Protection of Bacterial Spores in Space, a Contribution to the Discussion on Panspermia

Details Protection of Bacterial Spores in Space, a Contribution to the Discussion on Panspermia Protection of Bacterial Spores in Space, a Contribution to the Discussion on Panspermia

Dec 2001

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001oleb...31..527h&link_type=abstract

Origins of Life and Evolution of the Biosphere, v. 31, Issue 6, p. 527-547 (2001).

Computer Science

40

Bacterial Spores, Extraterrestrial Uv Radiation, Interplanetary Transfer Of Life, Life On Mars, Meteorites, Panspermia, Space Experiments

Scientific paper

Spores of Bacillus subtilis were exposed to space in the BIOPAN facility of the European Space Agency onboard of the Russian Earth-orbiting FOTON satellite. The spores were exposed either in dry layers without any protecting agent, or mixed with clay, red sandstone, Martian analogue soil or meteorite powder, in dry layers as well as in so-called `artificial meteorites', i.e. cubes filled with clay and spores in naturally occurring concentrations. After about 2 weeks in space, their survival was tested from the number of colony formers. Unprotected spores in layers open to space or behind a quartz window were completely or nearly completely inactivated (survival rates in most cases <=10^-6). The same low survival was obtained behind a thin layer of clay acting as an optical filter. The survival rate was increased by 5 orders of magnitude and more, if the spores in the dry layer were directly mixed with powder of clay, rock or meteorites, and up to 100% survival was reached in soil mixtures with spores comparable to the natural soil to spore ratio. These data confirm the deleterious effects of extraterrestrial solar UV radiation. Thin layers of clay, rock or meteorite are only successful in UV-shielding, if they are in direct contact with the spores. The data suggest that in a scenario of interplanetary transfer of life, small rock ejecta of a few cm in diameter could be sufficiently large to protect bacterial spores against the intense insolation; however, micron-sized grains, as originally requested by Panspermia, may not provide sufficient protection for spores to survive. The data are also pertinent to search for life on Mars and planetary protection considerations for future missions to Mars.

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