Sea level and deep-sea temperature reconstructions suggest quasi-stable states and critical transitions over the past 40 million years
Sea level and deep-sea temperature reconstructions suggest quasi-stable states and critical transitions over the past 40 million years
Sea level and deep-sea temperature variations are key indicators of global climate changes. For continuous records over millions of years, deep-sea carbonate microfossil-based 18O (c) records are indispensable because they reflect changes in both deep-sea temperature and seawater 18O (w); the latter are related to ice volume and, thus, to sea level changes. Deep-sea temperature is usually resolved using elemental ratios in the same benthic microfossil shells used for c, with linear scaling of residual w to sea level changes. Uncertainties are large and the linear-scaling assumption remains untested. Here, we present a new process-based approach to assess relationships between changes in sea level, mean ice sheet 18O, and both deep-sea w and temperature and find distinct nonlinearity between sea level and w changes. Application to c records over the past 40 million years suggests that Earth's climate system has complex dynamical behavior, with threshold-like adjustments (critical transitions) that separate quasi-stable deep-sea temperature and ice-volume states.
Rohling, Eelco J.
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Yu, Jimin
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Heslop, David
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Foster, Gavin L.
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Opdyke, Bradley
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Roberts, Andrew P.
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Rohling, Eelco J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
Yu, Jimin
9558e475-ac9f-44d3-8c1a-b0540e3b7c3d
Heslop, David
f32aae36-7f51-40e1-bf7d-54a561369a8d
Foster, Gavin L.
fbaa7255-7267-4443-a55e-e2a791213022
Opdyke, Bradley
698c6c7e-bfb4-4417-8929-ccd9a4165289
Roberts, Andrew P.
bfc571f6-9c7a-4cc5-8df9-2c41ef5ac2a1
Rohling, Eelco J., Yu, Jimin, Heslop, David, Foster, Gavin L., Opdyke, Bradley and Roberts, Andrew P.
(2021)
Sea level and deep-sea temperature reconstructions suggest quasi-stable states and critical transitions over the past 40 million years.
Science Advances, 7 (26), [eabf5326].
(doi:10.1126/sciadv.abf5326).
Abstract
Sea level and deep-sea temperature variations are key indicators of global climate changes. For continuous records over millions of years, deep-sea carbonate microfossil-based 18O (c) records are indispensable because they reflect changes in both deep-sea temperature and seawater 18O (w); the latter are related to ice volume and, thus, to sea level changes. Deep-sea temperature is usually resolved using elemental ratios in the same benthic microfossil shells used for c, with linear scaling of residual w to sea level changes. Uncertainties are large and the linear-scaling assumption remains untested. Here, we present a new process-based approach to assess relationships between changes in sea level, mean ice sheet 18O, and both deep-sea w and temperature and find distinct nonlinearity between sea level and w changes. Application to c records over the past 40 million years suggests that Earth's climate system has complex dynamical behavior, with threshold-like adjustments (critical transitions) that separate quasi-stable deep-sea temperature and ice-volume states.
Text
sciadv.abf5326
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Accepted/In Press date: 12 May 2021
e-pub ahead of print date: 25 June 2021
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Local EPrints ID: 490646
URI: http://eprints.soton.ac.uk/id/eprint/490646
ISSN: 2375-2548
PURE UUID: ef13cc30-ac20-4091-85bf-19e653c06e88
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Date deposited: 31 May 2024 16:56
Last modified: 01 Jun 2024 01:42
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Author:
Jimin Yu
Author:
David Heslop
Author:
Bradley Opdyke
Author:
Andrew P. Roberts
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