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Shobha Kondragunta
NOAA/NESDIS/Center for Satellite Applications and ResearchMeeting roles in:
Performance Evaluation of NOAA’s Rapid-Refresh Forecast System (RRFS-Smoke) model in Capturing Deep Smoke Injections from Intense Wildfires in Northwestern US
A Multidimensional Framework for Identifying Extreme Fire Seasons Using Satellite-Derived Metrics in the Western United States
Fuel Type Influences the Relationship Between Fire Radiative Power and Carbon Emissions in Fires Observed by MASTER During FIREX-AQ
Quantifying atmospheric methane emissions with satellite observations
Leveraging satellite observations in NOAA's wildfire smoke models
Continuing Tropospheric NO₂ Monitoring: Enhanced Capabilities of NOAA-21 OMPS and Cross-Platform Consistency Across the JPSS Satellite Series
A New Era of Air Quality Monitoring from Space over North America with TEMPO: Mission Status from First Two Years in Orbit
TEMPO Science and Applications
The 2024-2025 Airborne and Remote Sensing Multi-Air Pollutant Surveys (AiRMAPS) – Results from the NOAA Twin Otter Campaigns in Colorado, Utah and the Mid-Atlantic
Satellite-derived wildfire smoke plume height climatology across CONUS
Agricultural Burning Policy Effectively Reduced the World Cropland Biomass-Burning Emissions during the Past Two Decades
Experimental Forecasting of Wildfire Emissions within NOAA’s Rapid-Refresh Forecast System (RRFS-Smoke) Model Using Meteorology and Fuel Moisture Content
GEO-ring for near-global monitoring of extreme methane point sources
Expanding Geostationary Atmospheric Composition Satellite Constellation: Towards Global Coverage
Using a Tiered Observing System to Evaluate the Next Generation Global Air Quality Forecast System with NOAA's Newly Developed UFS-Chem Model
Atmospheric Composition Observations from Space
Multi-Platform Evaluation of TEMPO Air Quality Products Using Ground-Based Observations and Atmospheric Composition Models
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