2017
DOI: 10.3389/fmicb.2017.01668
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Determination of Geochemical Bio-Signatures in Mars-Like Basaltic Environments

Abstract: Bio-signatures play a central role in determining whether life existed on early Mars. Using a terrestrial basalt as a compositional analog for the martian surface, we applied a combination of experimental microbiology and thermochemical modeling techniques to identify potential geochemical bio-signatures for life on early Mars. Laboratory experiments were used to determine the short-term effects of biota on the dissolution of terrestrial basalt, and the formation of secondary alteration minerals. The chemoorga… Show more

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Cited by 16 publications
(38 citation statements)
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“…For an in‐depth discussion, how model and experimental W/R ratios compare, see Olsson‐Francis et al. (2017). CHIM‐XPT calculates the equilibrium reaction of the fluid with the precipitating phases at an overall chemistry of the system.…”
Section: Methodsmentioning
confidence: 99%
“…For an in‐depth discussion, how model and experimental W/R ratios compare, see Olsson‐Francis et al. (2017). CHIM‐XPT calculates the equilibrium reaction of the fluid with the precipitating phases at an overall chemistry of the system.…”
Section: Methodsmentioning
confidence: 99%
“…If we can detect small and large-scale biopatterns at lower cost with robotic first-line reconnaissance missions, biopatterns—these hopefully unique or at least characteristic morphological biosignatures—should indicate areas suitable for deeper investigation to search for bioassemblages and other biomarkers indicating extinct or extant microbial life. Attention must be paid to the potential for false positives to distinguish potential biotic from abiotic processes (e.g., [ 22 , 72 ]). Thus, future work must rigorously continue to attempt to distinguish between patterns produced with the mediation of biological processes versus any similar patterns that can be demonstrably attributed to abiotic processes.…”
Section: Discussionmentioning
confidence: 99%
“…If life ever existed or still exists on Mars, it was or is probably microbial, free-living in fluids or as biofilms in sediments, and probably with carbon-based origins developed in the presence of water, similar to the first life forms on Earth [52]. Such microbial biomass, regardless of their physiological characteristics, might still be preserved in Martian sedimentary rocks or fluids [46,53], or any biological molecules might be trapped in mineralized cells [47]. It is known that the subsurface of Mars has mostly acted as a giant freezer, potentially preserving any remains of Martian life [54].…”
Section: Hypothesis and Discussionmentioning
confidence: 99%
“…The current surface of Mars is exposed to multiple extremes and seen as inhospitable and uninhabitable [45]. These include low temperatures, low pressure, very dry and oxidized conditions, and high levels of ultraviolet (UV) and ionizing radiation exposure, all of which are due to the very sparse Martian atmosphere [45,46].…”
Section: Astrobiology and The Search For Life On Marsmentioning
confidence: 99%
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