An international, collaborative team of researchers shed light on how fungi and plant roots work together to gather nutrients — and how the diversity of plant species may impact the process.

Their novel approach showed how mammal traits evolved with changing environments over time and revealed factors that contributed to biodiversity loss.

Researchers analyzed data from 10, yurt-like test chambers in a natural boreal spruce bog in northern Minnesota.

Humanity’s drive to explore has taken us across the solar system, with astronaut boots, various landers and rovers’ wheels exploring the surfaces of several different planetary bodies.

“This course truly underscores Georgia Tech’s commitment to pioneering meaningful undergraduate experiences,” says teacher Vinayak (Vinny) Agarwal. “No other peer institution I know of is exposing undergraduates to bioinformatics at this level.”

Georgia Tech expert Zachary Handlos joins a growing conversation about whether the Saffir-Simpson Hurricane Wind Scale adequately reflects the full range of hurricane hazards in a changing climate.

The grant will support Chu as she uses radar data and generative AI to map temperatures beneath the Antarctica ice sheet, aiming to improve climate predictions, support coastal planning, and train future scientists through open-access tools and education.

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.

Neuroscience at Georgia Tech is entering a new era — one defined by interdisciplinary research, educational innovation, and real-world impact.