A productivity collapse to end Earth’s Great Oxidation

© 2019 National Academy of Sciences. All rights reserved. It has been hypothesized that the overall size of—or efficiency of carbon export from—the biosphere decreased at the end of the Great Oxidation Event (GOE) (ca. 2,400 to 2,050 Ma). However, the timing, tempo, and trigger for this decrease rem...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences
Main Authors: Hodgskiss, Malcolm S.W., Crockford, Peter W., Peng, Yongbo, Wing, Boswell A., Horner, Tristan J.
Format: Text
Language:unknown
Published: LSU Digital Commons 2019
Subjects:
Great Oxidation Event
Isotopes
Nutrient limitation
Primary productivity
Proterozoic
Triple-oxygen
Belcher
Canada
Subarctic
Online Access:https://digitalcommons.lsu.edu/geo_pubs/1301
https://doi.org/10.1073/pnas.1900325116
https://digitalcommons.lsu.edu/context/geo_pubs/article/2300/viewcontent/1301.pdf
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Summary:© 2019 National Academy of Sciences. All rights reserved. It has been hypothesized that the overall size of—or efficiency of carbon export from—the biosphere decreased at the end of the Great Oxidation Event (GOE) (ca. 2,400 to 2,050 Ma). However, the timing, tempo, and trigger for this decrease remain poorly constrained. Here we test this hypothesis by studying the isotope geochemistry of sulfate minerals from the Belcher Group, in subarctic Canada. Using insights from sulfur and barium isotope measurements, combined with radiometric ages from bracketing strata, we infer that the sulfate minerals studied here record ambient sulfate in the immediate aftermath of the GOE (ca. 2,018 Ma). These sulfate minerals captured negative triple-oxygen isotope anomalies as low as ∼ −0.8. Such negative values occurring shortly after the GOE require a rapid reduction in primary productivity of >80%, although even larger reductions are plausible. Given that these data imply a collapse in primary productivity rather than export efficiency, the trigger for this shift in the Earth system must reflect a change in the availability of nutrients, such as phosphorus. Cumulatively, these data highlight that Earth’s GOE is a tale of feast and famine: A geologically unprecedented reduction in the size of the biosphere occurred across the end-GOE transition.

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