Nicolas J. Beukes scite author profile

Several lines of geological and geochemical evidence indicate that the level of atmospheric oxygen was extremely low before 2.45 billion years (Gyr) ago, and that it had reached considerable levels by 2.22 Gyr ago. Here we present evidence that the rise of atmospheric oxygen had occurred by 2.32 Gyr ago. We found that syngenetic pyrite is present in organic-rich shales of the 2.32-Gyr-old Rooihoogte and Timeball Hill formations, South Africa. The range of the isotopic composition of sulphur in this pyrite is large and shows no evidence of mass-independent fractionation, indicating that atmospheric oxygen was present at significant levels (that is, greater than 10(-5) times that of the present atmospheric level) during the deposition of these units. The presence of rounded pebbles of sideritic iron formation at the base of the Rooihoogte Formation and an extensive and thick ironstone layer consisting of haematitic pisolites and oölites in the upper Timeball Hill Formation indicate that atmospheric oxygen rose significantly, perhaps for the first time, during the deposition of the Rooihoogte and Timeball Hill formations. These units were deposited between what are probably the second and third of the three Palaeoproterozoic glacial events.

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Atmospheric oxygenation three billion years ago

Crowe

Døssing

Beukes

et al. 2013

Nature

564

434

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It is widely assumed that atmospheric oxygen concentrations remained persistently low (less than 10(-5) times present levels) for about the first 2 billion years of Earth's history. The first long-term oxygenation of the atmosphere is thought to have taken place around 2.3 billion years ago, during the Great Oxidation Event. Geochemical indications of transient atmospheric oxygenation, however, date back to 2.6-2.7 billion years ago. Here we examine the distribution of chromium isotopes and redox-sensitive metals in the approximately 3-billion-year-old Nsuze palaeosol and in the near-contemporaneous Ijzermyn iron formation from the Pongola Supergroup, South Africa. We find extensive mobilization of redox-sensitive elements through oxidative weathering. Furthermore, using our data we compute a best minimum estimate for atmospheric oxygen concentrations at that time of 3 × 10(-4) times present levels. Overall, our findings suggest that there were appreciable levels of atmospheric oxygen about 3 billion years ago, more than 600 million years before the Great Oxidation Event and some 300-400 million years earlier than previous indications for Earth surface oxygenation.

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Evidence for oxygenic photosynthesis half a billion years before the Great Oxidation Event

et al. 2014

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Method Summary:Rocks were collected from either drill core or surface outcrop without obvious weathering. Exterior surfaces were removed. Samples were powdered in a tungsten carbide mill from chips that were picked to avoid veins. Major element concentrations were determined using either an ICP-MS (Agilent 7500ce Series, or Thermo Element2) or an ICP-AES (Iris Advantage) after a three-acid dissolution or a metaborate fusion, respectively. Accuracy and precision for major element analyses was based on duplicates of the geostandards IF-G, SDO-1, and BHVO-1, and estimated error is less than 5%. For Mo isotopes, powdered samples were digested with concentrated HNO 3 + HF and HNO 3 + HCl, and then the samples were evaporated and dissolved with 7 mol/L HCl.

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Rapid oxygenation of Earth’s atmosphere 2.33 billion years ago

et al. 2016

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Nicolas J. Beukes

Dating the rise of atmospheric oxygen

Atmospheric oxygenation three billion years ago

Evidence for oxygenic photosynthesis half a billion years before the Great Oxidation Event

Rapid oxygenation of Earth’s atmosphere 2.33 billion years ago

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