Study reveals chemical link between wildfire smoke and ozone depletion
If wildfires become larger and more frequent, they might stall ozone recovery for years.
If wildfires become larger and more frequent, they might stall ozone recovery for years.
New results show North Atlantic hurricanes have increased in frequency over the last 150 years.
Modeling tool showcases emerging MIT Joint Program research focus on multi-sector dynamics.
MIT professors Dave Des Marais and Caroline Uhler combine plant biology and machine learning to identify genetic roots of plant responses to environmental stress.
Lincoln Laboratory’s TROPICS satellites will help scientists study extreme tropical weather once all six are launched next year.
New climate resiliency dashboard helps reduce uncertainty of current and future flood risks in Cambridge.
Researchers identify a mechanism by which small particles in the atmosphere can generate more frequent thunderstorms.
New study suggests waters will become more turbulent as Arctic loses summertime ice.
Recent virtual lecture explores how paleoclimatology provides important context for examining the activities of past human societies.
On the ground, windy conditions strengthen these electrical flashes, but new experiments tell a different story for flying objects.
Professor of atmospheric science honored for his work on atmospheric physics and dynamics of tropical weather patterns.
Automated tools can help emergency managers make decisions, plan routes, and quantify road damage at city scales.
MIT researchers describe factors governing how oceans and atmospheres move heat around on Earth and other planetary bodies.
Real-time visibility estimates are a critical need in remote areas where visual flight is common and automated weather stations are scarce.
A theoretical meteorology pioneer, Phillips showed that numerical models could predict weather and developed the first general circulation model of Earth’s climate.