Program: 14th Conference on Cloud Physics (14th Conference on Cloud Physics/14th Conference on Atmospheric Radiation/Anthony Slingo Symposium)

Registration

Location: 3rd Floor Foyer (Westin Copley Place)

Registration

Location: 3rd Floor Foyer (Westin Copley Place)

Session 1

Precipitation physics

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: Jennifer Small Griswold, University of Hawaii; Jeffrey French, Univ. of Wyoming

8:50 AM

Welcoming Remarks

9:00 AM

1.1

Mechanisms for the Rapid Generation of Precipitation in Warm Clouds

Bruce Albrecht, Univ. of Miami, Miami, FL; and H. Jonsson, E. Jung, and M. Fang

Recorded Presentation

9:15 AM

1.2

Applying an inverse method to estimate collision-coalescence rates from aircraft observations

Mikael K. Witte, University of California, Santa Cruz, CA; and P. Y. Chuang, L. P. Wang, and O. Ayala

Recorded Presentation

9:30 AM

1.3

Multi-Angle Snowflake Camera observations of the effects of turbulence and temperature on hydrometeor fallspeed

Timothy J. Garrett, Univ. of Utah, Salt Lake City, UT; and S. E. Yuter

Recorded Presentation

9:45 AM

1.4

Numerical Simulations of Unsteady Flow Fields around Falling Graupel, Hailstones and Snowflakes

Kai-Yuan Cheng, University of Wisconsin, Madison, WI; and P. K. Wang

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Session 2

Laboratory studies

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: Raymond Shaw, Michigan Technological University; Herman Gerber, Gerber Scientific, Inc.

10:30 AM

2.1

Laboratory Measurements and Modelling of the Scattering Phase Functions of Hollow and Solid Ice Crystals

Helen R. Smith, University of Manchester, Manchester, United Kingdom; and A. Webb, P. J. Connolly, and A. Baran

Recorded Presentation

10:45 AM

2.2

Experimental Assessment of Collection Efficiency of Submicron Aerosol Particles by Cloud Droplets Using the New MIT-CFC

Karin Ardon-Dryer, MIT, Cambridge, MA; and Y. W. Huang and D. J. Cziczo

Recorded Presentation

11:00 AM

2.3

Secondary ice processes upon heterogeneous freezing of cloud droplets

Thomas Leisner, Karlsruhe Institute of Technology, Eggenstein-Leopoldshafen, Germany; and T. Pander, P. Handmann, and A. Kiselev

Recorded Presentation

11:15 AM

2.4

The SPectrometer for Ice Nuclei (SPIN): A new instrument to investigate ice nucleation

Sarvesh Garimella, MIT, Cambridge, MA; and K. Ardon-Dryer, J. Dorsey, K. Ignatius, A. Kirchgaessner, G. Kok, T. B. Kristensen, R. Ladkin, L. Nichman, M. Roesch, F. Sagan, F. Stratmann, H. Wex, T. W. Wilson, and D. J. Cziczo

Recorded Presentation

11:30 AM

2.5

Levitation Diffusion Chamber Measurements of Ice Vapor Growth: Variability in the Deposition Coefficient

Jerry Y. Harrington, Pennsylvania State University, University Park, PA; and A. Harrison and A. M. Moyle

Recorded Presentation

11:45 AM

2.6

Supercooled Cloud Tunnel Studies on the Growth Conditions of Branched Planar Snow Crystals between -12°C and -17°C

Tsuneya Takahashi, Hokkaido University of Education, Sapporo, Japan

Manuscript (552.3 kB)

Lunch Break

Session 3

Ice nucleation and mixed-phase clouds

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: Jeffrey Stith, NCAR; Susan C. van den Heever, Colorado State Univ.

1:30 PM

3.1

Cloud nuclei properties in the Saharan Air Layer close to the source

Yvonne Boose, ETH, Zurich, Switzerland; and M. I. Garcia, L. Lacher, S. Nickovic, S. Rodríguez, U. Lohmann, Z. A. Kanji, and B. Sierau

Recorded Presentation

1:45 PM

3.2

Ice residual properties in free tropospheric mixed-phase clouds

Piotr Kupiszewski, Paul Scherrer Institute, Villigen, Switzerland; and E. Weingartner, M. Gysel, E. Hammer, M. Zanatta, C. Hoyle, E. Herrmann, U. Baltensperger, P. Vochezer, M. Schnaiter, E. Toprak, and M. Krüger

Recorded Presentation

2:00 PM

3.3

Laboratory and model studies of ice nucleation by secondary organic aerosol and desert dust

P. J. Connolly, University of Manchester, Manchester, United Kingdom; and C. Emersic, G. McFiggans, and W. Hesson

2:15 PM

3.4

Laboratory measurements of contact freezing by dust and bacteria at temperatures of mixed phase clouds

Will Cantrell, Michigan Technological University, Houghton, MI; and J. Niehaus, J. Becker, and A. Kostinski

Recorded Presentation

2:30 PM

3.5

Modeling of Early Ice Formation in Maritime Cumulus Clouds

Alexandria V. Johnson, MIT, Cambridge, MA; and S. Lasher-Trapp

Recorded Presentation

2:45 PM

3.6

Evaluating Ocean Sources of Ice Nucleating Particles

Paul J. DeMott, Colorado State University, Fort Collins, CO; and T. C. J. Hill, C. S. McCluskey, E. J. T. Levin, K. A. Prather, D. B. Collins, G. Cornwell, R. C. Sullivan, M. J. Ruppel, R. Mason, C. Sultana, C. Lee, T. Lee, C. Y. Hwang, J. I. Axson, A. P. Ault, M. Diaz Martinez, O. L. Mayol-Bracero, A. Bertram, O. Laskina, V. H. Grassian, and E. R. Lewis

Recorded Presentation

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Session 4

Ice nucleation and mixed-phase clouds - Part 2

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: Keith N. Bower, University. of Manchester; Paul J. DeMott, Colorado State University

3:30 PM

4.1

Cloud Conditions Favoring Secondary Ice Particles in Tropical Maritime Convection

Andrew J. Heymsfield, NCAR, Boulder, CO; and P. Willis

Recorded Presentation

3:45 PM

4.2

Mixed-phase clouds: from theory to application in a global model

Kalli Furtado, Met Office, Exeter, United Kingdom; and P. Field, A. Hill, B. Shipway, and A. Korolev

Recorded Presentation

4:00 PM

4.3

Evaluation of an ice nucleation parameterization based on classical nucleation theory using three mixed-phase cloud events observed during ISDAC

Julien Savre, Stockholm University, Stockholm, Sweden; and A. M. L. Ekman and G. Svensson

Recorded Presentation

4:15 PM

4.4

The Origin of the Ice Phase in Arctic Boundary Layer CloudsS

T. W. Choularton, University of Manchester, Manchester, United Kingdom; and G. Lloyd, K. N. Bower, J. Crosier, H. Jones, J. R. Dorsey, M. W. Gallagher, P. J. Connolly, P. I. Williams, T. Lachlan-Cope, and A. Kirchgaessner

Recorded Presentation

4:30 PM

4.5

Microphysics of Maritime and Continental Convective Clouds – Results from Multiple Aircraft Observations and Numerical Simulations

R. Paul Lawson, SPEC Inc, Boulder, CO; and R. Bruintjes, S. Lance, S. Woods, and H. Morrison

Recorded Presentation

4:45 PM

4.6

A Quicker Start to the Hallet-Mossop Process in Maritime Clouds

Sonia Lasher-Trapp, University of Illinois, Urbana, IL; and D. Leon and P. J. DeMott

Formal Poster Viewing

Poster Session P1

Boundary layer stratiform clouds

Host: 14th Conference on Cloud Physics

1

Mean structure and diurnal cycle of low clouds over the Southeast Atlantic: Insights from satellite observations and climate model simulations

David Painemal, NASA Langley Research Center/SSAI, Hampton, VA; and K. M. Xu and A. Cheng

Poster 2 has moved. New paper number is 9.3.

3

Discerning Environmental Dependencies on Mixed-Phase Cloud Properties: With a Focus on Ice Particle Habit Evolution

Kara Sulia, NOAA/GFDL, Princeton, NJ

4

Impacts from Free Troposphere Humidity and Temperature on Marine Stratocumulus: Still Kappa?

Xukun Xu Sr., Peking University, Beijing, China; and H. Xue

5

An Evaluation of the Boundary Layer Cloud Forecast over the Southern Ocean in an Limited-area Numerical Weather Prediction System with In-situ, Space-borne and Ground-based Observations

Yi Huang, Monash University, Monash, VIC, Australia; and C. N. Franklin, S. T. Siems, M. J. Manton, T. H. Chubb, A. P. Lock, S. P. Alexander, and A. Klekociuk Sr.

6

Transition from closed cell to open cell structure of stratocumulus simulated by high resolution Large Eddy simulation model covering wide calculation domain

Yousuke Sato, RIKEN Advanced Institute for Computational Science, Kobe, Japan; and S. Nishizawa, H. Yashiro, Y. Miyamoto, and H. Tomita

7

Drizzle Formation and Turbulent Mixing in Stratocumulus Clouds

Leehi Magaritz Ronen, The Hebrew University, Jerusalem, Israel; and M. Pinsky and A. Khain

8

Development of bimodal droplet size distributions at the top layer of Arctic super-cooled liquid water boundary layer clouds

Marcus Klingebiel, Johannes Gutenberg University, Mainz, Germany; and S. Molleker, A. de Lozar, R. Weigel, A. Roth, L. Schmidt, J. Meyer, A. Ehrlich, R. Neuber, M. Wendisch, and S. Borrmann

Handout (466.0 kB)

9

Aircraft observations and high resolution NWP simulations of Northern Hemisphere cold-air outbreaks

Steven J. Abel, Met Office, Exeter, United Kingdom; and R. J. Cotton and P. Field

10

Effects of Anthropogenic Aerosols on Marine Stratocumuli over Southeast Pacific

Guoxing Chen, SUNY, Albany, NY; and W. C. Wang

11

Marine and Continental Low-level Cloud Processes and Properties

Xiquan Dong, University of North Dakota, Grand Forks, ND; and B. Xi

12

Fog Modeling in the Mexico City's International Airport Region

Pohema González-Viveros, Universidad Nacional Autónoma, México, Mexico; and F. García-García and E. Caetano

13

Mixed Layer Model and Large Eddy Simulations of Stratocumulus Cloud Dissipation over the Coast

Mohamed Ghonima, University of California, La Jolla, CA; and J. Kleissl and T. Heus

Handout (747.5 kB)

14

Impact of wind shear on the top of stratocumulus cloud

Marta K. Kopec, University of Warsaw, Warsaw, Poland; and S. P. Malinowski and Z. P. Piotrowski

Manuscript (483.2 kB)

Handout (4.3 MB)

15

Analysis of hydrometeor vertical velocities in non-drizzling to heavily drizzling stratocumulus: Simulations versus long-term observations

Jasmine Rémillard, Columbia University/GISS, New York, NY; and A. S. Ackerman, A. M. Fridlind, P. Kollias, E. P. Luke, and G. Tselioudis

Handout (768.4 kB)

16

The effect of urbanization and urban-induced aerosol on the warm cloud in mid-Korean peninsula

Seung-Hee Eun, Gangeung-Wonju National University, Gangneung, Korea, Republic of (South); and B. G. Kim and S. S. Lee

17

Ascent of sea spray in the hurricane boundary layer in the presence of strong rain

Jacob Shpund, Hebrew University, Jerusalem, Israel; and A. Khain and J. Zhang

18

A critical view of the warm rain process in marine stratocumulus observations and numerical models

Jørgen B. Jensen, NCAR, Broomfield, CO

19

Climatology of stratocumulus cloud morphologies: Microphysical properties and radiative effects

Andreas Muhlbauer, JISAO/Univ. of Washington, Seattle, WA; and I. L. McCoy and R. Wood

Poster Session P2

Cloud Instrumentation

Host: 14th Conference on Cloud Physics

20

Droplets, Ice Crystal or Ash? Real time detection using the next generation Backscatter Cloud Probe

Matt Freer, Droplet Measurement Technologies, Boulder, CO; and D. Baumgardner, M. W. Gallagher, A. Dean, A. Petzold, and J. Dorsey

Poster Session P3

Cloud model development

Host: 14th Conference on Cloud Physics

21

The sensitivity of radiatively important cloud and precipitation diagnostics in global climate models to unresolved variability in cloud and preciptiation properties

Benjamin R. Hillman, University of Washington, Seattle, WA; and R. T. Marchand and T. P. Ackerman

22

Improving a Snow Growth Model with Application to Radar Quantitative Precipitation Estimates

Ehsan Erfani, DRI/Univ. of Nevada, Reno, NV; and D. L. Mitchell

23

The Development of Cloud Scheme for GRAPES Global Model

ZhanShan Ma, China Meteorological Administration, Beijing, China; and Q. Liu

Manuscript (223.5 kB)

Handout (223.5 kB)

24

Exploring the impact of ice phase microphysical processes on mesoscale structures in mid-latitude cyclones using the Weather Research and Forecasting (WRF) model

