Mathematics – Logic
Scientific paper
Nov 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999amjs..299..738m&link_type=abstract
Am. J. Sci., Vol. 299, No. 7 - 9, p. 738 - 761
Mathematics
Logic
10
Mars: Climatic Changes, Mars: Carbon Dioxide
Scientific paper
Central to the question of life on Mars is whether there has been liquid water on the Martian surface and how the planet could have evolved from possible initial warm and wet conditions to the cold and dry present state. Virtually all models for this climatic evolution rely strongly on the removal of an initial thick carbon dioxide atmosphere by precipitation of carbonate minerals from surface waters. In order for this to occur, a hydrologic cycle would be necessary in which chemical weathering of silicate rocks consumes CO2 that precipitates as carbonates in an acidic Martian ocean which probably had a very high alkalinity. The consumption of atmospheric CO2 by this process would result in a gradual decrease of the atmospheric greenhouse influence and cooling of the climate. Once the surface of Mars became cold enough so that freezing conditions prevailed, the hydrologic cycle would largely cease, and the uptake of CO2 by silicate rock weathering would greatly diminish. The alkalinity of the freezing seawater would probably be sufficient to result in the removal of all calcium as calcium carbonate. The removal of these cations as carbonates has a major influence on the final temperature at which liquid brines would be able to persist on the surface of Mars. During the period of freezing, the oceans would act as a source of CO2 rather than a sink, further slowing the rate of climate change on Mars.
Marion Giles M.
Morse John W.
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