Ionic strength is a barrier to the habitability of Mars

Fox-Powell, Mark; Hallsworth, John; Cousins, Claire and Cockell, Charles (2016). Ionic strength is a barrier to the habitability of Mars. Astrobiology, 16(6) pp. 427–442.

DOI: https://doi.org/10.1089/ast.2015.1432

Abstract

The thermodynamic availability of water (water activity) strictly limits microbial propagation on Earth, particularly in hypersaline environments. A considerable body of evidence indicates the existence of hypersaline surface waters throughout the history of Mars, therefore it is assumed that, as on Earth, water activity is a major limiting factor for martian habitability. However, the differing geologic histories of the Earth and Mars have driven variations in their respective aqueous geochemistry, with as-yet-unknown implications for habitability. Using a microbial community enrichment approach, we investigated microbial habitability for a suite of simulated martian brines. Whilst the habitability of some martian brines was consistent with predictions made from water activity, others were uninhabitable even when the water activity was biologically permissive. We provide evidence that high ionic strength, driven to extremes on Mars by the ubiquitous occurrence of divalent ions, renders these environments uninhabitable despite the presence of biologically available water. These findings show how the respective geological histories of Earth and Mars, which have produced differences in the planets’ dominant water chemistries, have resulted in different physicochemical extremes which define the boundary space for microbial habitability.

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