The GMAO Research Site

The Global Modeling and Assimilation Office (GMAO) supports NASA's Earth Science mission. Activities in Earth System modeling and data assimilation aim to maximize the impact of satellite observations on analyses and predictions of the atmosphere, ocean, land and cryosphere.

Science Snapshots
Atmospheric Dust Rivers: Saharan Dust Makes the Journey to the Americas  thumbnail

Atmospheric Dust Rivers: Saharan Dust Makes the Journey to the Americas

During June 2020, dust from the Sahara Desert was forecast and observed to cross the Atlantic Ocean, impacting the Caribbean, the US Gulf Coast states, and recirculated over parts of the mid-Atlantic region. GEOS aerosol assimilation products show the progress of this event, from its origin over the Saharan Desert source regions and through its intercontinental transport and its extend over the US.
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Major Advance in MJO Prediction Skill in GMAO’s Near Real Time Seasonal Forecasts thumbnail

Major Advance in MJO Prediction Skill in GMAO’s Near Real Time Seasonal Forecasts

The Madden-Julian Oscillation (MJO) is predicted much more realistically in version 2 of the NASA GEOS-S2S system (GEOS-S2S-2) than in the older version (GEOS-S2S-1).
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GEOS Captures Tropical Cyclone-Like System Trudy over the Mediterranean Sea thumbnail

GEOS Captures Tropical Cyclone-Like System Trudy over the Mediterranean Sea

A cyclone type is found primarily in the Mediterranean Sea and is thus frequently referred to as a Medicane. Until now our models could not fully resolve these processes. The current GEOS FP did show all the ingredients necessary to trigger Medicane Trudy. This may be the first Mediterranean Medicane correctly forecast and analyzed by NASA's GEOS.
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Developing an Ozone Climate Data Record from Assimilation of High-Resolution Satellite Observations thumbnail

Developing an Ozone Climate Data Record from Assimilation of High-Resolution Satellite Observations

Assimilation of high-resolution satellite observations can provide accurate representations of stratospheric ozone on time scales ranging from hours to decades.
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