{"id":632,"date":"2021-07-17T11:34:35","date_gmt":"2021-07-17T10:34:35","guid":{"rendered":"https:\/\/www.iamas.org\/iccp\/?page_id=632"},"modified":"2021-07-24T17:06:55","modified_gmt":"2021-07-24T16:06:55","slug":"session-13-clouds-and-climate-including-radiative-properties-of-clouds","status":"publish","type":"page","link":"https:\/\/www.iamas.org\/iccp\/session-13-clouds-and-climate-including-radiative-properties-of-clouds\/","title":{"rendered":"Session 13 – Clouds and climate (including radiative properties of clouds)"},"content":{"rendered":"\n

Oral session:<\/strong><\/p>\n\n\n\n

S13.1 On the Representation of Cloud Phase in Global Climate Models, and its Importance for Simulations of Climate Forcings and Feedbacks
Trude Storelvmo*, Navjit Sagoo, Ivy Tan
Yale University, USA<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.2 The dehydration-Greenhouse Feedback
Eric Girard*, Jean-Pierre Blanchet, Setigui Keita, Ana Cirisan, Ludovick Pelletier
University of Quebec at Montreal, Canada<\/em> (video; position 18:00)<\/a><\/td><\/tr>
S13.3 Regime dependence of precipitating cloud impact parameters
Anita Rapp*1<\/sup>, Lu Sun1<\/sup>, Tristan L’Ecuyer2<\/sup>
1<\/sup>Texas A&M University, USA, 2<\/sup>University of Wisconsin-Madison, USA<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.4 How well do GCMs simulate transitions between closed and open marine stratocumulus clouds?
Tom Goren*, Johannes Quaas
University of Leipzig, Leipzig Institute for Meteorology, Germany<\/em> (video; position 17:00)<\/a><\/td><\/tr>
S13.5 Exploring the representation of humidity variability by an assumed probability density function scheme
Vera Schemann
University of Cologne, Germany<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.6 Cloud Retrievals for Climate and Weather Using Combinations of Geostationary and Polar-Orbiting Satellite Imager Data
Patrick Minnis1<\/sup>, Szedung Sun-Mack2<\/sup>, Kristopher Bedka1<\/sup>, Rabindra Palikonda*2<\/sup>, William Smith, Jr.1<\/sup>, Christopher Yost2<\/sup>, Yan Chen2<\/sup>, Thad Chee2<\/sup>
1<\/sup>NASA Langley Research Center, USA, 2<\/sup>Science Systems and Applications, Inc., USA<\/em> (video; position 0:00)<\/a><\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n
S13.7 A Multi-Instrument Satellite View of the Global Three-Dimensional Distribution of Cloud Liquid Water
Jussi Leinonen*, Matthew Lebsock, Graeme Stephens
Jet Propulsion Laboratory, California Institute of Technology, USA<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.8 The missed marine warm clouds by the Cloud Profiling Radar and its impact on the accuracy of cloud microphysical property statistics
Dongyang Liu*, Qi Liu, Lingli Zhou
School of Earth and Space Sciences, University of Science and Technology of China, China<\/em> (video; position 17:00)<\/a><\/td><\/tr>
S13.9 Cloud-aerosol interactions and precipitation scavenging in the Accelerated Climate Model for Energy (ACME)
Hailong Wang*, Richard Easter, Kai Zhang, Balwinder Singh, Po-Lun Ma, Yun Qian, Philip Rasch
Pacific Northwest National Laboratory, USA<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.10 Online comparison between droplet activation parameterisations and an embedded cloud parcel model in the GCM ECHAM-HAM
Daniel Partridge
Stockholm University, Sweden<\/em> (video position 16:00)<\/a><\/td><\/tr>
S13.11 Optimal Estimation retrieval of cloud droplet number concentration for synergistic ground-based observations
Daniel Merk*1<\/sup>, Hartwig Deneke1<\/sup>, Bernhard Pospichal2<\/sup>
1<\/sup>Leibniz-Institute for Tropospheric Research (TROPOS), Germany, 2<\/sup>University Leipzig, Germany<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.12 Sub-millimetres, a new wavelength region for retrievals of cloud ice properties
Patrick Eriksson*1<\/sup>, Stefan Buehler2<\/sup>, Stuart Fox3<\/sup>, Dong Wu4<\/sup>
1<\/sup>Chalmers University of Technology, Sweden, 2<\/sup>University of Hamburg, Germany, 3<\/sup>Met Office, UK, 4<\/sup>Goddard Space Flight Cente, USA<\/em> (replaced by Noble, Hudson, P13.5<\/a> video; position 16:10)<\/a><\/td><\/tr>
S13.13 On the Influence of air mass history on aerosol-cloud interactions in the South-East Atlantic
Julia Fuchs*, Jan Cermak
Ruhr-Universit\u00e4t Bochum, Germany<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.14 MARINE CLOUD BRIGHTENING [MCB] \u2013 REGIONAL APPLICATIONS
Alan Gadian*1<\/sup>, John Latham2,3<\/sup>, Jim Fournier5<\/sup>, Ben Parkes4<\/sup>, Peter Wad hams6<\/sup>
1<\/sup>NCAS, University of Leeds, UK, 2<\/sup>NCAR,, USA, 3<\/sup>SEAS, University of Manchester, UK, 4<\/sup>L’OCEAN, University du Pierre and Marie Curie, France, 5<\/sup>Planetwork, USA, 6<\/sup>DAMTP, University of Cambridge, UK<\/em> (video position 14:00)<\/a><\/td><\/tr>
S13.15 How well can we represent the subgrid distribution of convective clouds in a climate model?
