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Impact Delivery of Reduced Greenhouse Gases on Early MarsReducing greenhouse gases are once again the latest trend in finding solutions to the early Mars climate dilemma. In its current form - as proposed by Ramirez et al. [1], later refined by Wordsworth et al. [2], and confirmed by Ramirez [3] - collision induced absorptions between CO2-H2 or CO2-CH4 provide enough extra greenhouse power to raise global mean surface temperatures to the melting point of water provided the atmosphere is thick enough and the reduced gases are abundant enough. To raise surface temperatures significantly by this mechanism, surface pressures must be at least 500 mb and H2 and/or CH4 concentrations must be at or above the several percent level. Both Wordsworth et al. [2] and Ramirez [3] show that the melting point can be reached in atmospheres with 1-2 bars of CO2 and 2-10% H2; smaller concentrations of H2 will suffice if CH4 is also present. If thick weakly reducing atmospheres are the solution to the faint young Sun paradox, then plausible mechanisms must be found to generate and sustain the gases. Possible sources of reducing gases include volcanic outgassing, serpentinization, and impact delivery; sinks include photolyis, oxidation, and escape to space. The viability of the reduced greenhouse hypothesis depends, therefore, on the strength of these sources and sinks.
Document ID
20170011335
Acquisition Source
Ames Research Center
Document Type
Conference Paper
Authors
Haberle, R. M.
(NASA Ames Research Center Moffett Field, CA, United States)
Zahnle, K.
(NASA Ames Research Center Moffett Field, CA, United States)
Barlow, N.
(University of Northern Arizona Flagstaff, AZ, United States)
Date Acquired
November 30, 2017
Publication Date
October 2, 2017
Subject Category
Lunar And Planetary Science And Exploration
Report/Patent Number
ARC-E-DAA-TN45050
Meeting Information
Meeting: International Conference on Early Mars: Geologic, Hydrologic, and Climate Evolution and the Implications for Life
Location: Flagstaff, AZ
Country: United States
Start Date: October 2, 2017
End Date: October 6, 2017
Sponsors: Lunar and Planetary Inst.
Distribution Limits
Public
Copyright
Public Use Permitted.
Keywords
greenhose gases
Mars
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