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Compact View of Conference

Sunday, 27 June 2010
	5:00 PM-7:00 PM, Sunday, Mt. St. Helens Registration Opens
Monday, 28 June 2010
	7:30 AM-5:30 PM, Monday, Mt. St. Helens Registration continues throughout the conference
	8:35 AM-10:30 AM, Monday, Cascade Ballroom Session 1 Cloud instrumentation
Chairs: Edwin W. Eloranta, Univ. of Wisconsin, Madison, WI; Paul Lawson, SPEC Incorporated, Boulder, CO
8:35 AM Introductory Remarks. Greg McFarquhar, Univ. of Illinois   Recorded presentation 8:45 AM 1.1 Automatic cloud classification of whole sky images   A. Heinle, Kiel Universitiy, Kiel, Germany; and A. Macke and A. Srivastav 9:00 AM 1.2 First Measurements of the Bioaerosol single Particle Detector (BIO IN) for the Fast Ice Nucleus CHamber FINCH   Ulrich Bundke, Goethe University, Frankfurt/Main, Germany; and B. Reimann, B. Nillius, R. Jaenicke, and H. Bingemer 9:15 AM 1.3 GNI—An aircraft-based system for the impaction and automated optical sizing of giant aerosol particles with emphasis on sea salt   Recorded presentation Jørgen B. Jensen, NCAR, Broomfield, CO; and S. P. Beaton, D. C. Rogers, J. L. Stith, M. Colon-Robles, and R. M. Rauber 9:30 AM 1.4 GCIP measurements of precipitation and fog during SNOW-V10 and FRAM projects   Recorded presentation Ismail Gultepe, Environment Canada, Toronto, ON, Canada; and G. A. Isaac and R. Rasmussen 9:45 AM 1.5 Small ice particle observations in tropospheric clouds: fact or artifact?   Recorded presentation Alexei Korolev, Environment Canada, Downsview, ON, Canada; and E. Emery, W. Strapp, S. Cober, G. Isaac, and M. Wasey 10:00 AM 1.6 Mass closure studies using size distributions and bulk water contents measured in arctic cirrus during the Indirect and Semi-Direct Aerosol Campaign (ISDAC)   Recorded presentation Robert Jackson, University of Illinois, Urbana, IL; and G. M. McFarquhar, A. V. Korolev, J. W. Strapp, and P. Lawson 10:15 AM 1.7 Report on the workshop for in situ airborne instrumentation: addressing and solving measurement problems in ice clouds   Recorded presentation Darrel Baumgardner, Universidad Nacional Autónoma de México, Mexico City, Mexico; and A. J. Heymsfield
	10:30 AM-11:00 AM, Monday, Cascade Foyer Coffee Break
	11:00 AM-12:15 PM, Monday, Cascade Ballroom Session 2 Cloud Model Development
Chairs: Matthew S. Gilmore, University of North Dakota, Grand Forks, ND ; Hugh Morrison, NCAR, Boulder, CO
11:00 AM 2.1 Quantifying the benefits of microphysical complexity in an idealised one dimensional framework using the Factorial Method   Recorded presentation Christopher Dearden, University of Manchester, Manchester, Lancashire, United Kingdom; and P. Connolly and P. R. Field 11:15 AM 2.2 Cloud processing of internal mixed aerosol: A numerical study using a bin aerosol-microphysics scheme coupled with WRF   Recorded presentation Lulin Xue, NCAR, Boulder, CO; and I. Geresdi and R. Rasmussen 11:30 AM 2.3 A novel, multiple liquid and ice hydrometeor species, hybrid-bulk/bin, three-moment microphysics parameterization scheme   Recorded presentation Jerry M. Straka, Univ. of Oklahoma, Norman, OK ; and M. S. Gilmore 11:45 AM 2.4 Sedimentation in bulk microphysics schemes—considering alternatives to the standard two-moment approach   Recorded presentation Jason A. Milbrandt, EC, Dorval, QC, Canada; and R. McTaggart-Cowan 12:00 PM 2.5 Evaluation and Improvement of a statistical Cloud Parametrization in ECHAM Using Ground-based Remote Sensing Observations   Recorded presentation Verena Grützun, Max Plack Institute for Meteorology, Hamburg, Germany; and J. Quaas and F. Ament
	12:15 PM-1:30 PM, Monday, Broadway Room CldPhy Committee Luncheon
	12:15 PM-1:30 PM, Monday Lunch
	1:30 PM-3:00 PM, Monday, Cascade Ballroom Session 3 Laboratory Studies
Chairs: Jørgen B. Jensen, NCAR, Broomfield, CO; John Hallett, DRI, Reno, NV
1:30 PM 3.1 Supercooled water: new measurements of the latent heat of freezing   Will Cantrell, Michigan Technological University, Houghton, MI; and A. Kostinski, A. Szedlak, and A. Johnson 1:45 PM 3.2 The interaction of inertial droplets with turbulence as a mechanism for accelerated droplet size spectrum broadening: laboratory studies of preferential accumulation, enhanced settling and turbulence-induced collisions of small inertial droplets   Recorded presentation Colin P. Bateson, University of Washington, Seattle, WA; and A. Molina and A. Aliseda 2:00 PM 3.3 Ice nuclei measurement validation and application toward modeling ice formation in clouds   Recorded presentation Paul J. DeMott, Colorado State University, Fort Collins, CO; and A. J. Prenni, S. M. Kreidenweis, O. Moehler, X. Liu, M. D. Petters, T. Eidhammer, R. C. Sullivan, C. H. Twohy, K. A. Prather, K. A. Pratt, and D. C. Rogers 2:15 PM 3.4 New Results on Ice Growth from the Vapor; Ice multiplication without riming   Recorded presentation Charles A. Knight, NCAR, Boulder, CO 2:30 PM 3.5 Water to ice transition experiments at the AIDA-chamber: results from the novel ice experiment NIXE-CAPS   Recorded presentation Jessica Meyer, Research Centre Juelich, Juelich, Germany; and M. Kraemer, A. Afchine, D. Baumgardner, R. Newton, M. Schnaiter, and O. Moehler 2:45 PM 3.6 Using experiments in the Manchester Ice Cloud Chamber to improve modelling of ice-ice aggregation   Recorded presentation Paul J. Connolly, Univ. of Manchester, Manchester, United Kingdom; and C. Emersic
	3:00 PM-3:30 PM, Monday, Exhibit Hall Coffee Break
	3:30 PM-5:00 PM, Monday, Cascade Ballroom Session 4 Ice Nucleation and Mixed-Phase Clouds
Chairs: Jerry Y. Harrington, Penn State Univ., University Park, PA; Jean Francois Gayet, LaMP/CNRS/UMR and Universite Blaise Pascal, Aubiere France
3:30 PM 4.1 Ice Particle Development in orographic wave clouds: Results from the Ice In Clouds Experiment   Recorded presentation Andrew Joel Heymsfield, NCAR, Boulder, CO; and P. R. Field, P. J. DeMott, C. H. Twohy, Z. Wang, S. J. Haimov, D. Rogers, and J. L. Stith 3:45 PM 4.2 Testing freezing mechanisms in ICE-L lee wave clouds   Recorded presentation P. R. Field, Met Office, Exeter, United Kingdom; and A. Heymsfield, C. H. Twohy, P. J. DeMott, D. C. Rogers, J. Stith, and B. Shipway 4:00 PM 4.3 Observational Evidence of Deposition Ice Nucleation in Wave Clouds   Recorded presentation David C. Rogers, NCAR, Boulder, CO; and P. J. DeMott, A. J. Prenni, A. Heymsfield, P. R. Field, A. Bansemer, and J. L. Stith 4:15 PM 4.4 The formation of ice in frontal layer clouds   Recorded presentation Tom W. Choularton, Univ. of Manchester, Manchester, United Kingdom; and K. N. Bower, J. Crosier, M. W. Gallagher, J. Dorsey, A. M. Blyth, A. J. Illingworth, R. J. Hogan, and C. D. Westbrook 4:30 PM 4.5 Observations of persistent supercooled layer clouds: implications for ice nucleation and glaciation   Recorded presentation Christopher David Westbrook, Univ. of Reading, Reading, United Kingdom; and A. J. Illingworth 4:45 PM 4.6 Development of ice particles in convective clouds observed over the Black Forest mountains during COPS   Recorded presentation Alan M. Blyth, UK National Centre for Atmospheric Science (NCAS), Leeds, West Yorkshire, United Kingdom; and Y. Huang, P. Brown, R. J. Cotton, J. Crosier, K. N. Bower, M. W. Gallagher, H. Jones, A. Gadian, T. W. Choularton, J. Cardwell, H. Coe, S. D. Mobbs, and M. Hagen
	5:30 PM-8:30 PM, Monday, Exhibit Hall Formal Poster Viewing with Reception
	5:30 PM-8:30 PM, Monday, Exhibit Hall Joint Poster Session 1 Cloud Remote Sensing Posters (Joint between the 13th Conference on Atmospheric Radiation and the 13th Conference on Cloud Physics)
JP1.1 Comparison of cloud detection methods for the Geoscience Laser Altimeter System   Yuekui Yang, University of Maryland, Greenbelt, MD; and A. Marshak and S. P. Palm   JP1.2 Clear-Sky and Surface Narrowband Albedo Datasets Derived From MODIS Data   Yan Chen, SSAI, Hampton, VA; and P. Minnis, S. Sun-Mack, R. F. Arduini, and Q. Z. Trepte   JP1.3 Angular dependencies of GOES-derived cloud properties over the continental United States   R.C. Boeke, SSAI, Hampton, VA; and P. Minnis, J. K. Ayers, P. W. Heck, R. Palikonda, and R. F. Arduini   JP1.4 Using Doppler spectra to separate hydrometeor populations and analyze ice precipitation in multilayered mixed-phase clouds   Mahlon Rambukkange, Penn State Univ., University Park, PA; and J. Verlinde JP1.5 Morphology and dynamics of non-precipitating marine fair weather cumulus clouds   Virendra P. Ghate, Rutgers University, New Brunswick, NJ; and M. A. Miller   JP1.6 Use of remote sensing observations to explore relationships between tropical convection and anvil cirrus   Sally McFarlane, Pacific Northwest National Laboratory, Richland, WA; and J. M. Comstock   JP1.7 A 10-year climatology of cloud fraction and vertical distribution derived from both surface and GOES observations over the DOE ARM SGP Site   Baike Xi, University of North Dakota, Grand Forks, ND; and X. Dong, P. Minnis, and M. Khaiyer   JP1.8 Cirrus cloud classified by the split window and CALIOP observation   Toshiro Inoue, The University of Tokyo, Kashiwa, Chiba, Japan   JP1.9 Droplet growth in warm water clouds observed by synergistic use of MODIS and CloudSat   Takashi Y. Nakajima, Tokai University, Tokyo, Japan; and K. Suzuki, G. L. Stephens, and T. Nakajima   JP1.10 On the satellite determination of multi-layered multi-phase cloud properties   Fu-Lung Chang, SSAI/NASA LaRC, Hampton, VA; and P. Minnis, S. Sun-Mack, L. Nguyen, and Y. Chen   JP1.11 Observation of snowfall by ground-based active and passive remote sensing   Stefan Kneifel, University of Cologne, Cologne, Germany; and U. Löhnert, A. Battaglia, S. Crewell, M. Hagen, and L. Hirsch   JP1.12 Global analysis of ice microphysics from CloudSat and CALIPSO: calibration of 1064nm channel, color ratio and ice microphysics   Hajime Okamoto, Tohoku University, Sendai, Miyagi, Japan; and K. Sato, Y. Hagihara, N. Kumaoka, M. Hirakata, T. Nishizawa, and N. Sugimoto   JP1.13 Observation and model study of cloud microphysics and weather regime classification   Kaori Sato, Kyushu University, Kasuga, Fukuoka, Japan; and H. Okamoto and T. Takemura   JP1.14 Evaluation of SEVIRI Rainfall Retrievals over West-Africa using TRMM-PR   Erwin L.A. Wolters, KNMI, De Bilt, Netherlands; and B. J. J. M. van den Hurk and R. A. Roebeling   JP1.15 Estimation of Warm Rain using Information from the Proposed Advanced Baseline Imager (ABI): A Pre-launch Study with A-Train Satellite Data   Ruiyue Chen, I. M. Systems Group, Camp Springs, MD; and Z. Li and R. J. Kuligowski   JP1.16 A global analysis on the view-angle dependence of plane-parallel oceanic water cloud optical thickness using data synergy from MISR and