Q&A: Energy studies at MIT and the next generation of energy leaders
Abigail Ostriker ’16 and Addison Stark SM ’10, PhD ’15 share how their experiences with MIT’s energy programs connect them to the global energy community.
Melting glaciers cool the Southern Ocean
Research suggests glacial melting might explain the recent decadal cooling and sea ice expansion across Antarctica's Southern Ocean.
Susan Solomon earns Killian Award, MIT’s highest faculty honor
Atmospheric chemist is recognized for her “leadership in working toward real-world solutions to address the global climate crisis.”
3 Questions: Harnessing wave power to rebuild islands
In the Maldives, an MIT team is conducting experiments to combat sea-level rise by redirecting natural sand movement.
Researchers explore ocean microbes’ role in climate effects
When they encounter nutrient oases in the marine desert, marine bacteria release a gas involved in climate regulation.
Can financial disclosure of climate risk accelerate climate action?
Online panel discussion hosted by MIT explores best practices for mitigating climate-related risk.
Energy economics class inspires students to pursue clean energy careers
The Electricity Strategy Game is a prominent feature in 15.0201/14.43 (Economics of Energy, Innovation, and Sustainability).
Evaluating the global energy system
Meet the team of postdocs developing the MIT Energy Initiative's energy life-cycle assessment tool.
Titan’s missing river deltas and an Earthly climate connection
Samuel Birch, a new Heising-Simons Foundation 51 Pegasi b Fellow at MIT, will investigate the surfaces of outer solar system objects.
3 Questions: Greg Britten on how marine life can recover by 2050
Committing to aggressive conservation efforts could rebuild ocean habitats and species populations in a few decades.
Staring into the vortex
MIT researchers describe factors governing how oceans and atmospheres move heat around on Earth and other planetary bodies.
Emissions of several ozone-depleting chemicals are larger than expected
Recovering and safely destroying the sources of these chemicals could speed ozone recovery and reduce climate change.
Scientists quantify how wave power drives coastal erosion
The average power of waves hitting a coastline can predict how fast that coast will erode.
Machine learning picks out hidden vibrations from earthquake data
Technique may help scientists more accurately map vast underground geologic structures.