Session: Severe Storms and Mesoscale Meteorology (40th Conference on Radar Meteorology)

Tuesday, 29 August 2023: 3:00 PM-4:30 PM

Boundary Waters (Hyatt Regency Minneapolis)

Host: 40th Conference on Radar Meteorology

Chairs:

Radar-based studies of deep convection, tornadoes, severe winds and hail, tropical cyclones, mesoscale convective systems, boundary layer meteorology, etc., including dual/multi-Doppler, polarimetric, and integrated radar-instrument analyses; results from field campaigns also are encouraged.

Sponsored by LEONARDO Germany GmbH

Papers:

Characteristics of Spatial-Temporal Distribution and Storm Morphologies of Tornadoes in Jiangsu,China

FEN XU, Nanjing Joint Institute for Atmospheric Sciences, NANJING, China; and Y. ZHENG and K. SUN

Simulation Analysis of Typical Tornadic Supercell and Nontornadic Supercell Processes

Kangyuan Sun, Nanjing Joint Institute for Atmospheric Sciences, Nanjing, Jiangsu, China

Application of mobile dual-polarisation radar for wildfire monitoring and nowcasting

Peter Thomas May, Monash Univ., Clayton, VIC, Australia; and A. Guyot, A. J. F. Protat, M. Curtis, M. Peace, and K. turner

Detection of Aircraft Icing Potential Areas using 3D Radar Data and Atmospheric Parameters

Yura Kim, KMA, Seoul, South korea; and B. Y. Ye and K. Y. Nam

Automatic Center Detection of Tropical Cyclone using Image Processing Based on the Operational Radar Network

Ji-Young Gu, KMA, Seoul, Korea, Republic of (South); and S. J. Mo and S. Lee

High-Temporal Resolution Observations of a Tornadic Supercell near Cole, Oklahoma on 19 April 2023

David J. Bodine, Univ. of Oklahoma, Norman, OK; and D. Schvartzman, M. D. TZENG, B. L. Cheong, H. B. Bluestein, R. D. Palmer, and T. Y. Yu

Examining the Relationship Between Debris Characteristics and Polarimetric Signatures using High-Resolution Mobile Radar Data, Photogrammetry, and Electromagnetic Scattering Simulations

David J. Bodine, Univ. of Oklahoma, Norman, OK; and H. B. Bluestein, J. A. Margraf, T. Greenwood, S. W. Emmerson, and B. L. Cheong

An analysis of the 23 May 2011 hailstorm in Oklahoma based on data from four different radars

Leah M Swinney, Univ. of Oklahoma, Norman, OK; and H. B. Bluestein and J. C. Snyder

Variations on the Meso- and Micro-scale Structures of Mesoscale Convective Systems Under Different Large-scale Circulations over Southern China

Using polarimetric radar data to identify tornadoes in near real-time

Katie Leigh Ward, Verisk Weather Solutions, Lexington, MA; and B. Fay and L. McCarthy

Handout (3.2 MB)

The Statistical Lifecycle of a Supercell Storm

Cameron R. Homeyer, Univ. of Oklahoma, Norman, OK; and A. M. Murphy

Use of ZDR columns for early detection of severe convection within the operational radar network of the United Kingdom

Chun Hay Brian Lo, University of Reading, Reading, RDG, United kingdom; and T. H. M. Stein, R. Scovell, C. D. Westbrook, T. Darlington, and H. W. Lean

Handout (2.3 MB)

Radar Observations of Hailstorms producing Giant Hail

Arthur Witt, NSSL, Norman, OK; and J. C. Snyder and J. Krause

Handout (2.7 MB)

Radar-Based Studies of Mesoscale Convective Storms Using Different Frequency Bands of Weather Radars

Handout (2.5 MB)

Observations of Severe-Wind Driven and other Wildfires with DOWs

Karen A. Kosiba, Univ. of Illinois, Urbana, IL; and J. Wurman

The PERiLS Project: Tornado Chasing in the Southeast

Karen A. Kosiba, Univ. of Illinois, Urbana, IL; and J. Wurman, R. J. Trapp, M. D. Parker, and S. W. Nesbitt

Comparative Analysis of Characteristics of Mesoscale Convective Systems in Observations and Model Simulation

Jeong-Eun Lee, Kyungpook National University, Daegu, South korea; and G. Lee

Comparison of algorithm performance assessing size sorting signatures in polarimetric radar data

Scott Loeffler, United States Naval Academy, Annapolis, MD; United States Naval Academy, Annapolis, MD; and J. Segall, M. Wilson, A. E. Reinhart, K. L. Ortega, M. M. French, and D. M. Kingfield

Developing NSSL PodRads: Low-cost, pod-style radars for measuring vertical profiles of vertical velocities in tornadoes and convective storms

Jeffrey C. Snyder, NOAA/OAR National Severe Storms Laboratory, Norman, Norman, OK; and P. Servello and D. Wasielewski

Characteristics and Mechanisms of Heavy rainfall Spatial Distribution and Diurnal Cycle over an East China Mesoscale Mountain

Tornadic Debris Signature and Debris Fallout Analysis of the 10-11 December 2021 EF4 Tornado

Savannah J. Southward, University of Oklahoma, Norman, OK; and D. J. Bodine and R. Cross

100

Radar Characteristics of Two Afternoon Thunderstorm events during the 2022 PRECIP field campaign

Ting-Yu Cha, NCAR, Boulder, CO; and W. C. Lee, M. Bell, J. D. B. Jou, and B. F. Chen

101

Relating Polarimetric Radar Measurements to QLCS Cold Pool Properties and Damage Potential

Anna VanAlstine, The Pennsylvania State Univ., University Park, PA; and M. Kumjian

102

Rapid-Scan Radar Observations of Two QLCSs during the PERiLS 2023 Field Campaign

Morgan Schneider, Univ. of Oklahoma, Norman, OK; and D. J. Bodine, B. Cheong, and D. Schvartzman

104

Multi-Doppler Analysis of QLCS Mesovortices Observed During the 30 April 2017 Mission of the VORTEX-SE Field Campaign

Daniel M. Stechman, CIWRO, Norman, OK; NSSL, Norman, OK; and C. L. Ziegler

105

Bulk Analysis of Radar-Derived Mesocyclone Intensity and Transience Preceding Supercell Tornadogenesis and Tornadogenesis Failure

Kristofer Tuftedal, Stony Brook University, Stony Brook, NY; and M. M. French and D. M. Kingfield

106

Overview and Early Analysis of NSSL and CIWRO Observations of the 24 March 2023 Rolling Fork, Mississippi, Tornadic Storm and Environmental Evolution during PERiLS 2023 IOP 3

Anthony Lyza, NSSL, Norman, OK; and A. A. Alford, T. Bell, V. C. Chmielewski, M. C. Coniglio, E. Rasmussen, A. E. Reinhart, E. N. Smith, M. A. Wagner, and S. M. Waugh

107

Radar Proxy Updraft Properties in QLCSs During PERiLS – 2022

Celia G. Werner, Stony Brook Univ., Stony Brook, NY; and M. M. French and M. I. Biggerstaff

- Indicates paper has been withdrawn from meeting

- Indicates an Award Winner

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