Poster Session 2M |
| | WRF Model |
| | P2M.1 | Propagating nocturnal convection within a 7�day WRF�model simulation 
Stanley B. Trier, NCAR, Boulder, CO; and C. A. Davis |
| | P2M.2 | Evaluation of COAMPS and WRF�ARW dynamic cores for topographic flow test problems
James D. Doyle, NRL, Monterey, CA; and Q. Jiang |
| | P2M.3 | WRF model simulations of a quasi-stationary, extreme�rain�producing mesoscale convective system
Russ S. Schumacher, Colorado State Univ., Fort Collins, CO; and R. H. Johnson |
| | P2M.4 | The WRF model as a tool to understand mesoscale processes over the poorly-sampled South American altiplano
Jose M. Galvez, Univ. of Oklahoma, Norman, OK; and R. Orozco and M. W. Douglas |
| | P2M.5 | Explaining rainfall and vegetation gradients along the eastern slopes of the Bolivian Andes using SALLJEX observations and WRF simulations
John F. Mejia, CIMMS/Univ. of Oklahoma, Norman, OK; and M. W. Douglas |
|  | P2M.6 | LAPS assimilation of Radar and Satellite data for Tropical Cyclone NWP
Patrick T. Welsh, Univ. of North Florida, Jacksonville, FL; and P. Bogenschutz |
| | P2M.7 | WRF simulations of orographic precipitation and air mass transformation over the Central Idaho Mountains
Joseph Galewsky, Univ.of New Mexico, Albuquerque, NM |
| | P2M.8 | High-resolution WRF-simulated microphysical data during a severe weather event
Jason A. Otkin, CIMSS/Univ. of Wisconsin, Madison, WI |
| | P2M.9 | Effects of explicit numerical diffusion in simulations of mesoscale circulations by the Advanced Research WRF Model
Jason C. Knievel, NCAR, Boulder, CO; and G. H. Bryan and J. P. Hacker |
| | P2M.10 | Investigating the relationship between water vapour convergence and severe convection using the WRF model at 1km resolution
James M. Done, NCAR, Boulder, CO; and X. Y. Huang and Y. H. Kuo |
| | P2M.11 | Disdrometer and Radar Observation-Based Microphysical Parameterization to Improve Weather Forecast
Guifu Zhang, Univ. of Oklahoma, Norman, OK; and J. Sun, E. A. Brandes, J. Dudhia, and W. Wang |