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Molecular Evidence for an Active Microbial Methane Cycle in Subsurface Serpentinite-Hosted Groundwaters in the Samail Ophiolite, Oman

E. Kraus, Daniel B. Nothaft, Blake W. Stamps, Kaitlin R. Rempfert, Eric T. Ellison, Juerg Matter, Alexis S. Templeton, Eric S. Boyd, John R. Spear

2020Applied and Environmental Microbiology47 citationsDOIOpen Access PDF

Abstract

Serpentinization of ultramafic rock can generate conditions favorable for microbial methane (CH 4 ) cycling, including the abiotic production of hydrogen (H 2 ) and possibly CH 4 . Systems of low-temperature serpentinization are geobiological targets due to their potential to harbor microbial life and ubiquity throughout Earth’s history. Biomass in fracture waters collected from the Samail Ophiolite of Oman, a system undergoing modern serpentinization, yielded DNA and RNA signatures indicative of active microbial methanogenesis and methanotrophy. Intriguingly, transcripts for proteins involved in methanogenesis were most abundant in the most highly reacted waters that have hyperalkaline pH and elevated concentrations of H 2 and CH 4 . These findings suggest active biological methane cycling in serpentinite-hosted aquifers, even under extreme conditions of high pH and carbon limitation. These observations underscore the potential for microbial activity to influence the isotopic composition of CH 4 in these systems, which is information that could help in identifying biosignatures of microbial activity on other planets.

Topics & Concepts

OphioliteMethaneGeochemistryGeologyEarth scienceBiologyEcologyPaleontologyTectonicsMethane Hydrates and Related PhenomenaHydrocarbon exploration and reservoir analysisCO2 Sequestration and Geologic Interactions
Molecular Evidence for an Active Microbial Methane Cycle in Subsurface Serpentinite-Hosted Groundwaters in the Samail Ophiolite, Oman | Litcius