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Lessons from Pohang: Solving geothermal energy's earthquake problem
A geothermal energy project triggered a damaging earthquake in 2017 in South Korea. A new analysis suggests flaws in some of the most common ways of trying to minimize the risk of such quakes when harnessing the Earth’s heat for energy.
What can machine learning tell us about the solid Earth?
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.
Volcanoes, archaeology and the secrets of Roman concrete
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.
Polar vortex: The science behind the cold
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.
Q&A: Designing a better local tsunami warning system
New research outlines a more accurate and consistent way to warn coastal residents when and where tsunami waves are likely to hit.
Editor's picks: Top 10 stories of 2018
From revelations about the hidden messages in burbling lakes of lava to the staggering costs of runaway climate change, these 10 stories shed light on our planet and how we're changing it. They include our editor's picks and some our best-read stories for the year.
Data helps us prepare for 'The Big One'
Data is reshaping our knowledge about many things, including earthquakes: how we measure them, what causes them and how we can better prepare for them.
Wildfires destroying California bring questions about health and climate
California’s wildfires have destroyed homes and communities, and even people hundreds of miles away are feeling the effects of smoke. Stanford faculty weigh in on the health effects and increasing frequency of fires.
How will San Francisco's skyscrapers fare after the next Big One?
Stanford civil engineers are working with the city to assess high-rise safety and mitigate any disruption, downtime or lost economic activity should downtown buildings be damaged.
Researchers map susceptibility to man-made earthquakes
Stanford geophysicists forecast a decline in potentially damaging earthquakes from wastewater injection in Oklahoma and Kansas through 2020.
After the Big One: Understanding aftershock risk
Geophysicist Gregory Beroza discusses the culprits behind destructive aftershocks and why scientists are harnessing artificial intelligence to gain new insights into earthquake risks.
Hurricane Florence: The science behind the storm
Atmospheric scientist Morgan O’Neill discusses what’s driving Florence, why it’s unusual, and how it could be connected to climate change and other storms brewing in the Atlantic.
Q&A: How does climate change affect human health?
Stanford experts discuss the linkages between climate change and health, an area that will be a focus of Stanford-led events at the Global Climate Action Summit in San Francisco.
Transparency may improve U.S. home buyout programs
New research finds government buyouts of homes in floodplains have often lacked transparency. This could deter residents from participating in managed retreat, one of the main strategies for adapting to areas becoming more flood-prone, Stanford researcher suggests.
Drought predictive of decrease in snakebites
Rattlesnake bites, contrary to public opinion, increase after periods of high rainfall, not drought, according to a Stanford-led study that examined 20 years of snakebite history in California.
Natural chromium sources threaten California groundwater
A study shows natural sources of hexavalent chromium are affecting more people and wells in California than industrial sources. But groundwater pumping may accelerate release of this carcinogen.
Finding the pulse of the polar vortex
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.
Learning through sound
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.
Bracing for sea level rise to boost national security
Storm season is upon us, the federal flood insurance plan is broken and sea level rise continues unabated. Stanford climate and policy experts Alice Hill and Katharine Mach look at issues related to rising seas with an eye toward increasing resilience and security.