Christopher Dearden, University of Manchester, Manchester, United Kingdom; and P. J. Connolly, T. W. Choularton, and G. Vaughan

Handout (6.8 MB)

25

A novel, open-source library of bulk and particle-based warm-rain cloud microphysics schemes

Anna Jaruga, University of Warsaw, Warsaw, Poland; and S. Arabas, H. Pawlowska, and W. W. Grabowski

26

Numerical experiment on cloud formation in two-component hygroscopic aerosol system

Akihiro Hashimoto, MRI, Tsukuba, Japan; and K. Yamashita and M. Murakami

27

LIMA : a two-moment mixed-phase microphysical scheme driven by a multimodal population of cloud condensation and ice freezing nuclei

Benoît Vié, CNRM, Toulouse, France; and J. P. Pinty, S. Berthet, and M. Leriche

Manuscript (629.8 kB)

Handout (1.0 MB)

28

Improving the representation of subgrid-scale variability of total water in the ECHAM6 GCM

Vera Schemann, Max Planck Institute for Meteorology, Hamburg, Germany; and J. Quaas

29

A Comparison of Bin-Emulating and Spectral Bin Microphysics Schemes in RAMS

Adele L. Igel, Colorado State University, Fort Collins, Colorado; and S. C. van den Heever

30

Assessment of NASA GISS CMIP5 and Post-CMIP5 Simulated Cloud Fraction and Cloud Properties Using Satellite Observations

Ryan Stanfield, University of North Dakota, Grand Forks, ND; and X. Dong, B. Xi, A. Kennedy, A. D. Del Genio, P. Minnis, and J. H. Jiang

31

Modeling of daytime convective development over land with new prototype model COSMO-EULAG

Bogdan Rosa, Institute of Meteorology and Water Management, Warsaw, Poland; and D. K. Wójcik, M. Ziemiański, and W. W. Grabowski

32

Kinematic and dynamic collision statistics of cloud droplets from high-resolution simulations

Bogdan Rosa, Institute of Meteorology and Water Management, Warsaw, Poland; and H. Parishani, O. Ayala, W. W. Grabowski, and L. P. Wang

33

Anelastic and compressible simulation of moist deep convection

Marcin J. Kurowski, NCAR, Boulder, CO; and W. W. Grabowski and P. K. Smolarkiewicz

34

The effects of evolving ice crystal aspect ratio during riming

Anders A. Jensen, Pennsylvania State University, University Park, PA; and J. Y. Harrington and H. Morrison

Poster Session P4

Cloud processing of aerosols and gases, clouds in a changed climate, and miscellaneous

Host: 14th Conference on Cloud Physics

35

The effect of the ground-based cloud seeding for orographic snow enhancement in South Korea

Ha-Young Yang, Korea Meteorological Administration, Jeju, Korea, Republic of (South); and S. K. Seo, J. Y. Jeong, S. Chae, S. Lee, Y. S. Park, B. C. Choi, and J. C. Nam

36

Modeling study of the ground-based cloud seeding experiments in mountainous area

Sanghee Chae, Korea Meteorological Administration, Seogwipo-si, Korea, Republic of (South); and S. Lee, Y. Park, B. Choi, and J. Nam

37

Hoppel minima in detailed CCN spectra

James G. Hudson, DRI, Reno, NV; and S. R. Noble and S. Tabor

Handout (185.6 kB)

38

Implementation of the airborne cloud seeding experiments for snow enhancement

Seon-Yong Lee, National Institute of Meteorological Research, Seogwipo-si, Jeju-do, Korea, Republic of (South); and S. K. Seo, H. Y. Yang, J. Y. Jeong, S. H. Chae, Y. Park, B. Choi, and J. Nam

39

The Characteristics of Forecast Errors of the Global Horizontal Irradiance obtained from a Local Forecast Model

Hideaki Ohtake, National Institute of Advanced Industrial Science and Technology, Tsukuba, Japan; and J. G. D. S. Fonseca Jr, T. Takashima, T. Oozeki, and Y. Yamada

40

Microphysics of clouds in the Southern Ocean: Comparisons between airborne in situ microphysical measurements with simulations from the Community Earth System Model (CESM)

Jeffrey L. Stith, NCAR, Broomfield, CO; and A. Gettelman

41

Numerical simulations of the effects of deep convection on the concentration and size-distribution of aerosol particles at the upper troposphere

Yan Yin, Nanjing University of Information Science and Technology, Nanjing, China; and Q. Chen, L. Jin, B. Chen, S. Zhu, and X. Zhang

42

Simulated dispersion and long-range transport of silver iodide in winter orographic cloud seeding

Lulin Xue, NCAR, Boulder, ID; and S. A. Tessendorf, R. M. Rasmussen, P. Holbrook, D. Blestrud, M. L. Kunkel, and S. Parkinson

Poster Session P5

Ice nucleation and mixed-phase clouds

Host: 14th Conference on Cloud Physics

43

Sensitivity of the classical nucleation theory on thermodynamic and kinetic parameters

Luisa Ickes, ETH, Zürich, Switzerland; and A. Welti, C. Hoose, and U. Lohmann

44

The differing impact of local and remote moisture sources on cloud formation and the surface energy budget at Summit, Greenland

Amy Solomon, Univ. of Colorado and NOAA/Earth System Research Laboratory, Boulder, CO; and M. Shupe and P. O. G. Persson

45

Characterization of Aerosols Sources Based on Chemical Analysis and Examines Their Effects on Glaciation Temperature in Rain Clouds

Assaf Zipori, Hebrew University, Jerusalem, Israel; and D. Rosenfeld and Y. Erel

46

The ice nucleation behavior of mineral dusts: A comparison of different pure and surface modified dusts

Frank Stratmann, Leibniz Institute for Tropospheric Research, Leipzig, Germany; and S. Augustin, S. Hartmann, S. Kanter, L. Tomsche, D. Niedermeier, and H. Wex

47

Ice Number Concentrations in Stratiform Mixed-phase Clouds (SMCs)

Damao Zhang, Univ. of Wyoming, Laramie, WY; and Z. Wang, A. Heymsfield, J. Fan, and T. Luo

48

On The Impact of Cloud Phase Partitioning on Climate Feedbacks and Climate Sensitivity

Ivy Tan, Yale University, New Haven, CT

49

Investigations of the ice nucleation ability of natural soil dusts in artificial clouds

Kristina Höhler, Karlsruhe Institute of Technology, Karlsruhe, Germany; and I. Steinke, Y. Boose, A. Danielczok, R. Funk, S. Garimella, Z. A. Kanji, O. Möhler, M. Rösch, and E. Toprak

50

Interactions between Turbulence and Ice Phase Processes in Mixed Phase Layer Clouds: Observational and Modelling Studies

Paul Alan Barrett, UK Met Office, Exeter, United Kingdom; and M. Andrejczuk, A. Blyth, and P. Brown

51

Intercomparison of large-eddy simulations of Arctic mixed-phase clouds: Importance of ice size distribution assumptions

Mikhail Ovchinnikov, PNNL, Richland, WA; and A. S. Ackerman, A. Avramov, A. Cheng, J. Fan, A. M. Fridlind, S. Ghan, J. Harrington, C. Hoose, A. Korolev, G. McFarquhar, H. Morrison, M. Paukert, J. Savre, B. Shipway, M. Shupe, A. B. Solomon, and K. Sulia

52

Videosonde observations of supercooled cloud droplet layers at the tops of wintertime stratiform clouds in northern Japan

Tadayasu Ohigashi, Nagoya University, Nagoya, Japan; and K. Tsuboki and M. Oue

Handout (1.8 MB)

53

Development of a new parameterization for the effect of nitric acid coating on the ice nucleation efficiency of mineral dust particles

Gourihar Kulkarni, PNNL, Richland, WA; and K. Zhang, L. K. Berg, and J. Fast

54

Aerosol effects in mixed-phase clouds in GFDL AM3+

Yuxing Yun, Princeton University, Princeton, NJ; and Y. Ming

55

Dust IN concentrations and the impact on clouds in COSMO

Luke B. Hande, Karlsruhe Institute of Technology, Karlsruhe, Germany; and C. Hoose and C. Engler

Handout (3.3 MB)

56

Characterization of small cloud ice particles in mixed phase clouds

Paul Vochezer, Karlsruhe Institute of Technology, Karlsruhe, Germany; and P. Kupiszewski, E. Weingartner, Z. Ulanowski, S. Mertes, A. Abdelmonem, and M. Schnaiter

57

Aerosol and CCN Distributions over Europe

Luke B. Hande, Karlsruhe Institute of Technology, Karlsruhe, Germany; and C. Hoose and C. Engler

Handout (1.9 MB)

58

Combined observations of turbulence and ice properties in mixed-phase layered clouds with Doppler lidar and cloud radar

Johannes Bühl, Institute for Tropospheric Research, Leipzig, Germany; and P. Seifert, R. Engelmann, and A. Ansmann

59

Development of an Ice Nuclei Observation Framework and Database as Part of the BACCHUS Project

James Atkinson, ETH, Zürich, Switzerland; and U. Lohmann, A. Ansmann, C. Facchini, H. Bingemer, F. Stratmann, Z. A. Kanji, and B. Sierau

60

Clouds over the Antarctic Peninsula

Tom Lachlan-Cope, British Antarctic Survey, Cambridge, United Kingdom; and A. Kirchgaessner, K. N. Bower, T. W. Choularton, J. Dorsey, M. W. Gallagher, J. King, R. Ladkin, and D. Grosvenor

61

Measurements of cloud-aerosol interactions in ice and mixed phase clouds during CLACE campaigns at the Jungfraujoch mountain top site, Switzerland

Keith N. Bower, University. of Manchester, Manchester, United Kingdom; and G. Lloyd, P. J. Connolly, J. Crosier, M. W. Gallagher, M. J. Flynn, R. Farrington, T. W. Choularton, and the CLACE Team

62

Properties of pure ice and mixed-phase clouds in an alpine environment during CLACE2013 at Jungfraujoch, Switzerland

Oliver Schlenczek, Johannes Gutenberg University, Mainz, Germany; and J. Fugal, K. N. Bower, J. Crosier, M. J. Flynn, G. Lloyd, and S. Borrmann

Manuscript (369.6 kB)

Handout (1.1 MB)

63

Consistent treatment of diffusional growth in mixed-phase clouds

Manuel Baumgartner, Johannes Gutenberg University, Mainz, Germany; and P. Spichtinger

64

A Summary of Immersion Freezing Results from the Ice Nucleation Research Unit INUIT

Ottmar Möhler, Karlsruhe Institute of Technology, Karlsruhe, Germany; and N. Hiranuma, N. Hoffmann, A. Kiselev, T. Leisner, H. Wex, S. Augustin, J. Curtius, A. Danielczok, H. Bingemer, K. Diehl, M. Ebert, K. Kandler, C. Budke, T. Koop, G. P. Schill, M. A. Tolbert, M. Murakami, G. Kulkarni, B. J. Murray, D. O'Sullivan, T. F. Whale, Y. Boose, Z. A. Kanji, D. J. Cziczo, M. D. Petters, T. C. J. Hill, E. Levin, and P. J. DeMott

65

Observations of the Origin and Distribution of Ice in Cold, Warm and Occluded Frontal Systems during the DIAMET campaign

Gary Lloyd, University of Manchester, Manchester, United Kingdom; and C. Dearden, J. Crosier, T. W. Choularton, K. N. Bower, and G. Vaughan

66

Lagrangian studies of ice nucleation and growth in mixed-phase stratiform clouds

Fan Yang, Michigan Technological University, Houghton, MI; and M. Ovchinnikov and R. A. Shaw

Handout (2.6 MB)

67

Mixed-phase Cloud Measurements in a High Alpine Environment using Digital In-line Holography

Jan Henneberger, ETH, Zürich, Switzerland; and J. Fugal and U. Lohmann

Handout (6.2 MB)

68

A microphysical classification of mixed-phase clouds in the liquid-ice Coexistence and Wegener-Bergeron-Findeisen regime

Anja Costa, Forschungszentrum, Juelich, Germany; and M. Kraemer, J. Meyer, A. Afchine, A. E. Luebke, J. R. Dorsey, M. W. Gallagher, A. Ehrlich, M. Wendisch, D. Baumgardner, M. Schnaiter, H. Saathoff, and O. Möhler

Handout (7.1 MB)

69

The relevance of liquid-dependent freezing processes for the precipitation budget

Patric Seifert, Leibniz Institute for Tropospheric Research, Leipzig, Germany; and J. Bühl and A. Ansmann

70

Mechanisms of Contact Nucleation: Insight from Laboratory Experiments

Joseph Niehaus, Michigan Technological University, Houghton, MI; and A. B. Kostinski and W. Cantrell

71

Ice nucleating properties of bare, coated, coagulated, and thermally treated diesel soot particles

Gourihar Kulkarni, PNNL, Richland, WA; and R. Zaveri, J. Shilling, M. Pekour, D. Chand, A. Zelenyuk, J. Wilson, A. Laskin, A. C. Aiken, M. Dubey, R. Subramanian, N. sharma, S. china, C. Mazzoleni, A. Sedlacek, T. Onasch, R. Sellon, M. K. Gilles, S. liu, R. C. Moffet, M. Nandasiri, and S. Shutthanandan

