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Scientists are training machine learning algorithms to help shed light on earthquake hazards, volcanic eruptions, groundwater flow and longstanding mysteries about what goes on beneath the Earth’s surface.
A new technique involving pulses of ultrafast, high-power lasers has allowed scientists to see how silicon, an abundant element in Earth's crust, changes under intense pressure.
Geophysical processes have shaped Pozzuoli, Italy, like few other places in the world. Stanford students applied modern tools to understand those links and what it means to live with natural hazards as both threat and inspiration.
Atmospheric scientist Aditi Sheshadri discusses how the polar vortex works, what drives its behavior and why it seems to bring storms and bitter cold more frequently than in past decades.
A Stanford researcher weighs in on how reconstructing past weather events using coral reefs can help demystify the complex phenomenon known as El Niño.
In her new book, Lauren Oakes explores a journey of loss, adaptation and resilience to climate change.
A new analysis of marine fossils and seismic data offers keys to better modeling of global sea levels and earthquake risk in Southern California – plus the last word in a century-long debate over the motion of Catalina Island.
A new study supports the long-debated idea that all species – even highly mobile animals – are clustered together in geographically unique areas, and opens a path to better protection of little-known species.
A new method for observing water within ice has revealed stored meltwater that may explain the complex flow behavior of some Greenland glaciers, an important component for predicting sea-level rise in a changing climate.
Geophysicist Gregory Beroza discusses the culprits behind destructive aftershocks and why scientists are harnessing artificial intelligence to gain new insights into earthquake risks.
A new analysis looks at what it would take for oil companies to start pumping millions of tons of carbon dioxide into their wells to boost crude production – and what it would mean for the climate.
A new analysis of how air moves between two layers of Earth’s atmosphere reveals a deep system that could enable long-term weather forecasts and better climate models.
The audible world contains vast amounts of information about the world around us. Scholars from across Stanford are exploring this invisible landscape as a research tool and as a way of understanding each other.
Faculty at Stanford's School of Earth, Energy & Environmental Sciences recommend these 31 books for your summer reading.
Recent eruptions offer reminders that lava, ash and size don’t fully explain how volcanoes become deadly. Geologists Gail Mahood and Donald Lowe describe some of the science and mysteries behind volcanic hazards.
Do tiny underground tremors provide clues that a big earthquake is coming? A new study suggests foreshocks are just like other small quakes, not helpful warning signs as previously thought.
Geothermal engineer Roland Horne discusses geothermal energy in the face of natural hazards and a way to tap the earth’s heat far from volcanoes in the future.
Geophysicist and volcanologist Paul Segall describes Hawaii's most active volcano and the science behind the latest eruptions.