Extreme variability in atmospheric oxygen levels in the late Precambrian
Mapping the history of atmospheric O during the late Precambrian is vital for evaluating potential links to animal evolution. Ancient O levels are often inferred from geochemical analyses of marine sediments, leading to the assumption that the Earth experienced a stepwise increase in atmospheric O d...
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| Veröffentlicht in: | Science advances 2022-10, Vol.8 (41), p.eabm8191 |
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| creator | Krause, Alexander J Mills, Benjamin J W Merdith, Andrew S Lenton, Timothy M Poulton, Simon W |
| description | Mapping the history of atmospheric O
during the late Precambrian is vital for evaluating potential links to animal evolution. Ancient O
levels are often inferred from geochemical analyses of marine sediments, leading to the assumption that the Earth experienced a stepwise increase in atmospheric O
during the Neoproterozoic. However, the nature of this hypothesized oxygenation event remains unknown, with suggestions of a more dynamic O
history in the oceans and major uncertainty over any direct connection between the marine realm and atmospheric O
. Here, we present a continuous quantitative reconstruction of atmospheric O
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
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
during the Neoproterozoic, and the first animals evolved against a backdrop of extreme O
variability. |
| doi_str_mv | 10.1126/sciadv.abm8191 |
| format | Article |
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during the late Precambrian is vital for evaluating potential links to animal evolution. Ancient O
levels are often inferred from geochemical analyses of marine sediments, leading to the assumption that the Earth experienced a stepwise increase in atmospheric O
during the Neoproterozoic. However, the nature of this hypothesized oxygenation event remains unknown, with suggestions of a more dynamic O
history in the oceans and major uncertainty over any direct connection between the marine realm and atmospheric O
. Here, we present a continuous quantitative reconstruction of atmospheric O
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
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
during the Neoproterozoic, and the first animals evolved against a backdrop of extreme O
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during the late Precambrian is vital for evaluating potential links to animal evolution. Ancient O
levels are often inferred from geochemical analyses of marine sediments, leading to the assumption that the Earth experienced a stepwise increase in atmospheric O
during the Neoproterozoic. However, the nature of this hypothesized oxygenation event remains unknown, with suggestions of a more dynamic O
history in the oceans and major uncertainty over any direct connection between the marine realm and atmospheric O
. Here, we present a continuous quantitative reconstruction of atmospheric O
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
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
during the Neoproterozoic, and the first animals evolved against a backdrop of extreme O
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during the late Precambrian is vital for evaluating potential links to animal evolution. Ancient O
levels are often inferred from geochemical analyses of marine sediments, leading to the assumption that the Earth experienced a stepwise increase in atmospheric O
during the Neoproterozoic. However, the nature of this hypothesized oxygenation event remains unknown, with suggestions of a more dynamic O
history in the oceans and major uncertainty over any direct connection between the marine realm and atmospheric O
. Here, we present a continuous quantitative reconstruction of atmospheric O
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
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
during the Neoproterozoic, and the first animals evolved against a backdrop of extreme O
variability.</abstract><cop>United States</cop><pub>American Association for the Advancement of Science</pub><pmid>36240275</pmid><doi>10.1126/sciadv.abm8191</doi><orcidid>https://orcid.org/0000-0002-9771-8101</orcidid><orcidid>https://orcid.org/0000-0002-9141-0931</orcidid><orcidid>https://orcid.org/0000-0002-7564-8149</orcidid><orcidid>https://orcid.org/0000-0002-6725-7498</orcidid><orcidid>https://orcid.org/0000-0001-7621-189X</orcidid><oa>free_for_read</oa></addata></record> |
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| subjects | Earth, Environmental, Ecological, and Space Sciences Geochemistry Geology SciAdv r-articles |
| title | Extreme variability in atmospheric oxygen levels in the late Precambrian |
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