72

Identifying Cloud Phase States from Multiple ARM Remote Sensors

Laura D. Riihimaki, PNNL, Richland, WA; and J. M. Comstock, C. Sivaraman, M. Tardiff, and S. Thompson

73

Laboratory studies of immersion mode ice nucleation on five types of black carbon samples

Zamin A. Kanji, ETH, Zürich, Switzerland; and A. Welti, J. C. Corbin, B. Sierau, U. Lohmann, and A. A. Mensah

74

Analytic investigation of condensational process in a mixed-phase adiabatic parcel

Mark Pinsky, The Hebrew University, Jerusalem, Israel; and A. Khain and A. V. Korolev

75

Ice Generation in Convective and Stratiform Mixed Phase Cloud over the Tropics as Observed by A-Train Satellites

Tao Luo, University of Wyoming, Laramie, WY; and Z. Wang and D. Zhang

76

Deposition Ice Nuclei Observations over the Indian Region during CAIPEEX

Sachin Patade, Indian Institute of Tropical Meteorology, Pune, India; and B. Nagare, S. Wagh, R. S. MaheshKumar, T. V. Prabha, and P. Pradeepkumar

77

Mixed phase clouds in the Arctic : Investigating MPC microphysical properties from regional to small scale based on the synergy of spaceborne remote sensing and airborne in situ observations

Guillaume Mioche, Laboratoire de Météorologie Physique, Aubiere, France; and O. Jourdan, A. Schwarzenboeck, C. Gourbeyre, M. Ceccaldi, and J. Delanoë

78

Observed Strong Ice Generation at Temperatures Warmer than -8°C and Potential Contribution of Biological Ice Nuclei

Zhien Wang, Univ. of Wyoming, Laramie, WY; and T. Luo, D. Zhang, A. J. Heymsfield, K. Suski, J. Yang, J. Snider, D. Leon, K. A. Prather, and M. Deng

79

Heterogeneous Ice Nucleation in Wave Clouds: Dependencies on Temperature, Coarse Aerosol and Nuclei Processing Time

Liran Peng, University of Wyoming, Laramie, WY; and J. R. Snider and Z. Wang

Poster Session P6

Laboratory studies

Host: 14th Conference on Cloud Physics

80

New Apparatus for Laboratory Studies of Ice Nucleation, Growth and Sublimation Rates, and Habit of Ice Crystals

Jon Nelson, University of Washington, Seattle, WA; and B. D. Swanson

81

PVM and FSSP Response to Small Ice Crystals

Herman Gerber, Gerber Scientific, Inc., Reston, VA; and P. J. DeMott

Manuscript (2.3 MB)

82

A comparison of ice water content measurement techniques on the FAAM BAe-146 aircraft

Steven J. Abel, Met Office, Exeter, United Kingdom; and R. J. Cotton, P. A. Barrett, and A. K. Vance

83

Inhibited Growth Observations of Ice Crystals by Environmental Scanning Electron Microscopy

Nathan Magee, College of New Jersey, Ewing, NJ; and R. Daoud, C. Ballaera, N. Freschi, and J. Avenoso

84

Investigating hygroscopic behavior and phase separation of organic/inorganic mixed phase aerosol particles with FTIR spectroscopy

Maria A. Zawadowicz, MIT, Cambridge, MA; and S. S. Seppalainen and D. J. Cziczo

85

Experimental Investigation of CCN and IN Abilities of Various Aerosol Types in the MRI Cloud Simulation Chamber

Takuya Tajiri, MRI, Tsukuba, Japan; and K. Yamashita and M. Murakami

Handout (1.6 MB)

86

Trajectories of Cloud Droplets around a Rain Drop Observed in Vertical Wind Tunnel

Anna Górska, University of Warsaw, Warsaw, Poland; and J. Fugal, S. K. Mitra, S. P. Malinowski, M. Szakall, N. von Blohn, A. Jost, and S. Borrmann

Manuscript (652.3 kB)

Handout (407.4 kB)

87

Entrainment in laboratory analogues of cumulus and stratocumulus clouds tops

Anna Gorska, University of Warsaw, Warsaw, Poland; and S. P. Malinowski, S. Ł. Błoński, J. Fugal, P. Korczyk, T. A. Kowalewski, and W. Kumala

Manuscript (3.7 MB)

Handout (17.8 MB)

88

Measuring cloud properties from meteorological radiosondes RESUBMITTED

K. A. Nicoll, University of Reading, Reading, United Kingdom; and R. G. Harrison and S. Kneifel

Handout (765.0 kB)

89

Quantitative Determination of the Contact Freezing Probabilities of Various Ice Nuclei

Thomas Leisner, Karlsruhe Institute of Technology, Eggenstein-Leopoldshafen, Germany; and N. Hoffmann and A. Kiselev

90

chamber investigations of secondary organic aerosol as cloud condensation nuclei

91

Use of a non-ideal static diffusion chamber for investigating electrical corona discharges on ice crystals

Danyal Petersen, University of Oklahoma, Norman, OK

Poster Session P7

Precipitation physics

Host: 14th Conference on Cloud Physics

92

New Insights into Hailstone Growth

Roland List, University of Toronto, Toronto, ON, Canada

93

A Comparison of X-band Polarization Parameters with Aircraft Measurements of Two Comma Head Winter Cyclones

Joseph A. Finlon, Univ. of Illinois, Urbana, IL; and G. McFarquhar, P. Kollias, M. Maahn, R. M. Rauber, B. F. Jewett, D. M. Plummer, D. Leon, and K. R. Knupp

94

Ice Crystals and Visibility over Arctic Regions for Aviation Applications

Ismail Gultepe, EC, Toronto, ON, Canada; and M. J. Pavolonis, C. G. Schmitt, A. J. Heymsfield, T. kuhn, and J. Gurka

95

A Goodness of Fit Analysis for Functional Fits to DSD samples collected at Badlands National Park

Donna Kliche, South Dakota School of Mines and Technology, Rapid City, SD; and R. W. Johnson and P. L. Smith

Handout (1.3 MB)

96

The effect of stochastic correlations and fluctuations in the collision-coalescence process revisited: An algorithm for the numerical solution of the master equation and numerical results for realistic kernels

Lester Alfonso Sr., Universidad Autonoma de la Ciudad, Mexico City, Mexico

Manuscript (292.0 kB)

97

Numerical simulation of the flow fields around falling ice crystals with inclined orientation and the hydrodynamic torque

Tempei Hashino, Academia Sinica, Taipei, Taiwan; and M. Chiruta, D. Polzin, A. Kubicek, and P. K. Wang

98

Simultaneous Measurement of Mass, Size and Fallspeed of Individual Solid Hydrometeors using Electronic Balance and Video Camera

Hiroki Motoyoshi, National Research Institute for Earth Science and Disaster Prevention, Nagaoka, Japan; and M. Ishizaka, T. Shiina, and S. Nakai

99

How sensitive are aerosol-cloud-precipitation interactions to warm rain representation?

Adrian Hill, Met Office, Exeter, United Kingdom; and B. Shipway and I. A. Boutle

100

Constraining the rain drop size distribution using the co-polar correlation coefficient and differential reflectivity

W. J. Keat, University of Reading, Reading, United Kingdom; and A. J. Illingworth and C. D. Westbrook

101

An Investigation of Aggregation Within the Melting Layer

Andrea J. Neumann, University of North Dakota, Grand Forks, ND; and M. R. Poellot, A. Heymsfield, and A. Bansemer

102

The droplet collision rate in electrified clouds

Jiang Lu, Michigan Technological University, Houghton, MI; and R. A. Shaw

103

Effects of Horizontal Wind on Raindrop Fall Speed

Guillermo Montero-Martínez, Universidad Nacional Autónoma, Mexico, D.F., Mexico; and F. García-García and O. Molina-Heredia

104

Characteristics of heavy snowfall for the past decade in the Yeongdong region of Korea

Seung-Hee Eun, AER, Gangneung, Korea, Republic of (South); and B. G. Kim, A. R. Ko, W. S. Seo, H. G. Nam, and S. O. Han

105

Identifying the autoconversion process in continental stratus and strato-cumulus clouds using novel ground-based remote sensing techniques

Claudia Acquistapace, University of Cologne, Köln, Germany; and U. Löhnert, M. Maahn, A. Hirsikko, and P. Kollias

106

Untangling microphysical and dynamic effects in precipitation formation

Jeffrey R. French, University of Wyoming, Laramie, WY; and D. Leon, S. Lasher-Trapp, L. J. Bennett, and A. M. Blyth

107

On the multi-frequency signature of precipitation water content as observed by passive and active sensors

Pablo Saavedra, Univ. of Bonn, Bonn, Germany

Handout (1.9 MB)

Poster Session P8

Shallow convective clouds

Host: 14th Conference on Cloud Physics

108

Evaluation for a Cloud Seeding in the Convective Cells Embedded in Stratocumulus

Ruibo Zhang, Weather Modification Office, Nanning, China; and F. He

109

A budget analysis of variance and skewness of moisture in shallow cumulus convection

Vera Schemann, Max Planck Institute for Meteorology, Hamburg, Germany; and A. Seifert and C. Hohenegger

110

The dependence of aerosol-cloud interactions in shallow cumuli on source region

Hee-Jung Yang, University of Illinois, Urbana-Champaign, IL; and R. M. Rauber and G. M. McFarquhar

Poster Session P9

Turbulence and entrainment

Host: 14th Conference on Cloud Physics

111

Settling velocity of cloud droplets in homogenous isotropic turbulence from high-resolution simulations

Bogdan Rosa, National Research Institute, Warsaw, Poland; and H. Parishani, O. Ayala, and L. P. Wang

112

Effects of Turbulence-Induced Collision Enhancement on Mixed-Phase Deep Convective Clouds under Different Basic-State Winds and Aerosol Concentrations

Hyunho Lee, Seoul National University, Seoul, Korea, Republic of (South); and J. J. Baik and J. Y. Han

113

Relationships between Entrainment, Microphysics, Dynamics and Thermodynamics in Cumulus Clouds

Chunsong Lu, Nanjing University of Information Science and Technology, Nanjing, Jiangsu, China; and Y. Liu, S. Niu, and A. M. Vogelmann

114

The role of sub-grid mixing on the scale and evolution of convective storms in high resolution simulations

Robin J. Hogan, University of Reading, Reading, Berkshire, United Kingdom; and K. E. Hanley, T. Stein, H. Lean, R. Plant, J. Nicol, P. Clark, and C. Halliwell

Handout (2.6 MB)

115

Towards better understanding of preferential concentration in clouds: droplets in small vortices

Katarzyna Karpinska, University of Warsaw, Warsaw, Poland; and S. P. Malinowski

Manuscript (447.2 kB)

Handout (3.8 MB)

116

Measurements of Turbulent Mixing and Subsiding Shells in Trade Wind Cumuli

Jeannine Katzwinkel, Institute for Tropospheric Research, Leipzig, Germany; and H. Siebert, T. Schmeissner, T. Heus, and R. Shaw

117

Modification of Cumulus Entrainment Due to Neighboring Clouds

Daniel Moser, Purdue University, West Lafayette, IN; and S. Lasher-Trapp

Handout (1.2 MB)

118

Numerical Studies of Small-Scale Turbulent Mixing and Entrainment

Paul Goetzfried, Technische Universitaet, Ilmenau, Germany; and B. Kumar, H. Siebert, R. A. Shaw, and J. Schumacher

119

Entraining Eddies Associated with the Thermal Circulation in Cumulus Clouds

Sonia Lasher-Trapp, University of Illinois, Urbana, IL; and A. M. Blyth and D. Moser

Registration

Location: 3rd Floor Foyer (Westin Copley Place)

Session 5

Turbulence and entrainment

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Chair: Wojciech W. Grabowski, NCAR

8:30 AM

5.1

The effect of cloud size distribution on explicitly resolved entrainment and detrainment in LES of shallow convection

Tiberiu Vlad Popa, University of British Columbia, Vancouver, BC, Canada; and P. H. Austin

Recorded Presentation Manuscript (164.4 kB)

8:45 AM

5.2

Particle Collisions in Turbulent Mixed-Phase Clouds

Christoph Siewert, Rheinisch-Westfaelische Technische Hochschule, Aachen, Germany; and R. P. J. Kunnen, M. Meinke, and W. Schröder

Recorded Presentation

9:00 AM

5.3

Physics of Stratocumulus Top: turbulence at a cloud top and inside a capping inversion

Imai Jen - La Plante, University of Warsaw, Warsaw, Poland; and K. Karpinska, M. K. Kopec, K. Nurowska, H. Gerber, D. Khelif, and S. P. Malinowski

Recorded Presentation

9:15 AM

5.4

Turbulent Mixing Processes and Respective Effects on Microphysical Properties of Shallow Trade Wind Cumuli

Tina Schmeissner, Institute for Tropospheric Research, Leipzig, Germany; and J. Katzwinkel, H. Wex, and H. Siebert

