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Strong evidence for a weakly oxygenated ocean–atmosphere system during the Proterozoic

Changle Wang, Maxwell Lechte, Christopher T. Reinhard, Dan Asael, Devon B. Cole, Galen P. Halverson, Susannah M. Porter, Nir Galili, Itay Halevy, R H Rainbird, Timothy W. Lyons, Noah J. Planavsky

2022Proceedings of the National Academy of Sciences53 citationsDOIOpen Access PDF

Abstract

Significance Earth’s transition from anoxic oceans and atmosphere to a well-oxygenated state led to major changes in nearly every surficial system. However, estimates of surface oxygen levels in the billion years preceding this shift span two orders of magnitude, suggesting a poor understanding of the evolution of the oxygen cycle. We use the isotopic record of iron oxides deposited in ancient shallow marine environments to show that oxygen remained at extremely low levels in the ocean–atmosphere system for most of Earth’s history, and that a rise in oxygen occurred in step with the expansion of complex, eukaryotic ecosystems. These results indicate that Earth is capable of stabilizing at low atmospheric oxygen levels, with important implications for exploration of exoplanet biosignatures.

Topics & Concepts

Atmosphere (unit)Anoxic watersAstrobiologyOxygenProterozoicEarth (classical element)Atmospheric oxygenEarly EarthEcosystemEarth scienceGeologyEnvironmental scienceOceanographyAtmospheric sciencesPaleontologyChemistryEcologyMeteorologyBiologyGeographyOrganic chemistryMathematical physicsPhysicsTectonicsPaleontology and Stratigraphy of FossilsAstro and Planetary ScienceGeochemistry and Elemental Analysis
Strong evidence for a weakly oxygenated ocean–atmosphere system during the Proterozoic | Litcius