|  | 14.2 | Numerical simulation of the interaction between the dryline and horizontal convective rolls
Steven E. Peckham, CIRES/Univ. of Colorado, Boulder, CO; and R. Wilhelmson, L. J. Wicker, and C. Ziegler |
| 10:58 AM | 14.2a | Paper moved to Session 6, new paper number 6.6A
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| 10:59 AM | 14.3 | Multisensor Study of a Dual Bore Event Observed during IHOP 
Steven E. Koch, NOAA Research-FSL, Boulder, CO; and B. Demoz, F. Fabry, W. Feltz, B. Geerts, B. Gentry, D. Parsons, G. Schwemmer, T. M. Weckwerth, and J. W. Wilson |
| 11:14 AM | 14.4 | High Resolution Multi-Sensor Profiling of Gust Fronts
Haldun Karan, University of Alabama, Huntsville, AL; and K. Knupp |
| 11:29 AM | 14.5 | Numerical Investigation of factors leading to the formation of an intense warm core vortex in the Mediterranean
Gregory J. Tripoli, University of Wisconsin, Madison, WI; and S. Pinori, S. Dietrich, G. Panegrossi, A. Mugnai, and E. A. Smith |
| 11:44 AM | 14.6 | Mesoscale and Microscale Field Observations of a Lake-Enhanced Snowstorm
Joshua J. Schroeder, White Sands Missile Range, White Sands Missile Range, NM; and D. A. R. Kristovich and M. R. Hjelmfelt |
| 11:59 AM | 14.7 | Numerical simulation of convective evolution across Lake Michigan during a widespread lake-effect snow event
Mark R. Hjelmfelt, South Dakota School of Mines and Technology, Rapid City, SD; and W. J. Capehart and D. A. R. Kristovich |