Poster Session 5B |
| | LAKE-ICE |
| | P5B.1 | The influence of a small lake on the mesoscale flow in a boreal forest boundary-layer
Michael Tjernström, Stockholm University, Stockholm, Sweden; and P. Samuelsson |
| | P5B.2 | Surface-layer gust-structure derived from volume imaging lidar data and large eddy simulations
Edwin W. Eloranta, University of Wisconsin, Madison, WI; and S. D. Mayor and G. J. Tripoli |
| | P5B.3 | Mesoscale Structures in the Lake-Induced Convective Boundary Layer
George S. Young, Penn State University, University Park, PA; and E. Hebble |
| | P5B.5 | Lake-ICE observations during wintertime cold air outbreaks over the Great Lakes Region
Peter J. Sousounis, University of Michigan, Ann Arbor, MI; and C. P. J. Scott |
| | P5B.6 | Idealized Model Simulations of Lake-Induced Mesoscale Vortices
Neil F. Laird, University of Illinois and ISWS, Champaign, IL; and D. A. R. Kristovich and J. E. Walsh |
| | P5B.7 | Gravity waves can directly influence surface-layer wind stress in a convective boundary layer
Pierre D. Mourad, University of Washington, Seattle, WA; and N. Winstead, T. Sikora, and D. Thompson |
| | P5B.8 | Factors leading to the observed structures of roll convection observed by Lake Ice as revealed by cloud resolving numerical siimulation
Gregory J. Tripoli, University of Wisconsin, Madison, WI; and A. Adams |
| | P5B.9 | A plethora of atmospheric features imaged over the Great Lakes by SAR
Pierre D. Mourad, University of Washington, Seattle, WA; and N. S. Winstead |
| | P5B.10 | A Lake-scale vortex over Lake Superior imaged by SAR and modeled by MM5: a preliminary study
Pierre D. Mourad, University of Washington, Seattle, WA; and N. S. Winstead, N. F. Laird, and D. A. R. Kristovich |
| | P5B.11 | Eddy-resolving lidar measurements and numerical simulations of the convective internal boundary layer
Shane D. Mayor, University of Wisconsin, Madison, WI; and E. W. Eloranta and G. J. Tripoli |