The new GFDL global atmosphere and land model AM2-LM2: Evaluation with prescribed SST simulations
Journal of Climate
By: J. L. Anderson, V. Balaji, A.J. Broccoli, W.F. Cooke, T.L. Delworth, K.W. Dixon, L.J. Donner, K.A. Dunne, S.M. Freidenreich, S.T. Garner, R.G. Gudgel, C.T. Gordon, I.M. Held, R.S. Hemler, L.W. Horowitz, S.A. Klein, T.R. Knutson, P.J. Kushner, A.R. Langenhost, N.-C. Lau, Z. Liang, S.L. Malyshev, P. C. D. Milly, M.J. Nath, J.J. Ploshay, V. Ramaswamy, M.D. Schwarzkopf, E. Shevliakova, J.J. Sirutis, B.J. Soden, W.F. Stern, L.A. Thompson, R.J. Wilson, A.T. Wittenberg, and B.L. Wyman
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Abstract
The configuration and performance of a new global atmosphere and land model for climate research developed at the Geophysical Fluid Dynamics Laboratory (GFDL) are presented. The atmosphere model, known as AM2, includes a new gridpoint dynamical core, a prognostic cloud scheme, and a multispecies aerosol climatology, as well as components from previous models used at GFDL. The land model, known as LM2, includes soil sensible and latent heat storage, groundwater storage, and stomatal resistance. The performance of the coupled model AM2-LM2 is evaluated with a series of prescribed sea surface temperature (SST) simulations. Particular focus is given to the model's climatology and the characteristics of interannual variability related to El Nin??o-Southern Oscillation (ENSO). One AM2-LM2 integration was perfor med according to the prescriptions of the second Atmospheric Model Intercomparison Project (AMIP II) and data were submitted to the Program for Climate Model Diagnosis and Intercomparison (PCMDI). Particular strengths of AM2-LM2, as judged by comparison to other models participating in AMIP II, include its circulation and distributions of precipitation. Prominent problems of AM2-LM2 include a cold bias to surface and tropospheric temperatures, weak tropical cyclone activity, and weak tropical intraseasonal activity associated with the Madden-Julian oscillation. An ensemble of 10 AM2-LM 2 integrations with observed SSTs for the second half of the twentieth century permits a statistically reliable assessment of the model's response to ENSO. In general, AM2-LM2 produces a realistic simulation of the anomalies in tropical precipitation and extratropical circulation that are associated with ENSO. ?? 2004 American Meteorological Society.
Suggested Citation
Anderson, J.L., Balaji, V., Broccoli, A., Cooke, W., Delworth, T., Dixon, K., Donner, L., Dunne, K., Freidenreich, S., Garner, S., Gudgel, R., Gordon, C., Held, I., Hemler, R., Horowitz, L., Klein, S., Knutson, T., Kushner, P., Langenhost, A., Lau, N., Liang, Z., Malyshev, S., Milly, P., Nath, M., Ploshay, J., Ramaswamy, V., Schwarzkopf, M., Shevliakova, E., Sirutis, J., Soden, B., Stern, W., Thompson, L., Wilson, R., Wittenberg, A., Wyman, B., 2004, The new GFDL global atmosphere and land model AM2-LM2: Evaluation with prescribed SST simulations: Journal of Climate, v. 17, no. 24, p. 4641-4673.
| Publication type | Article |
|---|---|
| Publication Subtype | Journal Article |
| Title | The new GFDL global atmosphere and land model AM2-LM2: Evaluation with prescribed SST simulations |
| Series title | Journal of Climate |
| Volume | 17 |
| Issue | 24 |
| Year Published | 2004 |
| Language | English |
| Larger Work Type | Article |
| Larger Work Subtype | Journal Article |
| Larger Work Title | Journal of Climate |
| First page | 4641 |
| Last page | 4673 |