MODIS   Lusheng Liang, Univ. of Illinois, Urbana, IL; and L. Di Girolamo   JP1.17 Enhanced Cloud Algorithm From Collocated CALIPSO, CLOUDSAT And MODIS   Sunny Sun-Mack, SSAI, Hampton, VA; and P. Minnis, S. Kato, Y. Chen, Y. Yi, S. Gibson, P. W. Heck, D. M. Winker, and J. K. Ayers   JP1.18 Initial study of the variability of AIRS radiances with cloud type   Alexander Matus, Texas A&M University, College Station, TX; and S. L. Nasiri and E. J. Fetzer   JP1.19 Infrared radiances at MODIS bands over a deep convective cloud system during TC4: observations and simulations   Gang Hong, SSAI, Hampton, VA; and P. Minnis, J. K. Ayers, C. R. Yost, W. L. Smith, and P. Yang   JP1.20 Initial assessment of AIRS cloud phase determination   Hongchun Jin, Texas A&M University, College Station, TX; and S. L. Nasiri and B. H. Kahn   JP1.21 Comparison of the CALIPSO satellite and ground-based observations of cirrus clouds at the ARM Tropical Western Pacific (TWP) sites   Tyler Thorsen, University of Washington, Seattle, WA; and Q. Fu and J. Comstock   JP1.22 Using radiance and polarization measurements from the Research Scanning Polarimeter (RSP) to evaluate ice crystal sizes in CRM simulations of anvil outflow cirrus   Bastiaan van Diedenhoven, Columbia University, New York, NY; and A. M. Fridlind, A. S. Ackerman, and B. Cairns   JP1.23 “Cloud-mode” optical depth observations from AERONET in a variety of cloud situations   Jui-Yuan Christine Chiu, Univ. of Maryland Baltimore County, Greenbelt, MD; and C. H. S. Huang, A. Marshak, Y. Knyazikhin, and W. Wiscombe   JP1.24 Characterization of Cloud Liquid Water Content Distributions from CloudSat   Seungwon Lee, JPL, Pasadena, CA; and B. H. Kahn and J. Teixeira   JP1.25 Cloud property retrievals from satellite data using thermal wavelengths in daytime and nighttime   Patrick W. Heck, CIMSS/Univ. of Wisconsin, Madison, WI; and P. Minnis, S. T. Bedka, R. Palikonda, Y. Yi, M. M. Khaiyer, F. L. Chang, and J. K. Ayers   JP1.26 Evaluation of cloud parameters and in-flight icing estimates derived from satellite using the NASA Glenn Icing Remote Sensing System   William L. Smith Jr., NASA/LaRC, Hampton, VA; and C. Fleeger, P. Minnis, D. A. Spangenberg, R. Palikonda, D. Serke, and A. Reehorst   JP1.27 Determining the effects of ice crystals on a satellite-based flight icing threat product in single-layer and multi-layer cloud conditions   Douglas A. Spangenberg, SSAI, Hampton, VA; and C. Fleeger, W. L. Smith, P. Minnis, R. Palikonda, F. L. Chang, D. Serke, and A. L. Reehorst   JP1.28 Simultaneous retrieval of aerosols lofted above clouds during the MILAGRO field campaign   Kirk D. Knobelspiesse, Columbia University, New York, NY; and B. Cairns and J. Redemann   JP1.29 The investigation on the cloud effects on ambient atmospheric condition and radiation using the collocated AIRS/CloudSat/MODIS data records   Qing Yue, JPL, La Cañada Flintridge, CA; and E. J. Fetzer, M. Schreier, B. H. Kahn, and G. Manipon   JP1.30 Liquid water paths in thin stratocumulus clouds   Paquita Zuidema, Univ. of Miami/RSMAS, Miami, FL; and M. P. Cadeddu and D. Hazen   JP1.31 An Improved CALIPSO Lidar Level 2 Cloud Data Set (Version 3)   Charles Trepte, NASA, Hampton, VA; and D. M. Winker, M. Vaughan, Y. Hu, Z. Liu, B. Getzewich, and J. L. Tackett   JP1.32 Improved Cloud Detection in CERES Edition 3 Algorithm and Comparison with the CALIPSO Vertical Feature Mask   Qing Z. Trepte, Science Systems and Applications Inc, Hampton, VA; and P. Minnis, C. Trepte, and S. Sun-Mack   JP1.33 Statistical study of cloud appearance using cloud profiling radar   Yuichi Ohno, National Institute of Information and Communications Technology, Tokyo, Japan; and H. Horie, N. Takahashi, and H. Kumagai   JP1.34 Improvements to cloud detection and optical properties over snow background from geostationary satellite data   Rabindra Palikonda, SSAI, Hampton, VA; and P. Minnis, M. L. Nordeen, D. A. Spangenberg, B. Shan, P. W. Heck, Q. Z. Trepte, and T. L. Chee   JP1.35 Satellite Remote Sensing of Liquid Water in Cold Clouds   David L. Mitchell, DRI, Reno, NV; and R. P. d'Entremont and S. Mishra   JP1.36 Large clouds dominate cloud coverage and solar reflectance   Robert Wood, University of Washington, Seattle, WA; and P. R. Field   JP1.37 Principal Component Analysis of Simulated and Measured Upwelling Cloudy-sky Radiances over Antarctica   Penny M. Rowe, University of Idaho, Moscow, ID; and V. P. Walden and D. Lubin
	5:30 PM-8:30 PM, Monday, Exhibit Hall Poster Session 1 Cloud Physics Poster Session 1
Chair: Greg McFarquhar, Univ. of Illinois, Urbana, IL
P1.1 Investigation of ice particle and cloud drop residues using the counterflow virtual impactor technique onboard the new German research aircraft HALO   Stephan Mertes, Leibniz-Institute for Tropospheric Research, Leipzig, Germany   P1.2 Comparison of experimental and numerical studies of the performance characteristics of a Pumped Counterflow Virtual Impactor   Gourihar Kulkarni, PNNL, Richland, WA; and M. Pekour, D. Murphy, K. Pratt, and D. J. Cziczo   P1.3 Design and Testing of an Interstitial Particle Sampler   Arash Moharreri, Clarkson University, Potsdam, NY; and P. Dubey, L. W. Craig, A. Schanot, D. C. Rogers, D. W. Toohey, and S. Dhaniyala   P1.4 The effects of splash artifacts on aerosol measurements in clouds   Lucas W. Craig, Clarkson University, Potsdam, NY; and A. Schanot, A. Moharerri, P. Dubey, S. Dhaniyala, D. C. Rogers, and D. W. Toohey   P1.5 Supercooled cloud CCN measurements   Stephen Noble, DRI, Reno, NV; and J. G. Hudson and V. Jha   P1.6 In Situ Measurements of Charge on Cloud Drops   Harry T. Ochs III, Atmospheric Physics Associates, Savoy, IL; and K. V. Beard   P1.7 Ice Crystal Erosion in Aircraft Icing and Airborne Cloud Measurements   J. W. Strapp, Cloud Physics and Severe Weather Res. Section, Toronto, ON, Canada; and J. MacLeod   P1.8 A new comparison of bulk ice water content measurements in cirrus cloud   Paul A. Barrett, Met Office, Exeter, United Kingdom   P1.9 Intercomparison of the performance of three different versions of Cloud Particle Imagers (CPIs)   Junshik Um, University of Illinois, Urbana, IL; and G. M. McFarquhar, P. J. Connolly, C. Emersic, Z. Ulanowski, and M. Gallagher   P1.10 Water Droplet Calibration of the DMT Cloud Droplet Probe (CDP) and In-Flight Performance in Liquid, Ice and Mixed-Phase Clouds during ARCPAC   Sara M. Lance, CIRES/Univ. of Colorado and NOAA, Boulder, CO; and C. A. Brock, D. Rogers, and J. Gordon   P1.11 Ultrafast thermometer UFT2 and high resoltution temperature measurements in Physics of Stratocumulus Top (POST)   Wojciech Kumala, University of Warsaw, Warsaw, Poland; and K. E. Haman, M. Kopec, and S. P. Malinowski   P1.12 Precipitation Particle Size Distributions Characterized by Video Disdrometer and Polarimetric Radar Measurements   Guifu Zhang, University of Oklahoma, Norman, OK; and Q. Cao and P. Bukovcic   P1.13 Heterogeneous freezing of droplets with immersed surface modified mineral dust particles   Susan Hartmann, Leibniz Institute for Tropospheric Research, Leipzig, Germany; and D. Niedermeier, A. Buchholz, U. Bundke, T. Clauss, P. J. DeMott, A. Kiselev, T. F. Mentel, M. D. Petters, B. Reimann, P. Reitz, J. Schneider, R. A. Shaw, B. Sierau, O. Stetzer, R. Sullivan, H. Wex, and F. Stratmann   P1.14 CCN property of Asian mineral dust particle   Katsuya Yamashita, MRI, Tsukuba, Ibaraki Pref., Japan; and T. Tajiri, M. Murakami, Y. Zaizen, and A. Saito   P1.15 Algal exudate in seawater and its influence on particle hygroscopic growth and activation   Frank Stratmann, Leibniz Institute for Tropospheric Research, Leipzig, Germany; and H. Wex, E. Fuentes, G. Tsagkogeorgas, J. Voigtländer, T. Clauss, A. Kiselev, D. Green, H. Coe, and G. McFiggans   P1.16 Experimental observation of a pH profile at an evaporating or growing vapor-liquid interface   Brian D. Swanson, Univ. of Washington, Seattle, WA; and B. Wilson   P1.17 Ice nucleation active sites: Insights from experiments with mineral dusts and bacteria   Olaf Stetzer, ETH, Zurich, Switzerland; and F. Lueoend and U. Lohmann   P1.18 A static diffusion chamber for measuring ice particle growth at low and high ice supersaturations   Jerry Y. Harrington, Penn State Univ., University Park, PA; and E. Davis, A. M. Moyle, D. Lamb, and K. Sulia   P1.19 A New Continuous Flow Diffusion Chamber for Airborne Measurement of Natural Ice Nuclei over Japan   Atsushi Saito, MRI, Tsukuba, Ibaraki, Japan; and M. Murakami   P1.20 Observation of playa salts as nuclei in orographic wave clouds   Kerri A. Pratt, Purdue Univ., West Lafayette, IN; and C. H. Twohy, S. M. Murphy, R. C. Moffet, A. J. Heymsfield, C. J. Gaston, P. J. DeMott, P. R. Field, T. R. Henn, D. C. Rogers, M. K. Gilles, J. H. Seinfeld, and K. A. Prather   P1.21 MRI cloud chamber experiments on dust aerosol and cloud interactions   Takuya Tajiri, MRI, Tsukuba, Ibaraki Pref., Japan; and K. Yamashita and M. Murakami   P1.22 Small-scale mixing at cloud top observed in a laboratory cloud chamber – preliminary results   Szymon P. Malinowski, University of Warsaw, Warsaw, Poland; and A. Górska, T. A. Kowalewski, P. Korczyk, S. Błoński, and W. Kumala   P1.23 Evaluating assumptions that impact calculation of collision efficiencies   Jørgen B. Jensen, NCAR, Broomfield, CO; and W. A. Cooper   P1.24 Comparison of experimental and numerical studies of turbulent collision of inertial droplets and the resulting droplet size distribution   Alberto Aliseda, University of Washington, Seattle, WA; and C. Bateson, W. W. Grabowski, H. Parishani, B. Rosa, and L. P. Wang   P1.25 Experimental study on collision efficiencies and contact freezing with a new collision chamber   Luis Antonio Ladino Moreno, ETH, Zurich, Switzerland; and O. Stetzer, F. Lüönd, B. Hattendorf, D. Günther, and U. Lohmann   P1.26 Raindrop shape determined by computing steady axisymmetric solutions for Navier-Stokes equations   James Q. Feng, Boston Scientific Corporation, Maple Grove, MN; and K. V. Beard   P1.27 Laboratory studies of the fall speeds and interactions of complex ice particles   Christopher David Westbrook, Univ. of Reading, Reading, United Kingdom; and C. Roberts and A. J. Heymsfield   P1.28 Effects of riming and melting processes on the rescaled ice particle size distribution   Tempei Hashino, Univ. of Wisconsin, Madison, WI; and G. J. Tripoli   P1.29 Analysis of Particle Size Distribution using Airborne Field Campaign Observations   Lin Tian, Goddard Earth Science and Technology Center / Univ. of Maryland Baltimore County, Greenbelt, MD; and G. M. Heymsfield, A. Heymsfield, and A. Bansemer   P1.30 Laboratory measured ice crystal capacitances and mass dimensional relations   