Examining the Wildfire Aerosol-Atmosphere Interactions and Impacts on Radiative Energy Bud — NSF Award to Texas A&M University (TX
Fire is one important component of the earth system. It can greatly affect the Earth’s climate, air quality, and public health and welfare. Because of the climate change, more intensive wildfires with higher plume injection heights are expected to occur. Despite great importance, the magnitude and even the sign (warmin
| Award title | Examining the Wildfire Aerosol-Atmosphere Interactions and Impacts on Radiative Energy Bud |
|---|---|
| Award ID | 2444136 |
| Awardee | Texas A&M University |
| City | COLLEGE STATION |
| State | TX |
| Amount obligated | $626,867 |
| Principal investigator | Xiaohong Liu |
| Program | Physical & Dynamic Meteorology |
| Start date | 03/01/2025 |
| Abstract | Fire is one important component of the earth system. It can greatly affect the Earth’s climate, air quality, and public health and welfare. Because of the climate change, more intensive wildfires with higher plume injection heights are expected to occur. Despite great importance, the magnitude and even the sign (warming or cooling) of wildfire smoke on the Earth’s climate are still unknown. To address these issues, the project will predict the fire intensity and plume injection height in a timel |
| Source | NSF Awards |
$799/mo
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