Small-Scale and Mesoscale Variability in Cloudy Boundary Layers: Joint Probability Density FunctionsSource: Journal of the Atmospheric Sciences:;2002:;Volume( 059 ):;issue: 024::page 3519DOI: 10.1175/1520-0469(2002)059<3519:SSAMVI>2.0.CO;2Publisher: American Meteorological Society
Abstract: The joint probability density function (PDF) of vertical velocity and conserved scalars is important for at least two reasons. First, the shape of the joint PDF determines the buoyancy flux in partly cloudy layers. Second, the PDF provides a wealth of information about subgrid variability and hence can serve as the foundation of a boundary layer cloud and turbulence parameterization. This paper analyzes PDFs of stratocumulus, cumulus, and clear boundary layers obtained from both aircraft observations and large eddy simulations. The data are used to fit five families of PDFs: a double delta function, a single Gaussian, and three PDF families based on the sum of two Gaussians. Overall, the double Gaussian, that is binormal, PDFs perform better than the single Gaussian or double delta function PDFs. In cumulus layers with low cloud fraction, the improvement occurs because typical PDFs are highly skewed, and it is crucial to accurately represent the tail of the distribution, which is where cloud occurs. Since the double delta function has been shown in prior work to be the PDF underlying mass-flux schemes, the data analysis herein hints that mass-flux simulations may be improved upon by using a parameterization built upon a more realistic PDF.
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| contributor author | Larson, Vincent E. | |
| contributor author | Golaz, Jean-Christophe | |
| contributor author | Cotton, William R. | |
| date accessioned | 2017-06-09T14:38:02Z | |
| date available | 2017-06-09T14:38:02Z | |
| date copyright | 2002/12/01 | |
| date issued | 2002 | |
| identifier issn | 0022-4928 | |
| identifier other | ams-23226.pdf | |
| identifier uri | http://onlinelibrary.yabesh.ir/handle/yetl/4159764 | |
| description abstract | The joint probability density function (PDF) of vertical velocity and conserved scalars is important for at least two reasons. First, the shape of the joint PDF determines the buoyancy flux in partly cloudy layers. Second, the PDF provides a wealth of information about subgrid variability and hence can serve as the foundation of a boundary layer cloud and turbulence parameterization. This paper analyzes PDFs of stratocumulus, cumulus, and clear boundary layers obtained from both aircraft observations and large eddy simulations. The data are used to fit five families of PDFs: a double delta function, a single Gaussian, and three PDF families based on the sum of two Gaussians. Overall, the double Gaussian, that is binormal, PDFs perform better than the single Gaussian or double delta function PDFs. In cumulus layers with low cloud fraction, the improvement occurs because typical PDFs are highly skewed, and it is crucial to accurately represent the tail of the distribution, which is where cloud occurs. Since the double delta function has been shown in prior work to be the PDF underlying mass-flux schemes, the data analysis herein hints that mass-flux simulations may be improved upon by using a parameterization built upon a more realistic PDF. | |
| publisher | American Meteorological Society | |
| title | Small-Scale and Mesoscale Variability in Cloudy Boundary Layers: Joint Probability Density Functions | |
| type | Journal Paper | |
| journal volume | 59 | |
| journal issue | 24 | |
| journal title | Journal of the Atmospheric Sciences | |
| identifier doi | 10.1175/1520-0469(2002)059<3519:SSAMVI>2.0.CO;2 | |
| journal fristpage | 3519 | |
| journal lastpage | 3539 | |
| tree | Journal of the Atmospheric Sciences:;2002:;Volume( 059 ):;issue: 024 | |
| contenttype | Fulltext |