Intercomparison and interpretation of surface energy fluxes in atmospheric general circulation models

D. A. Randall; R. D. Cess; J. P. Blanchet; G. J. Boer; D. A. Dazlich; A. D. Del Genio; M. Deque; V. Dymnikov; V. Galin; S. J. Ghan; A. A. Lacis; H. Le Treut; Z. X. Li; X. Z. Liang; B. J. Mc Avaney; V. P. Meleshko; J. F.B. Mitchell; J. J. Morcrette; G. L. Potter; L. Rikus; E. Roeckner; J. F. Royer; U. Schlese; D. A. Sheinin; J. Slingo; A. P. Sokolov; K. E. Taylor; W. M. Washington; R. T. Wetherald; I. Yagai; M. H. Zhang

doi:10.1029/91JD03120

Intercomparison and interpretation of surface energy fluxes in atmospheric general circulation models

D. A. Randall
, R. D. Cess
, J. P. Blanchet
, G. J. Boer
, D. A. Dazlich
, A. D. Del Genio
, M. Deque
, V. Dymnikov
, V. Galin
, S. J. Ghan
, A. A. Lacis
, H. Le Treut
, Z. X. Li
, X. Z. Liang
, B. J. Mc Avaney
, V. P. Meleshko
, J. F.B. Mitchell
, J. J. Morcrette
, G. L. Potter
, L. Rikus

E. Roeckner, J. F. Royer, U. Schlese, D. A. Sheinin, J. Slingo, A. P. Sokolov, K. E. Taylor, W. M. Washington, R. T. Wetherald, I. Yagai, M. H. Zhang

Colorado State University
Stony Brook University
Environment and Climate Change Canada
NASA Goddard Institute for Space Studies
Centre National de Recherches Meteorologiques
Russian Academy of Sciences
Lawrence Livermore National Laboratory
Laboratoire de Meteorologie Dynamique
Bureau of Meteorology Australia
Main Geophysical Observatory
Met Office
European Centre for Medium-Range Weather Forecasts
University of Hamburg
University of Reading
National Center for Atmospheric Research
Princeton University
Japan Meteorological Agency

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

78 Scopus citations

Abstract

We have analyzed responses of the surface energy budgets and hydrologic cycles of 19 atmospheric general circulation models to an imposed, globally uniform sea surface temperature perturbation of 4 K. The responses of the simulated surface energy budgets are extremely diverse and are closely linked to the responses of the simulated hydrologic cycles. The response of the net surface energy flux is not controlled by cloud effects; instead, it is determined primarily by the response of the latent heat flux. The prescribed warming of the oceans leads to major increases in the atmospheric water vapor content and the rates of evaporation and precipitation. The increased water vapor amount drastically increases the downwelling infrared radiation at the Earth's surface, but the amount of the change varies dramatically from one model to another. -Authors

Original language	English
Pages (from-to)	3711-3724
Number of pages	14
Journal	Journal of Geophysical Research Atmospheres
Volume	97
Issue number	D4
DOIs	https://doi.org/10.1029/91JD03120
State	Published - 1992

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Randall, D. A., Cess, R. D., Blanchet, J. P., Boer, G. J., Dazlich, D. A., Del Genio, A. D., Deque, M., Dymnikov, V., Galin, V., Ghan, S. J., Lacis, A. A., Le Treut, H., Li, Z. X., Liang, X. Z., Mc Avaney, B. J., Meleshko, V. P., Mitchell, J. F. B., Morcrette, J. J., Potter, G. L., ... Zhang, M. H. (1992). Intercomparison and interpretation of surface energy fluxes in atmospheric general circulation models. Journal of Geophysical Research Atmospheres, 97(D4), 3711-3724. https://doi.org/10.1029/91JD03120

@article{b60372980ae34191992c1338b7da1dd0,

title = "Intercomparison and interpretation of surface energy fluxes in atmospheric general circulation models",

abstract = "We have analyzed responses of the surface energy budgets and hydrologic cycles of 19 atmospheric general circulation models to an imposed, globally uniform sea surface temperature perturbation of 4 K. The responses of the simulated surface energy budgets are extremely diverse and are closely linked to the responses of the simulated hydrologic cycles. The response of the net surface energy flux is not controlled by cloud effects; instead, it is determined primarily by the response of the latent heat flux. The prescribed warming of the oceans leads to major increases in the atmospheric water vapor content and the rates of evaporation and precipitation. The increased water vapor amount drastically increases the downwelling infrared radiation at the Earth's surface, but the amount of the change varies dramatically from one model to another. -Authors",

