Login / Signup

Large sulfur isotope fractionation by bacterial sulfide oxidation.

André PellerinGilad AntlerSimon Agner HolmAlyssa J FindlayPeter W CrockfordAlexandra V TurchynBo Barker JørgensenKai Finster
Published in: Science advances (2019)
A sulfide-oxidizing microorganism, Desulfurivibrio alkaliphilus (DA), generates a consistent enrichment of sulfur-34 (34 S) in the produced sulfate of +12.5 per mil or greater. This observation challenges the general consensus that the microbial oxidation of sulfide does not result in large 34 S enrichments and suggests that sedimentary sulfides and sulfates may be influenced by metabolic activity associated with sulfide oxidation. Since the DA-type sulfide oxidation pathway is ubiquitous in sediments, in the modern environment, and throughout Earth history, the enrichments and depletions in 34 S in sediments may be the combined result of three microbial metabolisms: microbial sulfate reduction, the disproportionation of external sulfur intermediates, and microbial sulfide oxidation.
Keyphrases
  • microbial community
  • hydrogen peroxide
  • electron transfer
  • polycyclic aromatic hydrocarbons