| | 3.8 | The influence of stability on the turbulent transfer of heat, moisture and momentum fluxes in the surface layer over an agricultural farmland at a tropical location A. A. Balogun, University of Missouri, Kansas City, MO; and O. O. Jegede, E. O. Aregbesola, M. Mauder, and T. Foken |
| 10:30 AM | 3.9 | Surface renewal measurements of sensible heat flux in an irrigated desert pecan orchard Luke J. Simmons, New Mexico State University, Las Cruces, NM; and D. R. Miller and T. W. Sammis |
| 10:45 AM | 3.10 | Nocturnal air drainage in forest canopies: a new way of studying physiological responses to the weather? Michael Unsworth, Oregon State University, Corvallis, OR; and B. J. Bond, A. C. Mix, T. G. Pypker, and L. Mahrt |
| 11:00 AM | 3.11 | Simple first-order turbulent transfer model to predict canopy momentum, heat, and moisture regimes Michael D. Novak, University of British Columbia, Vancouver, BC, Canada |
| 11:15 AM | 3.12 | Numerical simulation of canopy flow and CO2 flux at the West Coast Flux station Haizhen Sun, University of British Columbia, Vancouver, BC, Canada; and T. L. Clark, R. B. Stull, and T. A. Black |
| 11:30 AM | | Lunch Break
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| 1:00 PM | 3.13 | Large-eddy simulation of stably stratified canopy turbulence Edward G. Patton, NCAR, Boulder, CO; and P. P. Sullivan |
| 1:15 PM | 3.14 | Advanced modeling and experimental analysis of the flow field above and within the forest canopy at the Wind River Canopy Crane AmeriFlux site Alejandro Zermeno-Gonzalez, University of Georgia, Saltillo, Coahuila, Mexico; and M. Y. Leclerc, A. Karipot, K. T. Paw U, R. D. Pyles, and M. Schroeder |
| 1:30 PM | 3.15 | Flux profiles in and above an olive and a cork oak canopy Roland Vogt, University of Basel, Basel, Switzerland; and A. Christen and A. Pitacco |
| 1:45 PM | 3.16 | LES study on organized turbulence structures over plant canopies Tsutomu Watanabe, Forestry and Forest Products Research Institute, Tsukuba, Ibaraki, Japan |