Oral session:
| S9.1 Understanding Tropical Cloud Feedback from an Analysis of the Circulation and Stability Regimes Simulated from an Upgraded Multiscale Modeling Framework Kuan-Man Xu*1, Anning Cheng2 1NASA Langley Research Center, USA, 2NOAA Center for Weather and Climate Prediction (NCWCP), USA (video; position 0:00) |
| S9.2 HAIC/HIWC field project: ice crystal mass-size relationship in high ice water content cloud conditions Delphine Leroy1, Pierre Coutris1, Emmanuel Fontaine1, Alfons Schwarzenboeck*1, J. Walter Strapp2, Alexei Korolev3, Greg McFarquhar4, Christophe Gourbeyre1, Regis Dupuy1, Fabien Dezitter5, Alice Calmels5 1LaMP -CNRS/UBP-, France, 2Met Analytics, Inc., Canada, 3Environment Canada, Canada, 4University of Illinois, USA, 5Airbus Operation SAS, France (video; position18:37) |
| S9.3 On the vertical structure of IWC and 3D wind in deep tropical convection observed during the HIWC-HAIC-experiment at Darwin: a comparison of small scale, bin resolved cloud modeling with airborne cloud radar observations Wolfram Wobrock*1, Julien Delanoë2 1Laboratoire de Météorologie Physique, Clermont Université, France, 2Laboratoire Atmosphère, Milieux, Observations Spatiales, France (video; position 34:00) |
| S9.4 Ice Particle Initiation and Development in Tropical Convective Clouds around the Cape Verde Archipelago Jonathan Crosier*1, Gary Lloyd1, Thomas Choularton1, Martin Gallagher1, Keith Bower1, Michael Flynn1, Jonathan Taylor1, Alan Blyth3, Paul Field2, Richard Cotton2 1University of Manchester, UK, 2Met Office, UK, 3University of Leeds, UK (video; position 0:00) |
| S9.5 Effects of microphysical processes on the aggregation of convective clouds and the evolution to a tropical cyclone Tetsuya Takemi Disaster Prevention Research Institute, Kyoto University, Japan (video; position 15:57) |
| S9.6 Observed relationships between cloud vertical structure and convective aggregation over tropical ocean Thorwald Stein*1, Chris Holloway1, Isabelle Tobin2, Sandrine Bony3 1University of Reading, UK, 2LSCE/IPSL/CNRS, France, 3LMD, ISPL, CNRS, France (video; position 0:00) |
| S9.7 Lagrangian and Eulerian Evolutions of the Tropical Column Humidity-Precipitation Relationship Matthew Igel University of Miami, USA (video; position 16:00) |
| S9.8 Processes controlling the diurnal cycle of moist convection in the West African Sahel Miroslav Provod*, John Marsham, Douglas Parker University of Leeds, UK (video; position 0:00) |
| S9.9 Do deep convective water budgets change in a warmer climate? Rachel Storer*1,2, Graeme Stephens1,2, Susan van den Heever1 1Colorado State University, USA, 2Jet Propulsion Laboratory, USA (video; position 12:30) |
| P9.21 Impacts of mesoscale convective systems development on the distribution of precipitation over Costa Rica. Ana María Durán-Quesada*1,2, Daniel Poleo3, Jorge A Amador1,2 1Department of Atmospheric, Oceanic and Planetary Physics. School of Physics. University of Costa Rica, Costa Rica, 2Center for Geophysical Research. University of Costa Rica., Costa Rica, 3National Meteorological Institute, Costa Rica., Costa Rica (video; position 0:00) (poster to oral) |
| S9.11 An integrated view of aerosol effects on convection Philip Stier*, Sarah Taylor, Bethan White, Zak Kipling, Laurent Labbouz, Max Heikenfeld Department of Physics, University of Oxford, UK (video; position 0:00) |
| S9.12 Quantifying aerosol effects on deep convection throughout the cloud lifecycle in high-resolution simulations over the Amazon and Congo basin Bethan White*, Philip Stier, Max Heikenfeld University of Oxford, UK (video; position 17:00) |
| S9.13 Biomass Burning Aerosol Detection in Near Real-Time: An algorithm to aid mission planning in the field Michael Diamond*, Rob Wood University of Washington, USA (video; position 15:40) |
