Atmospheric and Hydrospheric Sciences (A)
Session Sub-category Atmospheric Sciences, Meteorology & Atmospheric Environment(AS)
Session ID A-AS01
Title Evolution of Global Environmental Research based on Atmospheric Vertical Motions
Short Title Vertical Motion Meteorology
Main Convener Name Masaki Satoh
Affiliation Atmosphere and Ocean Research Institute, The University of Tokyo
Co-Convener 1 Name Kaoru Sato
Affiliation Department of Earth and Planetary Science, Graduate School of Science, The University of Tokyo
Co-Convener 2 Name Hajime Okamoto
Affiliation Kyushu University
Co-Convener 3 Name Junshi Ito
Affiliation Tohoku University
Session Language 
E
Scope 
Vertical atmospheric motion plays an important role in various scales of atmospheric circulation. It plays a central role in the general circulation of the atmosphere and in various problems such as cumulus convection which causes severe weather, the formation of clouds and precipitation, the vertical transport of materials, including anthropogenic greenhouse gases, and the stratosphere and troposphere exchange. The actual nature of the vertical motions of the atmosphere is not well understood because directly observing the vertical motion over a wide area is difficult, and atmospheric vertical velocities strongly depend on the resolution of the numerical models. In this section, we will approach the vertical motion of the atmosphere from various aspects, including observational studies of vertical motion captured by new observational technologies, such as future cloud vertical motion observations such as the EarthCARE satellite, high-resolution numerical modeling, and analysis and theory of vertical motions. Through this discussion, we aim to develop a comprehensive understanding of global environmental science in terms of atmospheric vertical motions.
Presentation Format Oral and Poster presentation
Invited Authors Hanii Takahashi (NASA Jet Propulsion Laboratory)
Pavlos Kollias (Stony Brook University)
Yasutaka Ikuta (Japan Meteorological Agency/Meteorological Research Institute)
Time Presentation No Title Presenter
Oral Presentation May 28 AM2
10:45 - 11:00 AAS01-01 The utility of EarthCARE CPR Doppler velocity observations for evaluating the representation of convective motions in regional and global high-resolution models Pavlos Kollias
11:00 - 11:15 AAS01-02 Ground validation of EarthCARE/Cloud Profiling Radar using WINDAS data Yuichi Ohno
11:15 - 11:30 AAS01-03 Potential impact of Doppler CPR observation by EarthCARE on climate modeling Yuhi Nakamura
11:30 - 11:45 AAS01-04 Clear Air Turbulence Resolved by Numerical Weather Prediction Model Validated by Onboard and Virtual Flight Data Ryoichi Yoshimura
11:45 - 12:00 AAS01-05 The Land-Ocean Contrasts in Deep Convective Cloud Intensity Using Global Satellite Observations and DYAMOND simulations Hanii Takahashi
Presentation No Title Presenter
Poster Presentation May 28 PM3
AAS01-P01 Analysis of vertical winds using radar observations and numerical models in a hailstorm on the Sendai Plain in June 2022 Junshi Ito
AAS01-P02 Global Trend of Trace Gases from 2013-2023 in Asia Lin Tan
AAS01-P03 Development of algorithms for cloud detection and Doppler Velocity unfolding using 94-GHz cloud radar Allabakash Shaik
AAS01-P04 Analyses of vertical motion using Wind Profiler for interpretating Doppler velocity by EarthCARE CPR Mana Ueno
AAS01-P05 Estimating terminal velocity of raindrops in stratiform precipitation using vertical observation data from ground-based X-band radar Yusuke Goto
AAS01-P06 Investigation of ice formation and aerosol properties from satellite observation Shizuka Komatsu
AAS01-P07 Effect of particle shape of hydrometeors on vertical motion of the atmosphere Yasutaka Ikuta
AAS01-P08 Utilizing Doppler Velocity from Cloud Radar on the Ground and EarthCARE-like Data for Global Storm-Resolving Model Evaluation Woosub Roh
AAS01-P09 A proposal for intercomparison experiments of global storm-resolving models: One-year long simulation and evaluation and Improvement by EarthCARE Satellite Observations Masaki Satoh