Nonlinear climatic sensitivity to greenhouse gases over past 4 glacial/interglacial cycles

Li Lo; Sheng Pu Chang; Kuo Yen Wei; Shih Yu Lee; Tsong Hua Ou; Yi Chi Chen; Chih Kai Chuang; Horng Sheng Mii; George S. Burr; Min Te Chen; Ying Hung Tung; Meng Chieh Tsai; David A. Hodell; Chuan Chou Shen

doi:10.1038/s41598-017-04031-x

Nonlinear climatic sensitivity to greenhouse gases over past 4 glacial/interglacial cycles

Li Lo^*, Sheng Pu Chang, Kuo Yen Wei, Shih Yu Lee, Tsong Hua Ou, Yi Chi Chen, Chih Kai Chuang, Horng Sheng Mii, George S. Burr, Min Te Chen, Ying Hung Tung, Meng Chieh Tsai, David A. Hodell, Chuan Chou Shen

^*此作品的通信作者

地球科學系(含海洋環境研究所)

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

18 引文斯高帕斯（Scopus）

摘要

The paleoclimatic sensitivity to atmospheric greenhouse gases (GHGs) has recently been suggested to be nonlinear, however a GHG threshold value associated with deglaciation remains uncertain. Here, we combine a new sea surface temperature record spanning the last 360,000 years from the southern Western Pacific Warm Pool with records from five previous studies in the equatorial Pacific to document the nonlinear relationship between climatic sensitivity and GHG levels over the past four glacial/interglacial cycles. The sensitivity of the responses to GHG concentrations rises dramatically by a factor of 2-4 at atmospheric CO₂ levels of >220 ppm. Our results suggest that the equatorial Pacific acts as a nonlinear amplifier that allows global climate to transition from deglacial to full interglacial conditions once atmospheric CO₂ levels reach threshold levels.

原文	英語
文章編號	4626
期刊	Scientific reports
卷	7
發行號	1
DOIs	https://doi.org/10.1038/s41598-017-04031-x
出版狀態	已發佈 - 2017 12月 1

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title = "Nonlinear climatic sensitivity to greenhouse gases over past 4 glacial/interglacial cycles",

abstract = "The paleoclimatic sensitivity to atmospheric greenhouse gases (GHGs) has recently been suggested to be nonlinear, however a GHG threshold value associated with deglaciation remains uncertain. Here, we combine a new sea surface temperature record spanning the last 360,000 years from the southern Western Pacific Warm Pool with records from five previous studies in the equatorial Pacific to document the nonlinear relationship between climatic sensitivity and GHG levels over the past four glacial/interglacial cycles. The sensitivity of the responses to GHG concentrations rises dramatically by a factor of 2-4 at atmospheric CO2 levels of >220 ppm. Our results suggest that the equatorial Pacific acts as a nonlinear amplifier that allows global climate to transition from deglacial to full interglacial conditions once atmospheric CO2 levels reach threshold levels.",

author = "Li Lo and Chang, {Sheng Pu} and Wei, {Kuo Yen} and Lee, {Shih Yu} and Ou, {Tsong Hua} and Chen, {Yi Chi} and Chuang, {Chih Kai} and Mii, {Horng Sheng} and Burr, {George S.} and Chen, {Min Te} and Tung, {Ying Hung} and Tsai, {Meng Chieh} and Hodell, {David A.} and Shen, {Chuan Chou}",

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AU - Lo, Li

AU - Chang, Sheng Pu

AU - Wei, Kuo Yen

AU - Lee, Shih Yu

AU - Ou, Tsong Hua

AU - Chen, Yi Chi

AU - Chuang, Chih Kai

AU - Mii, Horng Sheng

AU - Burr, George S.

AU - Chen, Min Te

AU - Tung, Ying Hung

AU - Tsai, Meng Chieh

AU - Hodell, David A.

AU - Shen, Chuan Chou

PY - 2017/12/1

Y1 - 2017/12/1

N2 - The paleoclimatic sensitivity to atmospheric greenhouse gases (GHGs) has recently been suggested to be nonlinear, however a GHG threshold value associated with deglaciation remains uncertain. Here, we combine a new sea surface temperature record spanning the last 360,000 years from the southern Western Pacific Warm Pool with records from five previous studies in the equatorial Pacific to document the nonlinear relationship between climatic sensitivity and GHG levels over the past four glacial/interglacial cycles. The sensitivity of the responses to GHG concentrations rises dramatically by a factor of 2-4 at atmospheric CO2 levels of >220 ppm. Our results suggest that the equatorial Pacific acts as a nonlinear amplifier that allows global climate to transition from deglacial to full interglacial conditions once atmospheric CO2 levels reach threshold levels.

AB - The paleoclimatic sensitivity to atmospheric greenhouse gases (GHGs) has recently been suggested to be nonlinear, however a GHG threshold value associated with deglaciation remains uncertain. Here, we combine a new sea surface temperature record spanning the last 360,000 years from the southern Western Pacific Warm Pool with records from five previous studies in the equatorial Pacific to document the nonlinear relationship between climatic sensitivity and GHG levels over the past four glacial/interglacial cycles. The sensitivity of the responses to GHG concentrations rises dramatically by a factor of 2-4 at atmospheric CO2 levels of >220 ppm. Our results suggest that the equatorial Pacific acts as a nonlinear amplifier that allows global climate to transition from deglacial to full interglacial conditions once atmospheric CO2 levels reach threshold levels.

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Nonlinear climatic sensitivity to greenhouse gases over past 4 glacial/interglacial cycles

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UN SDG

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