| S9.14 Microphysical Properties of TTL Cirrus Sarah Woods*1, Paul Lawson1, Eric Jensen2, Paul Bui2, Troy Thornberry3, Andrew Rollins3 1SPEC, Inc., USA, 2NASA Ames Research Center, USA, 3NOAA ESRL/CIRES, USA (video; position 0:00) |
| S9.15 Characterization of ice particles in TTL cirrus using 2D light scattering Zbigniew Ulanowski*1, Paul Kaye1, Edwin Hirst1, Chris Stopford1, Eric Jensen2, James Dorsey3, Richard Greenaway1, Georg Ritter1, Evelyn Hesse1, Troy Thornberry4, Andrew Rollins4, Neil Harris5, Martin Gallagher3, Sarah Woods6, Paul Lawson6 1University of Hertfordshire, UK, 2NASA Ames Research Center, USA, 3University of Manchester, UK, 4NOAA ESRL Chemical Sciences Division, USA, 5University of Cambridge, UK, 6SPEC Inc., USA (video; position 15:40) |
| S9.16 Bimodality and variability of particle size distributions in high Ice Water Content regions and their relation to cloud and meteorological conditions Shichu Zhu*1, Greg M McFarquhar1, Delphine Leroy2, Alexei Korolev3, Alfons Schwarzenboeck2, Wei Wu1, Walter Strapp4 11University of Illinois, USA, 2CNRS/Université Blaise Pascal, France, 3Environment Canada (EC), Canada, 4Met Analytics Inc, Canada (video; position 0:00) |
Poster session:
| P9.1 Simulation of the tropical cyclone Dumile in Meso-NH : coupling between a 2-moment microphysics scheme, an aerosol scheme inititalized with MACC analysis, and an explicit emission of sea salt Thomas Hoarau*1, Christelle Barthe1, Pierre Tulet1, Olivier Bousquet1, Jean-Pierre Pinty2, Marine Claeys3, Benoît Vié3, Julien Delanoë4, Jacques Pelon4 1Laboratoire de l’Atmosphère et des Cyclones (UMR 8105, CNRS / Météo-France / Université de La Réunion), France, 2Laboratoire d’Aérologie (UMR 5560, CNRS / Université de Toulouse), France, 3CNRM-GAME (UMR 3589, CNRS / Météo-France), France, 4LATMOS (UMR 8190, UVSQ/CNRS/UPMC-IPSL), France |
| P9.2 A characterization of cold pools in the West African Sahel Miroslav Provod*1, John Marsham1, Douglas Parker1, Cathryn Birch1,2 1University of Leeds, UK, 2Met Office @ Leeds, UK |
| P9.3 The Impact of Biomass Burning Aerosols on Convective Cloud over the Western Pacific Warm Pool Hsiang-He Lee*1, Chien Wang1,2 1Singapore-MIT Alliance for Research and Technology (SMART), Singapore, 2Department of Earth, Atmosphere and Planetary Science, MIT, USA |
| P9.4 Emergence of consistent reflectivity profile behavior in the tropics as observed by TRMM Reuven H. Heiblum*1, Orit Altaratz1, Ilan Koren1, Alexander Kostinski2 1Department of Earth and Planetary Sciences, Weizmann Institute of Science, Israel, 2Department of Physics, Michigan Technological University, USA |
| P9.5 The Effects of Sea-Spray on Deep Convective Cloud under strong wind conditions Jacob Shpund, Alexander Khain*, Daniel Rosenfeld The Hebrew University of Jerusalem, Israel |
| P9.6 Sensitivity of precipitation to clouds over upwind ocean in the Hawaii Island Lulin Xue*, Roy Rasmussen, Kyoko Ikeda, Martyn Clark National Center for Atmospheric Research, USA |
| P9.7 Evaluating cloud processes in HadGEM-UKCA in preparation for CLARIFY Nick Schutgens*, Duncan Watson-Parris, Zak Kipling, Philip Stier University of Oxford, UK |
| P9.8 Convective invigoration in Indian monsoon a possibility ? Thara Prabha*1, Gayatri Kulkarni1, Sachin Patade1, Neelam Malap1, Mahen Konwar1, Murugavel P1, Sathi Nair1, Duncan Axisa2, Alexander Khain3 1Indian Institute of Tropical Meteorology, India, 2National Center for Atmospheric Research, USA, 3HUJI, Israel |
| P9.9 Simulation of tropical cyclones response to aerosol type I-Chun Tsai*1, Jen-Ping Chen2, Chih-Yao Yang2 1Research Center for Environmental Changes, Academia Sinica, Taiwan, 2Department of Atmospheric Sciences, National Taiwan University, Taiwan |
| P9.10 Physical basis for Cloud droplet spectral broadening in the downdraft zones Mahen Konwar, Bipin Kumar, Sudarsan Bera, T. V. Prabha* Indian Institute of Tropical Meteorology, India |