Laurent Labbouz*1<\/sup>, Zak Kipling1<\/sup>, Philip Stier1<\/sup>, Hugh Morrison2<\/sup>, Jason Milbrandt3<\/sup>, Alain Protat4<\/sup>
1<\/sup>University of Oxford, UK, 2<\/sup>National Center for Atmospheric Research, USA, 3<\/sup>Atmospheric Numerical Prediction Research, Environment Canada, Canada, 4<\/sup>Centre for Australian Weather and Climate Research, Australia<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.16 Mechanisms of convective cloud response to aerosol in a global model with a cloud field parameterisation
Zak Kipling*, Laurent Labbouz, Philip Stier
Department of Physics, University of Oxford, UK<\/em> (video; position 16:52)<\/a><\/td><\/tr>
S13.17 Predator -Prey: a viable concept for the parameterisation of convection?
Michael Herzog*1<\/sup>, Leif Denby1<\/sup>, Cathy Hohenegger2<\/sup>
1<\/sup>University of Cambridge, UK, 2<\/sup>Max Planck Institute for Meteorology, Germany<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.18 Evidence for Convective Invigoration from A-Train Observations
Johannes Muelmenstaedt*1<\/sup>, Daniel Rosenfeld2<\/sup>, Odran Sourdeval1<\/sup>, Julien Delano\u00eb3<\/sup>, Johannes Quaas1<\/sup>
1<\/sup>Universit\u00e4t Leipzig, Germany, 2<\/sup>Hebrew University of Jerusalem, Israel, 3<\/sup>LATMOS UVSQ\/CNRS\/UPMC\/IPSL, France<\/em> (video; position 17:00)<\/a><\/td><\/tr>
S13.19 Space-borne observations of the most extreme storms on Earth: a new perspective from theNASA-JAXA GPM mission
Kamil Mroz*1<\/sup>, Alessandro Battaglia1,2,<\/sup> Frederic Tridon2<\/sup>, Timothy James Lang4<\/sup>, Simone Tanelli3<\/sup>
1<\/sup>National Centre for Earth Observation, UK, 2<\/sup>Department of Physics and Astronomy, University of Leicester, UK, 3<\/sup>Jet Propulsion Laboratory, USA, 4<\/sup>NASA Marshall Space Flight Center, USA<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.20 Impact of the collection efficiencies in ice phase processes on clouds and climate
Ulrike Lohmann*, David Neubauer
ETH Zurich, Switzerland (video; position 15:28)<\/a><\/td><\/tr>
S13.21 Satellite observations of cloud glaciation processes
Edward Gryspeerdt*1<\/sup>, Odran Sourdeval1<\/sup>, Philipp K\u00fchne1<\/sup>, Julien Delano\u00eb2<\/sup>, Johannes Quaas1<\/sup>
1<\/sup>Universit\u00e4t Leipzig, Germany, 2<\/sup>Laboratoire Atmosph\u00e8res, Milieux, Observations Spatiales\/IPSL\/UVSQ\/CNRS\/UPMC, France<\/em> (video position 0:00)<\/a><\/td><\/tr>
S13.22 Climatology and long-term changes in cloud cover over the ocean by using frequency distribution
Marina Aleksandrova*, Sergey Gulev, Konstantin Belyaev
P.P. Shirshov Institute of Oceanology RAS, Russia<\/em> (video; position 15:00)<\/a><\/td><\/tr>
S13.23 Measuring ice clouds at millimeter\/submillimeter wavelength \u2013how much information can we gain?