Recorded Presentation

9:30 AM

5.5

Holographic measurements of cloud mixing and inhomogeneity

Matthew Beals, Michigan Technological University, Houghton, MI; and J. Fugal, J. Lu, R. A. Shaw, S. M. Spuler, J. Stith, and J. R. French

Recorded Presentation

9:45 AM

5.6

Effects of Entrainment and Mixing on Droplet Size Distributions: Bridging the DNS-LES Gap

Steven K. Krueger, University of Utah, Salt Lake City, UT; and A. R. Kerstein

Recorded Presentation

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Session 6

Cloud instrumentation

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: Sara Lance, NCAR; Darrel Baumgardner, Universidad Nacional Autónoma de México

10:30 AM

6.1

The meaning and significance of the definition of ice crystal maximum dimension: impacts on calculated cloud properties from two-dimensional particle images

Wei Wu, Univ. of Illinois, Urbana, IL; and G. M. McFarquhar

Recorded Presentation

10:45 AM

6.2

Challenges in Analyzing and Representing Cloud Microphysical Data Measured with Airborne Cloud Probes A Workshop Summary

Darrel Baumgardner, Droplet Measurement Technologies, Boulder, CO; and A. J. Heymsfield, G. M. McFarquhar, and D. J. Cziczo

Recorded Presentation

11:00 AM

6.3

Cloud Property Measurements from Commercial Aircraft

Karl Beswick, University of Mancester, Manchester, United Kingdom; and M. W. Gallagher and D. Baumgardner

Recorded Presentation

11:15 AM

6.4

The impact of shattering on derived microphysical parameters from optical array probes: results from ISDAC and IDEAS-2011

Robert Jackson, University of Illinois, Urbana, IL; and G. M. McFarquhar, J. L. Stith, M. Beals, J. Fugal, and A. V. Korolev

Recorded Presentation

11:30 AM

6.5

On the Effectiveness of Interarrival Time Algorithms for Filtering Shattering Artifacts in Cloud Particle Probes

Alexei Korolev, Cloud Physics and Severe Weather Research Section, Toronto, ON, Canada; and P. R. Field

Recorded Presentation

11:45 AM

Laboratory and Theoretical Characterization of the PMS2D: Presented by Matthew Hayman

Recorded Presentation

Keynote Speaker

Julia Slingo Lunch Session (Boxed Lunches Provided)

Location: Essex Center/South (Westin Copley Place)

Hosts: (Joint between the 14th Conference on Atmospheric Radiation; the 14th Conference on Cloud Physics; the Anthony Slingo Symposium; and the Events )

Speaker: Julia M. Slingo, UK Met Office

12:00 PM

Lunch Presentation: Presented by Julia Slingo

Recorded Presentation

Joint Session 1

Remote and in-situ observations of clouds, atmosphere and environment

Location: Essex Center/South (Westin Copley Place)

Hosts: (Joint between the 14th Conference on Cloud Physics; the 14th Conference on Atmospheric Radiation; and the Anthony Slingo Symposium )

Cochairs: Greg McFarquhar, Univ. of Illinois; Teruyuki Nakajima, University of Tokyo

1:30 PM

J1.1

On the Hemispheric symmetry of the Earth's Energy Balance (Invited Presentation)

Graeme Stephens, JPL/California Institute of Technology, Pasadena, CA

Recorded Presentation

1:45 PM

J1.2

The impacts of hemispheric asymmetric radiative forcings (Invited Presentation)

Jim Haywood, UK Met Office/University of Exeter, Exeter, United Kingdom; and A. Jones, N. Bellouin, and D. B. Stephenson

Recorded Presentation

2:00 PM

J1.3

The ICECAPS experiment —An overview of the Integrated Characterization of Energy, Clouds, Atmospheric state, and Precipitation at Summit, Greenland

Ralf Bennartz, Madison, WI; and D. D. Turner, M. Shupe, V. Walden, B. Castellani, C. Cox, N. Miller, R. R. Neely III, E. Olson, and C. Pettersen

Recorded Presentation

2:15 PM

J1.4

Microphysical Structure of Generating Cells atop Comma-Head Clouds within Winter Cyclones

David M. Plummer, University of Illinois, Urbana, IL; and G. M. McFarquhar, R. M. Rauber, B. F. Jewett, and D. Leon

Recorded Presentation

2:30 PM

J1.5

Cloud processes in extratropical cyclones

Catherine M. Naud, Columbia University, New York, NY; and J. Booth, D. J. Posselt, S. van den Heever, and A. D. Del Genio

Recorded Presentation

2:45 PM

J1.6

Visualizing Interactions Between Convective Clouds and Their Environment Using Airborne Lidar and Radar Observations

Dave Leon, Univ. of Wyoming, Laramie, WY; and J. French, S. Lasher-Trapp, and D. Moser

Recorded Presentation

3:00 PM

J1.7

Are satellite retrieved aerosol radiative properties a suitable proxy for cloud condensation nuclei?

Philip Stier, University of Oxford, Oxford, United Kingdom

Recorded Presentation

3:15 PM

J1.8

26-Years of Global Oceanic Cloud Liquid Water Path Estimates Derived From Multiple Orbiting Passive Microwave Sensors

Gregory Elsaesser, Colorado State University, Fort Collins, CO; and C. O'Dell, R. Bennartz, and F. J. Wentz

Recorded Presentation

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Joint Session 2

Water cycle, clouds and aerosols in the climate system

Location: Essex Center/South (Westin Copley Place)

Hosts: (Joint between the 14th Conference on Atmospheric Radiation; the 14th Conference on Cloud Physics; and the Anthony Slingo Symposium )

Chair: Jui-Yuan Christine Chiu, University of Reading

4:15 PM

J2.1

Earth's Radiation Budget and Current Changes in the Global Water Cycle

Richard P. Allan, University of Reading, UK, Reading, Berks, United Kingdom; and C. Liu, N. Loeb, and M. Palmer

Recorded Presentation

Handout (2.6 MB)

4:38 PM

J2.2

RADAGAST—Reprise in Honor of Anthony Slingo

Mark A. Miller, Rutgers University, New Brunswick, NJ; and P. J. Lamb and D. D. Turner

Recorded Presentation

5:00 PM

J2.3

Tony Slingo's Indelible Art: The Legacy of Cloud Radiation Parameterization and its Application in Global Climate Models

V. Ramaswamy, NOAA/GFDL, Princeton, NJ; and S. M. Freidenreich

Recorded Presentation

5:15 PM

J2.4

A unified approach to cirrus microphysics, remote sensing and climate prediction, and its impact in a GCM

Anthony Baran, Met Office, Exeter, United Kingdom; and P. Hill, K. Furtado, J. Vidot, and P. Field

Recorded Presentation Manuscript (1.1 MB)

Handout (4.8 MB)

5:30 PM

J2.5

The role of clouds and convection in the water cycle of the West African monsoon

Thorwald Hendrik Matthias Stein, University of Reading, Reading, United Kingdom; and D. J. Parker, R. J. Hogan, C. E. Birch, J. H. Marsham, K. Pearson, S. J. Woolnough, and G. Lister

Recorded Presentation

Registration

Location: 3rd Floor Foyer (Westin Copley Place)

Session 7

Shallow convective clouds

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Chair: Sonia Lasher-Trapp, University of Illinois

8:30 AM

7.1

Using Lagrangian drops to study the raindrop size distribution in shallow cumulus

Ann Kristin Naumann, Max Planck Institute for Meteorology, Hamburg, Germany; and A. Seifert

8:45 AM

7.2

Closure between CCN and Cloud Droplet Concentrations for Warm Clouds in Western Japan

Masataka Murakami, MRI, Tsukuba, Japan; and N. Orikasa, A. Saito, and K. Yamashita

9:00 AM

7.3

Aerosol Impacts on Post-Cold Frontal Cumulus Clouds and the Extratropical Cyclone Moisture Budget

Amanda M. Sheffield, Colorado State University, Fort Collins, CO; and S. C. van den Heever

9:15 AM

7.4

Parameterization of microphysics in cumulus convective clouds

Yefim Kogan, CIMMS/Univ. of Oklahoma, Norman, OK

Recorded Presentation

9:30 AM

7.5

On simulated trade-wind cumulus convection and cold pools

Zhujun Li, NASA Langley Research Center, Hampton, VA; and P. Zuidema and P. Zhu

Recorded Presentation

9:45 AM

7.6

On the link between the Amazon Forest Enhanced Vegetation Index and Shallow Cumulus Organization

Reuven H. Heiblum, Weizmann Institute of Science, Rehovot, Israel; and G. Feingold and I. Koren

Recorded Presentation

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Session 8

Deep convective clouds

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: Adam C. Varble, University of Utah; Ann M. Fridlind, NASA/GISS

10:30 AM

8.1

The Importance of Aerosol to Deep Convective Cloud Morphology

Matthew R. Igel, Colorado State University, Fort Collins, CO; and S. C. van den Heever

Recorded Presentation

10:45 AM

8.2

Probing into responses of moist convection to large-scale temperature perturbations using a Lagrangian Particle Dispersion Model

Yang Tian, Harvard University, Cambridge, MA; and J. Nie and Z. Kuang

Recorded Presentation

11:00 AM

8.3

Microphysics of Frozen Droplets Formed in Deep Convective Clouds

Emma Järvinen, Karlsruhe Institute of Technology, Eggenstein-Leopoldshafen, Germany; and M. Schnaiter and O. Möhler

Recorded Presentation

11:15 AM

8.4

The Origin and Development of the Ice Phase in Convective Clouds Observed during COPE

Jonathan Crosier, University of Manchester, Manchester, United Kingdom; and J. Taylor, K. N. Bower, Z. Lui, T. W. Choularton, A. M. Blyth, P. Brown, S. Lasher-Trapp, J. French, D. Leon, Y. Huang, and L. J. Bennett

Recorded Presentation

11:30 AM

8.5

Variation of ice crystal size, shape and asymmetry parameter in tops of tropical deep convective clouds

Bastiaan van Diedenhoven, Columbia University and NASA/GISS, New York, NY; and A. M. Fridlind, A. S. Ackerman, and B. Cairns

Recorded Presentation

11:45 AM

8.6

Investigation of potential sources of widespread high ice water content in deep convection anvil outflow, Part 2: Simulated updraft microphysical pathways associated with observed ice size distribution properties

Andrew S. Ackerman, NASA/GISS, New York, NY; and A. M. Fridlind, A. Grandin, F. Dezitter, and J. W. Strapp

Recorded Presentation

Lunch Break

Joint Session 3

Sean Twomey Named Session: Passive remote sensing of clouds and aerosols

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Chair: Allison McComiskey, NOAA

1:30 PM

J3.1

Motivation behind the Development of Inversion Methods in Geophysics: Sean Twomey and his Influence (Invited Presentation)

Michael D. King, University of Colorado, Boulder, CO

Recorded Presentation

Handout (6.6 MB)

1:53 PM

J3.2

Information Content in Remote Sensing: A perspective on Twomey's Influence on Present and Future Observations (Invited Presentation)

Peter Pilewskie, Univ. of Colorado, Boulder, CO

Recorded Presentation

2:15 PM

J3.3

Cloud drop effective radius as observed from aircraft, MODIS and MISR

Larry Di Girolamo, University of Illinois, Urbana, IL; and C. O. Haney, G. Zhao, L. Liang, A. Jones, R. M. Rauber, A. Manaster, and S. Platnick

2:30 PM

J3.4

Twomey Effect Observed from Collocated Microphysical and Remote Sensing Measurements over Shallow Cumulus

Frank Werner, University of Leipzig, Leipzig, Germany; and F. Ditas, H. Siebert, M. Simmel, B. Wehner, P. Pilewskie, T. Schmeissner, R. Shaw, S. Hartmann, H. Wex, G. Roberts, and M. Wendisch

Recorded Presentation

2:45 PM

J3.5

Surface-based assessment of cloud albedo responses to aerosol and meteorological drivers

Allison McComiskey, NOAA, Boulder, CO; and G. Feingold

Recorded Presentation

3:00 PM

J3.6

Characterizing near-cloud aerosols using the MODIS ocean color product

Tamas Varnai, JCET/Univ. of Maryland, Greenbelt, MD; and A. Marshak

Recorded Presentation

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Joint Session 4

Sean Twomey Named Session: Aerosol-cloud interactions and susceptibility

Location: Essex Center/South (Westin Copley Place)

Hosts: (Joint between the 14th Conference on Cloud Physics; and the 14th Conference on Atmospheric Radiation )

Cochairs: Jorgen B. Jensen, NCAR; Andrew S. Ackerman, NASA/GISS

3:45 PM

J4.1

Reflections on Cloud Remote Sensing: Another Sean Twomey Legacy (Invited Presentation)

Steven Platnick, NASA/GSFC, Greenbelt, MD

Recorded Presentation

4:07 PM

J4.2

From Droplet Nucleation to Precipitation: Following in Sean Twomey's Giant Footsteps (Invited Presentation)

Graham Feingold, NOAA/Earth System Research Laboratory/Chemical Sciences Division, Boulder, CO

