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Terrestrial environmental change across the onset of the PETM and the associated impact on biomarker proxies: a cautionary tale

Terrestrial environmental change across the onset of the PETM and the associated impact on biomarker proxies: a cautionary tale
Terrestrial environmental change across the onset of the PETM and the associated impact on biomarker proxies: a cautionary tale
The Paleocene-Eocene Thermal Maximum (PETM; ~ 56 million years ago) is the most severe carbon cycle perturbation event of the Cenozoic. Although the PETM is associated with warming in both the surface (up to 8 °C) and deep ocean (up to 5 °C), there are relatively few terrestrial temperature estimates from the onset of this interval. The associated response of the hydrological cycle during the PETM is also poorly constrained. Here, we use biomarker proxies (informed by models) to reconstruct temperature and hydrological change within the Cobham Lignite (UK) during the latest Paleocene and early PETM. Previous work at this site indicates warm terrestrial temperatures during the very latest Paleocene (ca. 22–26 °C). However, biomarker temperature proxies imply cooling during the onset of the PETM (ca. 5–11 °C cooling), inconsistent with other local, regional and global evidence. This coincides with an increase in pH (ca. 2 pH units with pH values >7), enhanced waterlogging, a major reduction in fires and the development of areas of open water within a peatland environment. This profound change in hydrology and environment evidently biases biomarker temperature proxies, including the branched GDGT paleothermometer. This serves as a cautionary tale on the danger of attempting to interpret biomarker proxy records without a wider understanding of their environmental context.
0921-8181
1-8
Inglis, Gordon N.
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Farnsworth, Alexander
42c07817-9776-49d0-af90-e562d8b85482
Collinson, Margaret E.
4558b0e7-a6c1-4b1c-a6e8-36e3e9f3c320
Carmichael, Matthew J.
943dcc2c-5c5b-4693-a9eb-9f8905b7293d
Naafs, B. David A.
b4e4a3c0-ef86-476f-a439-3ce7e192337a
Lunt, Daniel J.
931ecfb5-1f50-412c-8f01-a46d69b1f82f
Valdes, Paul J.
d4cdc123-544c-4df7-8c61-1781cf50f104
Pancost, Richard D.
5914e19e-7777-4304-9fd8-86e2e9cfe8a1
Inglis, Gordon N.
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Farnsworth, Alexander
42c07817-9776-49d0-af90-e562d8b85482
Collinson, Margaret E.
4558b0e7-a6c1-4b1c-a6e8-36e3e9f3c320
Carmichael, Matthew J.
943dcc2c-5c5b-4693-a9eb-9f8905b7293d
Naafs, B. David A.
b4e4a3c0-ef86-476f-a439-3ce7e192337a
Lunt, Daniel J.
931ecfb5-1f50-412c-8f01-a46d69b1f82f
Valdes, Paul J.
d4cdc123-544c-4df7-8c61-1781cf50f104
Pancost, Richard D.
5914e19e-7777-4304-9fd8-86e2e9cfe8a1

Inglis, Gordon N., Farnsworth, Alexander, Collinson, Margaret E., Carmichael, Matthew J., Naafs, B. David A., Lunt, Daniel J., Valdes, Paul J. and Pancost, Richard D. (2019) Terrestrial environmental change across the onset of the PETM and the associated impact on biomarker proxies: a cautionary tale. Global and Planetary Change, 181, 1-8, [102991]. (doi:10.1016/j.gloplacha.2019.102991).

Record type: Article

Abstract

The Paleocene-Eocene Thermal Maximum (PETM; ~ 56 million years ago) is the most severe carbon cycle perturbation event of the Cenozoic. Although the PETM is associated with warming in both the surface (up to 8 °C) and deep ocean (up to 5 °C), there are relatively few terrestrial temperature estimates from the onset of this interval. The associated response of the hydrological cycle during the PETM is also poorly constrained. Here, we use biomarker proxies (informed by models) to reconstruct temperature and hydrological change within the Cobham Lignite (UK) during the latest Paleocene and early PETM. Previous work at this site indicates warm terrestrial temperatures during the very latest Paleocene (ca. 22–26 °C). However, biomarker temperature proxies imply cooling during the onset of the PETM (ca. 5–11 °C cooling), inconsistent with other local, regional and global evidence. This coincides with an increase in pH (ca. 2 pH units with pH values >7), enhanced waterlogging, a major reduction in fires and the development of areas of open water within a peatland environment. This profound change in hydrology and environment evidently biases biomarker temperature proxies, including the branched GDGT paleothermometer. This serves as a cautionary tale on the danger of attempting to interpret biomarker proxy records without a wider understanding of their environmental context.

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More information

Accepted/In Press date: 18 July 2019
e-pub ahead of print date: 21 July 2019
Published date: October 2019

Identifiers

Local EPrints ID: 437525
URI: http://eprints.soton.ac.uk/id/eprint/437525
DOI: doi:10.1016/j.gloplacha.2019.102991
ISSN: 0921-8181
PURE UUID: 8b756483-3edb-439c-b959-d3ef0cdfb4bb
ORCID for Gordon N. Inglis: ORCID iD orcid.org/0000-0002-0032-4668

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Date deposited: 04 Feb 2020 17:30
Last modified: 17 Mar 2024 04:00

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Author: Gordon N. Inglis ORCID iD
Author: Alexander Farnsworth
Author: Margaret E. Collinson
Author: Matthew J. Carmichael
Author: B. David A. Naafs
Author: Daniel J. Lunt
Author: Paul J. Valdes
Author: Richard D. Pancost

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