Session: Aerosol-Cloud Indirect Effects Posters (15th Conference on Cloud Physics/15th Conference on Atmospheric Radiation)

1

Field Validation of a New Installation of the BMI CVI on the FAAM BAa146 Using a 7-Port Turbulence Probe and in Situ Observations

Paul Alan Barrett, Met Office, Exeter, United Kingdom; and D. Birch, J. Bowles, I. Crawford, M. J. Flynn, J. Dorsey, and K. N. Bower

2

Turbulence and Mixed Phase Microphysics in an Altocumulus Cloud at High Vertical Resolution, Derived from in Situ Aircraft Measurements.

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

3

The Application Study of the WRF Double-Moment 6-Class Microphysics Scheme in the GRAPES_Meso Model

Hong Wang, Chinese Academy of Meteorological Sciences, Beijing, IL, China

4

Development of a High-Resolution Ocean-Waves-Atmosphere Coupled System for Tropical Storms Modeling

Christelle Barthe, Laboratoire de l'Atmosphère et des Cyclones (UMR8105, CNRS/Météo-France/Université de La Réunion), Saint Denis, Reunion; and J. Pianezze, T. Hoarau, P. Tulet, S. Bielli, M. Claeys, J. P. Pinty, O. Bousquet, S. Jullien, G. Cambon, H. Vérèmes, and J. Delanoë

5

Algorithm MAIAC: A New MODIS Product MCD19

6

Large-Eddy Simulations of Namibian Stratocumulus Evolution during ORACLES-2016

Ann M. Fridlind, NASA, New York, NY; and A. S. Ackerman, D. Painemal, H. Lee, A. M. Dasilva, J. D. S. Griswold, M. R. Poellot, and S. Howell

7

Simulating Aerosol-Cloud Interactions Using a Climate Model with Explicit Embedded Boundary Layer Turbulence

Christopher R. Terai, University of California - Irvine, Irvine, CA; and H. Parishani, M. S. Pritchard, C. S. Bretherton, and M. C. Wyant

8

Observation Based Constraint on Cloud-to-Precipitation Transition Deteriorates Aerosol-Cloud Interaction: Possibly a Common Problem among GCMs

Xianwen Jing, Univ. of Tokyo, Chiba, Japan; and K. Suzuki

9

How Does the Treatment of Rain in Gcms Improve Cloud Susceptibility to Aerosols?

Takuro Michibata, Univ. of Tokyo, Chiba, Japan; and K. Suzuki and T. Takemura

10

Characteristics of Aerosols, CCN and IN Abilities from Ground-Based Observations at Tsukuba, Japan

Narihiro Orikasa, MRI, Tsukuba, Ibaraki, Japan; and A. Saito, K. Yamashita, T. Tajiri, Y. Zaizen, T. H. Kuo, and M. Murakami

11

Precipitation Susceptibility and Aerosol Buffering of Warm and Mixed-Phase Orographic Clouds in Idealized Simulations

Franziska Glassmeier, ESRL, Boulder, CO; and U. Lohmann

12

Beyond Case Studies—an Emulator Approach to Stratocumulus

Franziska Glassmeier, ESRL, Boulder, CO; and F. Hoffmann, J. S. Johnson, T. Yamaguchi, K. Carslaw, and G. Feingold

13

Polar Cloud Opacity and Surface Pressure Responses to Atmospheric Electricity from Global Circuit and Solar Wind Sources: Electrical Modulation of Aerosol Scavenging Rates?

Brian A. Tinsley, Univ. of Texas at Dallas, Richardson, TX; and J. E. Frederick

Manuscript (342.5 kB)

Handout (1.1 MB)

14

Aerosol-Coud Indirect Effects in Midlatitude Cyclones—Insights from Remote Sensing Observations and Convection-Permitting Global Aquaplanet Simulations.

Daniel T. McCoy, University of Leeds, Leeds, United Kingdom; and P. R. Field, A. Hill, F. Bender, A. Schmidt, D. P. Grosvenor, G. S. Elsaesser, B. Shipway, and J. M. Wilkinson

15

Detectability of Fast Cloud Adjustments in Large-Scale High-Resolution Simulations

Odran Sourdeval, Universität Leipzig, Leipzig, Germany; and M. Costa-Surós, S. Crewell, C. Carbajal Henken, C. Engler, J. Hesemann, C. Hoose, H. Rykba, J. kretzschmar, and J. Quaas

16

Aerosols and Cloud-Aerosol Interactions in the Energy Exascale Earth System Model (E3SM) Version 1

Hailong Wang, PNNL, Richland, WA; and P. L. Ma, R. Easter, K. Zhang, B. Singh, Y. Feng, S. M. Burrows, R. Zhang, Y. Yang, Y. Qian, S. Ghan, and P. J. Rasch

17

Tropical and Extratropical Circulation Effects on the Extent of Biomass Burning Aerosol-Cloud Interactions in the Southeast Atlantic

Michael S. Diamond, University of Washington, Seattle, WA; and R. Wood

Handout (5.8 MB)

18

The Boundary Layer of the Remote Southeast Atlantic is Often Smoky and Other Recent Findings from the LASIC Campaign.