Recorded Presentation

4:30 PM

J4.3

An Aerosol Initiated Transition from Widespread-Shallow to Isolated-Deep Precipitating Marine Boundary Layer Clouds

Stephen M. Saleeby, Colorado State University, Fort Collins, CO; and S. R. Herbener, T. L'Ecuyer, S. C. van den Heever, and W. Berg

Recorded Presentation

4:45 PM

J4.4

Quantification of Cloud Susceptibilities to Ice Nuclei

Marco Paukert, Karlsruhe Institute of Technology, Karlsruhe, Germany; and C. Hoose

Recorded Presentation

5:00 PM

J4.5

Entrainment of Aerosols and Their Activation in a Shallow Cumulus Cloud Studied with a Coupled LCM-LES Approach

Fabian Hoffmann, Leibniz Universität, Hannover, Germany; and S. Raasch and Y. Noh

Recorded Presentation

5:15 PM

J4.6

Aerosol Indirect Effects on Shallow Maritime Cloud Morphology

Stephen R. Herbener, Colorado State Univ., Fort Collins, CO; and S. M. Saleeby, S. C. van den Heever, T. S. L'Ecuyer, and W. Berg

Recorded Presentation

Formal Poster Viewing

Joint Poster Session 1

Cloud, aerosol, precipitation, radiation interactions

Host: 14th Conference on Cloud Physics

179

Implementation of a Two-Moment Cloud Microphysics Parameterization for Stratiform Clouds of NCAR CESM

Chein-Jung Shiu, Academia Sinica, Taipei, Taiwan; and Y. H. Chen, W. T. Chen, T. Hashino, J. L. Li, I. C. Tsai, J. P. Chen, and H. H. Hsu

180

Liquid water clouds: conditions for sub-adiabatic water content from long-term ground-based remote sensing observations

Bernhard Pospichal, University of Leipzig, Leipzig, Germany; and P. Seifert

Handout (1.4 MB)

181

Multiple Regression Analysis of CCN, Vertical Velocity and Cloud Droplet Concentrations

Stephen R. Noble, DRI, Reno, NV; and J. G. Hudson

182

CCN, Vertical Velocity and Cloud Droplet Concentration Multiple Regression Analysis

Samantha Tabor, DRI, Reno, NV; and S. Noble and J. G. Hudson

183

Estimating global aerosol optical properties and their radiative forcings by a global model with 14 km grid spacing

Daisuke Goto, National Institute for Environmental Studies (NIES), Tsukuba, Ibaraki, Japan; and E. Oikawa, K. Suzuki, T. Seiki, and T. Nakajima

184

How Can We Use Lidar And Radar To Monitor Aerosol-Cloud Interaction?

Karolina Sarna, Delft University of Technology, Delft, Zuid-Holland, Netherlands; and H. W. J. Russchenberg and D. P. Donovan

Handout (2.0 MB)

185

Modification of scattering and absorption properties of cloud water droplets by black-carbon aerosols

Michael I. Mishchenko, NASA/GISS, New York, NY; and L. Liu, B. Cairns, and D. Mackowski

186

Reconfiguration Plans for the Next-Generation ARM Facility

James H. Mather, PNNL, Richland, WA; and J. Voyles

187

Simulation of aerosol effects on mixed-phase orographic clouds using the WRF model with a detailed bin microphysics scheme

Hui Xiao, Nanjing University of Information Science & Technology, Nanjing, China, Nanjing, Jiangsu, China; and Y. Yin

188

Does model resolution matter for the estimate of aerosol-cloud interactions?

Huan Guo, NOAA/GFDL, Princeton, NJ; and J. C. Golaz and L. Donner

189

Aerosol impacts on drizzle rate and probability in warm clouds: ground-based observations and forecast model evaluation

Julian A. L. Mann, University of Reading, Reading, United Kingdom; and J. Y. C. Chiu, R. J. Hogan, E. J. O'Connor, T. Stein, T. L'Ecuyer, and A. Jefferson

190

The Effects of Air Pollution on the Microphysical Characteristic of Heavy Precipitation in the Pearl River Delta

Lin Wenshi, Sun Yat-sen University, Guangzhou, Guangdong, China

191

Investigating aerosol–convection interactions on a global scale using the Convective Cloud Field Model (CCFM) within the aerosol–climate model ECHAM–HAM

Zak Kipling, University of Oxford, Oxford, United Kingdom; and P. Stier and T. Wagner

192

Joint Impact of aerosol radiative and microphysical effects on convective cloud, precipitation and thunderstorms

Zhanqing Li, University of Maryland, College Park, MD; and X. yang

193

Relationships Between Ice Cloud Properties and Radiative Effects from A-Train Observations and Global Climate Models

Betsy Berry, University of Utah, Salt Lake City, UT; and J. Mace

194

A-Train Observations of Maritime Mid-latitude Storm Track Cloud Systems: Comparing the Southern Ocean against the North Atlantic and the North Pacific

Yi Huang, Monash University, Monash, Australia; and A. Protat, S. T. Siems, and M. J. Manton

195

Performance Evaluation of Radiation Parameterization in KIAPS-GM

Joonsuk Lee, Korea Institute of Atmospheric Prediction Systems, Seoul, Korea, Republic of (South); and E. K. Jin

196

Development of Aerosol-CCN Activation Scheme for KIAPS-GM and the Sensitivity of Aerosol on Cloud Properties

Soo Ya Bae, Korea Institute of Atmospheric Prediction Systems, Seoul, Korea, Republic of (South); and I. J. Choi and E. K. Jin

197

Application of the features in double-moment microphysics into single-moment microphysics scheme in KIAPS-GM

198

Effects of aerosols on size and structure of hail and on the polarimetric radar signatures

Alexander P. Khain, Hebrew University, Jerusalem, Israel; and E. Ilotovich, N. Benmoshe, V. Phillips, A. V. Ryzhkov, and M. R. Kumjian

199

On the importance of the condensation sink of pre-existing droplets for aerosol-cloud interactions

Daniel G. Partridge, Oxford University, Oxford, United Kingdom; and M. Andrejczuk, Z. Kipling, and P. Stier

200

Is the semi-direct effect for smoke overlying stratocumulus overrated? Circulation variability and radiative impacts reconsidered for the southeast Atlantic

Adeyemi Adebiyi, RSMAS, Miami, FL; and P. Zuidema and S. J. Abel

201

Linking between Urbanization and Cloud Coverage Trends in East Asia

Rotem Z. Bar-Or, MIT, Cambridge, MA; and C. Wang

202

Space-based observations of a radiatively driven field of large "upside-down" mammatus lobes near the tropopause

Timothy J. Garrett, University of Utah, Salt Lake City, UT; and N. Ferlay and F. Minvielle

203

Inter-comparison of CMIP5 Model Representations and Satellite Observations of Cloud-Aerosol Interactions

Alyssa J. Sockol, University of Hawaii at Manoa, Honolulu, HI; and J. D. Small Griswold

204

On the relationship between cloud water responses to changes in aerosol and the probability of precipitation

Zachary J. Lebo, CIRES/Univ. of Colorado, Boulder, CO; and G. Feingold

205

Characterizing Vertical Structure of Water Clouds using CloudSat and MODIS datasets

Kazuaki Kawamoto, Nagasaki University, Nagasaki, Japan; and K. Suzuki

206

Penn State Shallow Convection Parameterization Scheme, Its Evaluation in WRF and Upgrades

Aijun Deng, Pennsylvania State University, University Park, PA; and B. Gaudet and T. Lauvaux

207

Sensitivity Analysis of Cloud, Precipitation, and Radiation Properties by Changing Aerosols in a WRF Case Study

Joint Poster Session 1

Radiative Properties of Clouds and Aerosols

Hosts: (Joint between the 14th Conference on Atmospheric Radiation; and the 14th Conference on Cloud Physics )

299

Volcanic ash optical model for satellite remote sensing

Sini Merikallio, Finnish Meteorological Institute, Helsinki, Finland; and O. Muñoz, A. M. Sundström, T. H. Virtanen, M. Horttanainen, G. de Leeuw, and T. Nousiainen

Handout (5.3 MB)

300

The impact of natural variations of ice crystal aspect ratios on single-scattering radiative properties

Greg M. McFarquhar, University of Illinois, Urbana, IL; and J. Um

301

Ice cloud properties in mid-latitude cyclones from Aqua AIRS/AMSU geophysical fields

Brian H. Kahn, JPL, Pasadena, CA; and C. M. Naud

302

The scattering properties of atmospheric ice particles measured during MACPEX by the SID3

Carl G. Schmitt, NCAR, Boulder, CO; and M. Schnaiter and A. Heymsfield

303

Evaluation of CMIP5 AMIP simulated clouds and TOA radiation budgets using NASA satellite observations

Erica K. Dolinar, University of North Dakota, Grand Forks, ND; and X. Dong, B. Xi, J. Jiang, and H. Su

Poster 304 has moved. New Paper number is 3.2A

305

Evaluation of Black Carbon Semi-Direct Radiative Effect in a Climate Model

Jiangnan Li, Canadian Centre for Climate Modelling and Analysis, Victoria, BC, Canada

306

Dependence of retrievals of cloud and atmospheric properties on the spectral resolution of infrared measurements

Penny M. Rowe, University of Idaho, Moscow, ID; and C. J. Cox and V. Walden

307

Multi-Year Comparisons of High Cloud Frequencies from HIRS, MODIS, and AVHRR

Richard A. Frey, University of Wisconsin, Madison, WI; and P. Menzel, A. Heidinger, B. Baum, and N. Bearson

308

Using a New Scattering Order Formulation of the Discrete Dipole Approximation to Calculate Scattering by Irregularly Shaped Aerosols

Carynelisa Haspel, The Hebrew Univ., Jerusalem, Israel; and M. Tzemach Tzabari

Handout (381.7 kB)

309

Cirrus cloud feedback in response to climate fluctuations

Chen Zhou, Texas A&M University, College Station, TX

Handout (1.3 MB)

310

Vertical variability of aerosol absorbing properties in the Carpathian Mountains

Krzysztof M. Markowicz, University of Warsaw, Warsaw, Poland; and M. Chilinski, J. Markowicz, P. Makuch, T. Petelski, I. E. Stachlewska, and O. Zawadzka

Manuscript (500.0 kB)

Handout (3.9 MB)

311

A new approach for simultaneously retrieving cloud albedo and cloud fraction from surface-based diffuse and total solar radiation measurements

Yu Xie, National Renewable Energy Laboratory, Golden, CO; and Y. Liu

312

Multi-year variation of the aerosol optical properties and radiative forcing over East Asia

Bingqi Yi, Texas A&M University, College Station, TX; and P. Yang

313

Observation and modeling the vertical variability of the single scattering properties during Arctic Haze

Justyna Lisok, University of Warsaw, Warsaw, Poland; and M. Chiliński, K. M. Markowicz, M. Gausa, P. Makuch, T. Petelski, and T. P. Zieliński

Manuscript (779.6 kB)

Handout (11.6 MB)

314

Study of Aerosol Radiative Properties During Long-range Transport of Biomass Burning from Canada to Central Europe in July 2013

Michał T. Chiliński, University of Warsaw, Warsaw, Poland; and J. Lisok, O. Zawadzka, K. M. Markowicz, I. S. Stachlewska, P. Makuch, T. Petelski, T. P. Zieliński, A. Strzałkowska, A. Rozwadowska, A. Pietruczuk, A. Szkop, and M. Posyniak

Handout (3.9 MB)

315

Extrapolation of Simulated Scattering Matrix for Large Size Parameter Values

Teemu Mäkinen, Finnish Meteorological Institute, Helsinki, Finland; and T. Nousiainen

Handout (454.8 kB)

316

Analyzing Inhomogeneity of Trade Wind Cumuli from Collocated Radiation and Microphysical Observations

Frank Werner, University of Leipzig, Leipzig, Germany; and H. Siebert, T. Schmeissner, R. Shaw, and M. Wendisch

317

A flexible parameterization for shortwave optical properties of ice crystals

Bastiaan van Diedenhoven, Columbia University and NASA/GISS, New York, NY; and A. S. Ackerman, B. Cairns, and A. M. Fridlind

Handout (4.9 MB)

318

Global Assessment for the Net Radiative Flux Uncertainties Estimated by NASA/GEWEX Surface Radiation Budget (SRB) Project and CALIPSO-CloudSat-CERES-MODIS (CCCM) Dataset

Antonio Viudez-Mora, LaRC, Hampton, VA; and P. W. Stackhouse Jr. and S. Kato

319

A Single Parameter to Characterize Anisotropy of Single Scattering: Asymmetry Parameter vs. Mean Scattering Angle

Alexander Radkevich, SSAI, Hampton, VA

Validation of the Community Radiative Tansfer Model with the MODIS Collection 6 Ice Cloud Model

Joint Poster Session 2

Remote and in-situ observations of clouds, atmosphere and environment

Host: 14th Conference on Cloud Physics

208

Quantifying the amount of ice in cirrus clouds

Melody A. Avery, NASA/LARC, Hampton, VA; and D. M. Winker

Manuscript (5.5 MB)

Handout (5.5 MB)

209

Towards retrieving CCN from satellites by using clouds as CCN chambers

Daniel Rosenfeld, The Hebrew University, Jerusalem, Israel; and Y. Zheng

210

Satellite retrieval of convective cloud base temperature based on the NPP/VIIRS Imager

Daniel Rosenfeld, The Hebrew University, Jerusalem, Israel; and Y. Zhu, Y. Xing, G. Liu, J. Dai, and X. Xu

211

Southeast Pacific Stratocumulus Cloud Droplet Concentrations: Modeled, Retrieved, and Directly-observed Values

Jefferson R. Snider, University of Wyoming, Laramie, WY; and D. Leon and Z. Wang

212

Multi platform Comprehensive Retrieval of Marine SC Microphysical and Geometrical Properties Including Cloud Base Height and Surface Coupling State

Tom Goren, The Hebrew University of Jerusalem, Jerusalem, Israel; and D. Rosenfeld

213

Diabatic heating and cooling rates derived from in-situ microphysics measurements: A case study of a wintertime UK cold front

Christopher Dearden, University of Manchester, Manchester, United Kingdom; and P. J. Connolly, G. Lloyd, J. Crosier, K. N. Bower, T. W. Choularton, and G. Vaughan

Handout (2.5 MB)

214

Quantifying the temporal variability of convective cloud using SEVIRI data

Sarah A. Taylor, University of Oxford, Oxford, United Kingdom; and P. Stier and B. White

215

Analysis of Submicron Aerosol Number Size Distribution in Seoul Using the Cyclostationary Empirical Orthogonal Functions

Minsu Park, Yonsei University, Seoul, Korea, Republic of (South); and S. S. Yum, J. H. Kim, and J. Yeom

Manuscript (99.0 kB)

216

On the information content of remotely-sensed observations of snowfall

217

Study on the Three Dimensional Cloud Region Diagnosis

Yuquan Zhou Sr., Chinese Academy of Meteorological Science, Beijing, China; and M. Cai Jr.

