Model NRL1: Elaborations

Participation

Model NRL1 is an entry in the CMIP1 intercomparison only.

Spinup/Initialization

The spinup/initialization procedure was as follows (cf. Li and Hogan 1998 for further details):

The atmospheric model was integrated for 5 years with prescribed seasonally varying SSTs, and the last 3 years were averaged to obtain an estimate of annual-mean surface conditions.

The ocean model was integrated with these annual-mean forcings, while the SSTs were relaxed toward their observed annual- mean values, until a quasi-equilibrium state was achieved.

Annual-mean flux corrections for heat and momentum (i.e., surface-wind forcing) to be supplied to the ocean model in coupled mode then were computed from the differences between the fields simulated by the atmospheric model with prescribed SSTs and the observations (for surface winds, the COADS data set--cf. Sadler et al. 1987).

The atmosphere and ocean were coupled and integrated for 40 years with application of these annual-mean flux corrections. Model data from the last 36 years of this simulation were supplied for the CMIP I intercomparison.

Land Surface Processes

Soil temperatures are computed from a surface energy balance that includes snowmelt as well as relaxation (with 100-hour time constant) to FNOC (1986) monthly climatological deep-ground temperatures. These deep temperatures are derived from observed surface atmospheric temperatures that are lagged by one month, with annual cycle reduced by 30 percent. The heat capacity specified for soil is also a nonlinear function of the ground wetness, and the thermal conductivity of snow-covered ground is set to about twice that of bare ground.

Soil hydrology is determined from a modified bucket model. Continental runoff, which occurs locally when the moisture capacity of the bucket is exceeded, does not contribute to the freshwater flux into the ocean model. Cf. Hogan and Rosmond (1991) for further details.

Sea Ice

Sea ice extents are prescribed, but some provision is made for predicting temperature. More information needed.

References

FNOC, 1986: Fleet Numerical Oceanographic Center's Numerical Environmental Products Manual, Vols. I and II. Fleet Numerical Oceanographic Center, Monterey, CA, 214 pp.

Hogan, T. F., and T. E. Rosmond, 1991: The description of the Navy operational global atmospheric prediction system's spectral forecast model. Mon. Wea. Rev., 119, 1786-1815.

Li, T., and T.F. Hogan, 1998: The role of the annual mean climate on seasonal and interannual variability of the tropical Pacific in a coupled GCM. J. Climate (in press).

Sadler, J.C., M.A. Lander, A.M. Hori, and L.K. Oda, 1987: Tropical marine climatic atlas. Vol. 2: Pacific Ocean. Report UHMET 87-02, Department of Meteorology, University of Hawaii, Honolulu, Hawaii, 27 pp.

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Last update 15 May, 2002. This page is maintained by Tom Phillips (phillips@pcmdi.llnl.gov).

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