Verena Gr\u00fctzun*1<\/sup>, Stefan A. Buehler1<\/sup>, Manfred Brath1<\/sup>, Jana Mendrok2<\/sup>, Patrick Eriksson2<\/sup>
1<\/sup>University of Hamburg, Meteorological Institut, Germany, 2<\/sup>Chalmers University of Technology, Earth and Space Sciences, Sweden<\/em> (video; position 0:00)<\/a><\/td><\/tr>
S13.24 Dependence of the Ice Water Content and Snowfall Rate on Temperature, Globally: Comparison of In-Situ Observations, Satellite Active Remote Sensing Retrievals and Global Climate Model Simulations
Andrew Heymsfield*1<\/sup>, Martina Kramer2<\/sup>, Norm Wood3<\/sup>, Andrew Gettelman4<\/sup>, Paul Field5<\/sup>, Guosheng Liu6<\/sup>
1<\/sup>NCAR, USA, 2<\/sup>Forschungszentrum, Germany, 3<\/sup>University of Wisconsin, USA, 4<\/sup>NCAR, USA, 5<\/sup>UK Met Office, UK, 6<\/sup>Florida State University, US<\/em> (video; position 16:08)<\/a><\/td><\/tr>
Report from the International Cloud Modeling Workshop: Exeter, UK, July 18-22, 2016
Zachary Lebo*1<\/sup>, Ben Shipway2<\/sup>
1<\/sup>University of Wyoming, USA, 2<\/sup>Met Office, UK (video; position 0:00)<\/a><\/td><\/tr><\/tbody><\/table><\/figure>\n\n\n\n

Poster session:<\/strong><\/p>\n\n\n\n

P13.1 THE UPDATED EFFECTIVE RADIATIVE FORCING OF MAJOR ANTHROPOGENIC AEROSOLS AND THEIR EFFECTS ON GLOBAL CLIMATE AT PRESENT AND IN THE FUTURE
Hua Zhang*1<\/sup>, Shuyun Zhao1<\/sup>, Zhili Wang2<\/sup>
1<\/sup><\/em>National Climate Center, China, 2<\/sup>Chinese Academy of Meteorological Sciences, China<\/em><\/td><\/tr>
P13.2 Sensitivity of Cloud Feedbacks to Turbulence Closure, Microphysics Scheme, and Grid Size in Cloud-Resolving RCE Simulations
Andrew Lesage1<\/sup>, Steven Krueger*1<\/sup>, Marat Khairoutdinov2<\/sup>
1<\/sup><\/em>University of Utah, USA, 2<\/sup>Stony Brook University, USA<\/em><\/td><\/tr>
P13.3 Validation of MODIS liquid water path for oceanic non-raining warm clouds and its implication on the vertical profile of cloud water content
Qi Liu*, Lingli Zhou, Dongyang Liu, Lei Xie, Lin Qi
University of Science and Technology of China, China<\/em><\/td><\/tr>
P13.4 Implementing a two-moment bulk cloud microphysics scheme into TaiESM
Chein-Jung Shiu*1<\/sup>, I-Chun Tsai1<\/sup>, Wei-Ting Chen2<\/sup>, Jen-Ping Chen2<\/sup>, Huang-Hsiung Hsu1<\/sup>
1<\/sup><\/em>Academia Sinica, Taiwan, 2<\/sup>National Taiwan University, Taiwan<\/em><\/td><\/tr>
P13.5 Radiative impacts of cloud processed bimodal CCN spectra
Stephen R. Noble*, James G. Hudson
Desert Research Institute, USA<\/em> (video; position 16:10)<\/a><\/td><\/tr>
P13.6 Seasonal trends in cloud vertical properties in the SE Asia region from IAGOS in situ observations
Karl Beswick2<\/sup>, Gary Lloyd1,2<\/sup>, Tom Choularton1<\/sup>, Petzold Andreas3<\/sup>, Matt Freer4<\/sup>, Darrel Baumgardner4<\/sup>, Martin Gallagher*1,2<\/sup>, James Dorsey2<\/sup>
1<\/sup><\/em>National Centre for Atmospheric Science, Manchester, UK, 2<\/sup>University of Manchester, Centre for Atmospheric Science, UK, 3<\/sup>Forschungszentrum J\u00fclich GmbH, Institut f\u00fcr Energie- und Klimaforschung, J\u00fclich, Germany, 4<\/sup>Droplet Measurement Technology, USA<\/em><\/td><\/tr>
P13.7 Climatic impact of marine organic aerosols as ice nuclei in the Arctic
Wan Ting Katty Huang*, Ulrike Lohmann, Luisa Ickes
