Theme | 1: Challenges in PM Forecasting |
| Ravan Ahmadov (U Colorado, NOAA) | The sensitivity of PM2.5 aerosol modeling in WRF-CHEM to chemical and meteorological parameterizations |
| Youngsin Chun (NIMR/Korea) | Asian Dust Aerosol Model Operated in Korea |
| Colleen Farrell (EC) | Sea Salt Flux Parameterization Sensitivity in the Chemical Transport Model AURAMS: The contribution of naturally occurring sea salt aerosol to fine particulate mass in Atlantic Canada |
| Jeong Eun Kim (NIMR/Korea) presented by Youngsin Chun (NIMR/Korea) | Intensive Network of PM10 for Asian Dust Early Warning System in Korea |
| Pius Lee (NOAA) | Profiling of the operational and experimental code of the National Air Quality Forecasting Capability |
| Paul Makar (EC) | High Resolution Simulations of Particle Sulfate Formation in Lake Breeze Fronts: Process Tracking and Implications for Forecasting |
| Sylvain Ménard (EC) | A new Canadian operational air quality forecast model: GEM-MACH15 |
| Steven Peckham (U Colorado, NOAA) | Progress made towards including wildfires in real-time cloud resolving forecasts at NOAA/ESRL and examining its impact upon weather and air quality |
| Craig Stroud (EC) | Condensation of Gasoline Exhaust Organic Vapour onto Sulfate Aerosol: Flow Tube Studies and Regional Air Quality Modeling |
| James Wilczak (NOAA) | Meteorological Dependence of Surface PM2.5 During the TEXAQS II Field Program: A Comparison of AIRNow Observations with the NMM-CMAQ & WRF-Chem Models |
| Jian Zeng (ERT, NOAA) | Automatic Smoke Detection and Tracking Applied to GOES Observations |
Theme | 2: Treating Intermittent Sources in Forecast Models |
| Mary Barth (NCAR) | Implementing Lightning-NOx for studies of Thunderstorms and Chemistry |
| Serena Chung (Washington State U) | Incorporating the Wind Erosion Prediction System (WEPS) for Windblown Dust into a Regional Air Quality Modeling System |
| Masayuki Takigawa (AMEST/Japan) | Comparison of the distribution of mineral dust calculated by WRF/Chem with the Mie scattering Lidar observations in East Asia |
| Christine Wiedinmyer (NCAR) | Estimating emissions and air quality impacts from fires |
Theme | 3: Air Quality and Weather Forecasts: Two-way Interactions |
| Wayne Angevine (U Colorado, NOAA) | Improving boundary layer representation for air quality modeling: Stable, cloudy, and coastal boundary layers |
| Evelyn Grell (U Colorado, NOAA) | Comparisons of Offline and Online Air Quality Simulations in California's Central Valley |
| Sara Michelson (U Colorado, NOAA) | Evaluation of the Summertime Low-Level Winds Simulated by MM5 in the Central Valley of California |
| Youhua Tang (SAIC, NOAA) | Progress on NEMS/NMMB-AQ Development |
Theme | 4: Post Processing of Air Quality Forecasts |
| Hermann Jakobs (U Cologne) | Chemical Weather Forecast for Europe and selected regions -Evaluation and Model Output Statistics |
| Fahim Khokhar (LATMOS/France) | Use and Validation of GEMS Chemical Forecasts during the POLARCAT - France 2008 Campaigns |
| Shobha Kondragunta (NOAA) | Observed and Modeled Diurnal Variation in Tropospheric Nitrogen Dioxide |
| Stuart McKeen (U Colorado, NOAA) | Seven air quality forecasts and their ensemble: upper-air comparisons with ozone and aerosol lidar data during the TexAQS-2006 field study |
| Vincent-Henri Peuch (CNRM-GAME, Météo-France, CNRS) | Towards European-scale Air Quality operational services for GMES Atmosphere |
| Jacques Rousseau (EC) | Canadian new Air Quality Health Index, 2008 Evaluation |
| Andrew Teakles (EC) | Development of XM statistical tool for air quality forecasting |
| Sarah Wong (EC) | Air Quality Model Evaluation for Summer 2009 with Specific Focus on Aug 15-17th |
Theme | 5: Chemical Data Assimilation in AQ Forecasts |
| Greg Carmichael (U Iowa) | Rapid Update of Emissions Using Chemical Data Assimilation |
| Claire Granier (LATMOS/France, U Colorado, NOAA) | An integrated forecasting system for global reactive gases in the troposphere and stratosphere-The GRG sub-project of MACC |
| Richard Ménard (EC) | Estimated error variances derived from assimilation residuals in observation space |
| Gregory Osterman (JPL, Cal Tech) | Impact of long range transport on surface air quality in the US: Recent insights from satellite assimilation |
| Arastoo Pour-Biazar (U Alabama) | Examining the utilization of satellite observations in improving air-quality predictions |
| Qiang Zhao (NOAA) | Assimilation of Satellite Derived Aerosol Products to Improve PM2.5 Predictions |