More efficient North Atlantic carbon pump during the Last Glacial Maximum

J. Yu; L. Menviel; Z. D. Jin; D. J.R. Thornalley; G. L. Foster; E. J. Rohling; I. N. McCave; J. F. McManus; Y. Dai; H. Ren; F. He; F. Zhang; P. J. Chen; A. P. Roberts

doi:10.1038/s41467-019-10028-z

More efficient North Atlantic carbon pump during the Last Glacial Maximum

J. Yu
, L. Menviel
, Z. D. Jin
, D. J.R. Thornalley
, G. L. Foster
, E. J. Rohling
, I. N. McCave
, J. F. McManus
, Y. Dai
, H. Ren
, F. He
, F. Zhang
, P. J. Chen
, A. P. Roberts

Australian National University
CAS - Institute of Earth Environment
University of New South Wales
Pilot National Laboratory for Marine Science and Technology
University College London
University of Southampton
University of Cambridge
Columbia University
National Taiwan University
University of Wisconsin-Madison
Oregon State University
Chinese Academy of Sciences
Tongji University

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35 引用（Scopus）

摘要

During the Last Glacial Maximum (LGM; ~20,000 years ago), the global ocean sequestered a large amount of carbon lost from the atmosphere and terrestrial biosphere. Suppressed CO₂ outgassing from the Southern Ocean is the prevailing explanation for this carbon sequestration. By contrast, the North Atlantic Ocean—a major conduit for atmospheric CO₂ transport to the ocean interior via the overturning circulation—has received much less attention. Here we demonstrate that North Atlantic carbon pump efficiency during the LGM was almost doubled relative to the Holocene. This is based on a novel proxy approach to estimate air–sea CO₂ exchange signals using combined carbonate ion and nutrient reconstructions for multiple sediment cores from the North Atlantic. Our data indicate that in tandem with Southern Ocean processes, enhanced North Atlantic CO₂ absorption contributed to lowering ice-age atmospheric CO₂.

源语言	英语
文章编号	2170
期刊	Nature Communications
卷	10
期	1
DOI	https://doi.org/10.1038/s41467-019-10028-z
出版状态	已出版 - 1 12月 2019
已对外发布	是

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title = "More efficient North Atlantic carbon pump during the Last Glacial Maximum",

abstract = "During the Last Glacial Maximum (LGM; \textasciitilde{}20,000 years ago), the global ocean sequestered a large amount of carbon lost from the atmosphere and terrestrial biosphere. Suppressed CO2 outgassing from the Southern Ocean is the prevailing explanation for this carbon sequestration. By contrast, the North Atlantic Ocean—a major conduit for atmospheric CO2 transport to the ocean interior via the overturning circulation—has received much less attention. Here we demonstrate that North Atlantic carbon pump efficiency during the LGM was almost doubled relative to the Holocene. This is based on a novel proxy approach to estimate air–sea CO2 exchange signals using combined carbonate ion and nutrient reconstructions for multiple sediment cores from the North Atlantic. Our data indicate that in tandem with Southern Ocean processes, enhanced North Atlantic CO2 absorption contributed to lowering ice-age atmospheric CO2.",

author = "J. Yu and L. Menviel and Jin, \{Z. D.\} and Thornalley, \{D. J.R.\} and Foster, \{G. L.\} and Rohling, \{E. J.\} and McCave, \{I. N.\} and McManus, \{J. F.\} and Y. Dai and H. Ren and F. He and F. Zhang and Chen, \{P. J.\} and Roberts, \{A. P.\}",

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doi = "10.1038/s41467-019-10028-z",

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AU - Yu, J.

AU - Menviel, L.

AU - Jin, Z. D.

AU - Thornalley, D. J.R.

AU - Foster, G. L.

AU - Rohling, E. J.

AU - McCave, I. N.

AU - McManus, J. F.

AU - Dai, Y.

AU - Ren, H.

AU - He, F.

AU - Zhang, F.

AU - Chen, P. J.

AU - Roberts, A. P.

PY - 2019/12/1

Y1 - 2019/12/1

N2 - During the Last Glacial Maximum (LGM; ~20,000 years ago), the global ocean sequestered a large amount of carbon lost from the atmosphere and terrestrial biosphere. Suppressed CO2 outgassing from the Southern Ocean is the prevailing explanation for this carbon sequestration. By contrast, the North Atlantic Ocean—a major conduit for atmospheric CO2 transport to the ocean interior via the overturning circulation—has received much less attention. Here we demonstrate that North Atlantic carbon pump efficiency during the LGM was almost doubled relative to the Holocene. This is based on a novel proxy approach to estimate air–sea CO2 exchange signals using combined carbonate ion and nutrient reconstructions for multiple sediment cores from the North Atlantic. Our data indicate that in tandem with Southern Ocean processes, enhanced North Atlantic CO2 absorption contributed to lowering ice-age atmospheric CO2.

AB - During the Last Glacial Maximum (LGM; ~20,000 years ago), the global ocean sequestered a large amount of carbon lost from the atmosphere and terrestrial biosphere. Suppressed CO2 outgassing from the Southern Ocean is the prevailing explanation for this carbon sequestration. By contrast, the North Atlantic Ocean—a major conduit for atmospheric CO2 transport to the ocean interior via the overturning circulation—has received much less attention. Here we demonstrate that North Atlantic carbon pump efficiency during the LGM was almost doubled relative to the Holocene. This is based on a novel proxy approach to estimate air–sea CO2 exchange signals using combined carbonate ion and nutrient reconstructions for multiple sediment cores from the North Atlantic. Our data indicate that in tandem with Southern Ocean processes, enhanced North Atlantic CO2 absorption contributed to lowering ice-age atmospheric CO2.

UR - https://www.scopus.com/pages/publications/85065790639

U2 - 10.1038/s41467-019-10028-z

DO - 10.1038/s41467-019-10028-z

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AN - SCOPUS:85065790639

SN - 2041-1723

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JO - Nature Communications

JF - Nature Communications

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ER -

More efficient North Atlantic carbon pump during the Last Glacial Maximum

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