Institute for Atmospheric and Climate Science, ETH Zurich, Switzerland<\/em><\/td><\/tr>
P13.8 Precipitation Differences in Boreal Summer Measured by DPR Ka- and Ku-Band
Yunfei Fu*, Aoqi Zhang, Yilun Chen, Lu Yu
University of Science and Technology of China, China<\/em><\/td><\/tr>
P13.9 Radiative effects of inter-annually varying versus inter-annually invariant aerosol emissions from fires
Benjamin Grandey1<\/sup>, Hsiang-He Lee*1<\/sup>, Chien Wang2,1<\/sup>
1<\/sup><\/em>Singapore-MIT Alliance for Research and Technology, Singapore, 2<\/sup>Massachusetts Institute of Technology, USA<\/em><\/td><\/tr>
P13.10 Observed relationship between cloud macrophysical properties and precipitation intensity
Yaniv Tubul*, Reuven H Heiblum, Ilan Koren, Orit Altaratz
Department of Earth and Planetary Sciences, Weizmann Institute of Science, Israel<\/em><\/td><\/tr>
P13.11 Vertical Distributions and Seasonal Fluctuations from CALIOP: A Regional Aerosol-Cloud Interaction Analysis
Ashley Heikkila*, Jennifer Griswold
University of Hawaii at Manoa, USA<\/em><\/td><\/tr>
P13.12 Large size and low number concentration cloud in mid and high latitudes
Suginori Iwasaki*1<\/sup>, Takashi Shibata2<\/sup>, Hisayuki Kubota3<\/sup>, Hajime Okamoto4<\/sup>
1<\/sup><\/em>National Defense Academy, Japan, 2<\/sup>Nagoya University, Japan, 3<\/sup>Japan Agency for Marine-Earth Science and Technology, Japan, 4<\/sup>Kyushu University, Japan<\/em><\/td><\/tr>
P13.13 Evaluation and Development of Cloud Microphysical Conversion Processes in the MIROC-SPRINTARS with A-Train Observations
Takuro Michibata*1,2<\/sup>, Toshihiko Takemura1<\/sup>
1<\/sup><\/em>Research Institute for Applied Mechanics, Kyushu University, Japan, 2<\/sup>Department of Earth System Science and Technology, Kyushu University, Japan<\/em><\/td><\/tr>
P13.14 Uncertainty in the long-wave effective radiative forcing by aerosol-cloud interactions
Johannes Quaas*, Irene Heyn, Karoline Block, Edward Gryspeerdt, Philipp K\u00fchne, Johannes M\u00fclmenst\u00e4dt, Marc Salzmann
University of Leipzig, Germany<\/em><\/td><\/tr>
P13.15 On the relationships among cloud cover, mixed-phase partitioning, cloud feedback, and planetary albedo in GCMs
Daniel McCoy*1,4<\/sup>, Ivy Tan2<\/sup>, Dennis Hartmann1<\/sup>, Mark Zelinka3<\/sup>, Trude Storelvmo2<\/sup>
1<\/sup><\/em>University of Washington, USA, 2<\/sup>Yale University, USA, 3<\/sup>Lawrence Livermore Laboratory, USA, 4<\/sup>University of Leeds, UK<\/em><\/td><\/tr>
P13.16 Interannual variations of cloud fraction and cloud types in the Atlantic Arctic from the end of the 19th century
Alexander Chernokulsky*1<\/sup>, Igor Esau2,3<\/sup>, Olga Bulygina4<\/sup>, Igor Mokhov1,5<\/sup>, Vladimir Semenov1,6<\/sup>
1<\/sup><\/em>Obukhov Institute of Atmospheric Physics RAS, Russia, 2<\/sup>Nansen Environmental and Remote Sensing Center, Norway, 3<\/sup>Centre for Climate Dynamics at the Bjerknes Centre, Norway, 4<\/sup>All-Russia Research Institute of Hydrometeorological Information, Russia, 5<\/sup>Lomonosov Moscow State University, Russia, 6<\/sup>Institute of Geography RAS, Russia<\/em><\/td><\/tr>
P13.17 Evaluations of microphysics in a global cloud system model using TRMM\/AMSR-E and a satellite simulator.
