Editorial Type:
Article
Article Type:
Research Article

Midlatitude Frontal Clouds: GCM-Scale Modeling Implications

J. J. Katzfey CSIRO Atmospheric Research, Aspendale, Victoria, Australia

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B. F. Ryan CSIRO Atmospheric Research, Aspendale, Victoria, Australia

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Print Publication:
01 Aug 2000
DOI:
https://doi.org/10.1175/1520-0442(2000)013<2729:MFCGSM>2.0.CO;2
Page(s):
2729–2745
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Abstract

The importance of subgrid-scale processes for the simulation of midlatitude frontal clouds by global models is investigated. The case chosen is a frontal cloud associated with a cool change crossing the southern Australian coastline between 17 and 19 November 1984. The Commonwealth Scientific and Industrial Research Organisation limited-area model, Division of Atmospheric Research Limited-Area Model, was run at horizontal resolutions of 30 and 300 km, and the results of the 30-km simulation were then averaged to 300-km resolution. Comparisons and evaluations of the simulations showed that the 300-km simulation failed to develop the frontal clouds. Comparison with the 30-km simulation averaged to 300 km showed the importance of the subgrid-scale vertical motions for this cloud development. In particular, it is found that the covariance of the subgrid-scale terms, although of smaller magnitude when compared with the larger-scale terms, needs to be parameterized to capture correctly the frontal cloud development. It is suggested that parameterization of the subgrid-scale dynamical forcing is important for the correct cloud development in general circulation models.

Corresponding author address: J. J. Katzfey, CSIRO Atmospheric Research, Private Mail Bag No. 1, Aspendale, Victoria 3195, Australia.

Abstract

The importance of subgrid-scale processes for the simulation of midlatitude frontal clouds by global models is investigated. The case chosen is a frontal cloud associated with a cool change crossing the southern Australian coastline between 17 and 19 November 1984. The Commonwealth Scientific and Industrial Research Organisation limited-area model, Division of Atmospheric Research Limited-Area Model, was run at horizontal resolutions of 30 and 300 km, and the results of the 30-km simulation were then averaged to 300-km resolution. Comparisons and evaluations of the simulations showed that the 300-km simulation failed to develop the frontal clouds. Comparison with the 30-km simulation averaged to 300 km showed the importance of the subgrid-scale vertical motions for this cloud development. In particular, it is found that the covariance of the subgrid-scale terms, although of smaller magnitude when compared with the larger-scale terms, needs to be parameterized to capture correctly the frontal cloud development. It is suggested that parameterization of the subgrid-scale dynamical forcing is important for the correct cloud development in general circulation models.

Corresponding author address: J. J. Katzfey, CSIRO Atmospheric Research, Private Mail Bag No. 1, Aspendale, Victoria 3195, Australia.

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