Matthew Bailey, DRI, Reno, NV; and J. Hallett   P1.31 Metamorphosis of Disk Plate Snow Crystal   Hisashi Shio, Hokkaido Univ., Kita-ku, Japan   P1.32 An observational study of changes in cloud microphysical properties through glaciogenic seeding by dry ice during the Japanese orographic snow cloud modification projects   Narihiro Orikasa, MRI, Tsukuba, Ibaraki, Japan; and M. Murakami, A. Saito, H. Ohtake, A. Ikeda, and K. Yoshida   P1.33 Studies on the Microphysical Characteristics of an Aircraft Seeding in a Complex System of the Stratiform and Embedded Convective Cloud   Zhanyu Yao, Chinese Academy of Meteorological Sciences, Beijing, China; and L. Xin, J. Pu, and H. Zhang   P1.34 Effect of hygroscopic seeding on warm rain clouds   Naomi Kuba, Japan Agency for Marin-Earth Science and Technology (JAMSTEC), Yokohama, Japan; and M. Murakami   P1.35 Evaluation of the seeded stratocumulus by aircraft by the application of CINRAD   Ruibo Zhang, Weather Modification Office of Guangxi, Nanning, Guangxi, China; and X. Zhong   P1.36 The impact of glaciogenic cloud seeding on snowfall from winter orographic clouds   Bart Geerts, University of Wyoming, Laramie, WY; and Q. Miao and Y. Yang   P1.37 The occurrence of seedable clouds in the warm season for mitigating water shortage problems   Tomoki Koshida, IDEA Consultants Inc., Yokohama, Kanagawa, Japan P1.38 precipitation enhancement in by cloud seeding rainshadow regions of Andhra Pradesh   PR Vittal Murty Kolavennu, Andhra university, Visakhapatanam, AP, India   P1.39 The effects of aerosols and hygroscopic seeding on the development of precipitaiton in convective clouds in the Three Rivers' Headstream regions   Zongzhen Yang, Nanjing University, Nanjing, Jiangsu Province, China; and K. Zheng and B. Chen   P1.40 Numerical Experiment Comparing the Efficacies of Dryice Pellets and Liquid Carbon Dioxide for Cloud Seeding Operation   Akihiro Hashimoto, MRI, Tsukuba,Ibaraki,, Japan; and M. Murakami   P1.41 Amelioration of global warming via the modification of droplet concentrations in marine stratocumulus clouds   Laura Stevens, University of Leeds, Leeds, United Kingdom; and A. Gadian, A. Blyth, and J. Latham   P1.42 Effects of environmental temperature and humidity in future climates on ice nucleation and resulting precipitation in idealized supercell simulations   Dan K. Arthur, Purdue University, West Lafayette, IN; and S. Lasher-Trapp   P1.43 Multi-scale models for cumulus cloud dynamics   Samuel N. Stechmann, UCLA, Los Angeles, CA; and B. Stevens   P1.44 Transition to turbulence in a conditionally unstable moist convection layer   Thomas Weidauer, Ilmenau University of Technology, Ilmenau, Germany; and J. Schumacher   P1.45 The turbulent length scale problem in cloud resolving models   Peter Bogenschutz, University of Utah, Salt Lake City, UT; and S. K. Krueger   P1.46 The effect of superparameterization on aerosol transport   Wei-Chun Hsieh, Univ. of California, Berkeley, CA; and D. Rosa and W. Collins   P1.47 Toward cloud-model assessment of the role of cloud turbulence in warm-rain development   Wojciech W. Grabowski, NCAR, Boulder, CO; and A. A. Wyszogrodzki, L. P. Wang, O. Ayala, and B. Rosa   P1.48 Modeling of cloud-aerosol interactions in warm boundary-layer clouds   Wojciech W. Grabowski, NCAR, Boulder, CO; and M. Andrejczuk and A. Gadian   P1.49 A unified theory for computing surface kinetic effects on ice vapor growth in cloud models   Chengzhu Zhang, Penn State Univ., University Park, PA; and J. Y. Harrington   P1.50 Application of a Monte Carlo integration method to collision and coagulation growth processes of hydrometeors in a bin-type model   Yousuke Sato, Univ. of Tokyo, Chiba, Japan   P1.51 Reduction of scavenging and increases in CCN concentration by electrical repulsion between droplets and particles: results from a Monte-Carlo simulation   Brian A. Tinsley, Univ. of Texas, Richardson, TX   P1.52 Large-eddy simulation of convective clouds with explicit simulation of cloud droplets via Lagrangian particles   Theres Franke, Leibniz Universität, Hannover, Germany; and S. Raasch   P1.53 Simulations of warm cloud microphysics with a particle-based multicomponent model   Lester Alfonso Sr., Universidad Autonoma de la Ciudad de Mexico, Mexico City, Mexico; and G. B. Raga and D. Baumgardner   P1.54 Multiple size-distributed populations of CCN and IFN in a 2-moment microphysical scheme of the cloud-resolving model MesoNH   Jean-Pierre Pinty, University of Toulouse/CNRS, Toulouse, France; and S. Berthet and M. Leriche   P1.55 The parameterization of primary ice habit for bulk models: Influences on mixed-phase cloud glaciation   Kara Sulia, Penn State Univ., University Park, PA; and J. Y. Harrington and H. Morrison   P1.56 A new 2-moment icemicrophysical scheme for large eddy simulations   Thijs Heus, Max Planck Institute for Meteorology, Hamburg, Germany; and B. Stevens and A. Seifert   P1.57 A novel, multiple liquid and ice hydrometeor species, hybrid- bulk/bin, three-moment microphysics parameterization scheme: Examples   Matthew S. Gilmore, University of North Dakota, Grand Forks, ND ; and J. Straka   P1.58 Upscaling microphysical process rates to the grid box size   Vincent E. Larson, Univ. of Wisconsin, Milwaukee, WI; and B. M. Griffin   P1.59 Tracking tropical cloud systems for the diagnosis of simulations by the Weather Research and Forecasting (WRF) Model   Andrew M. Vogelmann, Brookhaven National Laboratory, Upton, NY; and W. Lin, A. Cialella, E. P. Luke, M. P. Jensen, M. H. Zhang, and E. Boer   P1.60 A dynamic probability density function treatment of cloud mass and number concentrations for low level clouds in GFDL SCM/GCM   Huan Guo, NOAA/GFDL, Princeton, NJ; and J. C. Golaz, L. Donner, V. E. Larson, D. P. Schanen, and B. M. Griffin   P1.61 Improving mixed-phase cloud representation in weather and climate models   Andrew I. Barrett, University of Reading, UK, Reading, Berkshire, United Kingdom; and R. J. Hogan and R. M. Forbes P1.62 Using a statistical representation of subgrid cloudiness to improve the Community Atmosphere Model   Peter Caldwell, LLNL, Livermore, CA; and S. Klein and S. Park   P1.62A Heterogeneous ice nucleation in the ash plume of Eyjafjoll observed at two central-European EARLINET lidar sites   Patric Seifert, Leibniz Institute for Tropospheric Research, Leipzig, Germany; and S. Groß, A. Ansmann, V. Freudenthaler, A. Hiebsch, J. Schmidt, F. Schnell, M. Tesche, and M. Wiegner   P1.63 Development of a climatology for cirrus cloud ice water content and its application to climate model parameterizations   Anna E. Luebke, Univ. of Colorado, Boulder, CO; and M. Kraemer and L. M. Avallone   P1.64 Assessing the Performance of a Prognostic and a Diagnostic Cloud Scheme Using Single Column Model Simulations of TWP-ICE   Charmaine N. Franklin, CSIRO, Aspendale, Victoria, Australia; and C. Jakob, M. Dix, A. Protat, and G. Roff   P1.65 Using TWP-ICE observations with model intercomparison to improve simulations of tropical oceanic convection   Adam C. Varble, University of Utah, Salt Lake City, UT; and E. J. Zipser, A. M. Fridlind, P. Zhu, A. S. Ackerman, J. P. Chaboureau, S. Collis, J. Dudhia, J. Fan, A. Hill, P. T. May, J. P. Pinty, and A. Protat   P1.66 Does the introduction of a simple cloud-aerosol interaction improve the representation of drizzle in the operational Met Office Unified Model?   Jonathan M. Wilkinson, Met Office, Exeter, Devon, United Kingdom; and S. J. Abel and P. R. Field   P1.67 The validation of microphysics properties simulated by a cloud resolving model using an in-situ aircraft observation during a cold winter event   Hideaki Ohtake, MRI, Tsukuba, Ibaraki, Japan; and M. Murakami, N. Orikasa, A. Saito, and A. Hashimoto   P1.68 Microphysical structure of convective snow clouds simulated by an improved version of multi-dimensional bin model   Ryohei Misumi, National Research Institute for Earth Science and Disaster Prevention, Japan, Tsukuba, Japan; and A. Hashimoto, M. Murakami, N. Kuba, N. Orikasa, A. Saito, T. Tajiri, K. Yamashita, and J. P. Chen   P1.69 Ice production in a slightly supercooled layer cloud with embedded convection   Jonathan Crosier, University of Manchester, Manchester, United Kingdom; and K. N. Bower, G. L. Capes, I. Crawford, J. Dorsey, T. Choularton, A. J. Illingworth, C. Westbrook, and A. M. Blyth   P1.70 The Impact of Cloud Microphysics on Precipitation using an Integration of Observation and WRF Simulation: A Squall Line Case Study   Di Wu, University of North Dakota, Grand Forks, ND; and X. Dong, B. Xi, Z. Feng, and G. Mullendore   P1.71 Impacts of ice nucleation modes and ice crystal habits on mixed-phase cloud lifetime   Barbara Ervens, NOAA, Boulder, CO; and G. Feingold, K. Sulia, and J. Y. Harrington   P1.72 Extreme precipitation events over southern Mexico: Sensitivity of WRF simulations to cloud microphysics parameterizations   Victor Torres Puente, Universidad Nacional Autonoma de Mexico, Mexico City, Mexico; and G. B. Raga   P1.73 Numerical experiment of lake-effect snowstorm using the WRF model coupled with spectral bin microphysics for cloud   Takamichi Iguchi, UMCP ESSIC / NASA GSFC, Greenbelt, MD; and T. Matsui, J. J. Shi, and W. K. Tao   P1.74 Profiling of Winter Storms (PLOWS): What we are learning about winter precipitation bands   Brian F. Jewett, Univ. of Illinois, Urbana, IL; and R. M. Rauber, G. McFarquhar, J. R. French, and K. R. Knupp   P1.75 The estimation of total lightning from various storm parameters: A cloud-resolving model study   Christelle Barthe, Laboratoire de l'Atmophere et des Cyclones (CNRS, Universite de la Reunion, Meteo-France), Saint Denis Cedex 9, Reunion; and W. Deierling and M. C. Barth P1.76 A 3D Modeling Study on Multi-Layer Distribution and Formation Mechanism of Electrical Charging in a severe Thunderstorm   Zhimin Zhou, Institute of Heavy Rain CMA, Wuhan, Wuhan City, Hubei Province, China; and X. Guo   P1.77 Variance scaling in water vapor measurements from a tall tower   Kyle G. Pressel, Univ. of California, Berkeley, CA; and W. D. Collins and A. R. Desai   P1.78 Cloud and moist conserved variables from the A-train and comparisons to ECMWF during YOTC   Brian H. Kahn, JPL, Pasadena, CA; and J. Teixeira and E. Fetzer   P1.79 A study of the vertical structure and distribution of cloud system in China from Upper-Air Observations and CloudSat data   Yuquan Zhou Sr., Chinese Academy of Meteorological Science, Beijing, China; and J. Ou and B. Shang   P1.80 An investigation of the vertical structure of clouds over West Africa in the Met Office Unified Model using the CloudSat simulator and CloudSat observations   Thorwald Hendrik Matthias Stein, University of Reading, Reading, United Kingdom; and A. Bodas-Salcedo, R. J. Hogan, C. E. Holloway, G. Lister, and D. J. Parker   P1.81 The characteristics of clouds and precipitation over the Pacific coast of southern Mexico retrieved from satellite TRMM products   Beata Kucienska, Universidad Nacional Autonoma de Mexico, Mexico City, Mexico; and G. B. Raga   P1.82 Global scale analysis of relations between cloud top phase and thermodynamic parameters   Jérôme Riedi, Laboratoire d'Optique Atmosphérique, Villeneuve d'Ascq, France; and S. Zeng, F. Parol, C. Cornet, and F. Thieuleux   P1.83 Challenging cloud physicists   Roland List, Prof. Roland List, Toronto, ON, Canada   P1.84 The fractal dimension of ice cloud particles and particle ensembles for the determination of mass dimensional relationships   Carl G. Schmitt, NCAR, Boulder, CO; and A. Heymsfield   P1.85 A numerical study on the riming process in the transition from a pristine crystal to a graupel particle   Tempei Hashino, Univ. of Wisconsin, Madison, WI; and M. Chiruta and P. K. Wang   P1.86 Ice Particle Growth Rates Under Conditions of the Upper Troposphere   Harold Peterson, NASA/MSFC, Huntsville, AL; and M. Bailey and J. Hallett   P1.87 A New Understanding of Raindrop Shape   Kenneth V. Beard, University of Illinois, Urbana, IL