Woosub Roh*1<\/sup>, Masaki Satoh1,2<\/sup>
1<\/sup><\/em>AORI, the university of Tokyo, Japan, 2<\/sup>JAMSTEC, Japan<\/em><\/td><\/tr>
P13.18 The longwave, shortwave and UV  fluxes in the cloudy atmosphere: measurements and simulations using the onboard actinometrical complex of the aircraft-laboratory YAK-42D “ROSHYDROMET”
Grigory Kolokutin, Victor Petrov*, Boris Fomin
Central Aerological Observatory, Russia<\/em><\/td><\/tr>
P13.19 Impact of lidar data processing on the estimation of cloud radiative forcing
Fabio Madonna*1<\/sup>, Simone Lolli2<\/sup>, Marco Rosoldi1<\/sup>, Gelsomina Pappalardo1<\/sup>, E. Judd Welton2<\/sup>
1<\/sup><\/em>Istituto di Metodologie per l’Analisi Ambientale Consiglio Nazionale delle Ricerche CNR-IMAA, Italy, 2<\/sup>NASA-JCET, USA<\/em><\/td><\/tr>
P13.20 On the Potential Use of 3D Monte Carlo Radiative Transfer Models in Weather and Climate Models
Howard Barker*1<\/sup>, Jason Cole1<\/sup>, Jiangnan Li2<\/sup>
1<\/sup><\/em>Environment and Climate Change Canada, Canada, 2<\/sup>Environment and Climate Change Canada, Canada<\/em><\/td><\/tr>
P13.21 Revised Cloud-Radiation Coupling for the COSMO-Model
Ulrich Blahak*1<\/sup>, Pavel Khain2<\/sup>, Harel Muskatel2<\/sup>, Quiang Fu3<\/sup>
1<\/sup><\/em>German Meteorological Service (DWD), Germany, 2<\/sup>Israel Meteorological Service, Israel, 3<\/sup>University of Washington, USA<\/em><\/td><\/tr>
P13.22 Radiative-Convective Equilibrium to Evaluate AGCM Convective Parameterizations 
Kevin Reed*1<\/sup>, Brian Medeiros2<\/sup>, Adam Herrington0<\/sup>
1<\/sup><\/em>Stony Brook University, USA, 2<\/sup>National Center for Atmospheric Research, USA<\/em><\/td><\/tr>
P13.23 GCM cloud parameterization development from evaluation of large-eddy and SCM simulations using in situ observations and satellite retrievals of warm, boundary-layer clouds
Andrew Ackerman*1<\/sup>, Ann Fridlind1<\/sup>, George Tselioudis1<\/sup>, Jasmine Remillard1,2<\/sup>, Maxwell Kelley1<\/sup>
1<\/sup><\/em>NASA Goddard Institute for Space Studies, USA, 2<\/sup>Stony Brook University, USA<\/em><\/td><\/tr><\/tbody><\/table><\/figure>\n","protected":false},"excerpt":{"rendered":"

Oral session: S13.1 On the Representation of Cloud Phase in Global Climate Models, and its Importance for Simulations of Climate Forcings and FeedbacksTrude Storelvmo*, Navjit Sagoo, Ivy TanYale University, USA (video; position 0:00) S13.2 The dehydration-Greenhouse FeedbackEric Girard*, Jean-Pierre Blanchet, Setigui Keita, Ana Cirisan, Ludovick PelletierUniversity of Quebec at Montreal, Canada (video; position 18:00) S13.3 […]<\/p>\n","protected":false},"author":9,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"ngg_post_thumbnail":0,"cybocfi_hide_featured_image":"","footnotes":""},"class_list":["post-632","page","type-page","status-publish","hentry"],"post_mailing_queue_ids":[],"_links":{"self":[{"href":"https:\/\/www.iamas.org\/iccp\/wp-json\/wp\/v2\/pages\/632","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.iamas.org\/iccp\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.iamas.org\/iccp\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.iamas.org\/iccp\/wp-json\/wp\/v2\/users\/9"}],"replies":[{"embeddable":true,"href":"https:\/\/www.iamas.org\/iccp\/wp-json\/wp\/v2\/comments?post=632"}],"version-history":[{"count":6,"href":"https:\/\/www.iamas.org\/iccp\/wp-json\/wp\/v2\/pages\/632\/revisions"}],"predecessor-version":[{"id":732,"href":"https:\/\/www.iamas.org\/iccp\/wp-json\/wp\/v2\/pages\/632\/revisions\/732"}],"wp:attachment":[{"href":"https:\/\/www.iamas.org\/iccp\/wp-json\/wp\/v2\/media?parent=632"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}