Climate Change From Black Carbon Depends on Altitude

April 26, 2011

EETD Post-Doctoral Fellow George Ban-Weiss participated in an atmospheric modeling study of black carbon aerosols and their impact on climate change while he was with the Carnegie Institution for Science and Stanford University. Read Carnegie's press release, "Climate change from black carbon depends on altitude," here:

"Palo Alto, CA — Scientists have known for decades that black carbon aerosols add to global warming. These airborne particles made of sooty carbon are believed to be among the largest man-made contributors to global warming because they absorb solar radiation and heat the atmosphere. New research from Carnegie's Long Cao and Ken Caldeira, along with colleagues George Ban-Weiss and Govindasamy Bala, quantifies how black carbon's impact on climate depends on its altitude in the atmosphere. Their work, published online by the journal Climate Dynamics, could have important implications for combating global climate change..."