The origin of methanethiol in midocean ridge hydrothermal fluids.

Simple alkyl thiols such as methanethiol (CH₃SH) are widely speculated to form in seafloor hot spring fluids. Putative CH₃SH synthesis by abiotic (nonbiological) reduction of inorganic carbon (CO₂ or CO) has been invoked as an initiation reaction for the emergence of protometabolism and microbial life in primordial hydrothermal settings. Thiols are also presumptive ligands for hydrothermal trace metals and potential fuels for associated microbial communities. In an effort to constrain sources and sinks of CH₃SH in seafloor hydrothermal systems, we determined for the first time its abundance in diverse hydrothermal fluids emanating from ultramafic, mafic, and sediment-covered midocean ridge settings. Our data demonstrate that the distribution of CH₃SH is inconsistent with metastable equilibrium with inorganic carbon, indicating that production by abiotic carbon reduction is more limited than previously proposed. CH₃SH concentrations are uniformly low (~10-8 M) in high-temperature fluids (>200 °C) from all unsedimented systems and, in many cases, suggestive of metastable equilibrium with CH₄ instead. Associated low-temperature fluids (<200 °C) formed by admixing of seawater, however, are invariably enriched in CH₃SH (up to ~10-6 M) along with Graphic and low-molecular-weight hydrocarbons relative to high-temperature source fluids, resembling our observations from a sediment-hosted system. This strongly implicates thermogenic interactions between upwelling fluids and microbial biomass or associated dissolved organic matter during subsurface mixing in crustal aquifers. Widespread thermal degradation of subsurface organic matter may be an important source of organic production in unsedimented hydrothermal systems and may influence microbial metabolic strategies in cooler near-seafloor and plume habitats. [ABSTRACT FROM AUTHOR]