Pacific Oligocene reference curve (invited talk)
Pacific Oligocene reference curve (invited talk)
We present an uninterrupted chronology of climate and ocean carbon chemistry from ODP Site 1218 recovered in the equatorial Pacific, from the Eocene/Oligocene to the Oligocene/Miocene boundary, ~34 to 23 Ma. Using astronomically age calibrated data we find a strong imprint of the 405, 127 and 96-thousand-year (kyr) Earth's eccentricity as well as a dominant influence of the 1.2 million year (Myr) obliquity amplitude modulation cycles on periodically re-occurring Oligocene glacial and carbon cycle events. In combination, these astronomical modulations act as the "heartbeat" of the Oligocene climate system. The response of the climate system to intricate orbital variations is striking and suggests a fundamental role of the carbon cycle in the interaction between solar forcing and climate. Our record provides a new high-resolution view of the Oligocene climate system, prompts a re-evaluation of the previously hypothesised late Oligocene deglaciation, and sheds new light on Oligocene inter-ocean basin gradients between the Atlantic, Southern Ocean, and Pacific. Salient observations include foraminiferal benthic stable oxygen and carbon isotopes that co-vary, a phase lag of d13C w.r.t. d18O for the 405 kyr cycle, preferential filtering of longer orbital periods in d13C, presumably due to TCO2 reservoir buffering. We then use simple orbitally forced carbon cycle box models and manage to re-create the patterns observed in our data, including the overall strong amplitude of 405 kyr cycles in d13C. These models show a strong amplification of the lower astronomical frequencies, as observed in our data.
Pälike, H.
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Norris, R.D.
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Herrle, J.O.
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Wilson, P.A.
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Coxall, H.K.
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Lear, C.H.
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Shackleton, N.J.
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Tripati, A.K.
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Wade, B.S.
4caf9386-0e3f-479b-a491-6c8dff99dad1
2006
Pälike, H.
b9bf7798-ad8c-479b-8487-dd9a30a61fa5
Norris, R.D.
81ac4a17-2a84-4c7c-9c02-c9f14bb2695e
Herrle, J.O.
666d87e9-0e21-4d4f-bb8e-51f7b0a15a87
Wilson, P.A.
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
Coxall, H.K.
5de02922-b619-4e86-b7ba-373b8569716a
Lear, C.H.
112c634b-d610-4413-ad3d-5991b454593e
Shackleton, N.J.
754bf946-be73-466b-9cde-558894553058
Tripati, A.K.
39b60a55-55e5-41fd-8c4d-d235ff4a0087
Wade, B.S.
4caf9386-0e3f-479b-a491-6c8dff99dad1
Pälike, H., Norris, R.D., Herrle, J.O., Wilson, P.A., Coxall, H.K., Lear, C.H., Shackleton, N.J., Tripati, A.K. and Wade, B.S.
(2006)
Pacific Oligocene reference curve (invited talk).
In International Association for Mathematical Geology XIth Congress Abstract Volume.
IAMG..
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Conference or Workshop Item
(Paper)
Abstract
We present an uninterrupted chronology of climate and ocean carbon chemistry from ODP Site 1218 recovered in the equatorial Pacific, from the Eocene/Oligocene to the Oligocene/Miocene boundary, ~34 to 23 Ma. Using astronomically age calibrated data we find a strong imprint of the 405, 127 and 96-thousand-year (kyr) Earth's eccentricity as well as a dominant influence of the 1.2 million year (Myr) obliquity amplitude modulation cycles on periodically re-occurring Oligocene glacial and carbon cycle events. In combination, these astronomical modulations act as the "heartbeat" of the Oligocene climate system. The response of the climate system to intricate orbital variations is striking and suggests a fundamental role of the carbon cycle in the interaction between solar forcing and climate. Our record provides a new high-resolution view of the Oligocene climate system, prompts a re-evaluation of the previously hypothesised late Oligocene deglaciation, and sheds new light on Oligocene inter-ocean basin gradients between the Atlantic, Southern Ocean, and Pacific. Salient observations include foraminiferal benthic stable oxygen and carbon isotopes that co-vary, a phase lag of d13C w.r.t. d18O for the 405 kyr cycle, preferential filtering of longer orbital periods in d13C, presumably due to TCO2 reservoir buffering. We then use simple orbitally forced carbon cycle box models and manage to re-create the patterns observed in our data, including the overall strong amplitude of 405 kyr cycles in d13C. These models show a strong amplification of the lower astronomical frequencies, as observed in our data.
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Published date: 2006
Venue - Dates:
XIth International Congress for Mathematical Geology, Liège, Belgium, 2006-09-03 - 2006-09-08
Identifiers
Local EPrints ID: 41922
URI: http://eprints.soton.ac.uk/id/eprint/41922
PURE UUID: 9ef9feea-26bd-4542-9fce-8b5bf2194279
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Date deposited: 18 Oct 2006
Last modified: 23 Jan 2024 02:37
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Contributors
Author:
H. Pälike
Author:
R.D. Norris
Author:
J.O. Herrle
Author:
H.K. Coxall
Author:
C.H. Lear
Author:
N.J. Shackleton
Author:
A.K. Tripati
Author:
B.S. Wade
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