Litcius/Paper detail

Active anaerobic methane oxidation and sulfur disproportionation in the deep terrestrial subsurface

Emma Bell, Tiina Lamminmäki, Johannes Alneberg, Qian Chen, Weili Xiong, Robert L. Hettich, Manon Frutschi, Rizlan Bernier‐Latmani

2022The ISME Journal62 citationsDOIOpen Access PDF

Abstract

Abstract Microbial life is widespread in the terrestrial subsurface and present down to several kilometers depth, but the energy sources that fuel metabolism in deep oligotrophic and anoxic environments remain unclear. In the deep crystalline bedrock of the Fennoscandian Shield at Olkiluoto, Finland, opposing gradients of abiotic methane and ancient seawater-derived sulfate create a terrestrial sulfate-methane transition zone (SMTZ). We used chemical and isotopic data coupled to genome-resolved metaproteogenomics to demonstrate active life and, for the first time, provide direct evidence of active anaerobic oxidation of methane (AOM) in a deep terrestrial bedrock. Proteins from Methanoperedens (formerly ANME-2d) are readily identifiable despite the low abundance (≤1%) of this genus and confirm the occurrence of AOM. This finding is supported by 13C-depleted dissolved inorganic carbon. Proteins from Desulfocapsaceae and Desulfurivibrionaceae, in addition to 34S-enriched sulfate, suggest that these organisms use inorganic sulfur compounds as both electron donor and acceptor. Zerovalent sulfur in the groundwater may derive from abiotic rock interactions, or from a non-obligate syntrophy with Methanoperedens, potentially linking methane and sulfur cycles in Olkiluoto groundwater. Finally, putative episymbionts from the candidate phyla radiation (CPR) and DPANN archaea represented a significant diversity in the groundwater (26/84 genomes) with roles in sulfur and carbon cycling. Our results highlight AOM and sulfur disproportionation as active metabolisms and show that methane and sulfur fuel microbial activity in the deep terrestrial subsurface.

Topics & Concepts

Anaerobic oxidation of methaneSulfurSulfateEnvironmental chemistrySulfur cycleδ34SMethaneArchaeaAnoxic watersGeomicrobiologyBiologyEcologyMicrobial ecologyChemistryBacteriaPaleontologyOrganic chemistryEnvironmental biotechnologyQuartzFluid inclusionsMethane Hydrates and Related PhenomenaAtmospheric and Environmental Gas DynamicsMicrobial Community Ecology and Physiology