Mathematics – Logic
Scientific paper
Dec 1989
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989jbis...42..583l&link_type=abstract
British Interplanetary Society, Journal (ISSN 0007-084X), vol. 42, Dec. 1989, p. 583-586.
Mathematics
Logic
2
Closed Ecological Systems, Environmental Engineering, Mars Atmosphere, Planetary Environments, Planetary Meteorology, Chemical Composition, Food Production (In Space), Space Commercialization
Scientific paper
A computer model was developed to study the possible evolution of a hypothetical self-sustaining ecosystem on Mars. In the model, a simple competitive growth of different colored daisies regulates the planetary climate at a level comfortable for daisies. The model was subjected to a wide-range heat input that might occur during the normal evolution of a main-sequence star. The results suggest that sparse life existing in a few small regions could not survive to control a planet. It is concluded that the process of terraforming a planet would require extensive planetary engineering including temperature control and supplying water and nutrients.
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