Persistent global marine euxinia in the early Silurian
Persistent global marine euxinia in the early Silurian
The second pulse of the Late Ordovician mass extinction occurred around the Hirnantian-Rhuddanian boundary (~444 Ma) and has been correlated with expanded marine anoxia lasting into the earliest Silurian. Characterization of the Hirnantian ocean anoxic event has focused on the onset of anoxia, with global reconstructions based on carbonate δ238U modeling. However, there have been limited attempts to quantify uncertainty in metal isotope mass balance approaches. Here, we probabilistically evaluate coupled metal isotopes and sedimentary archives to increase constraint. We present iron speciation, metal concentration, δ98Mo and δ238U measurements of Rhuddanian black shales from the Murzuq Basin, Libya. We evaluate these data (and published carbonate δ238U data) with a coupled stochastic mass balance model. Combined statistical analysis of metal isotopes and sedimentary sinks provides uncertainty-bounded constraints on the intensity of Hirnantian-Rhuddanian euxinia. This work extends the duration of anoxia to >3 Myrs – notably longer than well-studied Mesozoic ocean anoxic events.
Stockey, Richard G.
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Cole, Devon B.
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Planavsky, Noah J.
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Loydell, David K.
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Frýda, Jiří
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Sperling, Erik A.
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14 April 2020
Stockey, Richard G.
005ca449-f5c9-4049-835f-0a9c6df3a93d
Cole, Devon B.
bde9b7a3-a30c-49e2-8f68-64e980544684
Planavsky, Noah J.
7a53fda1-aad7-4dd5-a10c-77290c31b043
Loydell, David K.
cf373339-7b27-45c4-921d-5469025428c3
Frýda, Jiří
ae7ae132-aa66-4c6e-80c5-987c57e294ec
Sperling, Erik A.
0c67e5ac-bf08-438f-8bb1-55f8f0522a7f
Stockey, Richard G., Cole, Devon B., Planavsky, Noah J., Loydell, David K., Frýda, Jiří and Sperling, Erik A.
(2020)
Persistent global marine euxinia in the early Silurian.
Nature Communications, 11, [1804].
(doi:10.1038/s41467-020-15400-y).
Abstract
The second pulse of the Late Ordovician mass extinction occurred around the Hirnantian-Rhuddanian boundary (~444 Ma) and has been correlated with expanded marine anoxia lasting into the earliest Silurian. Characterization of the Hirnantian ocean anoxic event has focused on the onset of anoxia, with global reconstructions based on carbonate δ238U modeling. However, there have been limited attempts to quantify uncertainty in metal isotope mass balance approaches. Here, we probabilistically evaluate coupled metal isotopes and sedimentary archives to increase constraint. We present iron speciation, metal concentration, δ98Mo and δ238U measurements of Rhuddanian black shales from the Murzuq Basin, Libya. We evaluate these data (and published carbonate δ238U data) with a coupled stochastic mass balance model. Combined statistical analysis of metal isotopes and sedimentary sinks provides uncertainty-bounded constraints on the intensity of Hirnantian-Rhuddanian euxinia. This work extends the duration of anoxia to >3 Myrs – notably longer than well-studied Mesozoic ocean anoxic events.
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s41467-020-15400-y
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Published date: 14 April 2020
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Local EPrints ID: 474748
URI: http://eprints.soton.ac.uk/id/eprint/474748
ISSN: 2041-1723
PURE UUID: 841088de-3f41-4838-b9ac-b163fd9a0430
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Date deposited: 02 Mar 2023 17:40
Last modified: 17 Mar 2024 04:15
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Author:
Richard G. Stockey
Author:
Devon B. Cole
Author:
Noah J. Planavsky
Author:
David K. Loydell
Author:
Jiří Frýda
Author:
Erik A. Sperling
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