Earth's Early Atmosphere and Surface Environment
The upside-down biosphere: “Evidence for the partially oxygenated oceans during the Archean Eon”
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Published:May 01, 2014
This is a commentary on the preceding chapter by Ohmoto et al., in which it is suggested that oxygen concentrations have been high throughout Earth history. This is a contentious suggestion at odds with the prevailing view in the field, which contends that atmospheric oxygen concentrations rose from trace levels to a few percent of modern-day levels around 2.5 b.y. ago. This comment notes that many of the data sets cited by Ohmoto et al. as evidence for a relatively oxidized environment come from deep-ocean settings. This presents a possibility to reconcile some of these data and suggestions with the overwhelming evidence for an atmosphere free of oxygen at that time. Specifically, it is possible that deep-ocean waters were relatively oxidized with respect to certain redox pairs. These deep-ocean waters would have been more oxidized than surface waters, thus representing an “upside-down biosphere,” as originally proposed 25 years ago by Jim Walker.
- anaerobic environment
- Archean
- biosphere
- bottom water
- carbonates
- deep-sea environment
- depth
- dissolved oxygen
- Eh
- geochemistry
- Great Oxidation Event
- hydrochemistry
- hydrogen
- hydrothermal vents
- iron minerals
- magnetite
- marine environment
- marine sedimentation
- oxidation
- oxides
- oxygen
- paleoatmosphere
- Precambrian
- sea surface water
- sea water
- sedimentation
- siderite
- solutes