218

Shortwave surface radiation budgeting network for spatio-temporal observation of cloud inhomogeneity fields

Lakshmi Madhavan Bomidi, Leibniz Institute for Tropospheric Research, Leipzig, Sachsen, Germany; and S. Bley, J. Kalisch, A. Macke, and H. Deneke

Handout (4.2 MB)

219

Opposite Effects of Absorbing Aerosols on the Retrievals of Cloud Optical Depth from Space-borne and Ground-based Measurements

Zhanqing Li, University of Maryland, College Park, MD; and F. Zhao

220

In situ aircraft measurements as validation for MODIS cloud products

Stephen R. Noble, DRI, Reno, NV; and J. G. Hudson

221

A study of the life cycle of convective cloud ensembles using high resolution Meteosat SEVIRI data

Sebastian Bley, Leibniz Institute for Tropospheric Research, Leipzig, Sachsen, Germany; and H. Deneke

222

Retrievals of the deep convective system ice cloud microphysical properties using the ARM radar and aircraft in - situ measurements

Jingjing tian, University of North Dakota, Grand Forks, ND; and X. Dong, B. Xi, J. wang Sr., S. Giangrande, and T. Toto

Handout (2.2 MB)

223

The Role of Mesoscale Dynamics on Microphysics in Orographic Cloud during CAMPS

Robert David, DRI, Reno, NV; and D. Lowenthal and A. G. Hallar

224

Comparing Study on Aerosol, Cloud and Precipitation in East China and USA based on MODIS and TRMM PR observations

Yunfei Fu, University of Science and Technology, Hefei, China; and Y. Yang, Y. Chen, and R. Li

225A

Inferring aerosol optical property and aerosol height above clouds from clear-sky satellite observations

Meloe Kacenelenbogen, BAERI/NASA/ARC, Moffett Field, CA; and J. Redemann and M. A. Vaughan

226

A Consideration of Higher Concentration of Ice Crystals Based on Data from Two Kinds of Videosondes

Soichiro Sugimoto, Central Research Institute of Electrical Power Industry, Abiko, Japan; and T. Takahashi, T. Kawano, and K. Suzuki

227

A Simulation-based Study on Effects of Multiple-scattering and Attenuation in GPM DPR Measurement

Soichiro Sugimoto, Central Research Institute of Electrical Power Industry, Abiko, Japan; and T. Kobayashi and A. Adachi

228

A First Look on Cloud Homogeneity from CALIPSO

Charles Trepte, NASA, Hampton, VA; and Z. Liu and J. L. Tackett

229

Characterizing the Effects of Ice Microphysical Assumptions on Retrieval Algorithm Uncertainties

Gerald. G Mace, University of Utah, Salt Lake City, UT; and S. J. Cooper and P. Lawson

230

Modeling Snowflakes at Microwave Wavelengths

Ryan Honeyager, Florida State University, Tallahassee, FL; and G. Liu and H. Nowell

Manuscript (2.7 MB)

Handout (4.5 MB)

231

Evaluation of Cloud Ice Microphysical Models with Habit Prediction Using Polarimetric Radar Observables

Yinghui Lu, Lawrence Berkeley National Laboratory, Berkeley, CA; and K. Aydin, E. E. Clothiaux, J. Verlinde, J. Van Der Horn, K. Sulia, and J. Y. Harrington

Handout (2.7 MB)

232

Cloud Base Cloud Condensation Nuclei Measurements in Summertime North Dakota

David Delene, University of North Dakota, Grand Forks, ND; and M. Starzec

233

Saharan air layers sampled by South Florida's Cloud-Aerosol-Rain-Observatory: What can we learn?

Paquita Zuidema, Univ. of Miami/RSMAS, Miami, FL; and S. Purdue, R. Delgadillo, J. M. Prospero, and K. Voss

234

Hemispheric comparison of cirrus cloud evolution using in situ measurements in HIAPER Pole-to-Pole Observations

Minghui Diao, NCAR, Boulder, CO; and M. A. Zondlo, A. J. Heymsfield, and S. P. Beaton

Handout (2.8 MB)

235

A comparison of satellite-based overshooting top observations from geostationary infrared sensors and low earth orbit lidar

Simon Proud, MIT, Cambridge, MA

236

Controlling factors of shallow to deep convection duringn monsoon over Indian peninsular region

Kulkarni Gayatri, Indian Institute of Tropical Meteorology, Pune, Maharashtra, India; and N. Malap, P. Murugvel, A. Karipot, G. Pandithurai, and T. V. Prabha

237

Statistical properties of the cloudy boundary Iayer at the Jülich ObservatorY for Cloud Evolution

Ulrich Löhnert, University of Cologne, Köln, Germany; and S. Crewell, C. Acquistapace, J. Schween, K. Ebell, and B. Bohn

238

Cloud water content profiles derived from passive satellite data

William L. Smith Jr., NASA LaRC, Hampton, VA; and P. Minnis, D. A. Spangenberg, and C. Fleeger

239

In-Situ Measurements of Contrail Properties Measured During the 2013-2014 ACCESS Project

Richard H. Moore, NASA Langley Research Center, Hampton, VA; and B. E. Anderson, E. Winstead, K. L. Thornhill, A. Beyersdorf, M. Shook, C. Hudgins, R. Martin, and L. Ziemba

240

High-resolution Numerical Weather Prediction system for the Sochi 2014 Winter Olympics

Joint Poster Session 3

Sean Twomey Named Session: Aerosol-cloud interactions and susceptibility

Hosts: (Joint between the 14th Conference on Cloud Physics; and the 14th Conference on Atmospheric Radiation )

241

An Overview of NOAA Climate Data Record (CDR) Cloud Products

Alisa Young, NOAA/NESDIS/NCDC, Asheville, NC

242

Investigation of Aerosol-Cloud Interactions Using a New Parcel model

Jingyi Chen, SUNY, Stony Brook, NY; and Y. Liu and M. Zhang

Handout (490.9 kB)

243

Potential impacts of aerosol pollution on precipitation and storm dynamics of a Derecho-producing MCS

Michal Clavner, Colorado State University, Fort Collins, CO; and W. R. Cotton and S. C. van den Heever

244

Long-term Aerosol-mediated Changes in Cloud Radiative Forcing of Deep Clouds over the SGP

Hongru Yan, Lanzhou University, Lanzhou, China; and Y. Yi and J. Huang

245

The vertical transport of black carbon aerosol and its effect on shallow cumulus clouds

Huiwen Xue, Peking University, Beijing, China; and J. Zhang

246

Can Aerosols from mid-latitudes inhibit the liquid to ice transition in Arctic Clouds?

Quentin Coopman, Université de Lille, Villeneuve d'Ascq, France; and J. Riedi, T. J. Garrett, S. Eckhardt, and A. Stohl

Handout (5.8 MB)

247

Susceptibility and Resilience of Aerosol-Cloud-Precipitation Interactions in 2D Orographic Mixed-Phase Clouds

Franziska Glassmeier, ETH, Zurich, Switzerland; and N. Herger, F. Ramelli, and U. Lohmann

248

What does nature tell us about anthropogenic aerosol indirect effects?

Tianle Yuan, GSFC, Greenbelt, MD; and L. Remer, H. Yu, K. Pickering, L. Oreopoulos, E. M. Wilcox, D. J. Posselt, and Z. Li

Poster Session P10

Cirrus Clouds

Host: 14th Conference on Cloud Physics

249A

Sensitivities of Lagrangian modeling of a cirrus cloud observed above Jungfraujoch to the used trajectory data

Erika Kienast-Sjögren, ETH, Zürich, Switzerland; and A. Miltenberger and B. P. Luo

249

Radiative properties of mid-latitude cirrus clouds derived by automatic evaluation of lidar data from Zürich, Jülich and the high alpine research station Jungfraujoch

Erika Kienast-Sjögren, ETH, Zürich, Switzerland; and U. Krieger, F. G. Wienhold, B. P. Luo, C. Rolf, M. Krämer, and T. Peter

250

Evaluation of the Physical Properties of Mid-Latitude Cirrus in Six Months of Cloud Resolving Model Simulations over the ARM Southern Great Plains

Chen Zhang, University of Washington, Seattle, WA; and A. Muhlbauer and T. P. Ackerman

251

Aspect Ratios of Natural Ice Crystals Derived from High-Resolution Images: Dependence on Environmental Conditions

Junshik Um, University of Oklahoma, Norman, OK; and G. M. McFarquhar

252

The relationship between cirrus ice microphysical properties and meteorological conditions observed during SPARTICUS

Robert Jackson, University of Illinois, Urbana, IL; and G. M. McFarquhar and R. P. Lawson

253

Dehydration in cirrus clouds in the tropical tropopause layer: Eulerian and Lagrangian perspectives

Tra Dinh, Princeton University, Princeton, NJ; and S. Fueglistaler, D. R. Durran, and T. P. Ackerman

254

Determination of ice crystal habits for application to the cirrus cloud remote sensing

Husi Letu II, AER, Tokyo, Japan; and H. Ishimoto, T. Y. Nakajima, J. Riedi, and T. M. Nagao

255

Adjoint analysis of ice crystal sensitivity to heterogeneous nucleation spectrum in CAM 5

Sylvia C. Sullivan, Georgia Institute of Technology, Atlanta, GA; and B. Sheyko and A. Nenes

256

Ice particle fallspeed derived from in-situ observations of cirrus uncinus

Richard J. Cotton, UK Met Office, Exeter, United Kingdom; and K. Furtado

257

Derivation and testing of consistent physical and optical properties of midlatitude cirrus ice crystals for a size-resolved microphysics model

Ann M. Fridlind, NASA, New York, NY; and R. L. Atlas, J. Um, G. M. McFarquhar, A. S. Ackerman, B. van Diedenhoven, E. J. Moyer, and R. P. Lawson

258

Cirrus cloud susceptibility to ice nuclei perturbations in the upper troposphere

Trude Storelvmo, Yale University, New Haven, CT

259

Developing and Bounding Ice Particle Mass- and Area-dimension Expressions for Cirrus Clouds

David L. Mitchell, DRI, Reno, NV; and E. Erfani and S. Mishra

Handout (819.2 kB)

260

Dependence of Circumsolar Radiation on Ice Cloud Properties

Päivi Haapanala, University of Helsinki, Helsinki, Finland; and G. M. McFarquhar, A. Macke, P. Räisänen, M. Kahnert, and T. Nousiainen

Handout (2.4 MB)

261

Inhomogeneous Cirrus Clouds during the AIRTOSS Campaign

Matthias Voigt, Johannes Gutenberg University, Mainz, Germany; and M. Klingebiel, P. Spichtinger, M. Kraemer, and C. Rolf

262

Surface Roughness of Small Cirrus Ice Particles

Martin Schnaiter, Karlsruhe Institute of Technology, Karlsruhe, Germany; and E. Järvinen, P. Vochezer, Z. Ulanowski, C. G. Schmitt, and A. J. Heymsfield

263

Subvisible and thin cirrus clouds formed by homogeneous freezing

Peter Spichtinger, Johannes Gutenberg University, Mainz, Germany; and E. J. Spreitzer

264

Comparing High Spectral Resolution with Broadband IR Cloud Top Pressure Determinations

Elisabeth Weisz, University of Wisconsin, Madison, WI; and W. P. Menzel

265

Thin cirrus clouds in the lowermost stratosphere (LMS) measured with a lidar system at mid-latitudes

Christian Rolf, Forschungszentrum Juelich, Jülich, Juelich, Germany; and M. Kraemer Sr.

