ENSIP: The El Niño simulation intercomparison project

M. Latif; K. Sperber; J. Arblaster; P. Braconnot; D. Chen; A. Colman; U. Cubasch; C. Cooper; P. Delecluse; D. Dewitt; L. Fairhead; G. Flato; T. Hogan; M. Ji; M. Kimoto; A. Kitoh; T. Knutson; H. Le Treut; T. Li; S. Manabe; O. Marti; C. Mechoso; G. Meehl; S. Power; E. Roeckner; J. Sirven; L. Terray; A. Vintzileos; R. Voß; B. Wang; W. Washington; I. Yoshikawa; J. Yu; S. Zebiak

doi:10.1007/s003820100174

ENSIP: The El Niño simulation intercomparison project

M. Latif
, K. Sperber
, J. Arblaster
, P. Braconnot
, D. Chen
, A. Colman
, U. Cubasch
, C. Cooper
, P. Delecluse
, D. Dewitt
, L. Fairhead
, G. Flato
, T. Hogan
, M. Ji
, M. Kimoto
, A. Kitoh
, T. Knutson
, H. Le Treut
, T. Li
, S. Manabe

O. Marti, C. Mechoso, G. Meehl, S. Power, E. Roeckner, J. Sirven, L. Terray, A. Vintzileos, R. Voß, B. Wang, W. Washington, I. Yoshikawa, J. Yu, S. Zebiak

Max Planck Institute for Meteorology
Lawrence Livermore Natl. Laboratory
National Center for Atmospheric Research
Lab. Sci. du Climat et de l'Environ.
Columbia University
Met Office
Deutsches Kilmarechenzentrum
Institut Pierre-Simon Laplace
George Mason University
Ecole Polytechnique
Université Laval and Environment and Climate Change Canada
Naval Research Laboratory
National Centers for Environment Prediction
Center for Climate System Research
Japan Meteorological Agency
National Oceanic and Atmospheric Administration
Earth Frontier Research System
University of California at Los Angeles
Bureau of Meteorology Australia
CNRS/CERFACS
University of Hawai'i at Mānoa

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

253 Scopus citations

Abstract

An ensemble of twenty four coupled ocean-atmosphere models has been compared with respect to their performance in the tropical Pacific. The coupled models span a large portion of the parameter space and differ in many respects. The intercomparison includes TOGA (Tropical Ocean Global Atmosphere)-type models consisting of high-resolution tropical ocean models and coarse-resolution global atmosphere models, coarse-resolution global coupled models, and a few global coupled models with high resolution in the equatorial region in their ocean components. The performance of the annual mean state, the seasonal cycle and the interannual variability are investigated. The primary quantity analysed is sea surface temperature (SST). Additionally, the evolution of interannual heat content variations in the tropical Pacific and the relationship between the interannual SST variations in the equatorial Pacific to fluctuations in the strength of the Indian summer monsoon are investigated. The results can be summarised as follows: almost all models (even those employing flux corrections) still have problems in simulating the SST climatology, although some improvements are found relative to earlier intercomparison studies. Only a few of the coupled models simulate the El Niño/Southern Oscillation (ENSO) in terms of gross equatorial SST anomalies realistically. In particular, many models overestimate the variability in the western equatorial Pacific and underestimate the SST variability in the east. The evolution of interannual heat content variations is similar to that observed in almost all models. Finally, the majority of the models show a strong connection between ENSO and the strength of the Indian summer monsoon.

Original language	English
Pages (from-to)	255-276
Number of pages	22
Journal	Climate Dynamics
Volume	18
Issue number	3-4
DOIs	https://doi.org/10.1007/s003820100174
State	Published - 2001
Externally published	Yes

Access to Document

10.1007/s003820100174

Cite this

Latif, M., Sperber, K., Arblaster, J., Braconnot, P., Chen, D., Colman, A., Cubasch, U., Cooper, C., Delecluse, P., Dewitt, D., Fairhead, L., Flato, G., Hogan, T., Ji, M., Kimoto, M., Kitoh, A., Knutson, T., Le Treut, H., Li, T., ... Zebiak, S. (2001). ENSIP: The El Niño simulation intercomparison project. Climate Dynamics, 18(3-4), 255-276. https://doi.org/10.1007/s003820100174

@article{f8c004b395804a59863af58bedd2c0f7,

title = "ENSIP: The El Ni{\~n}o simulation intercomparison project",

abstract = "An ensemble of twenty four coupled ocean-atmosphere models has been compared with respect to their performance in the tropical Pacific. The coupled models span a large portion of the parameter space and differ in many respects. The intercomparison includes TOGA (Tropical Ocean Global Atmosphere)-type models consisting of high-resolution tropical ocean models and coarse-resolution global atmosphere models, coarse-resolution global coupled models, and a few global coupled models with high resolution in the equatorial region in their ocean components. The performance of the annual mean state, the seasonal cycle and the interannual variability are investigated. The primary quantity analysed is sea surface temperature (SST). Additionally, the evolution of interannual heat content variations in the tropical Pacific and the relationship between the interannual SST variations in the equatorial Pacific to fluctuations in the strength of the Indian summer monsoon are investigated. The results can be summarised as follows: almost all models (even those employing flux corrections) still have problems in simulating the SST climatology, although some improvements are found relative to earlier intercomparison studies. Only a few of the coupled models simulate the El Ni{\~n}o/Southern Oscillation (ENSO) in terms of gross equatorial SST anomalies realistically. In particular, many models overestimate the variability in the western equatorial Pacific and underestimate the SST variability in the east. The evolution of interannual heat content variations is similar to that observed in almost all models. Finally, the majority of the models show a strong connection between ENSO and the strength of the Indian summer monsoon.",