Tuesday, 29 June 2010
	8:30 AM-10:00 AM, Tuesday, Cascade Ballroom Session 5 Turbulence and Entrainment
Chairs: Wojciech W. Grabowski, NCAR, Boulder, CO; Steven K. Krueger, University of Utah, Salt Lake City, UT
8:30 AM 5.1 High-resolution hybrid direct numerical simulation of turbulent collision of cloud droplets   Recorded presentation Lian-Ping Wang, University of Delaware, Newark, DE; and B. Rosa, H. Parishani, O. Ayala, and W. W. Grabowski 8:45 AM 5.2 The Effect of Turbulence on Cloud Microstructure, Precipitation Formation and the Organisation of Stratocumulus and Shallow Cumulus Convection   Recorded presentation Charmaine N. Franklin, CSIRO, Aspendale, Victoria, Australia 9:00 AM 5.3 The rate of collisions of small cloud droplets in turbulent flows   Recorded presentation Alessandra Sabina Lanotte, Institute of Atmospheric Sciences and Climate, Rome, Italy; and J. Bec, L. Biferale, M. Cencini, and F. Toschi 9:15 AM 5.4 Enhancement of coalescence due to droplet inertia in turbulent clouds   Recorded presentation Steven K. Krueger, University of Utah, Salt Lake City, UT; and A. R. Kerstein 9:30 AM 5.5 An analysis of entrainment mixing processes in warm cumulus   Recorded presentation Jennifer D. Small, JPL, Pasadena, CA; and P. Y. Chuang and P. Y. Chuang 9:45 AM 5.6 The effect of turbulence on mixed phase clouds: LES experiments   Recorded presentation Adrian Hill, UK Meteorological Office, FitzRoy Road, United Kingdom; and P. R. Field
	10:00 AM-10:30 AM, Tuesday, Exhibit Hall Coffee Break
	10:30 AM-11:45 AM, Tuesday, Cascade Ballroom Session 6 Shallow convective clouds
Chairs: Hailong Wang, PNNL, Richland, WA; Jennifer L. Bewley, Purdue University, West Lafayette, IN
10:30 AM 6.1 Development and implementation of a turbulence-based parametrization of moist convection   Recorded presentation Ben Shipway, Met Office, Exeter, United Kingdom; and R. Stratton, A. Stirling, M. Willett, R. Wong, and S. Derbyshire 10:45 AM 6.2 Simulation of boundary layer clouds with double-moment microphysics and microphysics-oriented subgrid-scale modeling   Recorded presentation Dorota Jarecka, University of Warsaw, Warsaw, Poland; and W. W. Grabowski, H. Morrison, H. Pawlowska, J. Slawinska, and A. A. Wyszogrodzki 11:00 AM 6.3 Overlap statistics of cumuliform cloud fields in large-eddy simulations   Recorded presentation Roel A. J. Neggers, KNMI, De Bilt, Netherlands; and A. P. Siebesma and T. Heus 11:15 AM 6.4 The influence of aerosol particle number and hygroscopicity on the evolution of convective cloud systems and their precipitation: a numerical study based on the COPS observations on 12 and 13 August 2007   Recorded presentation Wolfram Wobrock, University Blaise Pascal/CNRS, Aubière, France; and A. I. Flossmann and C. Planche 11:30 AM 6.5 What controls precipitation in shallow cumulus clouds?   Recorded presentation Hongli Jiang, NOAA/CIRA/ESRL, Boulder, CO; and G. Feingold and A. Sorooshian
	12:00 PM-1:15 PM, Tuesday, Cascade Ballroom Joint Session 1 Walter Orr Roberts Lecture (Cash and Carry will be available for purchase) (Joint between the 13th Conference on Cloud Physics and the 13th Conference on Atmospheric Radiation)
Lecturer: Edward Zipser, University of Utah, Salt Lake City, UT
12:00 PM The importance of doing field campaigns right: A half-century oflessons learned in the real world. Ed Zipser   Recorded presentation
	1:30 PM-3:00 PM, Tuesday, Cascade Ballroom Joint Session 2 Optical and Radiative Properties of Clouds (Joint between the 13th Conference on Atmospheric Radiation and the 13th Conference on Cloud Physics)
Chair: Ping Yang, Texas A&M Univ., College Station, TX
1:30 PM J2.1 Relationship between optical properties and ice crystal shapes in mid-latitude cirrus clouds from the polar nephelometer and cloud particle imager instruments   Recorded presentation Jean Francois Gayet, Universite Blaise Pascal, Aubiere, France; and G. Mioche, V. Shcherbakov, C. Gourbeyre, R. Busen, and A. Minikin 1:45 PM J2.2 The impacts of small ice crystal shape and concentration on the bulk scattering properties of tropical cirrus   Recorded presentation Junshik Um, Univ. of Illinois, Urbana, IL; and G. M. McFarquhar 2:00 PM J2.3 Improvements in the Derivation of Bulk Scattering Properties for Ice Clouds at Visible Through Far-Infrared Wavelengths   Recorded presentation Bryan Baum, Space Science and Engineering Center, Madison, WI; and P. Yang and A. J. Heymsfield 2:15 PM J2.4 Cloud optical thickness and liquid water path. Does the k coefficient vary with droplet concentration?   Jean Louis Brenguier, Meteo-France, Toulouse, France; and F. Burnet and O. Geoffroy 2:30 PM J2.5 Radiative impacts of clouds in the tropical tropopause layer   Qiong Yang, University of Washington, Seattle, WA; and Q. Fu and Y. Hu 2:45 PM J2.6 Evaluating ice formation processes in tropical anvils using CRM-based simulations of MODIS and POLDER radiance and polarization measurements   Recorded presentation Bastiaan van Diedenhoven, Columbia University, New York, NY; and A. M. Fridlind and A. S. Ackerman
	3:00 PM-3:30 PM, Tuesday, Exhibit Hall Coffee Break
	3:30 PM-5:30 PM, Tuesday, Cascade Ballroom Joint Session 3 Passive Remote Sensing of Clouds (Joint between the 13th Conference on Atmospheric Radiation and the 13th Conference on Cloud Physics)
Chair: James A. Coakley, Jr., Oregon State University, Corvallis, OR
3:30 PM J3.1 Cirrus spatial heterogeneity and ice crystal shape: Effects on remote sensing of cirrus optical thickness and effective crystal radius   Recorded presentation Heike Eichler, University of Mainz, Mainz, Germany; and K. S. Schmidt, R. Buras, M. Wendisch, B. Mayer, C. Emde, P. Pilewskie, M. D. King, L. Tian, G. M. Heymsfield, and S. Platnick 3:45 PM J3.2 Detecting ice in Arctic mixed-phase clouds by airborne spectral reflectivity measurements   Recorded presentation André Ehrlich, University Leipzig, Leipzig, Saxony, Germany; and M. Wendisch, E. Bierwirth, J. F. Gayet, G. Mioche, A. Lampert, and B. Mayer 4:00 PM J3.3 A Climatology of the Phase of Southern Ocean Clouds based on MODIS Imagery   Recorded presentation Steven T. Siems, Monash University, Monash, Victoria, Australia; and A. E. Morrison and M. J. Manton 4:15 PM J3.4 Cloud-top height fluctuations observed by MISR   Roger Davies, University of Auckland, Auckland, New Zealand; and M. Molloy 4:30 PM J3.5 Implications of MODIS/in situ microphysical comparisons for southeast Pacific stratocumulus   David A. Painemal, University of Miami, Miami, FL; and P. Zuidema 4:45 PM J3.6 Three-dimensional cloud structure observed during DOE ARM's 2009 cloud tomography field experiment   Recorded presentation Dong Huang, Brookhaven National Laboratory, Upton, NY; and A. Gasiewski, M. P. Cadeddu, and W. Wiscombe 5:00 PM J3.7 Cloud ice and water vapor profile retrievals with submillimeter-wave radiometry   Recorded presentation K. Franklin Evans, Univ. of Colorado, Boulder, CO; and J. R. Wang, D. O. Starr, and G. M. Heymsfield 5:15 PM J3.8 Passive determination of cloud physical thickness and droplet number concentration   Recorded presentation Brian Cairns, NASA/GISS, New York, NY; and K. D. Knobelspiesse and M. Alexandrov
Wednesday, 30 June 2010
	8:30 AM-10:00 AM, Wednesday, Cascade Ballroom Session 7 Deep Convective Clouds
Chairs: Xiquan Dong, University of North Dakota, Grand Forks, ND; Alan M. Blyth, Univ. of Leeds, Leeds United Kingdom
8:30 AM 7.1 Diagnosing cloud physical and dynamical processes atop thunderstorms using satellite observational data   Recorded presentation Pao K. Wang, Univ. if Wisconsin, Madison, WI 8:45 AM 7.2 Investigation of Anvil Cloud Properties Associated with Mid Latitude Deep Convection by using Integrated Ground Radar and Satellite Observations   Recorded presentation Zhe Feng, University of North Dakota, Grand Forks, ND; and D. Xiquan, X. Baike, P. Minnis, and M. Khaiyer 9:00 AM 7.3 Aircraft Observations of Rapidly Developing Wintertime Convective Clouds over the Bristol Channel, UK   Recorded presentation Keith N. Bower, Univ. of Manchester, Manchester, United Kingdom; and T. W. Choularton, J. Crosier, I. Crawford, J. Dorsey, P. Connolly, M. W. Gallagher, G. L. Capes, A. M. Blyth, and Z. Cui 9:15 AM 7.4 In-situ ice particle measurements in the UT/LS and in mesoscale convective system outflows during the West-African Monsoon   Wiebke Frey, Max Planck Institute for Chemistry, Mainz, Germany; and S. Borrmann, D. Kunkel, R. Weigel, H. Schlager, A. Ulanovsky, C. Schiller, N. M. Sitnikov, F. Ravegnani, C. M. Volk, G. N. Shur, G. V. Belyaev, S. Viciani, C. Voigt, K. S. Law, and F. Cairo 9:30 AM 7.5 Results of a cloud-resolving model intercomparison study based on the TWP-ICE field campaign   Recorded presentation Ann M. Fridlind, NASA, New York, NY; and A. S. Ackerman, J. P. Chaboureau, J. Fan, W. W. Grabowski, A. Hill, T. Jones, H. Morrison, S. Park, J. P. Pinty, and X. Wu 9:45 AM 7.6 Aerosol impacts on tropical cyclones   Recorded presentation William R. Cotton, Department of Atmospheric Science, Colorado State University, Fort Collins, CO; and G. Carrió and S. Herbener
	10:00 AM-10:30 AM, Wednesday, Exhibit Hall Coffee Break
	10:30 AM-12:15 PM, Wednesday, Cascade Ballroom Session 8 Cirrus Clouds
Chairs: David O'C. Starr, NASA/GSFC, Greenbelt, MD; Andrew J. Heymsfield, NCAR, Boulder, CO