266

Ice supersaturation and cloud microphysical properties in cold cirrus formed near the tropical tropopause

Eric Jensen, NASA, Moffett Field, CA; and R. Ueyama, J. Bergman, L. Pfister, G. S. Diskin, T. Thornberry, A. W. Rollins, P. Lawson, B. Gandrud, S. Woods, and S. Lance

267

Using in situ measurements of ice residuals to evaluate ice nucleation and convective transport in CAM5

268

Cirrus Particle “Cloud-Catcher”: A New Balloon-Borne Technique for High-Resolution Imaging of Cirrus Ice Particles

Michael Wijkowski, College of New Jersey, Ewing, NJ; and N. Freschi and N. B. Magee

269

Observations of cloud microphysical properties in cirrus during the Airborne Tropical TRopopause Experiment (ATTREX)

Sarah Woods, SPEC, Inc., Boulder, CO; and P. Lawson, S. Lance, E. Jensen, B. Gandrud, T. Thornberry, A. W. Rollins, and T. V. Bui

270

Microphysical Properties of Contrails and Climate Impact – Overview of the CONCERT (Contrail and Cirrus Experiment) Aircraft Missions in 2008 and 2011

Christiane Voigt, Deutsches Zentrum für Luft- und Raumfahrt Oberpfaffenhofen, Wessling, Germany; and U. Schumann, P. Jessberger, S. Kaufmann, T. Jurkat, I. Sölch, A. Minikin, K. Graf, H. Schlager, A. Schäfler, A. Doernbrack, S. Borrmann, M. Klingebiel, J. F. Gayet, and A. Schwarzenboeck

271

Tropical Ice Cloud Features from 4-year CloudSat and CALIPSO observations

Min Deng, university of Wyoming, Laramie, WY; and G. G. Mace and Z. Wang

272

Optimal estimation retrieval of cirrus cloud parameters using combined lidar (CPL) and hyper-spectral (S-HIS) measurements

Paolo Veglio, CIMSS/Univ. of Wisconsin, Madison, WI; and R. E. Holz

273

Interannual variability of tropical tropopause layer clouds

274

Using SPartICus measurements to study the occurrence and source of ice particle size distribution features in mid-latitude synoptic cirrus

R. L. Atlas, University of Chicago, Chicago, IL; and A. M. Fridlind, E. J. Moyer, G. M. McFarquhar, J. Um, P. Lawson, and A. S. Ackerman

Poster Session P11

Deep convective clouds

Host: 14th Conference on Cloud Physics

275

Effects of Aerosol on the Precipitation of Deep Convective Clouds

Xin Deng, Peking University, Peking, China; and H. Xue and J. P. Chen

276

Quantifying the characteristics of deep convection in the Congo Basin using high-resolution convection-permitting simulations

Bethan White, University of Oxford, Oxford, United Kingdom; and P. Stier

277

Impact of Activation Treatment and CCN/IN Concentrations on Simulations of a Continental Convective System

Daniel A. Rothenberg, MIT, Cambridge, MA; and C. Wang

278

Investigating aspects of the transition from shallow to deep convection with a Lagrangian particle model

Giuseppe Torri, Harvard University, Cambridge, MA; and Z. Kuang

279

Investigation of potential sources of widespread high ice water content in deep convection anvil outflow, Part I: Quasi-steady properties of precipitating stratiform regions in observations and simulations

Ann M. Fridlind, NASA/GISS, New York, NY; and A. S. Ackerman, A. Grandin, F. Dezitter, and J. W. Strapp

280

Aerosol Impacts on Deep Convective Processes using Bulk and Bin Microphysical Schemes

Susan C. van den Heever, Colorado State Univ., Fort Collins, CO; and A. Igel

281

Impact of bulk microphysics scheme assumptions on simulated mesoscale convective system precipitation biases

Adam C. Varble, University of Utah, Salt Lake City, UT; and E. Zipser, A. M. Fridlind, and H. Morrison

Handout (4.0 MB)

282

Precipitation characteristics of CAM5 physics at mesoscale resolution during MC3E and the impact of convective timescale choices

William I. Gustafson Jr., PNNL, Richland, WA; and P. L. Ma

283

On the Sensitivity of WRF Microphysics to Aerosol Concentration

Azusa Takeishi, Yale University, New Haven, CT; and T. Storelvmo

284

Comparisons of a squall line properties between observations and bin microphysics simulations

Lulin Xue, NCAR, Boulder, CO; and Z. J. Lebo, J. Fan, A. Bansemer, I. Geresdi, K. North, H. Morrison, R. M. Rasmussen, G. Thompson, W. W. Grabowski, P. Kollias, and A. Heymsfield

285

Coordinated Observations of Cloud Microphysical and Dynamical Properties from Multiple Aircraft during SEAC4RS 2013

Sara Lance, SPEC Inc., Boulder, CO; and S. Woods, B. Gandrud, R. P. Lawson, S. Avey, S. Benson, M. C. Schwartz, G. G. Mace, S. Veleva, S. L. Durden, S. Tanelli, and T. V. Bui

286

Incorporation of a Two-Moment Warm Cloud Microphysics Scheme into Deep Cumulus Parameterization of NCAR Community Atmosphere Model

Yi-Hsuan Chen, Academia Sinica, Taipei, Taiwan; and C. J. Shiu, W. T. Chen, T. Hashino, J. L. Li, I. C. Tsai, J. P. Chen, and H. H. Hsu

287

Roles of Wind Shear at Different Vertical Levels: Cloud System Organization and Properties

Qian Chen, Nanjing University of Information Science and Technology, Nanjing, China; and J. Fan and S. M. Hagos

288

Prediction of lightning-producing convection over the UK using the 1.5 km resolution Operational Met Office Unified Model

Jonathan M. Wilkinson, Met Office, Exeter, Devon, United Kingdom

289

Forecasting and Identification of the Hailstorm in Guangxi Area

Anning Gao, Guangxi Meteorological Observatory, Nanning, Guangxi, China; and R. Zhang, F. He, and L. Liu

290

The three-dimensional microphysical and dynamical morphology of convective storms

Thorwald Hendrik Matthias Stein, University of Reading, Reading, United Kingdom; and R. Hogan, J. Nicol, K. E. Hanley, H. W. Lean, P. Clark, C. E. Halliwell, and R. Plant

291

Sensitivity of Aerosol-Cloud Interactions to Subgrid-Scale Vertical Velocity in Convective Clouds

Chu-Chun Huang, University of California, Davis, CA; and W. C. Wang

292

Aerosol Effects on Simulated Supercell Thunderstorms in Environments with Different Relative Humidity and Vertical Wind Shear

Evan A. Kalina, Univ. of Colorado, Boulder, CO; and K. Friedrich, H. Morrison, and G. H. Bryan

Manuscript (2.0 MB)

Handout (3.8 MB)

293

Investigation of Microphysical Properties of DCS using Aircraft in-Situ Measurements. Part I: the Ice-Phase Layer of DCS

Jingyu Wang, University of North Dakota, Grand Forks, ND; and X. Dong and B. Xi

294

Observations Analysis and Hail Forming Area Identification on a Supercell Hailstorm

Miao Cai Jr., Chinese Academy of Meteorological Science, Beijing, Beijing, China; and Y. Zhou Sr.

295

Compiling a Global Climatology of Pyrocumulonimbus Events to Assess their Climactic Impacts

Mark Bauman, University of Hawaii, Honolulu, HI; and J. D. Small Griswold

296

Lack of correspondence between microphysical and electrical boundaries in thunderstorms

Andrew Detwiler, South Dakota School of Mines and Technology, Rapid City, SD

Handout (962.7 kB)

297

Multicellular Deep Convection Sensitivity to Aerosols and Midlevel Dry Layers

Leah D. Grant, Colorado State University, Fort Collins, CO; and S. C. van den Heever

298

Can flash floods in England be produced by warm rain?

Registration

Location: 3rd Floor Foyer (Westin Copley Place)

Session 9

Boundary layer stratiform clouds

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: David Leon, Univ. of Wyoming; Steve Siems, Monash University

8:30 AM

9.1

Quantifying radiative cooling, evaporative cooling and diffusion at the stratocumulus cloud top

Alberto de Lozar, Max Planck Institute for Meteorology, Hamburg, Germany; and J. P. Mellado

Recorded Presentation

8:45 AM

9.2

Bright boundary layer clouds over the Southern Ocean observed during the HIPPO campaigns

Thomas H. Chubb, Monash Univ., Melbourne, Australia; and J. B. Jensen, Y. Huang, and S. T. Siems

Recorded Presentation

9:00 AM

9.3

Microphysics, water substance continuity, and horizontal variability of boundary-layer clouds

Mikhail Ovchinnikov, PNNL, Richland, WA; and R. Easter and W. I. Gustafson, Jr.

Recorded Presentation

9:15 AM

9.4

Observed and Projected Ocean Wind Speed Trends and Marine Boundary Layer Clouds

Jan Kazil, NOAA/Earth System Research Laboratory, Boulder, CO; and G. Feingold

9:30 AM

9.5

Seamless Stratocumulus Simulation across Model Resolutions

Ian A. Boutle, Met Office, Exeter, United Kingdom; and S. Abel, J. Eyre, P. Hill, C. Morcrette, and A. Lock

Recorded Presentation

9:45 AM

9.6

Influence of spatial distribution of rain on transformation of open cellular circulation

Takanobu Yamaguchi, CIRES/Univ. of Colorado, Boulder, CO; and G. Feingold

Recorded Presentation

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Session 10

Cirrus clouds

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: Eric Jensen, NASA; Paul Lawson, SPEC Incorporated

10:30 AM

10.1

Perturbed physics ensemble simulations of cirrus on the cloud system-resolving scale

Andreas Muhlbauer, JISAO/Univ. of Washington, Seattle, WA; and E. Berry, J. M. Comstock, and G. G. Mace

Recorded Presentation

10:45 AM

10.2

In-situ measurements of synoptic scale polar stratospheric clouds in the Arctic stratospheric vortex: Microphysical properties of exceptionally large HNO3 containing particles

Stephan Borrmann, Max Planck Institute for Chemistry, Mainz, Germany; and S. Molleker, H. Schlager, B. Luo, W. Frey, M. Klingebiel, R. Weigel, W. Woiwode, H. Oelhaf, V. Mitev, and R. Matthey

Recorded Presentation

11:00 AM

10.3

The Dominance of Heterogeneous Versus Homogeneous Freezing in Cirrus: A Comparison of American- and European-based Midlatitude Datasets

Anna E. Luebke, Forschungszentrum, Juelich, Germany; and L. M. Avallone, S. Borrmann, J. Smith, T. V. Bui, and M. Kraemer

Recorded Presentation

11:15 AM

10.4

A Microphysics Guide to Cirrus Clouds

Martina Kraemer, Research Center, Juelich, Germany; and A. Costa, A. E. Luebke, C. Rolf, D. Baumgardner, and L. M. Avallone

Recorded Presentation

Handout (9.1 MB)

11:30 AM

10.5

Implications of the ISOCLOUD Campaigns at the AIDA Cloud Chamber for Ice Growth in Cold Cirrus

Kara D. Lamb, University of Chicago, Chicago, IL; and B. Clouser, L. Sarkozy, E. Stutz, B. Kühnreich, J. Landsberg, J. Habig, N. Hiranuma, S. Wagner, V. Ebert, E. Kerstel, H. Saathoff, O. Möhler, and E. J. Moyer

Recorded Presentation

11:45 AM

10.6

Dynamical condition of ice supersaturation and cirrus clouds in the extratropical upper troposphere and lower stratosphere

Minghui Diao, NCAR, Boulder, CO; and J. Jensen, L. L. Pan, E. Jensen, and C. R. Homeyer

Recorded Presentation

Handout (5.4 MB)

Keynote Speaker

Merchants of Doubt Lunch Session (Cash and Carry Lunch Available)

Location: Essex Center/South (Westin Copley Place)

Hosts: (Joint between the 14th Conference on Cloud Physics; the 14th Conference on Atmospheric Radiation; and the Events )

Speaker: Naomi Oreskes, Harvard University

Joint Session 5

Cloud, aerosol, precipitation, radiation interactions

Location: Essex Center/South (Westin Copley Place)

Hosts: (Joint between the 14th Conference on Cloud Physics; and the 14th Conference on Atmospheric Radiation )

Cochairs: Graham Feingold, NOAA/Earth System Research Laboratory/Chemical Sciences Division; Zachary J. Lebo, CIRES/Univ. of Colorado

1:30 PM

J5.1

High resolution (375 m) cloud aerosol precipitation interactions as seen from the NPP/VIIRS Satellite imager

Daniel Rosenfeld, The Hebrew University, Jerusalem, Israel; and G. Liu, X. Yu, and Y. Zhu

