Mathematics – Logic
Scientific paper
Feb 2000
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000stin...0021234c&link_type=abstract
Technical Report, Bay Area Environmental Research Inst.; NASA Ames Research Center San Francisco, CA United States; Moffett Fiel
Mathematics
Logic
Mars (Planet), Mars Environment, Mars Surface, Mars Atmosphere, Mars Polar Lander, Mars Exploration, Radiation Effects, Radiative Transfer, Ultraviolet Radiation, Deoxyribonucleic Acid, Deactivation, Viability
Scientific paper
A radiative transfer model is used to quantitatively investigate aspects of the martian ultraviolet radiation environment. Biological action spectra for DNA inactivation are used to estimate biologically effective irradiances for the martian surface under cloudless skies. Although the present-day martian UV flux is similar to early earth and thus may not be a limitation to life in the evolutionary context, it is a constraint to an unadapted biota and will rapidly kill spacecraft-borne microbes not covered by a martian dust layer. Here calculations for loss of microbial viability on the Pathfinder and Polar lander spacecraft are presented and the effects of martian dust on loss of viability are discussed. Details of the radiative transfer model are presented.
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