Persistent high latitude amplification of the Pacific Ocean over the past 10 million years
Persistent high latitude amplification of the Pacific Ocean over the past 10 million years
While high latitude amplification is seen in modern observations, paleoclimate records, and climate modeling, better constraints on the magnitude and pattern of amplification would provide insights into the mechanisms that drive it, which remain actively debated. Here we present multi-proxy multi-site paleotemperature records over the last 10 million years from the Western Pacific Warm Pool (WPWP) – the warmest endmember of the global ocean that is uniquely important in the global radiative feedback change. These sea surface temperature records, based on lipid biomarkers and seawater Mg/Ca-adjusted foraminiferal Mg/Ca, unequivocally show warmer WPWP in the past, and a secular cooling over the last 10 million years. Compiling these data with existing records reveals a persistent, nearly stationary, extratropical response pattern in the Pacific in which high latitude (~50°N) temperatures increase by ~2.4° for each degree of WPWP warming. This relative warming pattern is also evident in model outputs of millennium-long climate simulations with quadrupling atmospheric CO2, therefore providing a strong constraint on the future equilibrium response of the Earth System.
Liu, Xiaoqing
39f7a3a4-8d30-4b27-9350-277cd0946c05
Huber, Matthew
cac8c146-e2e3-4758-9fe9-46aa85e35ad2
Foster, Gavin L.
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Dessler, Andrew
ec80a6fd-4dbf-4ae4-bd68-77b9c44f01c3
Zhang, Yi Ge
57eb90b7-b182-4203-93a1-0a0be4227c34
Liu, Xiaoqing
39f7a3a4-8d30-4b27-9350-277cd0946c05
Huber, Matthew
cac8c146-e2e3-4758-9fe9-46aa85e35ad2
Foster, Gavin L.
fbaa7255-7267-4443-a55e-e2a791213022
Dessler, Andrew
ec80a6fd-4dbf-4ae4-bd68-77b9c44f01c3
Zhang, Yi Ge
57eb90b7-b182-4203-93a1-0a0be4227c34
Liu, Xiaoqing, Huber, Matthew, Foster, Gavin L., Dessler, Andrew and Zhang, Yi Ge
(2022)
Persistent high latitude amplification of the Pacific Ocean over the past 10 million years.
Nature Communications, 13 (1), [7310].
(doi:10.1038/s41467-022-35011-z).
Abstract
While high latitude amplification is seen in modern observations, paleoclimate records, and climate modeling, better constraints on the magnitude and pattern of amplification would provide insights into the mechanisms that drive it, which remain actively debated. Here we present multi-proxy multi-site paleotemperature records over the last 10 million years from the Western Pacific Warm Pool (WPWP) – the warmest endmember of the global ocean that is uniquely important in the global radiative feedback change. These sea surface temperature records, based on lipid biomarkers and seawater Mg/Ca-adjusted foraminiferal Mg/Ca, unequivocally show warmer WPWP in the past, and a secular cooling over the last 10 million years. Compiling these data with existing records reveals a persistent, nearly stationary, extratropical response pattern in the Pacific in which high latitude (~50°N) temperatures increase by ~2.4° for each degree of WPWP warming. This relative warming pattern is also evident in model outputs of millennium-long climate simulations with quadrupling atmospheric CO2, therefore providing a strong constraint on the future equilibrium response of the Earth System.
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s41467-022-35011-z
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Accepted/In Press date: 16 November 2022
e-pub ahead of print date: 27 November 2022
Identifiers
Local EPrints ID: 490647
URI: http://eprints.soton.ac.uk/id/eprint/490647
ISSN: 2041-1723
PURE UUID: 0274f86b-114d-4a80-a195-c3ac8f08162e
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Date deposited: 31 May 2024 16:56
Last modified: 06 Jun 2024 01:47
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Author:
Xiaoqing Liu
Author:
Matthew Huber
Author:
Andrew Dessler
Author:
Yi Ge Zhang
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