Paquita Zuidema, Univ. of Miami/RSMAS, Miami, FL; and R. Delgadillo, J. Zhang, A. J. Sedlacek, and C. Flynn

19

Non-monotonic Dependencies of Cloud Microphysics and Precipitation on Aerosol Loading in Deep Convective Clouds: A Case Study Using the WRF-bin Model

Ye-Lim Jeon, Seoul National University, Seoul, Korea, Republic of (South); and S. Moon, H. Lee, and J. J. Baik

20

Sensitivity to CCN of a Two-Moment Bulk Microphysics Scheme for a Simulated Mesoscale Convective System.

Caroline Jouan, EC, Dorval, QC, Canada; and J. A. Milbrandt

21

Observations of Aerosol-Cloud Interactions during the North Atlantic Aerosol and Marine Ecosystem Study

Kenneth Sinclair, Columbia University / NASA GISS, New York, NY; and B. van Diedenhoven, B. Cairns, M. Alexandrov, A. S. Ackerman, L. D. Ziemba, R. H. Moore, E. Crosbie, and C. A. Hostetler

Handout (5.5 MB)

22

Seasonal and Geographical Variations in CCN Ability of Atmospheric Aerosols and Cloud Droplet Concentrations in Japan Based on In Situ Aircraft Measurements

Masataka Murakami, Nagoya Univ., Nagoya, Japan; and N. Orikasa, A. Saito, K. Yamashita, and T. Tajiri

23

Do Shiptracks Really Make a Difference Globally?

Tianle Yuan, GSFC, Greenbelt, MD; and C. Wang, S. Platnick, K. Meyer, and L. Oreopoulos

24

Characteristics of Precipitation Response to the Severe Hazes in Korea Peninsula

Seung-Hee Eun, Gangeung-Wonju National Univ., Gangneung, Korea, Republic of (South); and W. Zhang, S. M. Park, and B. G. Kim

25

Observed Characteristics of Precipitation Timing during the Hazes: Implication to Aerosol-Precipitation Interation

Wenting Zhang, Gangeung-Wonju National Univ., Gangneung, Korea, Republic of (South); and S. H. Eun, S. M. Park, H. Hwang, and B. G. Kim

26

Understanding and Testing the Aerosol Radiative Forcing Responses of a Global Model for the North Atlantic Region as Part of ACSIS.

Daniel P. Grosvenor, University of Leeds, Leeds, United Kingdom; and K. Carslaw, P. R. Field, H. Gordon, and M. Dalvi

Handout (2.5 MB)

27

The GASS Microphysics Intercomparison Project: How Different Are Aerosol-Cloud-Precipitation Interactions from a Variety of Microphysics Schemes?

Adrian Hill, Met Office, Exeter, United Kingdom; and Z. J. Lebo

28

Biomass Burning Aerosol and Open Cell Formation

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

29

Modeled Shipping Lane Produces Sustained Convective Invigoration

Peter N. Blossey, University of Washington, Seattle, WA; and C. S. Bretherton, J. A. Thornton, and K. S. Virts

30

Regional Properties of Aerosol Indirect Effect using AHI satellite data

Miho Sekiguchi, Tokyo University of Marine Science and Technology, Tokyo, Japan

31

Implementing a Chemistry Package for Representing Aerosol Indirect Effects in a Global Weather Forecasting Model

Jung-Yoon Kang, Korea Institute of Atmospheric Prediction Systems, Seoul, Korea, Republic of (South); and S. Y. Bae, R. S. Park, and J. Y. Han

32

Variability in Cloud Condensation Nuclei Spectra from Multiyear Measurements

Peter J. Marinescu, Colorado State Univ., Fort Collins, CO; and S. M. Kreidenweis, E. J. T. Levin, and D. R. Collins

33

Low Cloud Responses to Solar Absorption By Black Carbon Aerosols

Eric M. Wilcox, DRI, Reno, NV; and J. Wang

34

Aerosol and Cloud Relationships Revealed by the Multi-angle Imaging SpectroRadiometer (MISR) Instrument

Michael J. Garay, JPL, Pasadena, CA; and O. V. Kalashnikova

Joint Poster Session 1 Aerosol-Cloud Indirect Effects Posters