Why the Early Paleozoic was intrinsically prone to marine extinction
Why the Early Paleozoic was intrinsically prone to marine extinction
The geological record of marine animal biodiversity reflects the interplay between changing rates of speciation versus extinction. Compared to mass extinctions, background extinctions have received little attention. To disentangle the different contributions of global climate state, continental configuration, and atmospheric oxygen concentration (pO 2) to variations in background extinction rates, we drive an animal physiological model with the environmental outputs from an Earth system model across intervals spanning the past 541 million years. We find that climate and continental configuration combined to make extinction susceptibility an order of magnitude higher during the Early Paleozoic than during the rest of the Phanerozoic, consistent with extinction rates derived from paleontological databases. The high extinction susceptibility arises in the model from the limited geographical range of marine organisms. It stands even when assuming present-day pO 2, suggesting that increasing oxygenation through the Paleozoic is not necessary to explain why extinction rates apparently declined with time.
Pohl, Alexandre
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Stockey, Richard G.
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Dai, Xu
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Yohler, Ryan
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Hir, Guillaume Le
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Hülse, Dominik
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Brayard, Arnaud
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Finnegan, Seth
530abed4-8fb6-4287-b5df-bc982fe0292b
Ridgwell, Andy
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30 August 2023
Pohl, Alexandre
f16e3cc1-da9c-4fad-b4ee-f640d7978ae6
Stockey, Richard G.
005ca449-f5c9-4049-835f-0a9c6df3a93d
Dai, Xu
791d4e37-b0e2-4f09-b464-9bb19bb6fe30
Yohler, Ryan
fd0efeb5-496d-4636-b728-5287fc760ae9
Hir, Guillaume Le
9461a496-aec1-4abc-8f70-86e6f529358d
Hülse, Dominik
d702b5e3-f3e5-4bcd-a197-ced7c44d0dc8
Brayard, Arnaud
889b8402-1b8c-4d9f-9e96-3cd043dddc79
Finnegan, Seth
530abed4-8fb6-4287-b5df-bc982fe0292b
Ridgwell, Andy
769cea5c-e033-456a-8b53-51dfa307dc35
Pohl, Alexandre, Stockey, Richard G., Dai, Xu, Yohler, Ryan, Hir, Guillaume Le, Hülse, Dominik, Brayard, Arnaud, Finnegan, Seth and Ridgwell, Andy
(2023)
Why the Early Paleozoic was intrinsically prone to marine extinction.
Science Advances, 9 (35).
(doi:10.1126/sciadv.adg7679).
Abstract
The geological record of marine animal biodiversity reflects the interplay between changing rates of speciation versus extinction. Compared to mass extinctions, background extinctions have received little attention. To disentangle the different contributions of global climate state, continental configuration, and atmospheric oxygen concentration (pO 2) to variations in background extinction rates, we drive an animal physiological model with the environmental outputs from an Earth system model across intervals spanning the past 541 million years. We find that climate and continental configuration combined to make extinction susceptibility an order of magnitude higher during the Early Paleozoic than during the rest of the Phanerozoic, consistent with extinction rates derived from paleontological databases. The high extinction susceptibility arises in the model from the limited geographical range of marine organisms. It stands even when assuming present-day pO 2, suggesting that increasing oxygenation through the Paleozoic is not necessary to explain why extinction rates apparently declined with time.
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sciadv.adg7679
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Accepted/In Press date: 27 July 2023
Published date: 30 August 2023
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Local EPrints ID: 483322
URI: http://eprints.soton.ac.uk/id/eprint/483322
ISSN: 2375-2548
PURE UUID: b973a023-044b-4151-8b40-027e1d7a15ba
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Date deposited: 27 Oct 2023 17:04
Last modified: 18 Mar 2024 04:08
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Contributors
Author:
Alexandre Pohl
Author:
Richard G. Stockey
Author:
Xu Dai
Author:
Ryan Yohler
Author:
Guillaume Le Hir
Author:
Dominik Hülse
Author:
Arnaud Brayard
Author:
Seth Finnegan
Author:
Andy Ridgwell
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