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Reduction spheroids preserve a uranium isotope record of the ancient deep continental biosphere

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  • Sean McMahon

    (Yale University
    University of Edinburgh)

  • Ashleigh v. S. Hood

    (Yale University
    University of Melbourne)

  • John Parnell

    (University of Aberdeen)

  • Stephen Bowden

    (University of Aberdeen)

Abstract

Life on Earth extends to several kilometres below the land surface and seafloor. This deep biosphere is second only to plants in its total biomass, is metabolically active and diverse, and is likely to have played critical roles over geological time in the evolution of microbial diversity, diagenetic processes and biogeochemical cycles. However, these roles are obscured by a paucity of fossil and geochemical evidence. Here we apply the recently developed uranium-isotope proxy for biological uranium reduction to reduction spheroids in continental rocks (red beds). Although these common palaeo-redox features have previously been suggested to reflect deep bacterial activity, unequivocal evidence for biogenicity has been lacking. Our analyses reveal that the uranium present in reduction spheroids is isotopically heavy, which is most parsimoniously explained as a signal of ancient bacterial uranium reduction, revealing a compelling record of Earth’s deep biosphere.

Suggested Citation

  • Sean McMahon & Ashleigh v. S. Hood & John Parnell & Stephen Bowden, 2018. "Reduction spheroids preserve a uranium isotope record of the ancient deep continental biosphere," Nature Communications, Nature, vol. 9(1), pages 1-6, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06974-9
    DOI: 10.1038/s41467-018-06974-9
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