Recorded Presentation

1:45 PM

J5.2

Identifying Robust Aerosol-Cloud Relationships in Satellite Observations

Tristan S. L'Ecuyer, University of Wisconsin-Madison, Madison, WI

Recorded Presentation

2:00 PM

J5.3

The distinct radiative and precipitation characteristics of global MODIS cloud regimes

Lazaros Oreopoulos, NASA/GSFC, Greenbelt, MD; and C. Cho, J. Y. Lee, S. Kato, and G. J. Huffman

Recorded Presentation

2:15 PM

J5.4

Revisiting Estimates of Aerosol Indirect Effects in Thin, Liquid-Containing Arctic Clouds

Gijs de Boer, Univ. of Colorado, Boulder, CO; and M. Shupe, T. J. Garrett, C. Zhao, and D. D. Turner

Recorded Presentation

2:30 PM

J5.5

Regional and Seasonal Variation in the Relationship Between Absorbing Aerosols and Cloud Fraction

Jennifer D. Small Griswold, University of Hawaii, Honolulu, HI; and J. Jiang and H. Su

Recorded Presentation

2:45 PM

J5.6

Evaluating cloud parameterizations in a climate model with satellite observations

Kentaroh Suzuki, JPL/California Institute of Technology, Pasadena, CA; and J. C. Golaz, H. Guo, and G. L. Stephens

Recorded Presentation

3:00 PM

J5.7

Evidence for the importance of precipitation in closed to open cell cumulus transitions

Anita D. Rapp, Texas A&M University, College Station, TX; and A. Zapalac

Recorded Presentation

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Joint Session 6

Active/multi-platform remote sensing of clouds and aerosols

Location: Essex Center/South (Westin Copley Place)

Hosts: (Joint between the 14th Conference on Atmospheric Radiation; and the 14th Conference on Cloud Physics )

Chair: Jens Redemann, NASA/ARC

3:45 PM

J6.1

On the capability of aerosol remote sensing by CAI-2 imager aboard the GOSAT-2 satellite

Teruyuki Nakajima, University of Tokyo, Kashiwa, Japan; and M. Hashimoto, S. Fukuda, S. Morimoto, H. Takenaka, and Y. Yoshida

Recorded Presentation

4:00 PM

J6.2

EarthCARE—The ESA-JAXA Clouds, Aerosol and Radiation Explorer Mission. Overview and development status

Michael Eisinger, European Space Agency, Noordwijk, Netherlands; and T. Wehr, A. Lefebvre, and D. Lajas

Recorded Presentation

4:15 PM

J6.3

Multi-year ship-based remote sensing observations of clouds and aerosol over the Atlantic Ocean

Bernhard Pospichal, University of Leipzig, Leipzig, Germany; and R. Engelmann and A. Macke

Recorded Presentation

Handout (2.4 MB) Handout (2.4 MB)

4:30 PM

J6.4

HOPE—A German intensive field campaign to capture the spatiotemporal variability of the thermodynamics, energetics, and microphysics of the cloudy troposphere with high resolution

Andreas Macke, Leibniz Institute for Tropospheric Research, Leipzig, Germany

Recorded Presentation

4:45 PM

J6.5

Ground-based synergistic observations of cloud properties and their uncertainties

Kerstin Ebell, University of Cologne, Cologne, Germany; and E. Orlandi, U. Löhnert, P. Seifert, H. Siebert, A. Hünerbein, J. Y. C. Chiu, and S. Crewell

Recorded Presentation

5:00 PM

J6.6

Aerosol-Cloud Interaction using multiple ground based remote sensing instruments and in urban regions

Zaw Han, NOAA/Coastal Resilience Networks, New York, NY; and B. Gross and F. Moshary

Recorded Presentation

5:15 PM

J6.7

Exposing biases in retrieved low cloud properties from CloudSat: A guide for evaluating observations and climate data

M.W. Christensen, Colorado State University, Fort Collins, CO; and G. L. Stephens and M. Lebsock

Registration

Location: 3rd Floor Foyer (Westin Copley Place)

Session 11

Cloud model development

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Chair: Hailong Wang, PNNL

8:30 AM

11.1

How estimates of uncertainty in measured particle size distributions can be used to characterize the variability of gamma/exponential functions used in numerical models

Greg M. McFarquhar, University of Illinois, Urbana, IL; and T. L. Hsieh, M. Freer, J. Mascio, and B. Jewett

Recorded Presentation

8:45 AM

11.2

Exploring Sources of Uncertainty in Cloud Microphysics Using Statistical Emulation

Zhiqiang Cui, Univ. of Leeds, Leeds, United Kingdom; and J. S. Johnson, K. S. Carslaw, A. M. Blyth, L. A. Lee, and J. P. Gosling

Recorded Presentation

9:00 AM

11.3

A two-moment bulk microphysical parameterization of snow, graupel and hail with explicit liquid water fraction

Vivek Sant, Max Planck Institute for Meteorology, Hamburg, Germany; and A. Seifert

Recorded Presentation

9:15 AM

11.4

Prediction of Hail in a 2.5-km NWP System with Detailed Microphysics

Jason A. Milbrandt, EC, Dorval, QC, Canada

Recorded Presentation

9:30 AM

11.5

A new approach for parameterizing cloud microphysics based on the prediction of ice-phase particle properties

Hugh Morrison, NCAR, Boulder, CO; and J. A. Milbrandt

9:45 AM

11.6

Effects of cloud turbulence on warm-rain processes in maritime shallow convection

Wojciech W. Grabowski, NCAR, Boulder, CO; and L. P. Wang

Recorded Presentation

Coffee Break

Location: 3rd Floor Foyer (Westin Copley Place)

Session 12

Cloud processing of aerosols and gases, clouds in a changed climate, and miscellaneous

Location: Essex Center/South (Westin Copley Place)

Host: 14th Conference on Cloud Physics

Cochairs: Jason A. Milbrandt, EC; Jorgen B. Jensen, NCAR

10:30 AM

12.1

Studies into Marine Cloud Brightening (MCB), discussing the Important Cloud Physics Processes and how MCB could be used to Prevent Coral Bleaching, Ameliorate SSTs and Hurricane Intensity, and Pause Polar Arctic Sea Ice Loss

Alan Gadian, National Centre for Atmospheric Science (NCAS), Leeds, West Yorkshire, United Kingdom; and M. Andrejczuk, B. Parkes, J. kleypas, R. Hauser, J. Latham, and A. M. Blyth

Recorded Presentation

10:45 AM

12.2

A Climatology of the Precipitation over the Southern Ocean as observed at Macquarie Island

Steve Siems, Monash University, Monash, Victoria, Australia; and Z. Wang, D. Belusic, M. J. Manton, and Y. Huang

Recorded Presentation

11:00 AM

12.3

Connecting Trace Gas and Aerosol Scavenging in DC3 Thunderstorms to Physical and Dynamical Properties of the Storm

Mary C. Barth, NCAR, Boulder, CO; and M. M. Bela, A. Fried, P. Weibring, T. Hanisco, H. Arkinson, E. C. Apel, D. O'Sullivan, B. Heikes, V. Treadaway, P. Wennberg, J. Crounse, J. St. Clair, L. G. Huey, J. Stith, T. Campos, S. Rutledge, B. Baserab, B. R. Fuchs, L. Carey, A. L. Bain, M. I. Biggerstaff, C. Ziegler, A. Wisthaler, G. Diskin, M. Z. Markovic, P. Campuzano-Jost, F. Flocke, and S. Lance

Recorded Presentation

11:15 AM

12.4

Photogrammetric Observation of Nuclear Cloud Rise a Unique Phenomenon in Cloud Physics

Joseph Mckinney, Air Force Institute of Technology, WPAFB, OH; and G. Spriggs, S. Mchale, B. Kowash, and S. Fiorino

11:30 AM

12.5

Impacts of Regional Climate Change Upon the Warm Rain Process and Surface Precipitation from Deep Convective Storms: A Numerical Modeling Study

Cecille M. Villanueva-Birriel, Purdue University, West Lafayette, IN; and S. Lasher-Trapp

Recorded Presentation

11:45 AM

12.6

Exploring the impact of wet scavenging processes on aerosol spatial distributions and microphysical effects

Hailong Wang, PNNL, Richland, WA; and R. Easter, B. Kravitz, and P. Rasch

Recorded Presentation

Session 12 14th Conference on Cloud Physics

Sunday, 6 July 2014

5:30 PM-7:00 PM: Sunday, 6 July 2014

Monday, 7 July 2014

7:30 AM-5:30 PM: Monday, 7 July 2014

8:50 AM-10:00 AM: Monday, 7 July 2014

10:00 AM-10:30 AM: Monday, 7 July 2014

10:30 AM-12:00 PM: Monday, 7 July 2014

12:00 PM-1:30 PM: Monday, 7 July 2014

1:30 PM-3:00 PM: Monday, 7 July 2014

3:00 PM-3:30 PM: Monday, 7 July 2014

3:30 PM-5:00 PM: Monday, 7 July 2014

5:30 PM-8:00 PM: Monday, 7 July 2014

Tuesday, 8 July 2014

7:30 AM-5:45 PM: Tuesday, 8 July 2014

8:30 AM-10:00 AM: Tuesday, 8 July 2014

10:00 AM-10:30 AM: Tuesday, 8 July 2014

10:30 AM-12:00 PM: Tuesday, 8 July 2014

12:00 PM-1:20 PM: Tuesday, 8 July 2014

1:30 PM-3:45 PM: Tuesday, 8 July 2014

3:45 PM-4:15 PM: Tuesday, 8 July 2014

4:15 PM-5:45 PM: Tuesday, 8 July 2014

Wednesday, 9 July 2014

7:30 AM-5:30 PM: Wednesday, 9 July 2014

8:30 AM-10:00 AM: Wednesday, 9 July 2014

10:00 AM-10:30 AM: Wednesday, 9 July 2014

10:30 AM-12:00 PM: Wednesday, 9 July 2014

12:00 PM-1:30 PM: Wednesday, 9 July 2014

1:30 PM-3:15 PM: Wednesday, 9 July 2014

3:15 PM-3:45 PM: Wednesday, 9 July 2014

3:45 PM-5:30 PM: Wednesday, 9 July 2014

6:00 PM-8:00 PM: Wednesday, 9 July 2014

Thursday, 10 July 2014

7:30 AM-5:30 PM: Thursday, 10 July 2014

8:30 AM-10:00 AM: Thursday, 10 July 2014

10:00 AM-10:30 AM: Thursday, 10 July 2014

10:30 AM-12:00 PM: Thursday, 10 July 2014

12:15 PM-1:15 PM: Thursday, 10 July 2014

1:30 PM-3:15 PM: Thursday, 10 July 2014

3:15 PM-3:45 PM: Thursday, 10 July 2014

3:45 PM-5:30 PM: Thursday, 10 July 2014

Friday, 11 July 2014

7:30 AM-12:00 PM: Friday, 11 July 2014

8:30 AM-10:00 AM: Friday, 11 July 2014

10:00 AM-10:30 AM: Friday, 11 July 2014

10:30 AM-12:00 PM: Friday, 11 July 2014

Sunday, 6 July 2014

5:30 PM-7:00 PM: Sunday, 6 July 2014

Monday, 7 July 2014

7:30 AM-5:30 PM: Monday, 7 July 2014

8:50 AM-10:00 AM: Monday, 7 July 2014

10:00 AM-10:30 AM: Monday, 7 July 2014

10:30 AM-12:00 PM: Monday, 7 July 2014

12:00 PM-1:30 PM: Monday, 7 July 2014

1:30 PM-3:00 PM: Monday, 7 July 2014

3:00 PM-3:30 PM: Monday, 7 July 2014

3:30 PM-5:00 PM: Monday, 7 July 2014

5:30 PM-8:00 PM: Monday, 7 July 2014

Tuesday, 8 July 2014

7:30 AM-5:45 PM: Tuesday, 8 July 2014

8:30 AM-10:00 AM: Tuesday, 8 July 2014

10:00 AM-10:30 AM: Tuesday, 8 July 2014

10:30 AM-12:00 PM: Tuesday, 8 July 2014

12:00 PM-1:20 PM: Tuesday, 8 July 2014

1:30 PM-3:45 PM: Tuesday, 8 July 2014

3:45 PM-4:15 PM: Tuesday, 8 July 2014

4:15 PM-5:45 PM: Tuesday, 8 July 2014

Wednesday, 9 July 2014

7:30 AM-5:30 PM: Wednesday, 9 July 2014

8:30 AM-10:00 AM: Wednesday, 9 July 2014

10:00 AM-10:30 AM: Wednesday, 9 July 2014

10:30 AM-12:00 PM: Wednesday, 9 July 2014

12:00 PM-1:30 PM: Wednesday, 9 July 2014

1:30 PM-3:15 PM: Wednesday, 9 July 2014

3:15 PM-3:45 PM: Wednesday, 9 July 2014

3:45 PM-5:30 PM: Wednesday, 9 July 2014

6:00 PM-8:00 PM: Wednesday, 9 July 2014

Thursday, 10 July 2014

7:30 AM-5:30 PM: Thursday, 10 July 2014

8:30 AM-10:00 AM: Thursday, 10 July 2014