Persistent 400,000-year variability of antarctic ice volume and the carbon cycle is revealed throughout the plio-pleistocene

B. De Boer; Lucas J. Lourens; Roderik S.W. Van De Wal

doi:10.1038/ncomms3999

Persistent 400,000-year variability of antarctic ice volume and the carbon cycle is revealed throughout the plio-pleistocene

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Marine sediment records from the Oligocene and Miocene reveal clear 400,000-year climate cycles related to variations in orbital eccentricity. These cycles are also observed in the Plio-Pleistocene records of the global carbon cycle. However, they are absent from the Late Pleistocene ice-age record over the past 1.5 million years. Here we present a simulation of global ice volume over the past 5 million years with a coupled system of four three-dimensional ice-sheet models. Our simulation shows that the 400,000-year long eccentricity cycles of Antarctica vary coherently with δ 13 C data during the Pleistocene, suggesting that they drove the long-term carbon cycle changes throughout the past 35 million years. The 400,000-year response of Antarctica was eventually suppressed by the dominant 100,000-year glacial cycles of the large ice sheets in the Northern Hemisphere.© 2014 Macmillan Publishers Limited.

Original language	English
Article number	2999
Journal	Nature Communications [E]
Volume	5
DOIs	https://doi.org/10.1038/ncomms3999
Publication status	Published - 2 Jan 2014

Keywords

ice
Antarctica
article
carbon cycle
climate change
controlled study
geographic and geological parameters
ice age
ice sheet
ice volume
Miocene
Oligocene
periodicity
Pleistocene
sea
Upper Pleistocene
water temperature

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/ncomms3999

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Cite this

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title = "Persistent 400,000-year variability of antarctic ice volume and the carbon cycle is revealed throughout the plio-pleistocene",

abstract = "Marine sediment records from the Oligocene and Miocene reveal clear 400,000-year climate cycles related to variations in orbital eccentricity. These cycles are also observed in the Plio-Pleistocene records of the global carbon cycle. However, they are absent from the Late Pleistocene ice-age record over the past 1.5 million years. Here we present a simulation of global ice volume over the past 5 million years with a coupled system of four three-dimensional ice-sheet models. Our simulation shows that the 400,000-year long eccentricity cycles of Antarctica vary coherently with δ 13 C data during the Pleistocene, suggesting that they drove the long-term carbon cycle changes throughout the past 35 million years. The 400,000-year response of Antarctica was eventually suppressed by the dominant 100,000-year glacial cycles of the large ice sheets in the Northern Hemisphere.{\textcopyright} 2014 Macmillan Publishers Limited.",

keywords = "ice, Antarctica, article, carbon cycle, climate change, controlled study, geographic and geological parameters, ice age, ice sheet, ice volume, Miocene, Oligocene, periodicity, Pleistocene, sea, Upper Pleistocene, water temperature",

author = "\{De Boer\}, B. and Lourens, \{Lucas J.\} and \{Van De Wal\}, \{Roderik S.W.\}",

year = "2014",

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day = "2",

doi = "10.1038/ncomms3999",

language = "English",

volume = "5",

journal = "Nature Communications [E]",

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TY - JOUR

T1 - Persistent 400,000-year variability of antarctic ice volume and the carbon cycle is revealed throughout the plio-pleistocene

AU - De Boer, B.

AU - Lourens, Lucas J.

AU - Van De Wal, Roderik S.W.

PY - 2014/1/2

Y1 - 2014/1/2

N2 - Marine sediment records from the Oligocene and Miocene reveal clear 400,000-year climate cycles related to variations in orbital eccentricity. These cycles are also observed in the Plio-Pleistocene records of the global carbon cycle. However, they are absent from the Late Pleistocene ice-age record over the past 1.5 million years. Here we present a simulation of global ice volume over the past 5 million years with a coupled system of four three-dimensional ice-sheet models. Our simulation shows that the 400,000-year long eccentricity cycles of Antarctica vary coherently with δ 13 C data during the Pleistocene, suggesting that they drove the long-term carbon cycle changes throughout the past 35 million years. The 400,000-year response of Antarctica was eventually suppressed by the dominant 100,000-year glacial cycles of the large ice sheets in the Northern Hemisphere.© 2014 Macmillan Publishers Limited.

AB - Marine sediment records from the Oligocene and Miocene reveal clear 400,000-year climate cycles related to variations in orbital eccentricity. These cycles are also observed in the Plio-Pleistocene records of the global carbon cycle. However, they are absent from the Late Pleistocene ice-age record over the past 1.5 million years. Here we present a simulation of global ice volume over the past 5 million years with a coupled system of four three-dimensional ice-sheet models. Our simulation shows that the 400,000-year long eccentricity cycles of Antarctica vary coherently with δ 13 C data during the Pleistocene, suggesting that they drove the long-term carbon cycle changes throughout the past 35 million years. The 400,000-year response of Antarctica was eventually suppressed by the dominant 100,000-year glacial cycles of the large ice sheets in the Northern Hemisphere.© 2014 Macmillan Publishers Limited.

KW - ice

KW - Antarctica

KW - article

KW - carbon cycle

KW - climate change

KW - controlled study

KW - geographic and geological parameters

KW - ice age

KW - ice sheet

KW - ice volume

KW - Miocene

KW - Oligocene

KW - periodicity

KW - Pleistocene

KW - sea

KW - Upper Pleistocene

KW - water temperature

U2 - 10.1038/ncomms3999

DO - 10.1038/ncomms3999

M3 - Article

SN - 2041-1723

VL - 5

JO - Nature Communications [E]

JF - Nature Communications [E]

M1 - 2999

ER -

Persistent 400,000-year variability of antarctic ice volume and the carbon cycle is revealed throughout the plio-pleistocene

Abstract

Keywords

UN SDGs

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