Impact Melting of Frozen Oceans on the Early Earth: Implications for the Origin of Life

Impact Melting of Frozen Oceans on the Early Earth: Implications for the Origin of Life

Without sufficient greenhouse gases in the atmosphere, the early Earth would have become a permanently frozen planet because the young Sun was less luminous than it is today. Several resolutions to this faint young Sun-frozen Earth paradox have been proposed, with an atmosphere rich in CO2being the...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 1994-02, Vol.91 (4), p.1248-1250
Hauptverfasser: Bada, J. L., Bigham, C., Miller, S. L.
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acids
Atmosphere - analysis
Atmospherics
Bolide impacts
Bolides
Carbon Dioxide - analysis
Climate
Earth
Earth (Planet)
Earth, ocean, space
Evolution
Evolution, Planetary
Exact sciences and technology
Exobiology
External geophysics
Geology
Greenhouse gases
Ice
Marine
Melting
Meteors & meteorites
Minor Planets
Oceans
Oceans and Seas
Origin of Life
Physical Sciences: Geophysics
Physics of the oceans
Prebiotics
Sea-air exchange processes
Seawater
Space life sciences
Sunlight
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Zusammenfassung:Without sufficient greenhouse gases in the atmosphere, the early Earth would have become a permanently frozen planet because the young Sun was less luminous than it is today. Several resolutions to this faint young Sun-frozen Earth paradox have been proposed, with an atmosphere rich in CO2being the one generally favored. However, these models assume that there were no mechanisms for melting a once frozen ocean. Here we show that bolide impacts between about 3.6 and 4.0 billion years ago could have episodically melted an ice-covered early ocean. Thaw-freeze cycles associated with bolide impacts could have been important for the initiation of abiotic reactions that gave rise to the first living organisms.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.91.4.1248