10:30 AM 8.1 Current Homogeneous Freezing Formulations Overestimate Ice Formation   Recorded presentation O. Möhler, Karlsruhe Institute of Technology, Karlsruhe, Germany; and S. Benz, H. Saathoff, M. Schnaiter, and R. Wagner 10:45 AM 8.2 Measurement of growth and density of dendrite crystals   Recorded presentation John Hallett, DRI, Reno, NV; and B. W. Garner 8.3 Kelvin-Helmholtz waves within gravity-wave induced lenticular clouds   Brad A. Baker, SPEC Incorporated, Boulder, CO; and P. Lawson and I. Blade 11:00 AM 8.3A Understanding cirrus cloud behavior using observations from A-Train and geostationary satellite and NCEP/NCAR reanalysis data   Elizabeth J. Dupont, University of Utah, Salt Lake City, UT; and G. G. Mace 11:15 AM 8.4 Microphysical Variability of Cirrus in Tropical Storm Outflow   Recorded presentation Martin W. Gallagher, University of Manchester, Manchester, United Kingdom; and P. J. Connolly, K. N. Bower, T. W. Choularton, J. Crosier, M. J. Flynn, G. Allen, G. Vaughan, and J. Hacker 11:30 AM 8.5 Results from SPartICus (Small Particles in Cirrus) project   Recorded presentation R. Paul Lawson, SPEC Inc, Boulder, CO; and G. G. Mace, J. M. Comstock, E. J. Jensen, B. A. Baker, A. Chaturvedi, and Q. Mo 11:45 AM 8.6 Impact of wind shear and radiatively-driven convection on tropical tropopause layer cirrus structure, microphysical properties, and evolution   Recorded presentation Eric J. Jensen, NASA/Ames Research Center, Moffett Field, CA; and J. M. Comstock and M. J. McGill 12:00 PM 8.7 Representing the ice fall speed in climate models using measurements from recent field campaigns   Recorded presentation David L. Mitchell, DRI, Reno, NV; and S. Mishra, B. Baker, Q. Mo, and P. Lawson
	12:15 PM-1:30 PM, Wednesday Lunch
	1:30 PM-3:00 PM, Wednesday, Cascade Ballroom Joint Session 4 Active Remote Sensing of Clouds (Joint between the 13th Conference on Atmospheric Radiation and the 13th Conference on Cloud Physics)
Chair: Andreas Macke, Leibniz Institute for Tropospheric Research, Leipzig Germany
1:30 PM J4.1 A technique for the meausrement of ice fluxes from the base of mixed-phase Arctic clouds   Recorded presentation E. W. Eloranta, University of Wisconsin, Madison, WI 1:45 PM J4.2 Cloud retrievals exploiting multiply scattered lidar returns   Recorded presentation Nicola L. Pounder, University of Reading, Reading, United Kingdom; and R. J. Hogan and T. Várnai 2:00 PM J4.3 Phase Determination in Tropical Mid-level Clouds   Recorded presentation Laura Riihimaki, PNNL, Richland, WA; and S. McFarlane and J. Comstock 2:15 PM J4.4 Spatial correlation of cloud occurrence and reflectivity from CloudSat   Recorded presentation Roger T. Marchand, JISAO/Univ. of Washington, Seattle, wa 2:30 PM J4.5 Assessment of ground-based remotely sensed liquid water cloud properties based on radiation observations   C. L. Brandau, Delft University of Technology, Delft, Netherlands; and S. Placidi, W. H. Knap, and H. W. J. Russchenberg 2:45 PM J4.6 Airborne Radar Observation of A Major Winter Storm: Use of Dual-frequency and Polarimetric Measurements in Studies Cloud Structures and Processes   Recorded presentation Mengistu Wolde, National Research Council Canada, Ottawa, ON, Canada; and D. Hudak, A. V. Korolev, and J. W. Strapp
	3:00 PM-3:30 PM, Wednesday, Exhibit Hall Coffee Break
	3:30 PM-5:00 PM, Wednesday, Cascade Ballroom Joint Session 5 Multi-Instrument/Platform Remote sensing of clouds (Joint between the 13th Conference on Atmospheric Radiation and the 13th Conference on Cloud Physics)
Chair: Seiji Kato, NASA/LaRC, Hampton, VA
3:30 PM J5.1 Detecting the ratio of rain and cloud water in low-latitude shallow marine clouds   Recorded presentation Matthew Lebsock, Colorado State University, Fort Collins, CO; and T. L'Ecuyer and G. Stephens 3:45 PM J5.2 Documentation of cloud characteristics inferred from ground and satellite measurements within west Africa   Recorded presentation Dominique Bouniol, CNRS/Météo-France, Toulouse, France; and F. Couvreux, F. Guichard, and E. J. O'Connor 4:00 PM J5.3 A comparison between four different retrieval methods for ice cloud properties using data from the CloudSat, CALIPSO, and MODIS satellites   Recorded presentation Thorwald Hendrik Matthias Stein, University of Reading, Reading, United Kingdom; and J. Delanoë and R. J. Hogan 4:15 PM J5.4 ARM Climate Research Facility: New remote sensing capabilities for clouds, aerosols, and precipitation   Recorded presentation James Mather, PNNL, Richland, WA 4:30 PM J5.5 A global view of the plane-parallel nature of oceanic water clouds through MISR and MODIS fusion   Recorded presentation Larry Di Girolamo, University of Illinois, Urbana, IL; and L. Liang and S. Platnick 4:45 PM J5.6 NASA's Aerosol-Cloud-Ecosystems (ACE) Mission: Science Goals and Implementation   Recorded presentation David O'C. Starr, NASA, Greenbelt, MD
	5:30 PM-8:30 PM, Wednesday, Exhibit Hall Formal Poster Viewing with Reception
	5:30 PM-8:30 PM, Wednesday, Exhibit Hall Joint Poster Session 2 Optical and Radiative Properties of Clouds Posters (Joint between the 13th Conference on Atmospheric Radiation and the 13th Conference on Cloud Physics)
JP2.1 Determination of ice cloud models using MISR and MODIS measurements   Yu Xie, Texas A&M University, College Station, TX; and P. Yang, P. Minnis, and Y. Hu   JP2.2 Computation of the Optical Properties of Preferably Oriented Ice Crystals from a Combination of the Discrete-Dipole-Approximation and Physical-geometric Optics Hybrid Methods   Lei Bi, Texas A&M University, College Station, TX; and P. Yang and G. W. Kattawar   JP2.3 Collocated measurements of boundary-layer cloud microphysical and radiative properties and comparison with satellite retrievals   Evelyn Jäkel, Johannes Gutenberg University, Mainz, Germany; and F. Henrich, H. Siebert, R. A. Shaw, and M. Wendisch   JP2.4 Sensitivity study of the global contrails radiative forcing and crystals optical properties due to particle shape   Krzysztof M. Markowicz, University of Warsaw, Warsaw, Poland; and M. Witek   JP2.5 The CERES cloud retrievals formatted into an ISCCP D2like product   Moguo Sun, SSAI, Hampton, VA; and D. R. Doelling, R. I. Raju, and L. T. C. Nguyen   JP2.6 Radiative properties of persistent contrails   Ruben Rodriguez De Leon, Manchester Metropolitan University, Manchester, Lancashire, United Kingdom; and M. Kraemer, D. S. Lee, and J. C. Thelen JP2.7 Theoretical studies of the optical scattering and absorption properties of fractal aggregates generated from combustion sources   Charles D. Litton, National Institute for Occupational Safety and Health, Pittsburgh, PA; and E. I. Perera   JP2.8 Optical Parameters of extended Cloud from Airborne Observation   Irina Melnikova, Russian State Hydrometeorological University, St.Petersburg, Russia; and C. K. Gatebe and G. M. Jefwa   JP2.9 Two new algorithms to combine kriging with stochastic modelling   Victor Venema, Univ. of Bonn, Bonn, Germany; and R. Lindau, T. Varnai, and C. Simmer   JP2.10 Development of a ballistic photon transport model that explicitly resolves cloud microstructure   Michael L. Larsen, University of Nebraska, Kearney, NE; and A. Clark JP2.11 Experimental studies of the structure and optical scattering/absorption properties of aerosols generated from combustion sources   Eranda I. Perera, National Institute for Occupational Safety and Health, Pittsburgh, PA; and C. D. Litton   JP2.12 In-cloud activation and mixing in Large Eddy Simulations of trade-wind cumulus   Joanna Slawinska, University of Warsaw, Warsaw, Poland; and W. W. Grabowski, H. Morrison, and H. Pawlowska   JP2.13 Impacts of the cloudiness formula in weather and climate prediction   Suryun Ham, Dept. of Atmospheric Science, Seoul, South Korea; and K. S. S. Lim and S. Y. Hong   JP2.14 Quantifying Relationship between Cloud Radiative Forcing, Cloud fraction and Cloud Albedo, and Their Multiscale Variations   Yangang Liu, Brookhaven National Laboratory, Upton, NY; and W. Wu   JP2.15 Microphysical properties of clouds over Eureka, Canada between 2006 and 2009   Chris Cox, University of Idaho, Moscow, ID; and D. D. Turner, V. Walden, P. Rowe, and M. Shupe   JP2.16 Comparison of Longwave Atmospheric Fluxes and Cloud Radiative Forcing over Barrow, Alaska and Eureka, Nunavut   Chris Cox, University of Idaho, Moscow, ID; and V. Walden and P. Rowe   JP2.17 The Spectral Shape of Shortwave Cloud Albedo and Apparent Absorption   K. Sebastian Schmidt, Colorado Univ., Boulder, CO; and P. Pilewskie and B. Kindel
	5:30 PM-8:30 PM, Wednesday, Exhibit Hall Joint Poster Session 3 Joint Indirect Effects: Posters (Joint between the 13th Conference on Cloud Physics and the 13th Conference on Atmospheric Radiation)
JP3.1 The Analysis of Physical Feature of Aerosol Particles in Autumn over Shijiazhuang Area   Yuwen Sun Sr., Hebei Meteorological Society, Shijiazhuang, Hebei, China; and L. Shi, Y. Sun, and X. Sun   JP3.1A Vertical distributions of cumulus cloud microphysical properties and their effects on shortwave radiative forcing   Huiwen Xue, Peking University, Beijing, China; and S. Zhang and G. Feingold JP3.2 PAPER WITHDRAWN   JP3.3 Study on characteristics of aerosol and CCN in North China based on ground measurement   Jing Duan, Chinese Academy of Meteorological Sciences, Beijing, China; and J. T. Mao, Y. Duan, and Y. Chen   JP3.4 A review of our understanding of the aerosol—cloud interaction from the perspective of a bin resolved cloud scale modelling   Andrea I. Flossmann Sr., University Blaise Pascal/CNRS, Aubière, France; and W. Wobrock   JP3.5 Strong Long-term Net Impacts of Aerosols on Cloud and Precipitation   Zhanqing Li, University of Maryland, College Park, MD; and F. Niu, D. Rosenfeld, Y. Liu, and J. Fan   JP3.6 The effect of biomass burning aerosols on precipitation and cloud properties in Australia   Jennifer D. Small, JPL, Pasadena, CA; and J. H. Jiang   JP3.7 Cloud base aerosol characteristics and implications for cloud microphysics in southeast Queensland   Sarah Tessendorf, NCAR, Boulder, CO; and C. Weeks, R. T. Bruintjes, and D. Axisa   JP3.8 Examining the Impact of Smoke Aerosol on Clouds and Precipitation using a Regional Model WRF-Chem-SMOKE and A-Train Data: A Case Study of Canadian Boreal Forest Wildfires in Summer 2007   Zheng Lu, Georgia Institute of Technology, Atlanta, GA; and I. N. Sokolik   JP3.9 The possible effects of aerosol and moisture on cloud and precipitation over the Korea peninsula   Hwan-Jin Song, Seoul National University, Seoul, South Korea; and B. J. Sohn   JP3.10 Third PAllas Cloud Experiment (PACE III): campaign description   K.A. Neitola, Finnish Meteorological Institute, Helsinki, Finland; and A. P. Hyvärinen, M. Komppula, P. Miettinen, J. Spiegel, B. Noziére, S. Ekström, D. Brus, E. Asmi, N. Kivekäs, A. Leskinen, H. Portin, A. Jaatinen, L. Hao, A. Kortelainen, S. Romakkaniemi, T. Anttila, Y. Viisanen, and