Temperature changes across the Paleocene-Eocene Thermal Maximum – a new high-resolution TEX86 temperature record from the Eastern North Sea Basin
Temperature changes across the Paleocene-Eocene Thermal Maximum – a new high-resolution TEX86 temperature record from the Eastern North Sea Basin
The Paleocene-Eocene Thermal Maximum (PETM; ∼55.9 Ma) was a hyperthermal event associated with large carbon cycle perturbations, sustained global warming, and marine and terrestrial environmental changes. One possible trigger and/or source of the carbon release that initiated the PETM is the emplacement of the North Atlantic Igneous Province (NAIP). This study focuses on an expanded section of marine clays and diatomite on Fur Island in northern Denmark, where the entire PETM sequence has been identified by a negative ∼4.5‰ δ
13C
TOC excursion. This remarkably well-preserved section also contains >180 interbedded ash layers sourced from the NAIP, making it an ideal site for investigating the correlations between large-scale volcanism and environmental changes. This study provides a new and complete high-resolution TEX
86-derived sea-surface temperature (SST) reconstruction over the entire PETM and the post-PETM section (up to about 54.6 Ma). The palaeothermometry record indicates an apparent short-lived cooling episode in the late Paleocene, followed by a pronounced temperature response to the PETM carbon cycle perturbations with a ∼10 °C SST increase during the PETM onset (up to ∼33 °C). Extreme SSTs fall shortly after the PETM onset, and continue to decrease during the PETM body and recovery, down to anomalously cool SSTs post-PETM (∼11–23 °C). Both phases of potential cooling coincide with proxies of active NAIP volcanism, suggesting a causal connection, although several overprinting non-thermal factors complicate interpretations of the TEX
86 values. Indices of effusive and explosive NAIP volcanism are largely absent from the Danish stratigraphy during the PETM body, though a re-emergence toward the end of the PETM suggest NAIP volcanism might have played a role in the PETM termination in the North Sea. This new SST record completes the previous fragmented view of climate changes at this globally important PETM site, and indicates large temperature variations in the North Sea during the earliest Eocene that are possibly linked to NAIP volcanism.
North Atlantic Igneous Province, PETM, TEX, palaeotemperatures
116388
Stokke, Ella W.
c9a32f08-93c8-4d6d-aaad-9a99c3b510a1
Jones, Morgan T.
cf1c7a87-0578-4e4b-8708-a22a5b9e7df4
Tierney, Jessica E.
33ac78a0-f7c1-4bc6-bb6a-63e663414db2
Svensen, Henrik H.
5167a563-4c43-41f4-a83a-fd5458f08347
Whiteside, Jessica H.
5d9ad7aa-eba3-4ad9-9f6f-81be71b6829b
15 August 2020
Stokke, Ella W.
c9a32f08-93c8-4d6d-aaad-9a99c3b510a1
Jones, Morgan T.
cf1c7a87-0578-4e4b-8708-a22a5b9e7df4
Tierney, Jessica E.
33ac78a0-f7c1-4bc6-bb6a-63e663414db2
Svensen, Henrik H.
5167a563-4c43-41f4-a83a-fd5458f08347
Whiteside, Jessica H.
5d9ad7aa-eba3-4ad9-9f6f-81be71b6829b
Stokke, Ella W., Jones, Morgan T., Tierney, Jessica E., Svensen, Henrik H. and Whiteside, Jessica H.
(2020)
Temperature changes across the Paleocene-Eocene Thermal Maximum – a new high-resolution TEX86 temperature record from the Eastern North Sea Basin.
Earth and Planetary Science Letters, 544, , [116388].
(doi:10.1016/j.epsl.2020.116388).
Abstract
The Paleocene-Eocene Thermal Maximum (PETM; ∼55.9 Ma) was a hyperthermal event associated with large carbon cycle perturbations, sustained global warming, and marine and terrestrial environmental changes. One possible trigger and/or source of the carbon release that initiated the PETM is the emplacement of the North Atlantic Igneous Province (NAIP). This study focuses on an expanded section of marine clays and diatomite on Fur Island in northern Denmark, where the entire PETM sequence has been identified by a negative ∼4.5‰ δ
13C
TOC excursion. This remarkably well-preserved section also contains >180 interbedded ash layers sourced from the NAIP, making it an ideal site for investigating the correlations between large-scale volcanism and environmental changes. This study provides a new and complete high-resolution TEX
86-derived sea-surface temperature (SST) reconstruction over the entire PETM and the post-PETM section (up to about 54.6 Ma). The palaeothermometry record indicates an apparent short-lived cooling episode in the late Paleocene, followed by a pronounced temperature response to the PETM carbon cycle perturbations with a ∼10 °C SST increase during the PETM onset (up to ∼33 °C). Extreme SSTs fall shortly after the PETM onset, and continue to decrease during the PETM body and recovery, down to anomalously cool SSTs post-PETM (∼11–23 °C). Both phases of potential cooling coincide with proxies of active NAIP volcanism, suggesting a causal connection, although several overprinting non-thermal factors complicate interpretations of the TEX
86 values. Indices of effusive and explosive NAIP volcanism are largely absent from the Danish stratigraphy during the PETM body, though a re-emergence toward the end of the PETM suggest NAIP volcanism might have played a role in the PETM termination in the North Sea. This new SST record completes the previous fragmented view of climate changes at this globally important PETM site, and indicates large temperature variations in the North Sea during the earliest Eocene that are possibly linked to NAIP volcanism.
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Stokke et al._PETM Denmark TEX86-1-1
- Accepted Manuscript
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Temperature changes across the Paleocene-Eocene
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Accepted/In Press date: 2 June 2020
e-pub ahead of print date: 15 June 2020
Published date: 15 August 2020
Additional Information:
Funding Information:
We thank reviewer Dr. Peter Bijl, the anonymous reviewer, and editor Dr. Laura Robinson, for their very thorough and constructive comments. Prof. Emeritus Claus Heilmann-Clausen, Dr. Joost Frieling is sincerely thanked for good and helpful discussions. P. Sargent Bray, Bo Schultz, Dr. Sverre Planke, Prof. Christian Tegner, and Dr. Valentin Zuchuat are all warmly thanked for their assistance. This project was supported by the Research Council of Norway 's funding schemes “Unge Forskertallenter” project number 263000 (project Ashlantic) and “Centres of Excellence” project number 223272 , and their funding to the Norwegian Research School DEEP with project number 249040/F60 . J. Whiteside is thankful to support from an Annual Adventures in Research grant. J. Tierney acknowledges support from The David and Lucile Packard Foundation and The Heising-Simons Foundation Grant # 2016-015 .
Publisher Copyright:
© 2020 The Author(s)
Keywords:
North Atlantic Igneous Province, PETM, TEX, palaeotemperatures
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Local EPrints ID: 442849
URI: http://eprints.soton.ac.uk/id/eprint/442849
ISSN: 0012-821X
PURE UUID: e46694bd-a76a-47e6-b733-434c5b0acc58
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Date deposited: 29 Jul 2020 16:31
Last modified: 16 Mar 2024 08:49
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Contributors
Author:
Ella W. Stokke
Author:
Morgan T. Jones
Author:
Jessica E. Tierney
Author:
Henrik H. Svensen
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