Catch CROCUS and Argonne National Laboratory researchers at the 105th American Meteorological Society Annual Meeting.
Sessions featuring CROCUS and Argonne research can be found below and are color-coded for easier reading.
Registration is required to attend any session.
Saturday, January 11
Session 4I – Conversations with Professionals – Matthew Tuftedal
2:20-4:10 p.m.
Learn more
Sunday, January 12
**FEATURED STUDENT SESSIONS**
S235 – Influence of Micronet Locations on Hyperlocal Precipitation Measurements in Chicagoland
6:30-8:30 p.m.
S90 – Extracting Planetary Boundary Layer Heights in Smoky Conditions Over Chicago
6:30-8:30 p.m.
Monday, January 13
1.3 – Evaluation of Radiative Flux Datasets over the Great Lakes Region for Climate Model Validation Applications
9:00-9:15 a.m.
1B.5 – FAIR Skies Ahead: Citable and Reproducible Geoscience Educational and Research Workflows with Project Pythia
9:30-9:45 a.m.
PD 2A – Bridging Scale Gap and Increasing Resilience in Communities
10:45 a.m.-12:00 p.m.
2B.4 – Leveraging FAIR Principles for Efficient Management of Meteorological Radar Data
11:30-11:45 a.m.
41 – The National Virtual Climate Laboratory
3:00-4:30 p.m.
74 – Deriving Height Information Using LiDAR Data for Chicago: A High School Student’s Journey to Urban Climate Research
3:00-4:30 p.m.
92 – Mobile CH4 Measurement and Inversion & An Interactive Visualization Platform
3:00-4:30 p.m.
111 – Recent Field Successes of the SSEC Portable Atmospheric Research Center
3:00-4:30 p.m.
173 – Investigation of isobaric mixing as a mechanism for boundary-layer cloud formation
3:00-4:30 p.m.
J4A.2 – Quantifying Aerosol Effects on Convective Updraft Velocities in the Amazon using Causal Inference
4:45-5:00 p.m.
4.3 – Sensitivity of Regional WRF-Chem Air Quality and Climate Simulations to Biomass Burning Emission Datasets: a Case Study of the Impact of Canadian Wildfire to the US
5:00-5:15 p.m.
4B.3 – ICAMS Common Model Architecture Implementation Team
5:00-5:15 p.m.
4.5 – Developing Community Connections while Profiling the Urban Atmosphere during Urban Canyons 2024
5:30-5:45 p.m.
4B.5 – ICAMS Content Standards Implementation Team
5:30-5:45 p.m.
4.6 – Initial Measurements from Chicago’s First Long-Term Urban Flux Site
5:45-6:00 p.m.
J4.6 – Floating Wind in a Changing Climate: Linking Metocean Conditions, Control, Reliability, and Grid using Scientific ML
6:00-6:15 p.m.
Tuesday, January 14
5.1 – Improved Tropical Variability of Clouds and Precipitation in the E3SM Atmosphere Model with New Physics Parameterizations (Invited Presentation)
8:30-8:45 p.m.
5.4 – Co-analysis of Tree and Building Heights for Enhanced Urban Climate Modeling
9:00-9:15 p.m.
J5.5 – Boundary Layer Height Retrievals in Wildfire Smoke Over Chicago Using a Multi-Instrument Approach
9:30-9:45 p.m.
5.6 – Impact of the Multi-Layer Urban Schemes on the Feedback between Heat Waves and Urban Air Quality in the Chicago Metropolitan Area
9:30-9:45 p.m.
14.3 – OMEGA: The Ocean Model for E3SM Global Applications: A New High Performance Computing Code for Exascale Architectures
11:15-11:30 p.m.
7.1 – Predicting the Wind Field at the Wake of Buildings: Insights from High-Fidelity Simulations and Turbulence Structure Based Low-Order Modeling
1:45-2:00 p.m.
E43 – 16ENERGY An Adaptive System for Detecting Rotor Layer Turbulence Using Edge Computing
3:00-3:40 p.m.
333 – Impacts of Anthropogenic Climate Change and Urbanization on Derechos – Contrasting Results between Two Case Studies
3:00-4:30 p.m.
338 – Attribution of 2024 Houston Derecho to Anthropogenic Climate Change and Urbanization
3:00-4:30 p.m.
434 – Summer Convective Precipitation Changes over the Great Lakes Region under a Warming Scenario
3:00-4:30 p.m.
520 – Large Scale Control of Seasons with Extreme Tropical Cyclone Activity in the North Atlantic
3:00-4:30 p.m.