H. Lihavainen   Poster JP3.11 has been moved. New paper number J7.2A     JP3.12 Aerosol impacts on wintertime orographic precipitation   William R. Cotton, Colorado State University, Fort Collins, CO; and D. Ward and S. Saleeby   JP3.13 Aerosol Pollution Impacts over an Urban Complex   Gustavo Carrió, Colorado State University, Fort Collins, CO; and W. R. Cotton   JP3.14 Aerosol effects on the development of deep convective clouds using a detailed CRM   Zachary J. Lebo, California Institute of Technology, Pasadena, CA; and Y. C. Chen and J. H. Seinfeld   JP3.15 Sensitivity of Ensemble Simulations of Idealized Tropical Cyclones to Variations in Saharan Dust Concentrations   R. J. Maliawco, University of Illinois, Urbana, IL; and G. M. McFarquhar and B. F. Jewett   JP3.16 Observing aerosol impacts on tropical deep convective clouds   Rachel L. Storer, Colorado State University, Fort Collins, CO; and S. C. van den Heever and T. L'Ecuyer   JP3.17 Impact of varying CCN concentration on the precipitation process in a simulated convective storm   Conrad L. Ziegler, NOAA/NSSL, Norman, OK ; and E. R. Mansell and E. C. Bruning   JP3.18 The impact of aerosols on the development of a supercell storm   Kyo-Sun Sunny Lim, Yonsei University, Seoul, South Korea; and S. Y. Hong, S. S. Yum, J. Dudhia, and J. B. Klemp   JP3.19 Field Studies of the Effect of Anthropogenic Aerosols on Ice Nucleation   Daniel J. Cziczo, PNNL, Richland, WA; and G. Kulkarni, M. Pekour, K. Pratt, P. J. DeMott, A. J. Prenni, S. Gallavardin, and U. Lohmann
	5:30 PM-8:30 PM, Wednesday, Exhibit Hall Poster Session 2 Cloud Physics Poster Session II
Chair: Greg McFarquhar, Univ. of Illinois, Urbana, IL
P2.1 The impact of surface forcing conditions on Arctic cloud-aerosol interactions   Amy B. Solomon, CIRES/NOAA/ESRL/PSD, Boulder, CO; and M. Shupe and P. O. G. Persson   P2.2 Airborne estimates of precipitation during the Mixed-Phase Arctic Cloud Experiment   Andrea J. Neumann, University of North Dakota, Grand Forks, ND; and M. R. Poellot, G. M. McFarquhar, and G. Zhang   P2.3 In-situ observation of Arctic mixed phase clouds during the ISDAC flight campaign   Alexei Korolev, Environment Canada, Downsview, ON, Canada; and G. McFarquhar, S. J. Ghan, J. W. Strapp, M. Wolde, J. Verlinde, B. Schmid, P. Liu, M. Ovchinnikov, and S. D. Brooks   P2.4 A Comparison of Cirrus Microphysics from two Arctic field experiments – MPACE and ISDAC   Subhashree Mishra, DRI, Reno, NV; and D. L. Mitchell   P2.5 Ice microphysics and aerosol indirect effects based on in-situ observations collected during the ISDAC field project   Ismail Gultepe, Environment Canada, Toronto, ON, Canada; and G. A. Isaac, F. S. Boudala, N. Shantz, and P. Liu   P2.6 Characteristics of orographic cloud and precipitation in the Arctic during STAR   Shannon Elizabeth Fargey, University of Manitoba, Winnipeg, MB, Canada; and J. Hanesiak, R. Martin, J. W. Strapp, and M. Wolde   P2.7 Water-ice partition in the Arctic mixed-phase clouds Based on Long-term ARCF Observations   Ming Zhao, University of Wyoming, Laramie, WY; and Z. Wang   P2.8 Effects of Ice Nucleation and Crystal Habits on the Dynamics of Arctic Mixed Phase Clouds   Muge Komurcu, Penn State University, University Park, PA; and J. Harrington   P2.10 An investigation of ice formation in mixed-phase Arctic boundary layer clouds observed on 7 May 1998 during SHEBA   Ann M. Fridlind, NASA, New York, NY; and A. S. Ackerman, B. van Diedenhoven, A. Avramov, P. Zuidema, H. Morrison, and M. Shupe P2.9 Large Eddy Simulations of summertime Arctic stratus during ASCOS   Thomas D. Pleavin, Univ. of Leeds, Leeds, United Kingdom; and I. M. Brooks, S. Dobbie, M. Shupe, O. Persson, and M. Tjernstrom   P2.11 Intercomparison of cloud model simulations of Arctic mixed-phase boundary layer stratus observed during SHEBA   Hugh Morrison, NCAR, Boulder, CO; and P. Zuidema, A. S. Ackerman, A. Avramov, G. de Boer, J. Fan, A. M. Fridlind, T. Hashino, J. Y. Harrington, Y. Luo, M. Ovchinnikov, B. Shipway, and B. van Diedenhoven   P2.12 Possible sufficiency of conventional ice nucleation mechanisms in a case study of arctic stratus: April 8th during ISDAC   Alexander Avramov, Columbia University, New York, NY; and A. S. Ackerman, A. M. Fridlind, B. van Diedenhoven, A. V. Korolev, J. W. Strapp, G. M. McFarquhar, R. Jackson, S. D. Brooks, and A. Glen   P2.14 The Study on Macro-microphysical Characteristics of Stratiform Clouds over North China   Ying Duan, Weather Modification Office of Hebei Province, Shijiazhuang,China, China; and Z. Wu and L. Shi   P2.15 A study on the structure and precipitation processes of precipitating stratiform clouds associated with a westerly trough   Tuanjie Hou, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, China; and H. Lei and Z. Hu P2.13 PAPER WITHDRAWN     P2.16 Relationships between marine boundary layer clouds and meteorological factors   Hideaki Kawai, Japan Meteorological Agency, Tokyo, Japan   P2.17 RACORO long-term, systematic aircraft observations of boundary layer clouds   Andrew M. Vogelmann, Brookhaven National Laboratory, Upton, NY; and G. McFarquhar, J. Ogren, D. D. Turner, J. M. Comstock, G. Feingold, C. N. Long, H. H. Jonsson, A. Bucholtz, D. R. Collins, G. Diskin, H. Gerber, R. P. Lawson, R. K. Woods, J. Hubbe, J. Tomlinson, and B. Schmid   P2.18 Vertical profiles of CCN concentrations and microphysical structures of shallow warm clouds in western Japan   Masataka Murakami, MRI, Tsukuba,Ibaraki,, Japan; and N. Orikasa, A. Saito, K. Yamashita, and H. Ohtake   P2.19 Enhanced ice generation and suppressed drizzle formation by dust particles in stratiform clouds observed from CALIPSO and CloudSat measurements   Damao Zhang, University of Wyoming, Laramie, WY; and Z. Wang and D. Liu   P2.20 Observations of Ice in Maritime Stratiform Clouds from CALIOP/MODIS Observations   Robert E. Holz, CIMSS/Univ. of Wisconsin, Madison, WI; and S. Ackerman and R. Kuehn   P2.21 Small-scale variability of temperature and LWC at Stratocumulus top   Szymon P. Malinowski, University of Warsaw, Warsaw, Poland; and K. E. Haman, M. Kopec, W. Kumala, H. Gerber, and S. K. Krueger   P2.22 Wind shear and thermodynamic characteristics near the stratocumulus cloud top   Qing Wang, Naval Postgraduate School, Monterey, CA; and M. Zhou, D. H. Lenschow, C. Dai, and S. Wang   P2.23 Physics of stratocumulus top (POST) project results and analysis of the thermodynamic and microphysical processes within the entrainment interface layer   Jerome K. Carman, Univ. of California, Santa Cruz, CA; and D. L. Rossiter and P. Y. Chuang   P2.24 Stratus microphysics correlations   Vandana Jha, DRI, Reno, NV; and S. Noble and J. G. Hudson   P2.25 Airborne turbulence measurements in the stratocumulus-topped marine boundary layer   Djamal Khelif, Univ. of California, Irvine, CA; and C. A. Friehe   P2.26 A Large-Eddy Smulation Study of Observed Stratocumulus Clods Under Weak Inversion during POST   Shouping Wang, NRL, Monterey, CA; and Q. Wang and A. Bucholtz   P2.27 Observations of Size-resolved Drizzle Rates and Radar Reflectivity in Marine Stratocumulus   Dione L. Rossiter, Univ. of California, Santa Cruz, CA; and J. D. Small and P. Y. Chuang   P2.28 The detection and properties of drizzle onset in marine stratus clouds using Doppler cloud radar observations in the Azores   Edward P. Luke, Brookhaven National Laboratory, Upton, NY; and P. Kollias   P2.29 Aerosol-Cloud Relationships in Marine Stratocumulus   Yi-Chun Chen, California Institute of Technology, Pasadena, CA; and Z. J. Lebo and J. H. Seinfeld   P2.30 Impact of radiative cooling and subgrid-scale mixing on the evolution of stratocumulus-topped boundary layer   Marcin J. Kurowski, Institute of Meteorology and Water Management, Warsaw, Poland; and W. W. Grabowski and S. P. Malinowski   P2.31 An LES model study of marine stratocumulus-topped boundary layer evolution-CCN impacts, diurnal contrasts and thermodynamic differences   Keunyong Song, Yonsei university, Seoul, South Korea; and S. S. Yum   P2.32 What can a regional climate model tell us about the long term climatology of marine stratocumulus off California's coast?   Travs Allen O'Brien, University of California, Santa Cruz, Santa Cruz, CA; and L. C. Sloan and P. Y. Chuang   P2.33 An aircraft case study of the spatial transition from closed to open mesoscale cellular convection   Robert Wood, University of Washington, Seattle, WA; and C. Bretherton, D. Leon, A. Clarke, P. Zuidema, G. Allen, and H. Coe   P2.34 Aerosol physics, chemistry and cloud condensation nuclei at the ocean surface, VOCALS-REx 2008   David S. Covert, Univ. of Washington, Seattle, WA; and L. N. Hawkins, L. M. Russell, D. J. Coffman, P. K. Quinn, and T. S. Bates   P2.35 Albedo, albedo susceptibility, and cloud-aerosol interactions in the Southeast Pacific stratocmulus deck   David A. Painemal, University of Miami, Miami, FL; and P. Zuidema   P2.36 Drizzle in marine stratocumulus over the south eastern Pacific: measurement and role of mesoscale organization   David Leon, Univ. of Wyoming, Laramie, WY; and J. R. Snider and P. Zuidema   P2.37 Characterizing cold pools underneath marine stratocumulus using data from VOCALS REx   Christopher R. Terai, University of Washington, Seattle, WA; and R. Wood   P2.38 Cloud microphysical characteristics of the entrainment-mixing processes in the marine stratocumulus clouds observed during the VOCALS project   Seoungchel Lee, Yonsei University, Seoul, South Korea; and S. S. Yum, J. Wang, P. H. Daum, G. Senum, and S. Springston   P2.39 Observations of decoupled boundary layers in the south eastern Pacific during VOCALS using aircraft, ship and model data   Paul A. Barrett, The Met Office, Exeter, United Kingdom   P2.40 Analysis of microphysical data during aircraft cross over events in VOCALs   Ben Parkes, University of Leeds, Leeds, United Kingdom; and A. Gadian, A. Blyth, and J. Latham   P2.41 Aerosol and liquid water path relationships in coastal non-drizzling marine stratocumulus over the subtropical southeastern Pacific   Xue Zheng, Univ. of Miami/RSMAS, Miami, FL; and B. A. Albrecht, P. Minnis, and J. K. Ayers   P2.42 Principle component analysis of marine stratocumulus drizzle and other in situ observations   Mikael K. Witte, Univ. of California, Santa Cruz, CA; and D. L. Rossiter and P. Y. Chuang   P2.43 When do stratocumulus clouds drizzle?   