Astrobiology with haloarchaea from Permo-Triassic rock salt

Details Astrobiology with haloarchaea from Permo-Triassic rock salt Astrobiology with haloarchaea from Permo-Triassic rock salt

Oct 2002

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002ijasb...1..271s&link_type=abstract

International Journal of Astrobiology, vol. 1, Issue 04, p.271-284

Biology

4

Extraterrestrial Halite, Haloarchaea, Halobacteria, <Em>Halococcus</Em>, Live–Dead Staining, Longevity, Mars Simulation Chamber, Microbial Survival, Salt Mine.

Scientific paper

Several viable halophilic archaebacteria were isolated previously from rock salt of Permo-Triassic age in an Austrian salt mine; one of these strains was the first to be recognized as a novel species from subterranean halite and was designated Halococcus salifodinae. The halophilic microorganisms have apparently survived in the salt sediments over extremely long periods of time. Halobacteria could therefore be suitable model organisms for exploring the possibility of long-term survival of microbes on other planets, in particular, since extraterrestrial halite has been detected in meteorites and is assumed to be present in the subsurface ocean on Europa. Our efforts are directed at the identification of the microbial content of ancient rock salt and the development of procedures for the investigation of the halobacterial response to extreme environmental conditions. Using modified culture media, further halophilic strains were isolated from freshly blasted rock salt and bore cores; in addition, growth of several haloarchaea was substantially improved. Molecular methods indicated the presence of at least 12 different 16S rRNA gene species in a sample of Alpine rock salt, but these strains have not been cultured yet. The exploration of Mars is a target of space missions in the 21st century; therefore, testing the survival of haloarchaea under conditions comparable to present-day Mars, using a simulation chamber, was begun. Preliminary results with Halococcus and Halobacterium species suggested at least tenfold higher survival rates when cells were kept in liquid brines than under dry conditions; staining of cells with the LIVE DEAD kit, which discriminates between damaged and intact membranes, corroborated these data.

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