The early faint sun paradox: Organic shielding of ultraviolet-labile greenhouse gases

Carl Sagan; Christopher Chyba

doi:10.1126/science.276.5316.1217

The early faint sun paradox: Organic shielding of ultraviolet-labile greenhouse gases

Carl Sagan, Christopher Chyba

Research output: Contribution to journal › Article › peer-review

305 Scopus citations

Abstract

Atmospheric mixing ratios of ~10(-5 ± 1) for ammonia on the early Earth would have been sufficient, through the resulting greenhouse warming, to counteract the temperature effects of the faint early sun. One argument against such model atmospheres has been the short time scale for ammonia photodissociation by solar ultraviolet light. Here it is shown that ultraviolet absorption by steady-state amounts of high-altitude organic solids produced from methane photolysis may have shielded ammonia sufficiently that ammonia resupply rates were able to maintain surface temperatures above freezing.

Original language	English (US)
Pages (from-to)	1217-1221
Number of pages	5
Journal	Science
Volume	276
Issue number	5316
DOIs	https://doi.org/10.1126/science.276.5316.1217
State	Published - May 23 1997
Externally published	Yes

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abstract = "Atmospheric mixing ratios of ~10(-5 ± 1) for ammonia on the early Earth would have been sufficient, through the resulting greenhouse warming, to counteract the temperature effects of the faint early sun. One argument against such model atmospheres has been the short time scale for ammonia photodissociation by solar ultraviolet light. Here it is shown that ultraviolet absorption by steady-state amounts of high-altitude organic solids produced from methane photolysis may have shielded ammonia sufficiently that ammonia resupply rates were able to maintain surface temperatures above freezing.",

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doi = "10.1126/science.276.5316.1217",

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AB - Atmospheric mixing ratios of ~10(-5 ± 1) for ammonia on the early Earth would have been sufficient, through the resulting greenhouse warming, to counteract the temperature effects of the faint early sun. One argument against such model atmospheres has been the short time scale for ammonia photodissociation by solar ultraviolet light. Here it is shown that ultraviolet absorption by steady-state amounts of high-altitude organic solids produced from methane photolysis may have shielded ammonia sufficiently that ammonia resupply rates were able to maintain surface temperatures above freezing.

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The early faint sun paradox: Organic shielding of ultraviolet-labile greenhouse gases

Abstract

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