Rosemary Knight, in collaboration with Aqua Geo Frameworks and the Tulare Irrigation District, recently used a new imaging technology to find water hidden hundreds of feet underground in California's drought-ravaged Central Valley.
We can't journey to the center of the Earth, but that hasn't stopped us finding out what is down there. Associate Prof. Wendy Mao provides her perspective on studying Earth's interior.
Stanford School of Earth, Energy & Environmental Sciences
The cover of this week's issue of Science features Tiziana Vanorio's research, which found similarities between fiber-reinforced rocks beneath Italy’s dormant Campi Flegrei supervolcano and Roman concrete.
Congratulations to Kevin Arrigo, Marshall Burke, David Lobell, Rosemary Knight, and Roz Naylor, who have been awarded seed grants from the Stanford Woods Institute's Environmental Venture Projects.
Stanford School of Earth, Energy & Environmental Sciences
Research by Tiziana Vanorio finds that fiber-reinforced rocks beneath Italy’s dormant Campi Flegrei supervolcano are similar to a wonder-material used by the ancients to construct enduring structures such as the Pantheon, and may lead to improved building materials.
Stanford School of Earth, Energy & Environmental Sciences
A new Stanford study finds that the recent spike in triggered earthquakes in Oklahoma is primarily due to the injection of wastewater produced during oil production.
What if we could see through the crust of the earth to locate and measure precious groundwater? It’s no longer necessary to do “exploratory surgery” on the earth, says Rosemary Knight, whose team uses satellites to track fresh water.
Stanford University's Natural Gas Initiative will research many questions related to the responsible development of natural gas as a fuel supply in the United States and around the world.
Stanford School of Earth, Energy & Environmental Sciences
A new Stanford study finds that, contrary to expectations, weathering rates over the past 2 million years have remained constant through glacial cycles.
Stanford School of Earth, Energy & Environmental Sciences
Stanford Earth researchers have devised a technique that transforms the tiny tremors generated by the everyday hustle and bustle of city life into a tool for probing the subsurface of Earth.
Rosemary Knight was among the first scientists to use InSAR technology to measure changes in groundwater levels from space. The technique could play a bigger role in groundwater monitoring in California as the state enters its fourth year of drought.
Simon Klemperer says a fault in Nepal that has been building stress since 1505 is primed to rupture at any moment, triggering an earthquake even bigger than the one that devastated the country on April 25.
New research by Chris Castillo suggests Catalina Island is sinking into the ocean and in a geologically short amount of time will dip beneath the waves.
Stanford School of Earth, Energy & Environmental Sciences
Professor Rosemary Knight’s students investigated the health and sustainability of their hometown watersheds in Earth Systems 104: The Water Course. Using hydrological principles, the students found many similarities - and some striking differences - among their local water supplies.
Stanford School of Earth, Energy & Environmental Sciences
Vanorio's grant will allow her to advance her studies on the rock physics signatures of fluid-rock interactions, which are vital components in understanding the properties of volcanic rocks and concrete, pursuing carbon sequestration projects, and studying induced seismicity.
Stanford School of Earth, Energy & Environmental Sciences
Four years after one of the largest earthquakes in recorded history devastated Japan, Stanford geophysicists Greg Beroza, Eric Dunham, and Paul Segall provide new insights that help clarify why previous assumptions about the fault had been so wrong. Using new technologies, they explain what happened during the earthquake and tsunami, and discuss ongoing research that helps society better prepare for similar events in the future.
Kate Maher and a team of scientists at Stanford and Vanderbilt Universities have created the first comprehensive map of the topsy-turvy climate of the western U.S. and are using it to test and improve the ability of global climate models to predict future precipitation patterns.
Earlier this fall, a team led by Rosemary Knight performed an ambitious experiment to determine the extent of ocean saltwater intrusion into freshwater aquifers in the Monterey Bay region.