An Analytical one-Dimensional Second-Order Closure Model of Turbulence Statistics and the Lagrangian Time Scale Within and Above Plant Canopies of Arbitrary Structure |
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| Authors: | W J Massman J C Weil |
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| Institution: | (1) USDA/Forest Service, Rocky Mountain Station, 240 West Prospect, Fort Collins, CO, 80526, U.S.A.;(2) CIRES, University of Colorado, Campus Box 216, Boulder, Colorado 80309 and;(3) National Center for Atmospheric Research**, P.O. Box 3000, Boulder, CO, 80307, U.S.A. |
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| Abstract: | An analytical one-dimensional second-order closure model is developed to describe the within canopy velocity variances, turbulent intensities, dissipation rates, Lagrangian time scale and Lagrangian far field diffusivities for vegetation canopies of arbitrary structure and density. The model incorporates and extends the model of momentum transfer developed by Massman (1997) and the model of within canopy velocity variances developed by Weil (unpublished) from the second-order closure model of Wilson and Shaw (1977). Model predictions of within and above canopy velocity variances, turbulent intensities, dissipation rates and the Lagrangian time scale are in reasonable agreement with previously measured or estimated values for these parameters. The present model suggests that the Lagrangian time scale and the far field diffusivity could be strongly dependent upon foliage structure and density through the foliage effects on the velocity variances. A simple formulation for the Lagrangian time scale at canopy height is derived from model results. Taken as a whole, the present model may provide a relatively simple way to incorporate turbulence parameters into models of soil/canopy/atmosphere mass transfer. |
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| Keywords: | Dissipation rates Lagrangian time scale Velocity variances Within-canopy turbulence statistics |
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