Vertical decoupling in Late Ordovician anoxia due to reorganization of ocean circulation
Vertical decoupling in Late Ordovician anoxia due to reorganization of ocean circulation
Geochemical redox proxies indicate that seafloor anoxia occurred during the latest Ordovician glacial maximum, coincident with the second pulse of the Late Ordovician mass extinction. However, expanded anoxia in a glacial climate strikingly contrasts with the warming-associated Mesozoic anoxic events and raises questions as to both the causal mechanism of ocean deoxygenation and its relationship with extinction. Here we firstly report iodine-to-calcium ratio (I/Ca) data that document increased upper-ocean oxygenation despite the concurrent expansion of seafloor anoxia. We then resolve these apparently conflicting observations as well as their relationship to global climate by means of a series of Earth system model simulations. Applying available Late Ordovician (Hirnantian) sea-surface temperature estimates from oxygen isotope studies as constraints, alongside our I/Ca data, leads us to identify a scenario in which Hirnantian glacial conditions permit both the spread of seafloor anoxia and increased upper-ocean oxygenation. Our simulated mechanism of a reorganization of global ocean circulation, with reduced importance of northern-sourced waters and a poorer ventilated and deoxygenated deep ocean has parallels with Pleistocene state transitions in Atlantic meridional overturning (despite a very different continental configuration) and suggests that no simple and predictable relationship between past climate state and oxygenation may exist.
868–873
Pohl, Alexandre
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Lu, Zunli
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Lu, Wanyi
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Stockey, Richard G.
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Elrick, Maya
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Li, Menghan
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Desrochers, André
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Shen, Yanan
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He, Ruliang
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Finnegan, Seth
530abed4-8fb6-4287-b5df-bc982fe0292b
Ridgwell, Andy
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1 November 2021
Pohl, Alexandre
f16e3cc1-da9c-4fad-b4ee-f640d7978ae6
Lu, Zunli
de186799-7713-4130-8ade-b7baea80f951
Lu, Wanyi
8e950bac-6802-4118-ace8-50adcb0be451
Stockey, Richard G.
005ca449-f5c9-4049-835f-0a9c6df3a93d
Elrick, Maya
95ca3a71-469d-464c-87c0-3774294d9d4c
Li, Menghan
cd5ce525-f673-4504-a2a8-8582facd1420
Desrochers, André
3194bca2-779f-4bb3-bf1d-95881d184bc5
Shen, Yanan
28b4c532-d7da-47dc-ab49-9090840af1bc
He, Ruliang
892a3957-8cbe-4108-908a-6ba155928cb6
Finnegan, Seth
530abed4-8fb6-4287-b5df-bc982fe0292b
Ridgwell, Andy
769cea5c-e033-456a-8b53-51dfa307dc35
Pohl, Alexandre, Lu, Zunli, Lu, Wanyi, Stockey, Richard G., Elrick, Maya, Li, Menghan, Desrochers, André, Shen, Yanan, He, Ruliang, Finnegan, Seth and Ridgwell, Andy
(2021)
Vertical decoupling in Late Ordovician anoxia due to reorganization of ocean circulation.
Nature Geoscience, 14, .
(doi:10.1038/s41561-021-00843-9).
Abstract
Geochemical redox proxies indicate that seafloor anoxia occurred during the latest Ordovician glacial maximum, coincident with the second pulse of the Late Ordovician mass extinction. However, expanded anoxia in a glacial climate strikingly contrasts with the warming-associated Mesozoic anoxic events and raises questions as to both the causal mechanism of ocean deoxygenation and its relationship with extinction. Here we firstly report iodine-to-calcium ratio (I/Ca) data that document increased upper-ocean oxygenation despite the concurrent expansion of seafloor anoxia. We then resolve these apparently conflicting observations as well as their relationship to global climate by means of a series of Earth system model simulations. Applying available Late Ordovician (Hirnantian) sea-surface temperature estimates from oxygen isotope studies as constraints, alongside our I/Ca data, leads us to identify a scenario in which Hirnantian glacial conditions permit both the spread of seafloor anoxia and increased upper-ocean oxygenation. Our simulated mechanism of a reorganization of global ocean circulation, with reduced importance of northern-sourced waters and a poorer ventilated and deoxygenated deep ocean has parallels with Pleistocene state transitions in Atlantic meridional overturning (despite a very different continental configuration) and suggests that no simple and predictable relationship between past climate state and oxygenation may exist.
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Published date: 1 November 2021
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Local EPrints ID: 474741
URI: http://eprints.soton.ac.uk/id/eprint/474741
ISSN: 1752-0894
PURE UUID: 7d7f63f7-b101-4586-b813-1e2f3f2dfa1f
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Date deposited: 02 Mar 2023 17:38
Last modified: 17 Mar 2024 04:15
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Author:
Alexandre Pohl
Author:
Zunli Lu
Author:
Wanyi Lu
Author:
Richard G. Stockey
Author:
Maya Elrick
Author:
Menghan Li
Author:
André Desrochers
Author:
Yanan Shen
Author:
Ruliang He
Author:
Seth Finnegan
Author:
Andy Ridgwell
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