News by Subject Earth Science

Public Release: 18-Sep-2018

Geoscientists find unexpected 'deep creep' near San Andreas, San Jacinto faults

A new analysis of thousands of very small earthquakes in the San Bernardino basin suggests that the unusual deformation of some may be due to 'deep creep' 10 km below the Earth's surface, say geoscientists at UMass Amherst. They say scientists should not use the information recorded by these small earthquakes to predict loading of the nearby San Andreas and San Jacinto faults.

Journal: Geophysical Research Letters
Funder: Southern California Earthquake Center, National Science Foundation, US Geological Survey

Public Release: 13-Sep-2018

A new frame for the sky

GFZ GeoForschungsZentrum Potsdam, Helmholtz Centre

The sky gets a new reference frame. On Aug. 30 the International Astronomical Union adopted the International Celestial Reference Frame 3 (ICRF-3) during their general assembly in Vienna, Austria. As of Jan. 1, 2019, this reference frame has global validity. It serves for example for the orientation of GPS systems as well as the navigation of space probes.

Meeting: General Assembly of the International Astronomical Union

Public Release: 6-Sep-2018

Unravelling the reasons why mass extinctions occur

University of Leicester

University of Leicester research could help to predict approaching ecological catastrophes.

Journal: Science

Public Release: 3-Sep-2018

New imagery solves mystery of why Mount St. Helens is out of line with other volcanoes

Oregon State University

Some of the clearest, most comprehensive images of the top several miles of the Earth's crust have helped scientists solve the mystery of why Mount St. Helens is located outside the main line of the Cascade Arc of volcanoes.

Journal: Nature Geoscience

Public Release: 30-Aug-2018

Injection wells can induce earthquakes miles away from the well

University of California - Santa Cruz

A study of earthquakes induced by injecting fluids deep underground has revealed surprising patterns, suggesting that current recommendations for hydraulic fracturing, wastewater disposal, and geothermal wells may need to be revised.

Journal: Science
Funder: US Department of Energy

Public Release: 29-Aug-2018

Attacking aftershocks

Harvard University

Sparked by a suggestion from researchers at Google, Harvard scientists are using artificial intelligence technology to analyzed a database of earthquakes from around the world in an effort to predict where aftershocks might occur. Using deep learning algorithms, they developed a system that, while still imprecise, was able to forecast aftershocks significantly better than random assignment.

Journal: Nature

Public Release: 23-Aug-2018

Research into deadly 2016 Italian earthquakes could improve future seismic forecasts

Durham University

The timing and size of three deadly earthquakes that struck Italy in 2016 may have been pre-determined, according to new research that could improve future earthquake forecasts.

Journal: Earth and Planetary Science Letters
Funder: Natural Environment Research Council, Centre for the Observation and Modelling of Earthquakes, Volcanoes and Tectonics

Public Release: 22-Aug-2018

A milestone for forecasting earthquake hazards

Columbia University

In a new study in Science Advances, researchers report that their physics-based model of California earthquake hazards replicated estimates from the state's leading statistical model.

Journal: Science Advances
Funder: National Science Foundation, Southern California Earthquake Center, W.M. Keck Foundation

Public Release: 21-Aug-2018

New Antarctic rift data has implications for volcanic evolution -- Ben-Gurion U.

American Associates, Ben-Gurion University of the Negev

New marine geophysical data recorded during two excursions on a French icebreaker enabled Drs. Roi Granot and Jérôme Dyment to date the ocean floor and calculate the relative motion between the Antarctic Plates and the Australian Plate. This new data revealed that Antarctica fused into one plate around 11 million years ago, roughly 15 million years later than previously assumed.

Journal: Nature Communications

Public Release: 20-Aug-2018

Michigan meteor could help researchers understand near-Earth object threats

Seismological Society of America

The meteor explosion was also captured by infrasonic microphones and seismometers, offering a rare chance to compare these data with satellite and ground camera images. In a report in Seismological Research Letters, a team of scientists led by Michael Hedlin of Scripps Institution of Oceanography use these data to pinpoint the time, location and height of the bolide disintegration, and to calculate an approximate yield for the explosion.

Journal: Seismological Research Letters

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News by Subject Earth Science

Geoscientists find unexpected 'deep creep' near San Andreas, San Jacinto faults

A new frame for the sky

Unravelling the reasons why mass extinctions occur

New imagery solves mystery of why Mount St. Helens is out of line with other volcanoes

Injection wells can induce earthquakes miles away from the well

Attacking aftershocks

Research into deadly 2016 Italian earthquakes could improve future seismic forecasts

A milestone for forecasting earthquake hazards

New Antarctic rift data has implications for volcanic evolution -- Ben-Gurion U.

Michigan meteor could help researchers understand near-Earth object threats

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Featured Newsroom

More Meetings

News by Subject Earth Science

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