Reduced El Niño variability in the mid-Pliocene according to the PlioMIP2 ensemble

Arthur M. Oldeman; Michiel L.J. Baatsen; Anna S. Von Der Heydt; Henk A. Dijkstra; Julia C. Tindall; Ayako Abe-Ouchi; Alice R. Booth; Esther C. Brady; Wing Le Chan; Deepak Chandan; Mark A. Chandler; Camille Contoux; Ran Feng; Chuncheng Guo; Alan M. Haywood; Stephen J. Hunter; Youichi Kamae; Qiang Li; Xiangyu Li; Gerrit Lohmann; Daniel J. Lunt; Kerim H. Nisancioglu; Bette L. Otto-Bliesner; W. Richard Peltier; Gabriel M. Pontes; Gilles Ramstein; Linda E. Sohl; Christian Stepanek; Ning Tan; Qiong Zhang; Zhongshi Zhang; Ilana Wainer; Charles J.R. Williams

doi:10.5194/cp-17-2427-2021

Reduced El Niño variability in the mid-Pliocene according to the PlioMIP2 ensemble

Arthur M. Oldeman, Michiel L.J. Baatsen, Anna S. Von Der Heydt, Henk A. Dijkstra, Julia C. Tindall, Ayako Abe-Ouchi, Alice R. Booth, Esther C. Brady, Wing Le Chan, Deepak Chandan, Mark A. Chandler, Camille Contoux, Ran Feng, Chuncheng Guo, Alan M. Haywood, Stephen J. Hunter, Youichi Kamae, Qiang Li, Xiangyu Li, Gerrit LohmannDaniel J. Lunt, Kerim H. Nisancioglu, Bette L. Otto-Bliesner, W. Richard Peltier, Gabriel M. Pontes, Gilles Ramstein, Linda E. Sohl, Christian Stepanek, Ning Tan, Qiong Zhang, Zhongshi Zhang, Ilana Wainer, Charles J.R. Williams

Paleo and Polar Climate

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Abstract

The mid-Pliocene warm period (3.264-3.025Ma) is the most recent geological period during which atmospheric CO2 levels were similar to recent historical values (1/4400ppm). Several proxy reconstructions for the mid-Pliocene show highly reduced zonal sea surface temperature (SST) gradients in the tropical Pacific Ocean, indicating an El Nino-like mean state. However, past modelling studies do not show these highly reduced gradients. Efforts to understand mid-Pliocene climate dynamics have led to the Pliocene Model Intercomparison Project (PlioMIP). Results from the first phase (PlioMIP1) showed clear El Nino variability (albeit significantly reduced) and did not show the greatly reduced time-mean zonal SST gradient suggested by some of the proxies. In this work, we study El Nino-Southern Oscillation (ENSO) variability in the PlioMIP2 ensemble, which consists of additional global coupled climate models and updated boundary conditions compared to PlioMIP1. We quantify ENSO amplitude, period, spatial structure and "flavour", as well as the tropical Pacific annual mean state in mid-Pliocene and pre-industrial simulations. Results show a reduced ENSO amplitude in the model-ensemble mean (-24%) with respect to the pre-industrial, with 15 out of 17 individual models showing such a reduction. Furthermore, the spectral power of this variability considerably decreases in the 3-4-year band. The spatial structure of the dominant empirical orthogonal function shows no particular change in the patterns of tropical Pacific variability in the model-ensemble mean, compared to the pre-industrial. Although the time-mean zonal SST gradient in the equatorial Pacific decreases for 14 out of 17 models (0.2 C reduction in the ensemble mean), there does not seem to be a correlation with the decrease in ENSO amplitude. The models showing the most "El Nino-like"mean state changes show a similar ENSO amplitude to that in the pre-industrial reference, while models showing more "La Nina-like"mean state changes generally show a large reduction in ENSO variability. The PlioMIP2 results show a reasonable agreement with both time-mean proxies indicating a reduced zonal SST gradient and reconstructions indicating a reduced, or similar, ENSO variability.

Original language	English
Pages (from-to)	2427-2450
Number of pages	24
Journal	Climate of the Past
Volume	17
Issue number	6
DOIs	https://doi.org/10.5194/cp-17-2427-2021
State	Published - Dec 1 2021

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Oldeman, A. M., Baatsen, M. L. J., Von Der Heydt, A. S., Dijkstra, H. A., Tindall, J. C., Abe-Ouchi, A., Booth, A. R., Brady, E. C., Chan, W. L., Chandan, D., Chandler, M. A., Contoux, C., Feng, R., Guo, C., Haywood, A. M., Hunter, S. J., Kamae, Y., Li, Q., Li, X., ... Williams, C. J. R. (2021). Reduced El Niño variability in the mid-Pliocene according to the PlioMIP2 ensemble. Climate of the Past, 17(6), 2427-2450. https://doi.org/10.5194/cp-17-2427-2021

