Litcius/Paper detail

Extreme variability in atmospheric oxygen levels in the late Precambrian

Alexander J. Krause, Benjamin Mills, Andrew Merdith, Timothy M. Lenton, Simon W. Poulton

2022Science Advances70 citationsDOIOpen Access PDF

Abstract

Mapping the history of atmospheric O 2 during the late Precambrian is vital for evaluating potential links to animal evolution. Ancient O 2 levels are often inferred from geochemical analyses of marine sediments, leading to the assumption that the Earth experienced a stepwise increase in atmospheric O 2 during the Neoproterozoic. However, the nature of this hypothesized oxygenation event remains unknown, with suggestions of a more dynamic O 2 history in the oceans and major uncertainty over any direct connection between the marine realm and atmospheric O 2 . Here, we present a continuous quantitative reconstruction of atmospheric O 2 over the past 1.5 billion years using an isotope mass balance approach that combines bulk geochemistry and tectonic recycling rate calculations. We predict that atmospheric O 2 levels during the Neoproterozoic oscillated between ~1 and ~50% of the present atmospheric level. We conclude that there was no simple unidirectional rise in atmospheric O 2 during the Neoproterozoic, and the first animals evolved against a backdrop of extreme O 2 variability.

Topics & Concepts

PrecambrianAtmospheric oxygenTectonicsGeologyEarth scienceAtmospheric pressurePhanerozoicEnvironmental sciencePaleontologyAtmospheric sciencesOceanographyOxygenChemistryCenozoicOrganic chemistryStructural basinPaleontology and Stratigraphy of FossilsIsotope Analysis in EcologyGeology and Paleoclimatology Research