An escape route for carbon
Study shows minerals sequester carbon for thousands of years, which may explain oxygen’s abundance in the atmosphere.
Study shows minerals sequester carbon for thousands of years, which may explain oxygen’s abundance in the atmosphere.
A theoretical meteorology pioneer, Phillips showed that numerical models could predict weather and developed the first general circulation model of Earth’s climate.
Region dominates the transfer of heat from the equator to the poles in both hemispheres, challenging the "great conveyor belt" model.
Results may help researchers interpret ancient monsoon variations, predict future activity in the face of climate change.
Phytoplankton decline coincides with warming temperatures over the last 150 years.
TILclimate (Today I Learned: Climate) podcast demystifies the science, technology, and policy surrounding climate change in 10-minute bites.
Study finds shallow bodies of water were probably more suitable for Earth’s first life forms.
Maike Sonnewald adapts a method that identifies areas of the global ocean with similar physics, revealing global dynamical regimes.
Major tectonic collisions near the equator have caused three ice ages in the last 540 million years.
Jordan Benjamin, a double major in physics and atmospheric science, studies the weather inside and out of the classroom.
PhD student Josh Moss uses computer modeling and physical experiments to examine the key transformations that emissions undergo in the atmosphere.
Study finds rising temperatures feed more energy to thunderstorms, less to general circulation.
As machine learning expands into climate modeling, EAPS Associate Professor Paul O’Gorman answers what that looks like and why it's important now.
Results show bacterial genomes provide “shadow history” of animal evolution.
Climate-driven changes in phytoplankton communities will intensify the blue and green regions of the world’s oceans.