Publications
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Global earthquake response with imaging geodesy: recent examples from the USGS NEIC Global earthquake response with imaging geodesy: recent examples from the USGS NEIC
The U.S. Geological Survey National Earthquake Information Center leads real-time efforts to provide rapid and accurate assessments of the impacts of global earthquakes, including estimates of ground shaking, ground failure, and the resulting human impacts. These efforts primarily rely on analysis of the seismic wavefield to characterize the source of the earthquake, which in turn...
Authors
William D. Barnhart, Gavin P. Hayes, David J. Wald
Physically based estimation of rainfall thresholds triggering shallow landslides in volcanic slopes of southern Italy Physically based estimation of rainfall thresholds triggering shallow landslides in volcanic slopes of southern Italy
On the 4th and 5th of March 2005, about 100 rainfall-induced landslides occurred along volcanic slopes of Camaldoli Hill in Naples, Italy. These started as soil slips in the upper substratum of incoherent and welded volcaniclastic deposits, then evolved downslope according to debris avalanche and debris flow mechanisms. This specific case of slope instability on complex volcaniclastic...
Authors
F. Fusco, P. De Vita, Benjamin B. Mirus, Rex L. Baum, V. Allocca, R. Tufano, D. Calcaterra
National earthquake information center strategic plan, 2019–23 National earthquake information center strategic plan, 2019–23
Executive Summary Damaging earthquakes occur regularly around the world; since the turn of the 20th century, hundreds of earthquakes have caused significant loss of life and (or) millions of dollars or more in economic losses. While most of these did not directly affect the United States and its Territories, by studying worldwide seismicity we can better understand how to mitigate the...
Authors
Gavin P. Hayes, Paul S. Earle, Harley M. Benz, David J. Wald, William L. Yeck
κ0 and broadband site spectra in Southern California from source model-constrained inversion κ0 and broadband site spectra in Southern California from source model-constrained inversion
Ground-motion modeling requires accurate representation of the earthquake source, path, and site. Site amplification is often modeled by VS30, the time-averaged shear-wave velocity of the top 30 meters of the Earth’s surface, though recent studies find that its ability to accurately predict site effects varies. Another measure of the site is κ0, the attenuation of high frequency energy...
Authors
Alexis Klimasewski, Valerie J. Sahakian, Annemarie S. Baltay Sundstrom, John Boatwright, Jon Peter Fletcher, Lawrence Baker
On the portability of ML-MC as a depth discriminant for small seismic events recorded at local distances On the portability of ML-MC as a depth discriminant for small seismic events recorded at local distances
In this paper we show that ML-MC is a viable and regionally portable depth discriminant and therefore may contribute in nuclear test ban treaty verification. A recent study found that the difference between local magnitude (ML) and coda duration magnitude (MC) discriminates shallow seismic events (mining blasts, mining-induced earthquakes, and shallow tectonic earthquakes) from deeper...
Authors
Monique M. Holt, Keith D. Koper, William L. Yeck, Sebastiano D’Amico, Zongshan Li, J. Mark Hale, Relu Burlacu
Regional Global Navigation Satellite System networks for crustal deformation monitoring Regional Global Navigation Satellite System networks for crustal deformation monitoring
Regional networks of Global Navigation Satellite System (GNSS) stations cover seismically and volcanically active areas throughout the United States. Data from these networks have been used to produce high‐precision, three‐component velocity fields covering broad geographic regions as well as position time series that track time‐varying crustal deformation. This information has...
Authors
Jessica R. Murray, Noel Bartlow, Yehuda Bock, Benjamin A. Brooks, James H. Foster, Jeffery T. Freymueller, William C. Hammond, Kathleen Hodgkinson, Ingrid A. Johanson, Alberto Lopez-Venegas, Doerte Mann, Glen Mattioli, Timothy Melbourne, David Mencin, Emily K. Montgomery-Brown, Mark Hunter Murray, Robert Smalley, Valerie Thomas
Walk in the footsteps of the Apollo astronauts: A field guide to northern Arizona astronaut training sites Walk in the footsteps of the Apollo astronauts: A field guide to northern Arizona astronaut training sites
Every astronaut who walked on the Moon trained in Flagstaff, AZ. In the early 1960s, scientists at the newly formed United States Geological Survey (USGS) Branch of Astrogeology led this training, teaching geologic principals and field techniques to the astronaut crews. USGS scientists and engineers also developed and tested scientific instrument prototypes, and communication and...
Authors
R. Greg Vaughan, Kevin Schindler, Jeanne Stevens, Ian Hough
Site response in the Oklahoma region from seismic recordings of the 2011 Mw 5.7 Prague earthquake Site response in the Oklahoma region from seismic recordings of the 2011 Mw 5.7 Prague earthquake
We invert the shear-wave displacement spectra obtained from 30 three-component, broadband waveforms recorded within 300 km of the 6 November 2011 Mw 5.7 Prague, Oklahoma earthquake to recover the site-response contribution using an inversion method that simultaneously inverts for source, path, and site effects. Site-response functions identify resonant frequencies within a range of 0.1...
Authors
C. Mendoza, Stephen H. Hartzell
Surface rupture and distributed deformation revealed by optical satellite imagery: The intraplate 2016 Mw 6.0 Petermann Ranges earthquake, Australia Surface rupture and distributed deformation revealed by optical satellite imagery: The intraplate 2016 Mw 6.0 Petermann Ranges earthquake, Australia
High-resolution optical satellite imagery is used to quantify vertical surface deformation associated with the intraplate 20 May 2016 Mw 6.0 Petermann Ranges earthquake, Northern Territory, Australia. The 21 ╓ 1 km long NW-trending rupture resulted from reverse motion on a northeast-dipping fault. Vertical surface offsets of up to 0.7 ╓ 0.1 m distributed across a 0.5-to-1 km wide...
Authors
Ryan D. Gold, Dan Clark, William D. Barnhart, Tamarah King, Mark Quigley, Richard W. Briggs
Temporal patterns of induced seismicity in Oklahoma revealed from multi-station template matching Temporal patterns of induced seismicity in Oklahoma revealed from multi-station template matching
Over the past decade, Oklahoma became the most seismically active region of the mid-Continental USA as a result of industry operations. However, seismic network limitations and completeness of earthquake catalogs have restricted the types of analyses that can be performed. By applying multi-station template matching on the 23,889 cataloged earthquakes in Oklahoma and Southern Kansas...
Authors
Robert J. Skoumal, Michael R. Brudzinski, Brian S. Currie, Rosamiel Ries
Characterizing and imaging sedimentary strata using depth-converted spectral ratios: An example from the Atlantic Coastal Plain of the Eastern U.S. Characterizing and imaging sedimentary strata using depth-converted spectral ratios: An example from the Atlantic Coastal Plain of the Eastern U.S.
Unconsolidated, near-surface sediments can have a profound influence on the amplitudes and frequencies of ground shaking during earthquakes, and these effects should be accounted for when using amplitude observations for seismic hazard assessments. This study explores methods to use teleseismic arrivals recorded on linear receiver arrays to characterize widespread, shallow sedimentary...
Authors
Thomas L. Pratt