8.1 – An Improved BEP-BEM Based Urban Canopy Scheme Derived from High-Fidelity Simulations
4:30-4:45 p.m.
8.2 – Integrating Urban Modeling Across Scales: A Structured Blueprint for Hybrid Urban Climate Modeling
4:45-5:00 p.m.
8.3 – The Influence of the Chicago Metroplex on an Extreme Precipitation Event
5:00-5:15 p.m.
J8A.4 – The SUNY Oswego Undergraduate Radar Curriculum Experience: A Summary of Successes and Recommendations for Future NSF-FARE Requests
5:15-5:30 p.m.
Wednesday, January 15
9.2 – Uxarray: Extending Xarray to Support the Analysis of Native, Kilometer-Scale Unstructured Grids in Python
9:00-9:15 a.m.
9C.3 – Surface Quantitative Precipitation Estimates (SQUIRE) from the X-Band Precipitation Radar during the Surface Atmosphere Integrated Field Laboratory (SAIL) Experiment
9:00-9:15 a.m.
9.5 – Effective Visualization of Radar Data for Users Impacted by Color Vision Deficiency
9:30-9:45 a.m.
10.4 – Assessing Sodar Performance in a High-Wind Coastal Environment: Insights from the Nantucket site at WFIP3
11:30-11:45 a.m.
10.5 – ACTing on Atmospheric Data: Leveraging Open-Source Software for Field Campaigns and Beyond
11:45 a.m. -12:00 p.m.
Session 11 – Core Science Keynote and Tools II
1:45-3:00 p.m.
594 – Nature-Based Solutions: An Effective Approach for Flood Mitigation and Resilience over Urban Areas
3:00-4:30 p.m.
789 – Performance of Recent Wind Assessment Datasets in Coastal Areas
3:00-4:30 p.m.
791 – Hub-Height Wind Bias Off the Coast of Northern California Due to the Misrepresentation of Marine Stratocumulus Clouds in HRRR
3:00-4:30 p.m.
794 – Uncertainty Quantification of Satellite-Based Thermodynamic Soundings across Mid-Atlantic Bight
3:00-4:30 p.m.
795 – Model-Observational Comparison for the Third Wind Forecast Improvement Project
3:00-4:30 p.m.
812 – tobac: Xarray Implementation and Nontraditional Uses for Object-Based Analysis of Clouds
3:00-4:30 p.m.
819 – GPU/CPU Performance Results on Exascale Architectures for OMEGA: The Ocean Model for E3SM Global Applications
3:00-4:30 p.m.
838 – Vertical Air Motion and Water Vapor Variability in Cumulus Topped Marine Boundary Layers
3:00-4:30 p.m.
1033 – Evaluation of Derecho Wind Gusts in Convection-Permitting Climate Simulations using WSR-88D and HRRR wind data
3:00-4:30 p.m.
J12B.1 – Observations of Aerosols, Clouds, and Radiation over the Amazon Rainforest while constraining the Large-Scale Synoptic Variability Using Self-Organizing Maps
4:30-4:45 p.m.
12.2 – ARM Open Science Summer School 2024: Connecting State-of-the-Art Models with Diverse Field Campaign Observations with Open Science
4:45-5:00 p.m.
J12.3 – Porting Noah-MP Model into Energy Research and Forecasting Model Using a Novel Large Language Model Paradigm
5:15-5:30 p.m.
12.4 – The Project Pythia Hackathon: Developing Scientists’ Skills and Community in Open Source Development and Education
5:15-5:30 p.m.
Thursday, January 16
13.1 – Characterizing Mechanisms Leading to Nocturnal Boundary Layer Turbulence during Clear Sky Conditions at Cape Cod
8:30-8:45 a.m.
13.1 – Dynamically Downscaling Future Regional and Urban Heat Stress Extremes over the Great Lakes Region Using Pseudo Global Warming Simulations
8:30-8:45 a.m.
13.2 – Compounding Effects of Lake and Urbanization on Summer Precipitation in the Greater Chicago Area
8:45-9:00 a.m.
13B.4 – Novel Strategies for Radar Scanning and Convection Tracking to Study Isolated Deep Convection
9:15-9:30 a.m.
14.2 – Building a GPU Accelerated Multi-RRM High-resolution Global Climate Model to Characterize Extreme Events over U.S. Pacific Ocean Islands
11:00-11:15 a.m.
14B.2 – Machine learning (ML) enhanced cloud and aerosol representations in Energy Exascale Earth System Model (E3SM)
11:00-11:15 a.m.
1006 – Effects of Future Urban Expansion and Climate Change on the Atmospheric Thermal Environment in the Chicago Metropolitan Area
3:00-4:30 p.m.
