Impacts of Atlantic multidecadal variability on the tropical Pacific: a multi-model study

Yohan Ruprich-Robert; Eduardo Moreno-Chamarro; Xavier Levine; Alessio Bellucci; Christophe Cassou; Frederic Castruccio; Paolo Davini; Rosie Eade; Guillaume Gastineau; Leon Hermanson; Dan Hodson; Katja Lohmann; Jorge Lopez-Parages; Paul Arthur Monerie; Dario Nicolì; Said Qasmi; Christopher D. Roberts; Emilia Sanchez-Gomez; Gokhan Danabasoglu; Nick Dunstone; Marta Martin-Rey; Rym Msadek; Jon Robson; Doug Smith; Etienne Tourigny

doi:10.1038/s41612-021-00188-5

Impacts of Atlantic multidecadal variability on the tropical Pacific: a multi-model study

Yohan Ruprich-Robert
, Eduardo Moreno-Chamarro
, Xavier Levine
, Alessio Bellucci
, Christophe Cassou
, Frederic Castruccio
, Paolo Davini
, Rosie Eade
, Guillaume Gastineau
, Leon Hermanson
, Dan Hodson
, Katja Lohmann
, Jorge Lopez-Parages
, Paul Arthur Monerie
, Dario Nicolì
, Said Qasmi
, Christopher D. Roberts
, Emilia Sanchez-Gomez
, Gokhan Danabasoglu
, Nick Dunstone

Marta Martin-Rey, Rym Msadek, Jon Robson, Doug Smith, Etienne Tourigny

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

Abstract

Atlantic multidecadal variability (AMV) has been linked to the observed slowdown of global warming over 1998–2012 through its impact on the tropical Pacific. Given the global importance of tropical Pacific variability, better understanding this Atlantic–Pacific teleconnection is key for improving climate predictions, but the robustness and strength of this link are uncertain. Analyzing a multi-model set of sensitivity experiments, we find that models differ by a factor of 10 in simulating the amplitude of the Equatorial Pacific cooling response to observed AMV warming. The inter-model spread is mainly driven by different amounts of moist static energy injection from the tropical Atlantic surface into the upper troposphere. We reduce this inter-model uncertainty by analytically correcting models for their mean precipitation biases and we quantify that, following an observed 0.26 °C AMV warming, the equatorial Pacific cools by 0.11 °C with an inter-model standard deviation of 0.03 °C.

Original language	English
Article number	33
Journal	npj Climate and Atmospheric Science
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s41612-021-00188-5
Publication status	Published - 1 Dec 2021
Externally published	Yes

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

SDG 13 Climate Action

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10.1038/s41612-021-00188-5

Cite this

Ruprich-Robert, Y., Moreno-Chamarro, E., Levine, X., Bellucci, A., Cassou, C., Castruccio, F., Davini, P., Eade, R., Gastineau, G., Hermanson, L., Hodson, D., Lohmann, K., Lopez-Parages, J., Monerie, P. A., Nicolì, D., Qasmi, S., Roberts, C. D., Sanchez-Gomez, E., Danabasoglu, G., ... Tourigny, E. (2021). Impacts of Atlantic multidecadal variability on the tropical Pacific: a multi-model study. npj Climate and Atmospheric Science, 4(1), Article 33. https://doi.org/10.1038/s41612-021-00188-5

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title = "Impacts of Atlantic multidecadal variability on the tropical Pacific: a multi-model study",

abstract = "Atlantic multidecadal variability (AMV) has been linked to the observed slowdown of global warming over 1998–2012 through its impact on the tropical Pacific. Given the global importance of tropical Pacific variability, better understanding this Atlantic–Pacific teleconnection is key for improving climate predictions, but the robustness and strength of this link are uncertain. Analyzing a multi-model set of sensitivity experiments, we find that models differ by a factor of 10 in simulating the amplitude of the Equatorial Pacific cooling response to observed AMV warming. The inter-model spread is mainly driven by different amounts of moist static energy injection from the tropical Atlantic surface into the upper troposphere. We reduce this inter-model uncertainty by analytically correcting models for their mean precipitation biases and we quantify that, following an observed 0.26 °C AMV warming, the equatorial Pacific cools by 0.11 °C with an inter-model standard deviation of 0.03 °C.",

author = "Yohan Ruprich-Robert and Eduardo Moreno-Chamarro and Xavier Levine and Alessio Bellucci and Christophe Cassou and Frederic Castruccio and Paolo Davini and Rosie Eade and Guillaume Gastineau and Leon Hermanson and Dan Hodson and Katja Lohmann and Jorge Lopez-Parages and Monerie, \{Paul Arthur\} and Dario Nicol{\`i} and Said Qasmi and Roberts, \{Christopher D.\} and Emilia Sanchez-Gomez and Gokhan Danabasoglu and Nick Dunstone and Marta Martin-Rey and Rym Msadek and Jon Robson and Doug Smith and Etienne Tourigny",

