Research Article

Oxygen dynamics in the aftermath of the Great Oxidation of Earth’s atmosphere

Donald E. Canfield, Lauriss Ngombi-Pemba, Emma U. Hammarlund, Stefan Bengtson, Marc Chaussidon, François Gauthier-Lafaye, Alain Meunier, Armelle Riboulleau, Claire Rollion-Bard, Olivier Rouxel, Dan Asael, Anne-Catherine Pierson-Wickmann, and Abderrazak El Albani
PNAS October 15, 2013 110 (42) 16736-16741; https://doi.org/10.1073/pnas.1315570110

  1. Contributed by Donald E. Canfield, August 29, 2013 (sent for review July 2, 2013)

Significance

The Great Oxidation of Earth’s atmosphere about 2.3 billion years ago began a series of geochemical events leading to elevated oxygen levels for the next 200 million years, with a collapse to much lower levels as these events played their course. This sequence of events is represented in rocks from the Republic of Gabon. We show oxygenation of the deep oceans when oxygen levels were likely their highest. By 2.08 billion years ago, however, oxygen dropped to levels possibly as low as any time in the last 2.3 billion years. These fluctuations can be explained as a direct consequence of the initial oxygenation of the atmosphere during the Great Oxidation Event.

Abstract

The oxygen content of Earth’s atmosphere has varied greatly through time, progressing from exceptionally low levels before about 2.3 billion years ago, to much higher levels afterward. In the absence of better information, we usually view the progress in Earth’s oxygenation as a series of steps followed by periods of relative stasis. In contrast to this view, and as reported here, a dynamic evolution of Earth’s oxygenation is recorded in ancient sediments from the Republic of Gabon from between about 2,150 and 2,080 million years ago. The oldest sediments in this sequence were deposited in well-oxygenated deep waters whereas the youngest were deposited in euxinic waters, which were globally extensive. These fluctuations in oxygenation were likely driven by the comings and goings of the Lomagundi carbon isotope excursion, the longest–lived positive δ13C excursion in Earth history, generating a huge oxygen source to the atmosphere. As the Lomagundi event waned, the oxygen source became a net oxygen sink as Lomagundi organic matter became oxidized, driving oxygen to low levels; this state may have persisted for 200 million years.

Footnotes

  • 1To whom correspondence should be addressed. E-mail: dec{at}biology.sdu.dk.

  • Author contributions: A.E.A. headed the project; D.E.C., L.N.-P., E.U.H., S.B., O.R., and A.E.A. designed research; L.N.-P., E.U.H., M.C., F.G.-L., A.M., A.R., C.R.-B., O.R., D.A., A.-C.P.-W., and A.E.A. performed research; D.E.C., L.N.-P., E.U.H., and A.E.A. analyzed data; and D.E.C., L.N.-P., E.U.H., and A.E.A. wrote the paper.

  • The authors declare no conflict of interest.

  • This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1315570110/-/DCSupplemental.

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Oxygen dynamics after the Great Oxidation
Donald E. Canfield, Lauriss Ngombi-Pemba, Emma U. Hammarlund, Stefan Bengtson, Marc Chaussidon, François Gauthier-Lafaye, Alain Meunier, Armelle Riboulleau, Claire Rollion-Bard, Olivier Rouxel, Dan Asael, Anne-Catherine Pierson-Wickmann, Abderrazak El Albani
Proceedings of the National Academy of Sciences Oct 2013, 110 (42) 16736-16741; DOI: 10.1073/pnas.1315570110
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Proceedings of the National Academy of Sciences: 110 (42)
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