S. P. de Szoeke, Oregon State University, Corvallis, OR; and S. E. Yuter   P2.44 Numerical simulation of pockets of open cells formation in the South-east Pacific during VOCALS-Rex   Andreas Muhlbauer, JISAO/Univ. of Washington, Seattle, WA; and R. Wood   P2.45 Modelling marine stratocumulus and its radiative properties   Peter Anthony Cook, University of Manchester, Manchester, Lancashire, United Kingdom; and P. Connolly, C. Dearden, G. Allen, J. Dorsey, I. Crawford, J. Crosier, H. Ricketts, H. Coe, and A. Hill   P2.46 Aerosol sources and marine stratocumulus during VOCALS-REx in a WRF/Chem Large Eddy Simulation   Jan Kazil, NOAA/ESRL, Boulder, CO; and H. Wang and G. Feingold   P2.47 Cloud Resolving Simulation of Subtropical Low Clouds and Comparison with Cloud Object Data from CERES   Anning Cheng, SSAI, Inc., Hampton, VA; and K. M. Xu   P2.48 Modeling precipitation and cloud cellular structures in marine stratocumulus over the Southeast Pacific   Hailong Wang, PNNL, Richland, WA; and G. Feingold, R. Wood, and J. Kazil   P2.49 Numerical modelling of the cloud-aerosol interactions for VOCALS   Miroslaw Andrejczuk, University of Leeds, Leeds, United Kingdom; and A. Gadian and A. Blyth   P2.50 Evaluation of stratocumulus cloud prediction in the Met Office forecast model during VOCALS-REx   Steven J. Abel, Met Office, Exeter, United Kingdom; and D. Walters, J. Mulcahy, and G. Allen   P2.51 Phase composition of cumulus clouds in the Camagüey meteorological site   Carlos Alberto Pérez-Sánchez Sr., Camagüey Meteorological Center, Camagüey, Cuba; and D. Martinez-Castro, V. V. Petrov, I. Pomares-Ponce, B. P. Koloskov, and F. Gamboa-Romero   P2.52 Drizzle Rates and Giant Sea-Salt Nuclei in Small Cumulus   H. Gerber, Gerber Scientific, Reston, VA; and G. Frick   P2.53 Observations of the transition from shallow to deep convection during CuPIDO 2006   Joseph A. Zehnder, Creighton University, Omaha, NE; and T. M. Nendick   P2.54 Observations of the impact of orographic cumulus clouds on the ambient flow   Yonggang Wang, University of Wyoming, Laramie, WY; and B. Geerts   P2.55 On the diurnal evolution of continental shallow cumulus clouds   Yunyan Zhang, LLNL, Livermore, CA; and S. Klein   P2.56 Trade wind cloud evolution observed by polarization radar—relationship to aerosol characteristics   Hilary A. Minor, Univ. of Illinois, Urbana, IL; and R. M. Rauber and S. Goeke   P2.57 Regional differences in tropical congestus populations   Sean P. F. Casey, JPL, La Cañada Flintridge, CA; and E. Fetzer and Q. Yue   P2.58 Buoyancy flux statistics and cloud patterns in shallow moist Rayleigh-Benard convection   Joerg Schumacher, Ilmenau University of Technology, Ilmenau, Germany; and O. Pauluis and T. Weidauer   P2.59 On constraining model microphysical processes with RICO observations   Zhujun Li, University of Miami, Miami, FL; and P. Zuidema and B. Shipway   P2.60 Microphysical parameters and precipitation formation in shallow cumulus clouds simulated by the LES explicit microphysics model   Yefim Kogan, CIMMS/Univ. of Oklahoma, Norman, OK   P2.61 The effect of simulated shallow convection in the tropics and extra-tropics   Takuya Komori, Japan Meteorological Agency, Tokyo, Japan   P2.62 Simulation of subtropical precipitating shallow convection with single- and double-moment warm-rain microphysics   Joanna Slawinska, University of Warsaw, Warsaw, Poland; and W. W. Grabowski, A. A. Wyszogrodzki, H. Morrison, and H. Pawlowska   P2.63 Deep Convective Clouds Precipitation Particles Spectrum Distribution Observation and its Characteristic Analysis   Jiangping Pu, PLA University of Science & Technology, Nanjing, Jiangsu Province, China; and G. Zheng and M. Lv   P2.64 Observations of Deep Convective Cloud Properties and their Modifications by Aerosols   Tianle Yuan, NASA/GSFC and UMBC/JCET, Greenbelt, MD; and L. A. Remer, Z. Li, H. Yu, J. V. Martins, and K. E. Pickering   P2.65 Analysis of the Structure Characteristics of Cloud and Precipitation from a Convective Cloud Merger Process   Yuquan Zhou Sr., Chinese Academy of Meteorological Science, Beijing, China; and M. Cai   P2.66 Obtaining number concentrations of activated CCN from vertical profiles of Re in deep convective clouds   Eyal Freud, The Hebrew University of Jerusalem, Jerusalem, Israel; and D. Rosenfeld P2.67 Influence of turbulent parameterization on high resolution numerical modeling of observed tropical convection during NASA TC4 field campaign   Antonio Parodi, CIMA Research Foundation, Savona, Italy; and S. Tanelli   P2.68 Parcel model and cloud resolving three-dimensional simulations of pyro-convective clouds: from CCN activation to precipitation   Philipp Reutter, ETH, Zurich, Switzerland; and H. Su, J. Trentmann, M. Simmel, D. Rose, S. S. Gunthe, A. Seifert, M. Herzog, H. Wernli, M. O. Andreae, and U. Pöschl P2.69 Comparing aerosol and low-level moisture influences on supercell tornadogenesis: idealized simulations   David Lerach, Colorado State University, Fort Collins, CO; and W. R. Cotton   P2.70 Formation Process and Precipitation Mechanism of Embedded Convections in the Cloud System   Yanwei Li Sr., Nanjing University of Information Science and Technology, Nanjing, China, China; and S. Niu   P2.71 Microphysical characterisation of west African MCS anvils   Dominique Bouniol, CNRS/Météo-France, Toulouse, France; and J. Delanoë, C. Duroure, A. Protat, V. Giraud, and G. Penide   P2.72 Analysis of cirrus cloud particle size distributions from Sparticus   Michael C. Schwartz, University of Utah, Salt Lake City, UT; and G. G. Mace, J. M. Comstock, P. Lawson, A. Chaturvedi, and B. A. Baker   P2.73 Measurements of short-lived contrails embedded in thin/subvisible cirrus clouds   Miriam Kübbeler, Research Center, Jülich, Germany; and M. Krämer, M. Hildebrandt, J. Meyer, C. Schiller, A. Minikin, A. Petzold, M. Rautenhaus, H. Schlager, U. Schumann, C. Voigt, P. Spichtinger, and J. F. Gayet   Poster P2.74 has been moved to 8.3A     P2.75 Investigations of Relative Humidity and Cirrus Formation with CloudSat, OSIRIS and ACE   W.F.J. Evans, North West Research Associates, Redmond, WA   P2.76 Two new contrail detection methods for the compilation of a global climatology of contrail occurrence   David P. Duda, SSAI, Hampton, VA; and K. Khlopenkov and P. Minnis   P2.77 The impact of heterogeneous freezing on the microphysical properties and the radiative budget of orographic cirrus clouds   Hanna Joos, ETH, Zurich, Switzerland; and P. Spichtinger and F. Fusina   P2.78 The impact of heterogeneous ice nuclei on cirrus cloud convection   Peter Spichtinger, ETH, Zurich, Switzerland; and H. Joos and F. Fusina   P2.79 The role of heterogeneous freezing in cirrus formation: new model sensitivity studies   Martina Krämer, Forschungszentrum Jülich, Jülich, Germany; and M. Hildebrandt   P2.80 Heterogeneous nucleation of ice particles on glassy aerosols under cirrus conditions   Benjamin J. Murray, Univ. of Leeds, Leeds, United Kingdom; and T. W. Wilson, S. Dobbie, Z. Cui, S. M. R. K. Al-Jumur, O. Möhler, M. Schnaiter, R. Wagner, S. Benz, M. Niemand, H. Saathoff, V. Ebert, S. Wagner, and B. Kärcher   P2.81 Is it radiation or precipitation that drives mammatus cloud development in cirrus anvils?   Timothy J. Garrett, University of Utah, Salt Lake City, UT; and C. T. Schmidt and C. Cornet   P2.82 Global simulations of thin cirrus in the TTL with sectional ice microphysics   Charles G. Bardeen, NCAR, Boulder, CO; and A. Gettelman, E. J. Jensen, A. J. Heymsfield, and J. R. Taylor   P2.83 Simulating convective and stratiform structures observed during the TWP-ICE campaign active monsoon period   Agnieszka A. S. Mrowiec, NASA GISS / Columbia University, New York, NY; and A. M. Fridlind, A. S. Ackerman, J. P. Chaboureau, J. Fan, A. Hill, T. Jones, P. T. May, J. P. Pinty, C. Schumacher, A. C. Varble, and C. R. Williams   P2.84 A study of the interactions between the boundary layer and moist convection combining ARM observations, cloud-resolving and single-column model simulations of TWP-ICE   Catherine Rio, NASA/GISS, New-York, NY; and A. M. Fridlind, A. S. Ackerman, A. A. Smith-Mrowiec, and A. D. Del Genio   P2.85 Heavy Precipitation in Eastern Carpathian and Microphysical Mechanisms of their Formation   Ganna Pirnach, Ukrainian Hydrometeorological Institute, Kyiv, Ukraine; and T. Belyi, V. Shpyg, and S. Dudar   P2.86 Microphysical Processes of a Heavily Precipitating Event in TiMREX   Weixin Xu, University of Utah, Salt Lake City, UT; and E. J. Zipser   P2.87 Further study on the accumulation zones and hail growth in hailstorms   Kailin Zheng, Nanjing University, Nanjing, JiangSu Province, China; and Z. Yang and B. Chen   P2.88 Research on the precipitation micro-physics structure of Typhoon " Morakot "   Lei Chen, Nanjing University of Information Sceince & Technology, Nanjing, China; and B. Chen   P2.89 Enhanced ZDR signature above melting layer   Jelena Andric, CIMMS/Univ. of Oklahoma, Norman, OK; and D. S. Zrnic, J. M. Straka, and V. M. Melnikov   P2.90 Mysteries of the last minutes of rain drops: slopes of maximum radar reflectivity profiles below freezing level in precipitation systems   Chuntao Liu, University of Utah, Salt Lake City, UT; and E. Zipser   Poster P2.91 has been moved. New Poster number P1.85     P2.92 Using Cloud Fraction and Condensate Decorrelation Lengths to Reproduce Cloud Field Statistics   Lazaros Oreopoulos, NASA/GSFC, Greenbelt, MD; and P. Norris   P2.93 Investigating the effects of air-mass history on cloud-aerosol interactions in different cloud regimes using AHSRL, CALIPSO, and trajectory cluster analysis   Richard D. Hildner, University of Wisconsin Madison, Madison, WI; and G. J. Tripoli and E. W. Eloranta   P2.94 Maximum likelihood estimation of gamma parameters for coarsely-binned and left-truncated raindrop size data   Roger W. Johnson, South Dakota School of Mines and Technology, Rapid City, SD; and D. V. Kliche and P. L. Smith
Thursday, 1 July 2010
	8:00 AM-10:00 AM, Thursday, Cascade Ballroom Session 9 VOCALS (VAMOS Ocean-Cloud-Atmosphere-Land Study)
Chairs: H. Gerber, Gerber Scientific, Reston, VA; Graham Feingold, NOAA ESRL/CSD, Boulder, CO
