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Beyond lava and ash: What makes volcanoes dangerous?
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.
Study casts doubt on the predictive value of earthquake foreshocks
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 at the foot of Kilauea
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.
Understanding Kilauea: A different flavor of volcano
Geophysicist and volcanologist Paul Segall describes Hawaii's most active volcano and the science behind the latest eruptions.
Stanford scientists eavesdrop on volcanic rumblings to forecast eruptions
Sound waves generated by burbling lakes of lava atop some volcanoes point to greater odds of magmatic outbursts. This finding could provide advance warning to people who live near active volcanoes.
New map profiles induced earthquake risk for West Texas, New Mexico
A seismic stress map created by Stanford geophysicists can help predict which parts of West Texas and New Mexico may be at risk of fracking-induced earthquakes. The map could guide oil discovery efforts in the region.
21st-century Earth science is computer intensive and data driven
If asked to imagine a geologist, you might envision a tanned and dusty figure, hardy and weathered like the ancient rocks that he or she spends days studying out “in the field."
Supervolcanoes: A key to America’s electric future?
Stanford researchers show that lake sediments preserved within ancient supervolcanoes can host large deposits of lithium, which is critical for modern technology.
Are we in a "Sixth Extinction"?
Stanford Earth professor Jon Payne puts modern extinction in context by comparing them with Earth's five previous mass extinctions.
Interacting Antarctic glaciers may cause faster melt and sea level contributions
Two of the most rapidly changing glaciers in Antarctica, which are leading contributors to sea-level rise, may behave as an interacting system rather than separate entities, according to a new analysis of radar data.
Small earthquakes at fracking sites may be early indicators of bigger tremors to come
Tiny tremors caused by hydraulic fracturing of natural gas near the surface could be early signs of stressful conditions deep underground that could destabilize faults and trigger larger earthquakes.
More frequent fires slow plant regrowth
Long-term effects of repeated fires on soils found to have significant impacts on carbon storage not previously considered in global greenhouse gas estimates.
Jenny Suckale: A Better Plan B for Managing Disasters
Building a ‘billion sensors’ earthquake observatory with optical fibers
The same optical fibers that deliver high-speed internet and HD video to our homes could one day double as seismic sensors for monitoring and studying earthquakes.
Manmade and natural earthquakes not so different after all
New research shows manmade and naturally occurring earthquakes in the central U.S. share the same characteristics, information that will help scientists predict and mitigate damage from future earthquakes.
Frozen secrets: Geophysicist explores glaciers with radar
Stanford Earth’s Dustin Schroeder researches new ways of observing, understanding, and predicting the configuration of ice sheets using ice-penetrating radar data.
When bridges collapse
Studying how and why bridges have collapsed in the past identifies the limitation of current risk assessment approach and demonstrates the value of new perspectives on climate change impact.
Testing the links between extreme weather and climate change
A new four-step “framework” aims to test the contribution of climate change to record-setting extreme weather events.
Heavy California rains par for the course for climate change
Stanford climatologist Noah Diffenbaugh explains why heavy rains during a drought are to be expected for a state in the throes of climate change.