author = "M. Latif and K. Sperber and J. Arblaster and P. Braconnot and D. Chen and A. Colman and U. Cubasch and C. Cooper and P. Delecluse and D. Dewitt and L. Fairhead and G. Flato and T. Hogan and M. Ji and M. Kimoto and A. Kitoh and T. Knutson and \{Le Treut\}, H. and T. Li and S. Manabe and O. Marti and C. Mechoso and G. Meehl and S. Power and E. Roeckner and J. Sirven and L. Terray and A. Vintzileos and R. Vo{\ss} and B. Wang and W. Washington and I. Yoshikawa and J. Yu and S. Zebiak",

year = "2001",

doi = "10.1007/s003820100174",

language = "English",

volume = "18",

pages = "255--276",

journal = "Climate Dynamics",

issn = "0930-7575",

publisher = "Springer Verlag",

number = "3-4",

}

Latif, M, Sperber, K, Arblaster, J, Braconnot, P, Chen, D, Colman, A, Cubasch, U, Cooper, C, Delecluse, P, Dewitt, D, Fairhead, L, Flato, G, Hogan, T, Ji, M, Kimoto, M, Kitoh, A, Knutson, T, Le Treut, H, Li, T, Manabe, S, Marti, O, Mechoso, C, Meehl, G, Power, S, Roeckner, E, Sirven, J, Terray, L, Vintzileos, A, Voß, R, Wang, B, Washington, W, Yoshikawa, I, Yu, J & Zebiak, S 2001, 'ENSIP: The El Niño simulation intercomparison project', Climate Dynamics, vol. 18, no. 3-4, pp. 255-276. https://doi.org/10.1007/s003820100174

TY - JOUR

T1 - ENSIP

T2 - The El Niño simulation intercomparison project

AU - Latif, M.

AU - Sperber, K.

AU - Arblaster, J.

AU - Braconnot, P.

AU - Chen, D.

AU - Colman, A.

AU - Cubasch, U.

AU - Cooper, C.

AU - Delecluse, P.

AU - Dewitt, D.

AU - Fairhead, L.

AU - Flato, G.

AU - Hogan, T.

AU - Ji, M.

AU - Kimoto, M.

AU - Kitoh, A.

AU - Knutson, T.

AU - Le Treut, H.

AU - Li, T.

AU - Manabe, S.

AU - Marti, O.

AU - Mechoso, C.

AU - Meehl, G.

AU - Power, S.

AU - Roeckner, E.

AU - Sirven, J.

AU - Terray, L.

AU - Vintzileos, A.

AU - Voß, R.

AU - Wang, B.

AU - Washington, W.

AU - Yoshikawa, I.

AU - Yu, J.

AU - Zebiak, S.

PY - 2001

Y1 - 2001

N2 - An ensemble of twenty four coupled ocean-atmosphere models has been compared with respect to their performance in the tropical Pacific. The coupled models span a large portion of the parameter space and differ in many respects. The intercomparison includes TOGA (Tropical Ocean Global Atmosphere)-type models consisting of high-resolution tropical ocean models and coarse-resolution global atmosphere models, coarse-resolution global coupled models, and a few global coupled models with high resolution in the equatorial region in their ocean components. The performance of the annual mean state, the seasonal cycle and the interannual variability are investigated. The primary quantity analysed is sea surface temperature (SST). Additionally, the evolution of interannual heat content variations in the tropical Pacific and the relationship between the interannual SST variations in the equatorial Pacific to fluctuations in the strength of the Indian summer monsoon are investigated. The results can be summarised as follows: almost all models (even those employing flux corrections) still have problems in simulating the SST climatology, although some improvements are found relative to earlier intercomparison studies. Only a few of the coupled models simulate the El Niño/Southern Oscillation (ENSO) in terms of gross equatorial SST anomalies realistically. In particular, many models overestimate the variability in the western equatorial Pacific and underestimate the SST variability in the east. The evolution of interannual heat content variations is similar to that observed in almost all models. Finally, the majority of the models show a strong connection between ENSO and the strength of the Indian summer monsoon.

AB - An ensemble of twenty four coupled ocean-atmosphere models has been compared with respect to their performance in the tropical Pacific. The coupled models span a large portion of the parameter space and differ in many respects. The intercomparison includes TOGA (Tropical Ocean Global Atmosphere)-type models consisting of high-resolution tropical ocean models and coarse-resolution global atmosphere models, coarse-resolution global coupled models, and a few global coupled models with high resolution in the equatorial region in their ocean components. The performance of the annual mean state, the seasonal cycle and the interannual variability are investigated. The primary quantity analysed is sea surface temperature (SST). Additionally, the evolution of interannual heat content variations in the tropical Pacific and the relationship between the interannual SST variations in the equatorial Pacific to fluctuations in the strength of the Indian summer monsoon are investigated. The results can be summarised as follows: almost all models (even those employing flux corrections) still have problems in simulating the SST climatology, although some improvements are found relative to earlier intercomparison studies. Only a few of the coupled models simulate the El Niño/Southern Oscillation (ENSO) in terms of gross equatorial SST anomalies realistically. In particular, many models overestimate the variability in the western equatorial Pacific and underestimate the SST variability in the east. The evolution of interannual heat content variations is similar to that observed in almost all models. Finally, the majority of the models show a strong connection between ENSO and the strength of the Indian summer monsoon.

UR - https://www.scopus.com/pages/publications/0035669540

U2 - 10.1007/s003820100174

DO - 10.1007/s003820100174

M3 - Article

AN - SCOPUS:0035669540

SN - 0930-7575

VL - 18

SP - 255

EP - 276

JO - Climate Dynamics

JF - Climate Dynamics

IS - 3-4

ER -

ENSIP: The El Niño simulation intercomparison project

Abstract

Access to Document

Other files and links

Fingerprint

Cite this