Add to ORKGAccepted manuscript version, licensed CC BY-NC-ND 4.0. It has commonly been proposed that the development of complex life is tied to increases in atmospheric oxygenation. However, there is a conspicuous gap in time between the oxygenation of the atmosphere 2.4 billion years ago (Ga) and the first widely-accepted fossil evidence for complex eukaryotic cells . At present the gap could either represent poor sampling, poor preservation, and/or difficulties in recognizing early eukaryote fossils, or it could be real and the evolution of complex cells was delayed due to relatively low and/or variable O2 levels in the Paleoproterozoic. To assess the extent and stability of Paleoproterozoic O2 levels, we measured chromium-based oxygen proxies in a...
The Mesoproterozoic era (1,600–1,000 million years ago (Ma)) has long been considered a period of re...
This is the final version. Available on open access from AAAS via the DOI in this recordData and mat...
There is no direct geologic record of the level of free oxygen in the atmosphere over Earth history....
It has commonly been proposed that the development of complex life is tied to increases in atmospher...
The oxygenation of Earth’s surface fundamentally altered global biogeochemical cycles and ultimately...
Mapping the history of atmospheric O₂ during the late Precambrian is vital for evaluating potential ...
The period 1800 to 800 Ma (“Boring Billion”) is believed to mark a delay in the evolution of complex...
PublishedThis is the author accepted manuscript. The final version is available from the National Ac...
Both the gradual rise in atmospheric oxygen over the Proterozoic Eon as well as episodic fluctuation...
Two major geological problems regarding the origin of oxygenic photosynthesis are: (1) identifying a...
A hypothesized rise in oxygen levels in the Neoproterozoic, dubbed the Neoproterozoic Oxygenation Ev...
This article examines the geological evidence for the rise of atmospheric oxygen and the origin of o...
Among the most important bioenergetic innovations in the history of life was the invention of oxygen...
Among the most important bioenergetic innovations in the history of life was the invention of oxygen...
Molecular oxygen (O[subscript 2]) is, and has been, a primary driver of biological evolution and sha...
The Mesoproterozoic era (1,600–1,000 million years ago (Ma)) has long been considered a period of re...
This is the final version. Available on open access from AAAS via the DOI in this recordData and mat...
There is no direct geologic record of the level of free oxygen in the atmosphere over Earth history....
It has commonly been proposed that the development of complex life is tied to increases in atmospher...
The oxygenation of Earth’s surface fundamentally altered global biogeochemical cycles and ultimately...
Mapping the history of atmospheric O₂ during the late Precambrian is vital for evaluating potential ...
The period 1800 to 800 Ma (“Boring Billion”) is believed to mark a delay in the evolution of complex...
PublishedThis is the author accepted manuscript. The final version is available from the National Ac...
Both the gradual rise in atmospheric oxygen over the Proterozoic Eon as well as episodic fluctuation...
Two major geological problems regarding the origin of oxygenic photosynthesis are: (1) identifying a...
A hypothesized rise in oxygen levels in the Neoproterozoic, dubbed the Neoproterozoic Oxygenation Ev...
This article examines the geological evidence for the rise of atmospheric oxygen and the origin of o...
Among the most important bioenergetic innovations in the history of life was the invention of oxygen...
Among the most important bioenergetic innovations in the history of life was the invention of oxygen...
Molecular oxygen (O[subscript 2]) is, and has been, a primary driver of biological evolution and sha...
The Mesoproterozoic era (1,600–1,000 million years ago (Ma)) has long been considered a period of re...
This is the final version. Available on open access from AAAS via the DOI in this recordData and mat...
There is no direct geologic record of the level of free oxygen in the atmosphere over Earth history....