8:00 AM 9.1 Southeast Pacific Stratocumulus Clouds, Precipitation and Boundary Layer Structure Sampled Along 20 S During VOCALS-REx   Recorded presentation Christopher Bretherton, University of Washington, Seattle, WA; and R. Wood, R. George, G. Allen, D. Leon, B. A. Albrecht, and P. Daum 8:15 AM 9.2 Gravity waves as a causal mechanism for transition from closed to open cellular convection in the remote South East Pacific   Recorded presentation Grant Allen, University of Manchester, Manchester, Lancashire, United Kingdom; and G. Vaughan, P. Connolly, P. A. Cook, T. Toniazzo, and H. Coe 8:30 AM 9.3 A VOCALS perspective on precipitation closure   Recorded presentation Paquita Zuidema, Univ. of Miami/RSMAS, Miami, FL; and D. Leon and J. R. Snider 8:45 AM 9.4 Combustion Aerosol, Entrainment and Clouds in the VOCALS Region   Recorded presentation Antony Clarke, University of Hawaii, Honolulu, HI; and J. R. Snider, T. Campos, S. Freitag, V. Brekhovskikh, S. Howell, L. Shank, V. Kapustin, and C. McNaughton 9:00 AM 9.5 Cloud droplet number concentration in VOCALS-REx   Recorded presentation Jefferson R. Snider, University of Wyoming, Laramie, WY; and D. Leon and Z. Wang 9:15 AM 9.6 Aerosol-cloud-drizzle variability in marine stratocumulus over the subtropical southeastern Pacific coastal region   Recorded presentation Bruce Albrecht, Univ. of Miami/RSMAS, Miami, FL; and X. Zheng, G. Feingold, P. Y. Chuang, D. Khelif, H. Jonsson, and D. L. Rossiter 9:30 AM 9.7 Thermodynamic and aerosol controls on eastern Pacific stratocumulus precipitation processes in VOCALS   Recorded presentation David B. Mechem, University of Kansas, Lawrence, KS; and S. E. Yuter and S. P. de Szoeke 9:45 AM 9.8 Cloud chemistry in the SE Pacific during the VOCALS Regional Experiment   Recorded presentation Jeffrey L. Collett Jr., Colorado State University, Fort Collins, CO; and K. Beem and T. Lee
	10:00 AM-10:30 AM, Thursday, Exhibit Hall Coffee Break
	10:30 AM-12:00 PM, Thursday, Cascade Ballroom Session 10 Stratiform Clouds
Chairs: Ann M. Fridlind, NASA/GISS, New York, NY; Thomas Choularton, Univ. of Manchester, Manchester United Kingdom
10:30 AM 10.1 POST—A New Look at Stratocumulus   Recorded presentation H. Gerber, Gerber Scientific, Reston, VA; and G. Frick, S. P. Malinowski, W. Kumula, and S. Krueger 10:45 AM 10.2 The Entrainment Interface Layer of Stratocumulus-Topped Boundary Layers during POST   Recorded presentation Samantha A. Hill, University of Utah, Salt Lake City, UT; and S. K. Krueger, H. Gerber, and S. P. Malinowski 11:00 AM 10.3 Shear-induced turbulent mixing in stratocumulus layer   Recorded presentation Jeannine Katzwinkel, Leibniz Institute for Tropospheric Research, Leipzig, Germany; and H. Siebert and R. A. Shaw 11:15 AM 10.4 Dynamical-microphysical interactions in Arctic mixed-phase clouds   Recorded presentation Matthew Shupe, CIRES/Univ. of Colorado, Boulder, CO 11:30 AM 10.5 CCN as a Modulator for Ice Processes in Arctic Mixed-Phase Clouds   Recorded presentation Sara M. Lance, CIRES/Univ. of Colorado, Boulder, CO; and M. Shupe, G. Feingold, C. A. Brock, J. S. Holloway, K. Froyd, O. R. Cooper, R. Spackman, J. Brioude, J. Schwarz, R. H. Moore, and A. Nenes 11:45 AM 10.6 Process study of mixed phase Arctic stratus and associated aerosol effects   Mikhail Ovchinnikov, PNNL, Richland, WA; and J. Fan and A. V. Korolev
	12:00 PM-1:30 PM, Thursday Lunch
	1:30 PM-3:00 PM, Thursday, Cascade Ballroom Joint Session 6 Indirect Effects I (Joint between the 13th Conference on Cloud Physics and the 13th Conference on Atmospheric Radiation)
Chairs: Patrick Y. Chuang, Univ. of California, Santa Cruz, CA; David B. Mechem, University of Kansas, Lawrence, KS
1:30 PM J6.1 Trouble in the natural laboratory: Suppression of aerosol-induced entrainment enhancement in ship tracks   Recorded presentation Andrew S. Ackerman, NASA/GISS, New York, NY; and A. Avramov and A. M. Fridlind 1:45 PM J6.2 Response of marine stratocumulus to African savannah burning   Recorded presentation Eric M. Wilcox, NASA/GSFC, Greenbelt, MD 2:00 PM J6.3 A multi-platform analysis of the precipitation susceptibility of warm clouds   Recorded presentation Armin Sorooshian, University of Arizona, Tucson, AZ; and G. Feingold, M. Lebsock, H. Jiang, and G. L. Stephens 2:15 PM J6.4 A consideration on the relative strengths of aerosol direct and indirect forcings on the earth's climate system   Recorded presentation Teruyuki Nakajima, University of Tokyo, Kashiwa, Chiba, Japan; and K. Suzuki, T. Y. Nakajima, M. Mukai, E. Oikawa, and D. Goto 2:30 PM J6.5 An estimate of aerosol indirect effect from satellite measurements with concurrent meteorological analysis   Recorded presentation Wenying Su, SSAI, Hampton, VA; and N. Loeb, K. M. Xu, G. Schuster, and Z. Eitzen 2:45 PM J6.6 Aerosol effects on clouds and radiation: buffered states, runaway states, and self-organization   Recorded presentation Graham Feingold, NOAA ESRL/CSD, Boulder, CO; and H. Wang, I. Koren, and J. Kazil
	3:00 PM-3:30 PM, Thursday, Exhibit Hall Coffee Break
	3:30 PM-5:30 PM, Thursday, Cascade Ballroom Joint Session 7 Indirect Effects II (Joint between the 13th Conference on Cloud Physics and the 13th Conference on Atmospheric Radiation)
Chairs: T. Nakajima, Center for Climate System Research, University of Tokyo, Kashiwa, Chiba Japan; Eric M. Wilcox, NASA/GSFC, Greenbelt, MD
3:30 PM J7.1 The role of wet scavenging in controlling the impact of biogenic and anthropogenic pollution on Arctic cloud properties   Recorded presentation Timothy J. Garrett, University of Utah, Salt Lake City, UT; and K. Tietze, P. Novelli, A. Stohl, and C. Zhao   J7.2 has been moved to poster JP3.1A   3:45 PM J7.2A Changes in precipitation intensity in Mexico City: Urban Heat island effect or the impact of aerosol pollution?   Recorded presentation Graciela B. Raga, Universidad Nacional Autonoma de Mexico, Mexico City, Mexico; and D. Baumgardner 4:00 PM J7.3 How much water can pollution aerosols hold in deep tropical clouds by suppressing warm rain?   Recorded presentation Daniel Rosenfeld, The Hebrew University of Jerusalem, Jerusalem, Israel 4:15 PM J7.4 Aerosol indirect forcing of the trimodal distribution of tropical convection within a radiative convective equilibrium framework   Recorded presentation Susan C. van den Heever, Colorado State University, Fort Collins, CO 4:30 PM J7.5 The CCN and IN Effects on Tropical Anvil Characteristics and Water Vapor of the Tropical Tropopause Layer (TTL)   Recorded presentation Jiwen Fan, PNNL, Richland, WA; and J. Comstock and M. Ovchinnikov 4:45 PM J7.6 Indirect impact of atmospheric aerosols in idealized simulations of convective-radiative quasi-equilibrium. Double-moment microphysics   Recorded presentation Wojciech W. Grabowski, NCAR, Boulder, CO; and H. Morrison 5:00 PM J7.7 Cloud-resolving model simulations of aerosol indirect effects in tropical deep convection: Sensitivity to microphysics parameterization and model resolution   Recorded presentation Hugh Morrison, NCAR, Boulder, CO; and W. W. Grabowski 5:15 PM J7.8 The indirect effects of aerosols as simulated by the SP-CAM multiscale modeling framework using current versus pre-industrial global aerosol distributions   Recorded presentation Marat F. Khairoutdinov, Stony Brook University, Stony Brook, NY; and W. W. Grabowski and H. Morrison
	8:00 PM-9:30 PM, Thursday, Cascade Ballroom Session 11 Special Evening Discussion on Geoengineering
Panelists: David L. Mitchell, DRI, Reno, NV; Alan Gadian, University of Leeds, Leeds United Kingdom; Daniel Rosenfeld, Hebrew University, Jerusalem Israel; Roland List, Univ. of Toronto, Toronto, ON Canada; William Cotton, Colorado State University Moderator: G. M. McFarquhar, University of Illinois, Urbana, IL
8:00 PM Panel Discussion   Recorded presentation 8:15 PM Evening Discussion on Climate Engineering   Recorded presentation
Friday, 2 July 2010
	8:30 AM-10:00 AM, Friday, Cascade Ballroom Session 12 Precipitation Physics
Chairs: George Isaac, Environment Canada, Toronto, ON Canada; Jeffrey L. Stith, NCAR, Broomfield, CO
8:30 AM 12.1 Precipitation formation processes: A global perspective   Recorded presentation Roelof T. Bruintjes, NCAR, Boulder, CO; and D. Breed, S. Tessendorf, and P. Buseck 8:45 AM 12.2 Microphysical characterization of banded structures observed in cold-season extratropical cyclones   Recorded presentation David M. Plummer, University of Illinois, Urbana, IL; and G. M. McFarquhar, R. M. Rauber, B. F. Jewett, and Z. Wang 9:00 AM 12.3 What produces super-terminal raindrops?   Recorded presentation Guillermo Montero-Martínez, Universidad Nacional Autónoma de México, Mexico D.F., Mexico; and R. A. Shaw and F. García-García 9:15 AM 12.4 Hailstones, the main source of the cold rain process   Recorded presentation Roland List, Prof. Roland List, Toronto, ON, Canada 9:30 AM 12.5 Cloud and precipitation physics - Vancouver 2010 Olympics   George A. Isaac, EC, Toronto, ON, Canada; and P. Joe, M. Bailey, F. Boudala, E. Campos, S. G. Cober, C. Doyle, D. Forsyth, I. Gultepe, R. M. Rasmussen, T. Smith, and R. E. Stewart 9:45 AM 12.6 A global view of mixed-phase cloud distribution and ice generation in them with A-train satellite measurements   Recorded presentation Zhien Wang, University of Wyoming, Laramie, WY; and D. Zhang and M. Deng
	10:00 AM-10:30 AM, Friday, Exhibit Hall Coffee Break
	10:30 AM-12:35 PM, Friday, Cascade Ballroom Session 13 Clouds in a Warmer Climate & Miscellaneous
Chairs: Roy Rasmussen, NCAR, Boulder, CO; Roland List, Univ. of Toronto, Toronto, ON Canada
10:30 AM 13.1 Simulation of Annual Snowfall over Colorado using a High Resolution Mesoscale Model and some Impacts of Climate Change using the Pseudo Climate Simulation Method   Recorded presentation Roy M. Rasmussen, NCAR, Boulder, CO; and K. Ikeda, C. Liu, D. Gochis, J. Dudhia, G. Thompson, D. Yates, F. Chen, M. Tewari, M. Barlage, E. Gutmann, and V. Grubisic 10:45 AM 13.2 Influence of a future climate on the microphysical and optical properties of orographic cirrus clouds in ECHAM5   Recorded presentation Hanna Joos, ETH, Zurich, Switzerland; and P. Spichtinger and U. Lohmann 11:00 AM 13.3 Geoengineering marine stratocumulus to increase cloud albedo: where, when and whether to inject aerosols?   Recorded presentation Hailong Wang, PNNL, Richland, WA; and P. Rasch and G. Feingold 11:15 AM 13.4 Changes in the productivity of the warm rain process in deep convective clouds resulting from regional climate change over the continental U.S   Recorded presentation Cecille M. Villanueva-Birriel, Purdue University, West Lafayette, IN; and S. Lasher-Trapp 11:30 AM 13.5 Scavenging of East-Asian Black Carbon by a Western Pacific Extratropical Storm   Recorded presentation Jeffrey Stith, NCAR, Boulder, CO; and T. Campos, C. Twohy, J. Anderson, D. Baumgardner, P. J. DeMott, and R. Gao 11:45 AM 13.6 Correlation patterns of CCN and drop(let) concentrations   Recorded presentation James G. Hudson, DRI, Reno, NV; and S. Noble and V. Jha 12:00 PM 13.7 Simulations vs. observations of in-cloud icing - sensitivity to the parameterization of cold cloud microphysics   Recorded presentation Jón Egill Kristjánsson, University of Oslo, Oslo, Norway; and B. E. K. Nygaard and L. Makkonen 12:15 PM Awarding of Peter V. Hobbs Student Prize
	12:20 PM-12:25 PM, Friday Conference Ends

Browse the complete program of The 13th Conference on Cloud Physics/13th Conference on Atmospheric Radiation (28 June–2 July 2010)