Chemical effects of large impacts on the earth's primitive atmosphere

Chemical effects of large impacts on the earth's primitive atmosphere

The production of HCN and H2CO by large impacts on the earth's primitive atmosphere is modelled using thermochemical equilibrium and chemical kinetic calculations of the composition of shocked air parcels for a wide range of temperatures, pressures, and initial compositions. For atmospheres wit...

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Veröffentlicht in:Nature (London) 1986-01, Vol.319 (6051), p.305-308
Hauptverfasser: Fegley, B., Jr, Prinn, R. G., Hartman, H., Watkins, G. H.
Format: Artikel
Sprache:eng
Schlagworte:
Astrophysics
Atmosphere
Atmosphere - analysis
Atmosphere - chemistry
Bicarbonates - analysis
Carbonates - analysis
Earth
Earth (Planet)
Earth sciences
Earth, ocean, space
Evolution, Chemical
Exact sciences and technology
General geology
Geological Phenomena
Geology
Humanities and Social Sciences
Hydrogen Cyanide - analysis
letter
Lunar And Planetary Exploration
Meteoroids
Models, Chemical
Moon
multidisciplinary
Oceans
Planets
Science
Science (multidisciplinary)
Temperature
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Beschreibung
Zusammenfassung:The production of HCN and H2CO by large impacts on the earth's primitive atmosphere is modelled using thermochemical equilibrium and chemical kinetic calculations of the composition of shocked air parcels for a wide range of temperatures, pressures, and initial compositions. For atmospheres with C/O of one or more, the results suggest that bolide impacts cause HCN volume mixing ratios of approximately 10 to the -3rd to -5th in the impact region and global average ratios of 10 to the -5th to the -12th. The corresponding H2CO mixing ratios in the impact region are 10 to the -7th to -9th; nonglobal mixing can occur, however, as H2CO is rapidly destroyed or rained out of the atmosphere within days to hours. Rainout to the oceans of 3-15 percent of the HCN produced can provide 3-14 x 10 to the 11th mol HCN per year.
ISSN:0028-0836
1476-4687
DOI:10.1038/319305a0