| P9.11 The use of IAGOS BCP observations to evaluate satellite products developed for detecting areas of high ice water content. Elisabeth Öström*1, Steven J. Abel1, Lorenzo Labrador1, Peter N. Francis1, Karl Beswick2, Martin W. Gallagher2 1Met Office, UK, 2University of Manchester, UK |
| P9.12 Variations of Ice Microphysical Properties in Tropical MCS Using Cloud In-Situ Data and Corresponding Radar Reflectivity Profiles Emmanue Fontaine*1, Delphine Leroy1, Alfons Schwarzenboeck1, Pierre Coutris1, Julien Delanoë2, Alain Protat3, Fabien Dezitter4, Alice Calmels4, Walter Strapp5, Lyle Lilie8, Pattrick Minnis6, Christopher Yost7 1UBP / CNRS / LaMP, France, 2UVSQ / CNRS / LATMOS, France, 3CAWC / BOM, France, 4AIRBUS, France, 5Met Analytics, Canada, 6NASA Langley Research Center, USA, 7Science Systems and Applications, USA, 8Science Engineering Associates, USA |
| P9.13 Analysis of high-resolution cloud-precipitation distribution over Tibetan Plateteau Jinli LIU*, Ling WANG, Daren LU, Yongheng BI Institute of Atmospheric Physics,CAS, China |
| P9.14 High-resolution simulations of aerosol impacts and ice-phase microphysics in convective clouds over the Amazon Max Heikenfeld*, Bethan White, Natalie Weigum, Laurent Labbouz, Philip Stier Atmospheric, Oceanic and Planetary Physics, Department of Physics, University of Oxford, UK |
| P9.15 Real case studies of the formation of cirrus clouds in the tropical tropopause layer with a mesoscale model Aurélien Podglajen Laboratoire de Meteorologie Dynamique, France |
| P9.16 Cloud Aerosol Interactions in Southern West African Stratocumulus Phil Rosenberg*1, John Marsham1, Paul Field2,1, Adrian Hill1 1University of Leeds, UK, 2Met Office, UK |
| P9.17 Raindrop spectra observations in a coastal region of eastern Mexico Fernando García-García*, Guillermo Montero-Martínez, Omar Rivas-Hernández Centro de Ciencias de la Atmósfera, Universidad Nacional Autónoma de México, Mexico |
| P9.18 An ensemble approach using an optimization method to weighting convective parameterizations of the regional model BRAMS Ariane Frassoni*1, Saulo R. Freitas1, Eduardo F. P. da Luz3, Haroldo F. de Campos Velho2, Manoel A. Gan1, João Gerd Z. de Mattos1, Georg A. Grell4 1National Institute for Space Research, Center for Weather Forecasting and Climate Studies, Brazil, 2Laboratory for Computing and Applied Mathematics, National Institute for Space Research, Brazil, 3Brazilian National Centre for Monitoring and Early Warning of Natural Disasters, Brazil, 4National Oceanic and Atmospheric Administration, USA |
| P9.19 Seasonal aspects of cloud radiative heating in the upper troposphere lower stratosphere in the tropics Erik Johansson*1,2, Abhay Devasthale1, Tristan L’Ecuyer4, Annica M. L. Ekman2,3, Michael Tjernström2,3 1Atmospheric Remote Sensing, Research and development department, Swedish Meteorological and Hydrological Institute (SMHI), Sweden, 2Department of Meteorology, Stockholm University (MISU), Sweden, 3Bolin Center for Climate Research, Stockholm University, Sweden, 4Department of Atmospheric and Oceanic Sciences, University of Wisconsin-Madison, USA |
| P9.20 Scanning Polarimetric Doppler Cloud Radar capability in characterizing the Tropical Clouds Madhu Chandra R KALAPUREDDY*1, Sukanya Patra1, Soumojit Bose1,2 1Indian Institute of Tropical Meteorology (IITM), India, 2Birla Institute of Technology(BIT), India |
| P9.22 Numerical Simulation of Convective Cold Pools Observed during the DYNAMO Field Campaign Adam Kochanski, Steven Krueger* University of Utah, USA |
| P9.23 Aerosol cloud interaction in the West coast of India and Arabian sea during the drought year of 2015 Thara Prabha*1, Mahen Konwar1, Mercy Varghese1, Murugavel P1, Gayatri Kulkarni1, Sathi Nair1, Sachin Patade1, Yogesh Tiwari1, Balaji B1, Resmi E. A1, Subharthi Chowdhuri1, Aswin T3, Jayarao K1, Nandakumar K3, Safai P. D.1, Rajeevan M2 1Indian Institute of Tropical Meteorology, India, 2Ministry of Earth Sciences, India, 3M. G. University, India |