author = "Randall, \{D. A.\} and Cess, \{R. D.\} and Blanchet, \{J. P.\} and Boer, \{G. J.\} and Dazlich, \{D. A.\} and \{Del Genio\}, \{A. D.\} and M. Deque and V. Dymnikov and V. Galin and Ghan, \{S. J.\} and Lacis, \{A. A.\} and \{Le Treut\}, H. and Li, \{Z. X.\} and Liang, \{X. Z.\} and \{Mc Avaney\}, \{B. J.\} and Meleshko, \{V. P.\} and Mitchell, \{J. F.B.\} and Morcrette, \{J. J.\} and Potter, \{G. L.\} and L. Rikus and E. Roeckner and Royer, \{J. F.\} and U. Schlese and Sheinin, \{D. A.\} and J. Slingo and Sokolov, \{A. P.\} and Taylor, \{K. E.\} and Washington, \{W. M.\} and Wetherald, \{R. T.\} and I. Yagai and Zhang, \{M. H.\}",

year = "1992",

doi = "10.1029/91JD03120",

language = "English",

volume = "97",

pages = "3711--3724",

journal = "Journal of Geophysical Research Atmospheres",

issn = "0148-0227",

number = "D4",

}

Randall, DA, Cess, RD, Blanchet, JP, Boer, GJ, Dazlich, DA, Del Genio, AD, Deque, M, Dymnikov, V, Galin, V, Ghan, SJ, Lacis, AA, Le Treut, H, Li, ZX, Liang, XZ, Mc Avaney, BJ, Meleshko, VP, Mitchell, JFB, Morcrette, JJ, Potter, GL, Rikus, L, Roeckner, E, Royer, JF, Schlese, U, Sheinin, DA, Slingo, J, Sokolov, AP, Taylor, KE, Washington, WM, Wetherald, RT, Yagai, I & Zhang, MH 1992, 'Intercomparison and interpretation of surface energy fluxes in atmospheric general circulation models', Journal of Geophysical Research Atmospheres, vol. 97, no. D4, pp. 3711-3724. https://doi.org/10.1029/91JD03120

TY - JOUR

T1 - Intercomparison and interpretation of surface energy fluxes in atmospheric general circulation models

AU - Randall, D. A.

AU - Cess, R. D.

AU - Blanchet, J. P.

AU - Boer, G. J.

AU - Dazlich, D. A.

AU - Del Genio, A. D.

AU - Deque, M.

AU - Dymnikov, V.

AU - Galin, V.

AU - Ghan, S. J.

AU - Lacis, A. A.

AU - Le Treut, H.

AU - Li, Z. X.

AU - Liang, X. Z.

AU - Mc Avaney, B. J.

AU - Meleshko, V. P.

AU - Mitchell, J. F.B.

AU - Morcrette, J. J.

AU - Potter, G. L.

AU - Rikus, L.

AU - Roeckner, E.

AU - Royer, J. F.

AU - Schlese, U.

AU - Sheinin, D. A.

AU - Slingo, J.

AU - Sokolov, A. P.

AU - Taylor, K. E.

AU - Washington, W. M.

AU - Wetherald, R. T.

AU - Yagai, I.

AU - Zhang, M. H.

PY - 1992

Y1 - 1992

N2 - We have analyzed responses of the surface energy budgets and hydrologic cycles of 19 atmospheric general circulation models to an imposed, globally uniform sea surface temperature perturbation of 4 K. The responses of the simulated surface energy budgets are extremely diverse and are closely linked to the responses of the simulated hydrologic cycles. The response of the net surface energy flux is not controlled by cloud effects; instead, it is determined primarily by the response of the latent heat flux. The prescribed warming of the oceans leads to major increases in the atmospheric water vapor content and the rates of evaporation and precipitation. The increased water vapor amount drastically increases the downwelling infrared radiation at the Earth's surface, but the amount of the change varies dramatically from one model to another. -Authors

AB - We have analyzed responses of the surface energy budgets and hydrologic cycles of 19 atmospheric general circulation models to an imposed, globally uniform sea surface temperature perturbation of 4 K. The responses of the simulated surface energy budgets are extremely diverse and are closely linked to the responses of the simulated hydrologic cycles. The response of the net surface energy flux is not controlled by cloud effects; instead, it is determined primarily by the response of the latent heat flux. The prescribed warming of the oceans leads to major increases in the atmospheric water vapor content and the rates of evaporation and precipitation. The increased water vapor amount drastically increases the downwelling infrared radiation at the Earth's surface, but the amount of the change varies dramatically from one model to another. -Authors

UR - https://www.scopus.com/pages/publications/0027065986

U2 - 10.1029/91JD03120

DO - 10.1029/91JD03120

M3 - Article

AN - SCOPUS:0027065986

SN - 0148-0227

VL - 97

SP - 3711

EP - 3724

JO - Journal of Geophysical Research Atmospheres

JF - Journal of Geophysical Research Atmospheres

IS - D4

ER -

Intercomparison and interpretation of surface energy fluxes in atmospheric general circulation models

Abstract

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