets, Titan

Scientific paper

We calculate the amount of methane that may form via reactions catalyzed by metal-rich dust that condenses in the wake of large cometary impacts. Previous models of the gas-phase chemistry of impacts predicted that the terrestrial planets' atmospheres should be initially dominated by CO/CO2, N2, and H2O. CH4 was not predicted to form in impacts because gas-phase reactions in the explosion quench at temperatures ~2000 K, at which point all of the carbon is locked in CO. We argue that the dust that condenses out in the wake of a large comet impact is likely to have very effective catalytic properties, opening up reaction pathways to convert CO and H2 to CH4 and CO2, at temperatures of a few hundred K. Together with CO2, CH4 is an important greenhouse gas that has been invoked to compensate for the lower luminosity of the Sun ~4 Gyr ago. Here, we show that heterogeneous (gas-solid) reactions on freshly-recondensed dust in the impact cloud may provide a plausible nonbiological mechanism for reducing CO to CH4 before and during the emergence of life on Earth, and perhaps Mars as well. These encouraging results emphasize the importance of future research into the kinetics and catalytic properties of astrophysical condensates or ``smokes'' and also more detailed models to determine the conditions in impact-generated dust clouds.

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