@article{9d31d042bcef4ad79d20abbb8ce6b3d7,

title = "Reduced El Ni{\~n}o variability in the mid-Pliocene according to the PlioMIP2 ensemble",

abstract = "The mid-Pliocene warm period (3.264-3.025Ma) is the most recent geological period during which atmospheric CO2 levels were similar to recent historical values (1/4400ppm). Several proxy reconstructions for the mid-Pliocene show highly reduced zonal sea surface temperature (SST) gradients in the tropical Pacific Ocean, indicating an El Nino-like mean state. However, past modelling studies do not show these highly reduced gradients. Efforts to understand mid-Pliocene climate dynamics have led to the Pliocene Model Intercomparison Project (PlioMIP). Results from the first phase (PlioMIP1) showed clear El Nino variability (albeit significantly reduced) and did not show the greatly reduced time-mean zonal SST gradient suggested by some of the proxies. In this work, we study El Nino-Southern Oscillation (ENSO) variability in the PlioMIP2 ensemble, which consists of additional global coupled climate models and updated boundary conditions compared to PlioMIP1. We quantify ENSO amplitude, period, spatial structure and {"}flavour{"}, as well as the tropical Pacific annual mean state in mid-Pliocene and pre-industrial simulations. Results show a reduced ENSO amplitude in the model-ensemble mean (-24\%) with respect to the pre-industrial, with 15 out of 17 individual models showing such a reduction. Furthermore, the spectral power of this variability considerably decreases in the 3-4-year band. The spatial structure of the dominant empirical orthogonal function shows no particular change in the patterns of tropical Pacific variability in the model-ensemble mean, compared to the pre-industrial. Although the time-mean zonal SST gradient in the equatorial Pacific decreases for 14 out of 17 models (0.2 C reduction in the ensemble mean), there does not seem to be a correlation with the decrease in ENSO amplitude. The models showing the most {"}El Nino-like{"}mean state changes show a similar ENSO amplitude to that in the pre-industrial reference, while models showing more {"}La Nina-like{"}mean state changes generally show a large reduction in ENSO variability. The PlioMIP2 results show a reasonable agreement with both time-mean proxies indicating a reduced zonal SST gradient and reconstructions indicating a reduced, or similar, ENSO variability.",

author = "Oldeman, \{Arthur M.\} and Baatsen, \{Michiel L.J.\} and \{Von Der Heydt\}, \{Anna S.\} and Dijkstra, \{Henk A.\} and Tindall, \{Julia C.\} and Ayako Abe-Ouchi and Booth, \{Alice R.\} and Brady, \{Esther C.\} and Chan, \{Wing Le\} and Deepak Chandan and Chandler, \{Mark A.\} and Camille Contoux and Ran Feng and Chuncheng Guo and Haywood, \{Alan M.\} and Hunter, \{Stephen J.\} and Youichi Kamae and Qiang Li and Xiangyu Li and Gerrit Lohmann and Lunt, \{Daniel J.\} and Nisancioglu, \{Kerim H.\} and Otto-Bliesner, \{Bette L.\} and Peltier, \{W. Richard\} and Pontes, \{Gabriel M.\} and Gilles Ramstein and Sohl, \{Linda E.\} and Christian Stepanek and Ning Tan and Qiong Zhang and Zhongshi Zhang and Ilana Wainer and Williams, \{Charles J.R.\}",

note = "Publisher Copyright: {\textcopyright} 2021 Arthur M. Oldeman et al.",

year = "2021",

month = dec,

day = "1",

doi = "10.5194/cp-17-2427-2021",

language = "English",

volume = "17",

pages = "2427--2450",

journal = "Climate of the Past",

issn = "1814-9324",

publisher = "Copernicus Publications",

number = "6",

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Oldeman, AM, Baatsen, MLJ, Von Der Heydt, AS, Dijkstra, HA, Tindall, JC, Abe-Ouchi, A, Booth, AR, Brady, EC, Chan, WL, Chandan, D, Chandler, MA, Contoux, C, Feng, R, Guo, C, Haywood, AM, Hunter, SJ, Kamae, Y, Li, Q, Li, X, Lohmann, G, Lunt, DJ, Nisancioglu, KH, Otto-Bliesner, BL, Peltier, WR, Pontes, GM, Ramstein, G, Sohl, LE, Stepanek, C, Tan, N, Zhang, Q, Zhang, Z, Wainer, I & Williams, CJR 2021, 'Reduced El Niño variability in the mid-Pliocene according to the PlioMIP2 ensemble', Climate of the Past, vol. 17, no. 6, pp. 2427-2450. https://doi.org/10.5194/cp-17-2427-2021

TY - JOUR

T1 - Reduced El Niño variability in the mid-Pliocene according to the PlioMIP2 ensemble

AU - Oldeman, Arthur M.

AU - Baatsen, Michiel L.J.

AU - Von Der Heydt, Anna S.

AU - Dijkstra, Henk A.

AU - Tindall, Julia C.

AU - Abe-Ouchi, Ayako

AU - Booth, Alice R.

AU - Brady, Esther C.

AU - Chan, Wing Le

AU - Chandan, Deepak

AU - Chandler, Mark A.

AU - Contoux, Camille

AU - Feng, Ran

AU - Guo, Chuncheng

AU - Haywood, Alan M.

AU - Hunter, Stephen J.

