Enhanced terrestrial carbon export from East Antarctica during the early Eocene
Enhanced terrestrial carbon export from East Antarctica during the early Eocene
Terrestrial organic carbon (TerrOC) acts as an important CO2 sink when transported via rivers to the ocean and sequestered in coastal marine sediments. This mechanism might help to modulate atmospheric CO2 levels over short- and long timescales (103 to 106 years), but its importance during past warm climates remains unknown. Here we use terrestrial biomarkers preserved in coastal marine sediment samples from Wilkes Land, East Antarctica (~67°S) to quantify TerrOC burial during the early Eocene (~54.4 to 51.5 Ma). Terrestrial biomarker distributions indicate the delivery of plant-, soil- and peat-derived organic carbon (OC) into the marine realm. Mass accumulation rates of plant- (long-chain n-alkane) and soil-derived (hopane) biomarkers dramatically increase between the earliest Eocene (~54 Ma) and the early Eocene Climatic Optimum (EECO; ~53 Ma). This coincides with increased OC mass accumulation rates and indicates enhanced TerrOC burial during the EECO. Leaf wax δ 2H values indicate that the EECO was characterised by wetter conditions relative to the earliest Eocene, suggesting that hydroclimate exerts a first-order control on TerrOC export. Our results indicate that TerrOC burial in coastal marine sediments UOB Open could have acted as an important negative feedback mechanism during the early Eocene, but also during other warm climate intervals.
Inglis, Gordon
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Toney, Jaime
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Zhu, Jiang
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Poulsen, Christopher J.
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Röhl, Ulla
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Jamieson, Stewart S.R.
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Pross, Jörg
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Cramwinckel, Margot J
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Krishnan, Srinath
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Pagani, Mark
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Bijl, P.K.
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Bendle, James
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Inglis, Gordon
1651196d-916c-43cb-b5a0-9b3ecaf5d664
Toney, Jaime
7ccc3140-afbe-4a58-9ab0-3c5a152bb3e9
Zhu, Jiang
ac20c27b-89fb-4ede-8cf8-c6f55270eacd
Poulsen, Christopher J.
ded76898-ecb2-415a-9bf1-13b443d3b3e9
Röhl, Ulla
e3029111-f8cc-4bf9-9433-829590c8645d
Jamieson, Stewart S.R.
b3cb84f8-64bd-4796-bed6-1d59aa127201
Pross, Jörg
7c848424-852f-467b-90f0-19d4f8d4ae01
Cramwinckel, Margot J
e467976c-be0c-47a5-a7eb-ecfe93048373
Krishnan, Srinath
6c0f4dbf-e784-4d6f-8077-a224f797a6ce
Pagani, Mark
fea192f2-422c-4380-a5be-f6e2e75398e6
Bijl, P.K.
121c4b68-94b0-4186-a0bb-730167bd26d6
Bendle, James
aff958d6-7666-4fc9-b59c-d48d8715c20d
Inglis, Gordon, Toney, Jaime, Zhu, Jiang, Poulsen, Christopher J., Röhl, Ulla, Jamieson, Stewart S.R., Pross, Jörg, Cramwinckel, Margot J, Krishnan, Srinath, Pagani, Mark, Bijl, P.K. and Bendle, James
(2021)
Enhanced terrestrial carbon export from East Antarctica during the early Eocene.
Paleoceanography and Paleoclimatology.
(In Press)
Abstract
Terrestrial organic carbon (TerrOC) acts as an important CO2 sink when transported via rivers to the ocean and sequestered in coastal marine sediments. This mechanism might help to modulate atmospheric CO2 levels over short- and long timescales (103 to 106 years), but its importance during past warm climates remains unknown. Here we use terrestrial biomarkers preserved in coastal marine sediment samples from Wilkes Land, East Antarctica (~67°S) to quantify TerrOC burial during the early Eocene (~54.4 to 51.5 Ma). Terrestrial biomarker distributions indicate the delivery of plant-, soil- and peat-derived organic carbon (OC) into the marine realm. Mass accumulation rates of plant- (long-chain n-alkane) and soil-derived (hopane) biomarkers dramatically increase between the earliest Eocene (~54 Ma) and the early Eocene Climatic Optimum (EECO; ~53 Ma). This coincides with increased OC mass accumulation rates and indicates enhanced TerrOC burial during the EECO. Leaf wax δ 2H values indicate that the EECO was characterised by wetter conditions relative to the earliest Eocene, suggesting that hydroclimate exerts a first-order control on TerrOC export. Our results indicate that TerrOC burial in coastal marine sediments UOB Open could have acted as an important negative feedback mechanism during the early Eocene, but also during other warm climate intervals.
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Accepted/In Press date: 8 December 2021
Identifiers
Local EPrints ID: 453192
URI: http://eprints.soton.ac.uk/id/eprint/453192
ISSN: 2572-4525
PURE UUID: f1c61b03-60c2-4fe8-8a07-0b057d5cf9c8
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Date deposited: 10 Jan 2022 18:03
Last modified: 16 Apr 2024 01:58
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Contributors
Author:
Jaime Toney
Author:
Jiang Zhu
Author:
Christopher J. Poulsen
Author:
Ulla Röhl
Author:
Stewart S.R. Jamieson
Author:
Jörg Pross
Author:
Margot J Cramwinckel
Author:
Srinath Krishnan
Author:
Mark Pagani
Author:
P.K. Bijl
Author:
James Bendle
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