Simple equations are revealing how topography controls supraglacial lake size in Antarctica — and why it matters for climate predictions.

Georgia Tech researchers analyze seasonal differences of SO₂ and sulfate concentrations in the atmosphere over decades to determine the long-term impact of sustained air quality control efforts.

Understanding how salt marsh grass stays healthy is of crucial ecological importance, and studying the ways bacteria interact with these plants is key.

Georgia Tech researcher investigates how rainfall will change as Earth’s atmosphere heats up.

New research shows that an effort to improve wintertime air quality in Fairbanks, Alaska may not be as effective as intended.

Annalisa Bracco, Taka Ito, and Chris Reinhard from the School of Earth and Atmospheric Sciences will create computer models to measure how well CO2 removal techniques work on land, rivers, and oceans, as part of $264 million in grants.

In a landmark study led by Georgia Tech, researchers demonstrate a first-of-its kind way to synthesize amino acids that uses more carbon than it emits.

At the invitation of the National Marine Sanctuary Foundation, a team of Ph.D. students designed an ocean-cooling system to help stop coral bleaching.

Algorithmic innovations produce multiple models to assess risks of safe carbon storage.

Georgia Tech researchers introduced a groundbreaking machine learning technique to improve the assessment and analysis of declining oxygen levels in the ocean.