AU - Kamae, Youichi

AU - Li, Qiang

AU - Li, Xiangyu

AU - Lohmann, Gerrit

AU - Lunt, Daniel J.

AU - Nisancioglu, Kerim H.

AU - Otto-Bliesner, Bette L.

AU - Peltier, W. Richard

AU - Pontes, Gabriel M.

AU - Ramstein, Gilles

AU - Sohl, Linda E.

AU - Stepanek, Christian

AU - Tan, Ning

AU - Zhang, Qiong

AU - Zhang, Zhongshi

AU - Wainer, Ilana

AU - Williams, Charles J.R.

PY - 2021/12/1

Y1 - 2021/12/1

N2 - The mid-Pliocene warm period (3.264-3.025Ma) is the most recent geological period during which atmospheric CO2 levels were similar to recent historical values (1/4400ppm). Several proxy reconstructions for the mid-Pliocene show highly reduced zonal sea surface temperature (SST) gradients in the tropical Pacific Ocean, indicating an El Nino-like mean state. However, past modelling studies do not show these highly reduced gradients. Efforts to understand mid-Pliocene climate dynamics have led to the Pliocene Model Intercomparison Project (PlioMIP). Results from the first phase (PlioMIP1) showed clear El Nino variability (albeit significantly reduced) and did not show the greatly reduced time-mean zonal SST gradient suggested by some of the proxies. In this work, we study El Nino-Southern Oscillation (ENSO) variability in the PlioMIP2 ensemble, which consists of additional global coupled climate models and updated boundary conditions compared to PlioMIP1. We quantify ENSO amplitude, period, spatial structure and "flavour", as well as the tropical Pacific annual mean state in mid-Pliocene and pre-industrial simulations. Results show a reduced ENSO amplitude in the model-ensemble mean (-24%) with respect to the pre-industrial, with 15 out of 17 individual models showing such a reduction. Furthermore, the spectral power of this variability considerably decreases in the 3-4-year band. The spatial structure of the dominant empirical orthogonal function shows no particular change in the patterns of tropical Pacific variability in the model-ensemble mean, compared to the pre-industrial. Although the time-mean zonal SST gradient in the equatorial Pacific decreases for 14 out of 17 models (0.2 C reduction in the ensemble mean), there does not seem to be a correlation with the decrease in ENSO amplitude. The models showing the most "El Nino-like"mean state changes show a similar ENSO amplitude to that in the pre-industrial reference, while models showing more "La Nina-like"mean state changes generally show a large reduction in ENSO variability. The PlioMIP2 results show a reasonable agreement with both time-mean proxies indicating a reduced zonal SST gradient and reconstructions indicating a reduced, or similar, ENSO variability.

AB - The mid-Pliocene warm period (3.264-3.025Ma) is the most recent geological period during which atmospheric CO2 levels were similar to recent historical values (1/4400ppm). Several proxy reconstructions for the mid-Pliocene show highly reduced zonal sea surface temperature (SST) gradients in the tropical Pacific Ocean, indicating an El Nino-like mean state. However, past modelling studies do not show these highly reduced gradients. Efforts to understand mid-Pliocene climate dynamics have led to the Pliocene Model Intercomparison Project (PlioMIP). Results from the first phase (PlioMIP1) showed clear El Nino variability (albeit significantly reduced) and did not show the greatly reduced time-mean zonal SST gradient suggested by some of the proxies. In this work, we study El Nino-Southern Oscillation (ENSO) variability in the PlioMIP2 ensemble, which consists of additional global coupled climate models and updated boundary conditions compared to PlioMIP1. We quantify ENSO amplitude, period, spatial structure and "flavour", as well as the tropical Pacific annual mean state in mid-Pliocene and pre-industrial simulations. Results show a reduced ENSO amplitude in the model-ensemble mean (-24%) with respect to the pre-industrial, with 15 out of 17 individual models showing such a reduction. Furthermore, the spectral power of this variability considerably decreases in the 3-4-year band. The spatial structure of the dominant empirical orthogonal function shows no particular change in the patterns of tropical Pacific variability in the model-ensemble mean, compared to the pre-industrial. Although the time-mean zonal SST gradient in the equatorial Pacific decreases for 14 out of 17 models (0.2 C reduction in the ensemble mean), there does not seem to be a correlation with the decrease in ENSO amplitude. The models showing the most "El Nino-like"mean state changes show a similar ENSO amplitude to that in the pre-industrial reference, while models showing more "La Nina-like"mean state changes generally show a large reduction in ENSO variability. The PlioMIP2 results show a reasonable agreement with both time-mean proxies indicating a reduced zonal SST gradient and reconstructions indicating a reduced, or similar, ENSO variability.

UR - https://www.scopus.com/pages/publications/85120710083

U2 - 10.5194/cp-17-2427-2021

DO - 10.5194/cp-17-2427-2021

M3 - Article

AN - SCOPUS:85120710083

SN - 1814-9324

VL - 17

SP - 2427

EP - 2450

JO - Climate of the Past

JF - Climate of the Past

IS - 6

ER -

Reduced El Niño variability in the mid-Pliocene according to the PlioMIP2 ensemble

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