Poster Session 1 |
| | Cloudy and Convective BLs |
| | P1.1 | Ship-based exploratory observations of the SE Pacific stratocumulus-capped boundary layer during EPIC 2001
Christopher S. Bretherton, University of Washington, Seattle, WA; and K. Comstock, S. Yuter, T. Uttal, and C. W. Fairall |
| | P1.2 | Size statistics of cumulus cloud populations in large-eddy simulations 
Roel A. J. Neggers, KNMI, De Bilt, Netherlands; and H. J. J. Jonker and A. P. Siebesma |
| | P1.3 | Statistical analysis of the clouds diurnal evolution in the PBL
N. Kitova, Institute of Electronics, Bulgarian Academy of Sciences, Sofia, Bulgaria; and K. Ivanova, M. A. Mikhalev, and M. Ausloos |
| | P1.4 | Paper Moved to Session 5, new paper number 5.6A
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| | P1.5 | The formation of vertical vortices in the convective boundary layer
Katharine M. Kanak, School of Meteorology, University of Oklahoma, Norman, OK OK; and D. K. Lilly and J. T. Snow |
| | P1.6 | Turbulence Structure of the ASTEX First Lagrangian Boundary and Cloud Layer
Michael Tjernström, Stockholm University, Stockholm, Sweden; and A. Rune |
| | P1.7 | Triggering Mechanisms of Boundary Layer Convections over the Taiwan Area in Spring Season
Tai-Hwa Hor, Chung Cheng Inst. of Technology, Taoyuan, Taiwan; and C. H. Wei and M. H. Chang |
| | P1.8 | Turbulent fluxes, temperature and humidity convergence after sunrise
Rodrigo Silva, Universidade Federal de Santa Maria, Santa Maria, RS, Brazil; and O. C. Acevedo, O. Moraes, D. R. Fitzjarrald, R. K. Sakai, M. Czikowsky, and R. Staebler |
| | P1.9 | Understanding the Processes of Stratocumulus Break-up in the Coastal Region
Qing Wang, NPS, Monterey, CA; and D. L. Rosenberg and S. Wang |
| | P1.10 | Use of Simultaneous Radar and Lidar Data for the Retrieval of Microphysical Parameters in Low-Level Water Clouds
Oleg A. Krasnov, Delft University of Technology, Delft, Netherlands; and H. W. J. Russchenberg |
| | P1.11 | Variation of the Cloud-topped Boundary Layer Height Near the California Coast --- Observations from DECS
Qing Wang, NPS, Monterey, CA; and I. A. Kalogiros and S. Wang |
| | P1.12 | Paper moved to Session 5, New paper number 5.14)
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| | P1.13 | Self-Similarity Constraints for Convective Boundary Layers
Jianjun Duan, University of California, Los Angeles, CA; and B. Stevens |
| | P1.14 | Nonlinear scale interactions in lake-effect clouds
Natasha L. Miles, Penn State University, University Park, PA; and J. Verlinde |
|  | P1.15 | A pressure parameterization based on the geometry of the flow
Cara-Lyn Lappen, Colorado State University, Fort Collins, CO; and D. A. Randall |
| | P1.16 | Aircraft observations of air mass transformation over advancing ice cover in the Sea of Okhotsk
Jun Inoue, Hokkaido University, Sapporo, Japan; and M. Kawashima, Y. Fujiyoshi, and M. Wakatsuchi |
| | P1.17 | Coherence of vertical velocity from a zenith-pointing Doppler lidar
Shane D. Mayor, NCAR, Boulder, CO; and D. H. Lenschow |
| | P1.18 | Comparison of parameterized cloud variability to ARM data
Stephen A. Klein, NOAA/GFDL, Princeton, NJ; and J. R. Norris |
| | P1.19 | Effects of domain size and numerical resolution on the simulation of shallow cumulus convection
David E. Stevens, LLNL, Livermore, CA |
| | P1.20 | Paper Moved to Session 5, new paper number 5.12A
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| | P1.20A | Mesoscale Simulations of Stratocumulus-topped Boundary Layers and Comparisons with Aircraft Observations (Formerly paper number 5.12)
Qing Wang, NPS, Monterey, CA; and T. Chang and S. Wang |
| | P1.21 | Interactions of deep cumulus convection and the boundary layer over the southern Great Plains
Steven K Krueger, University of Utah, Salt Lake City, UT; and M. A. Jenkins, S. M. Lazarus, Y. Luo, and K. M. Xu |
| | P1.22 | Massflux budgets of shallow cumulus clouds
Stephan R. de Roode, University of Washington, Seattle, WA; and C. S. Bretherton |
| | P1.23 | Modeling the cloud-topped marine PBL; turbulence influence on the condensational growth
Gunilla Svensson, Stockholm University, Stockholm, Sweden; and J. H. Seinfeld |
| | P1.24 | Observations of the morning transition of the convective boundary layer
Wayne M. Angevine, CIRES/Univ. of Colorado and NOAA/AL, Boulder, CO; and H. Klein Baltink and F. C. Bosveld |