The oxygenation of the atmosphere — one of the most fundamental transformations in Earth's history — dramatically altered the chemical composition of the oceans and provides a compelling example of how life can reshape planetary surface environments. Furthermore, it is commonly proposed that surface oxygen levels played a key role in controlling the timing and tempo of the origin and early diversification of animals. Although oxygen levels were likely more dynamic than previously imagined, we make a case here that emerging records provide evidence for low atmospheric oxygen levels for the majority of Earth's history. Specifically, we review records and present a conceptual framework that suggest that background oxygen levels were below 1% of the present atmospheric level during the billon years leading up to the diversification of early animals. Evidence for low background oxygen levels through much of the Proterozoic bolsters the case that environmental conditions were a critical factor in controlling the structure of ecosystems through Earth's history.
A case for low atmospheric oxygen levels during Earth's middle history
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Timothy W. Lyons, Mary L. Droser, Kimberly V. Lau, Susannah M. Porter, Noah J. Planavsky, Devon B. Cole, Terry T. Isson, Christopher T. Reinhard, Peter W. Crockford, Nathan D. Sheldon, Timothy W. Lyons; A case for low atmospheric oxygen levels during Earth's middle history. Emerg Top Life Sci 28 September 2018; 2 (2): 149–159. doi: https://doi.org/10.1042/ETLS20170161
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