ACOM | Atmospheric Chemistry Observations & Modeling

Atmospheric Chemistry Observations & Modeling

Smoke from wildland-urban interface fires more deadly than remote wildfires

A global dust emission dataset for estimating dust radiative forcings in climate models

Long‐term temperature impacts of the Hunga volcanic eruption in the stratosphere and above

Satellite Images Show Areas in California Wildfires Miraculously Spared

Palisades Fire from Downtown

Nonlinear and Non-Gaussian Ensemble Assimilation of MOPITT CO

Artist depiction of MOPITT satellite in orbit.

How wildfire smoke, retardant slurry impact human health, environment

1024px-Aircraft_drops_fire_retardant_on_the_2021_Richard_Spring_Fire_in_Montana,_photo_by_Phil_Millette,_FWS.jpg

Researchers look into the health impacts of wildfire smoke

Coordinated Geostationary, Multispectral Satellite Observations Are Critical for Climate and Air Quality Progress

Scientists propose guidelines for solar geoengineering research

Quantifying the diurnal variation in atmospheric NO2 from Geostationary Environment Monitoring Spectrometer (GEMS) observations

Figure 1 Averaged GEMS NO2 TrC for June 2023 showing the full extent of the instrument FOR.

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