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doi = "10.1038/s41612-021-00188-5",

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Ruprich-Robert, Y, Moreno-Chamarro, E, Levine, X, Bellucci, A, Cassou, C, Castruccio, F, Davini, P, Eade, R, Gastineau, G, Hermanson, L, Hodson, D, Lohmann, K, Lopez-Parages, J, Monerie, PA, Nicolì, D, Qasmi, S, Roberts, CD, Sanchez-Gomez, E, Danabasoglu, G, Dunstone, N, Martin-Rey, M, Msadek, R, Robson, J, Smith, D & Tourigny, E 2021, 'Impacts of Atlantic multidecadal variability on the tropical Pacific: a multi-model study', npj Climate and Atmospheric Science, vol. 4, no. 1, 33. https://doi.org/10.1038/s41612-021-00188-5

TY - JOUR

T1 - Impacts of Atlantic multidecadal variability on the tropical Pacific

T2 - a multi-model study

AU - Ruprich-Robert, Yohan

AU - Moreno-Chamarro, Eduardo

AU - Levine, Xavier

AU - Bellucci, Alessio

AU - Cassou, Christophe

AU - Castruccio, Frederic

AU - Davini, Paolo

AU - Eade, Rosie

AU - Gastineau, Guillaume

AU - Hermanson, Leon

AU - Hodson, Dan

AU - Lohmann, Katja

AU - Lopez-Parages, Jorge

AU - Monerie, Paul Arthur

AU - Nicolì, Dario

AU - Qasmi, Said

AU - Roberts, Christopher D.

AU - Sanchez-Gomez, Emilia

AU - Danabasoglu, Gokhan

AU - Dunstone, Nick

AU - Martin-Rey, Marta

AU - Msadek, Rym

AU - Robson, Jon

AU - Smith, Doug

AU - Tourigny, Etienne

PY - 2021/12/1

Y1 - 2021/12/1

N2 - Atlantic multidecadal variability (AMV) has been linked to the observed slowdown of global warming over 1998–2012 through its impact on the tropical Pacific. Given the global importance of tropical Pacific variability, better understanding this Atlantic–Pacific teleconnection is key for improving climate predictions, but the robustness and strength of this link are uncertain. Analyzing a multi-model set of sensitivity experiments, we find that models differ by a factor of 10 in simulating the amplitude of the Equatorial Pacific cooling response to observed AMV warming. The inter-model spread is mainly driven by different amounts of moist static energy injection from the tropical Atlantic surface into the upper troposphere. We reduce this inter-model uncertainty by analytically correcting models for their mean precipitation biases and we quantify that, following an observed 0.26 °C AMV warming, the equatorial Pacific cools by 0.11 °C with an inter-model standard deviation of 0.03 °C.

AB - Atlantic multidecadal variability (AMV) has been linked to the observed slowdown of global warming over 1998–2012 through its impact on the tropical Pacific. Given the global importance of tropical Pacific variability, better understanding this Atlantic–Pacific teleconnection is key for improving climate predictions, but the robustness and strength of this link are uncertain. Analyzing a multi-model set of sensitivity experiments, we find that models differ by a factor of 10 in simulating the amplitude of the Equatorial Pacific cooling response to observed AMV warming. The inter-model spread is mainly driven by different amounts of moist static energy injection from the tropical Atlantic surface into the upper troposphere. We reduce this inter-model uncertainty by analytically correcting models for their mean precipitation biases and we quantify that, following an observed 0.26 °C AMV warming, the equatorial Pacific cools by 0.11 °C with an inter-model standard deviation of 0.03 °C.

UR - https://www.scopus.com/pages/publications/85107412443

U2 - 10.1038/s41612-021-00188-5

DO - 10.1038/s41612-021-00188-5

M3 - Article

AN - SCOPUS:85107412443

SN - 2397-3722

VL - 4

JO - npj Climate and Atmospheric Science

JF - npj Climate and Atmospheric Science

IS - 1

M1 - 33

ER -

Impacts of Atlantic multidecadal variability on the tropical Pacific: a multi-model study

Abstract

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