The oxygenation of the atmosphere and oceans.
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Journal: 2006/August - Philosophical Transactions of the Royal Society B: Biological Sciences
ISSN: 0962-8436
Abstract:
The last 3.85 Gyr of Earth history have been divided into five stages. During stage 1 (3.85-2.45 Gyr ago (Ga)) the atmosphere was largely or entirely anoxic, as were the oceans, with the possible exception of oxygen oases in the shallow oceans. During stage 2 (2.45-1.85 Ga) atmospheric oxygen levels rose to values estimated to have been between 0.02 and 0.04 atm. The shallow oceans became mildly oxygenated, while the deep oceans continued anoxic. Stage 3 (1.85-0.85 Ga) was apparently rather 'boring'. Atmospheric oxygen levels did not change significantly. Most of the surface oceans were mildly oxygenated, as were the deep oceans. Stage 4 (0.85-0.54 Ga) saw a rise in atmospheric oxygen to values not much less than 0.2 atm. The shallow oceans followed suit, but the deep oceans were anoxic, at least during the intense Neoproterozoic ice ages. Atmospheric oxygen levels during stage 5 (0.54 Ga-present) probably rose to a maximum value of ca 0.3 atm during the Carboniferous before returning to its present value. The shallow oceans were oxygenated, while the oxygenation of the deep oceans fluctuated considerably, perhaps on rather geologically short time-scales.
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Philos Trans R Soc Lond B Biol Sci 361(1470): 903-915
PMID: 16754606

The oxygenation of the atmosphere and oceans

Department of Earth and Planetary Sciences, Harvard University, Cambridge, MA 02138, USA
Author for correspondence (ude.dravrah.spe@dnalloh)
Department of Earth and Planetary Sciences, Harvard University, Cambridge, MA 02138, USA
Copyright © 2006 The Royal Society

Abstract

The last 3.85 Gyr of Earth history have been divided into five stages. During stage 1 (3.85–2.45 Gyr ago (Ga)) the atmosphere was largely or entirely anoxic, as were the oceans, with the possible exception of oxygen oases in the shallow oceans.

During stage 2 (2.45–1.85 Ga) atmospheric oxygen levels rose to values estimated to have been between 0.02 and 0.04 atm. The shallow oceans became mildly oxygenated, while the deep oceans continued anoxic.

Stage 3 (1.85–0.85 Ga) was apparently rather ‘boring’. Atmospheric oxygen levels did not change significantly. Most of the surface oceans were mildly oxygenated, as were the deep oceans.

Stage 4 (0.85–0.54 Ga) saw a rise in atmospheric oxygen to values not much less than 0.2 atm. The shallow oceans followed suit, but the deep oceans were anoxic, at least during the intense Neoproterozoic ice ages. Atmospheric oxygen levels during stage 5 (0.54 Ga–present) probably rose to a maximum value of ca 0.3 atm during the Carboniferous before returning to its present value. The shallow oceans were oxygenated, while the oxygenation of the deep oceans fluctuated considerably, perhaps on rather geologically short time-scales.

Keywords: atmosphere, oceans, oxygen, mass-independent fractionation, great oxidation event, oceanic anoxic events
Abstract

Acknowledgments

This paper owes a great deal to discussions with a very large number of colleagues. Ariel Anbar, Andrey Bekker, Donald Canfield, John Hayes, James Kasting, Andrew Knoll and Shuhei Ono have been among the most deeply involved, and I owe them a particularly great debt of gratitude. Lee Kump and Harald Strauss are thanked for helpful reviews of the manuscript. Partial support during the writing of this paper was supplied by NSF grant EAR-0309258, to Harvard University. Travel funds were kindly made available by the Royal Society.

Acknowledgments

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One contribution of 14 to a Discussion Meeting Issue ‘Major steps in cell evolution’.

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