Tectonic plates colliding deep below the ocean's surface can trigger major earthquakes and tsunamis. A new study from a team of scientists including Samer Naif shows that water may play a bigger role than previously known in the magnitude of these quakes.

Tectonic plates colliding deep below the ocean's surface can trigger major earthquakes and tsunamis. A new study from a team of scientists including Samer Naif shows that water may play a bigger role than previously known in the magnitude of these quakes.

Tectonic plates colliding deep below the ocean's surface can trigger major earthquakes and tsunamis. A new study from a team of scientists including Samer Naif shows that water may play a bigger role than previously known in the magnitude of these quakes.

Tectonic plates colliding deep below the ocean's surface can trigger major earthquakes and tsunamis. A new study from a team of scientists including Samer Naif shows that water may play a bigger role than previously known in the magnitude of these quakes.

SPRUCE experiment study shows elevated levels of greenhouse gases emerging from carbon-rich peatlands

SPRUCE experiment study shows elevated levels of greenhouse gases emerging from carbon-rich peatlands

How Jennifer Leavey’s videos use research articles to build personal contact and educate online communities about COVID-19 research.

Industrial design students reimagine the periodic table – and a book is born.

Industrial design students reimagine the periodic table – and a book is born.

Industrial design students reimagine the periodic table – and a book is born.