Dynamic deep marine oxygenation during the Early and Middle Paleozoic
Dynamic deep marine oxygenation during the Early and Middle Paleozoic
The Early Paleozoic radiation of diverse animal life is commonly connected to a well-ventilated global ocean. Yet the oxygenation history of Paleozoic deep oceans remains debated. Using thallium (Tl) isotope ratios in deep-marine mudrocks, we reconstruct the history of deep marine oxygenation from ~485 to 380 million years ago. Thallium isotopes can track bottom water oxygenation indirectly through their sensitivity to seafloor Mn oxide burial. We apply Tl isotopes to a global set of mudrocks, placing a particular focus on the Road River Group of Yukon, Canada. Our data reveal an oscillatory pattern in seawater Tl isotope ratios and, in turn, a dynamic ocean ventilation history. A long-lived deep ocean oxygenation episode is identified between ~405 and 386 million years ago. These short-term dynamics are superimposed on a muted positive ocean oxygenation trend over the entire Early and Middle Paleozoic. Sustained O2 accumulation in global marine bottom waters occurred sometime after ~380 million years ago according to our dataset.
Ostrander, Chadlin M.
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Clemente, Jean Nikolas R.
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Stockey, Richard G.
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Strauss, Justin V.
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Fraser, Tiffani
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Nielsen, Sune G.
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Sperling, Erik A.
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Ostrander, Chadlin M.
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Clemente, Jean Nikolas R.
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Stockey, Richard G.
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Strauss, Justin V.
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Fraser, Tiffani
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Nielsen, Sune G.
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Sperling, Erik A.
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Ostrander, Chadlin M., Clemente, Jean Nikolas R., Stockey, Richard G., Strauss, Justin V., Fraser, Tiffani, Nielsen, Sune G. and Sperling, Erik A.
(2025)
Dynamic deep marine oxygenation during the Early and Middle Paleozoic.
Science Advances, 11 (36), [eadw5878].
(doi:10.1126/sciadv.adw5878).
Abstract
The Early Paleozoic radiation of diverse animal life is commonly connected to a well-ventilated global ocean. Yet the oxygenation history of Paleozoic deep oceans remains debated. Using thallium (Tl) isotope ratios in deep-marine mudrocks, we reconstruct the history of deep marine oxygenation from ~485 to 380 million years ago. Thallium isotopes can track bottom water oxygenation indirectly through their sensitivity to seafloor Mn oxide burial. We apply Tl isotopes to a global set of mudrocks, placing a particular focus on the Road River Group of Yukon, Canada. Our data reveal an oscillatory pattern in seawater Tl isotope ratios and, in turn, a dynamic ocean ventilation history. A long-lived deep ocean oxygenation episode is identified between ~405 and 386 million years ago. These short-term dynamics are superimposed on a muted positive ocean oxygenation trend over the entire Early and Middle Paleozoic. Sustained O2 accumulation in global marine bottom waters occurred sometime after ~380 million years ago according to our dataset.
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sciadv.adw5878
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e-pub ahead of print date: 3 September 2025
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Local EPrints ID: 505513
URI: http://eprints.soton.ac.uk/id/eprint/505513
ISSN: 2375-2548
PURE UUID: 0fe21b84-8cd8-4c9b-b3a6-32189864b0d6
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Date deposited: 10 Oct 2025 17:08
Last modified: 11 Oct 2025 02:17
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Author:
Chadlin M. Ostrander
Author:
Jean Nikolas R. Clemente
Author:
Richard G. Stockey
Author:
Justin V. Strauss
Author:
Tiffani Fraser
Author:
Sune G. Nielsen
Author:
Erik A. Sperling
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