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Geochemical, Biological, and Clumped Isotopologue Evidence for Substantial Microbial Methane Production Under Carbon Limitation in Serpentinites of the Samail Ophiolite, Oman

Daniel B. Nothaft, Alexis S. Templeton, Jeemin H. Rhim, David T. Wang, Jabrane Labidi, Hannah M. Miller, Eric S. Boyd, Juerg Matter, Shuhei Ono, Edward Young, Sebastian Kopf, P. B. Kelemen, Mark E. Conrad, The Oman Drilling Project Science Team

2021Journal of Geophysical Research Biogeosciences40 citationsDOIOpen Access PDF

Abstract

Abstract In hyperalkaline ( ) fluids that have participated in low‐temperature (<150 ) serpentinization reactions, the dominant form of C is often methane ( ), but the origin of this is uncertain. To assess origin in serpentinite aquifers within the Samail Ophiolite, Oman, we determined fluid chemical compositions, analyzed taxonomic profiles of fluid‐hosted microbial communities, and measured isotopic compositions of hydrocarbon gases. We found that 16S rRNA gene sequences affiliated with methanogens were widespread in the aquifer. We measured clumped isotopologue ( D and ) relative abundances less than equilibrium, consistent with substantial microbial production. Furthermore, we observed an inverse relationship between dissolved inorganic C concentrations and across fluids bearing microbiological evidence of methanogenic activity, suggesting that the apparent C isotope effect of microbial methanogenesis is modulated by C availability. An additional source of is evidenced by the presence of ‐bearing fluid inclusions in the Samail Ophiolite and our measurement of high values of ethane and propane, which are similar to those reported in studies of ‐rich inclusions in rocks from the oceanic lithosphere. In addition, we observed 16S rRNA gene sequences affiliated with aerobic methanotrophs and, in lower abundance, anaerobic methanotrophs, indicating that microbial consumption of in the ophiolite may further enrich in 13 C. We conclude that substantial microbial is produced under varying degrees of C limitation and mixes with abiotic released from fluid inclusions. This study lends insight into the functioning of microbial ecosystems supported by water/rock reactions.

Topics & Concepts

MethanogenesisOphioliteIsotopologueMethaneMethanogenGeochemistryEnvironmental chemistryGeologyEuryarchaeotaIsotopic signatureArchaeaChemistryEcologyBiologyIsotopePaleontologyBacteriaMoleculeQuantum mechanicsOrganic chemistryPhysicsTectonicsMethane Hydrates and Related PhenomenaAtmospheric and Environmental Gas DynamicsHydrocarbon exploration and reservoir analysis