Publications
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Vertical deformation through a complete seismic cycle at Isla Santa María, Chile Vertical deformation through a complete seismic cycle at Isla Santa María, Chile
Individual great earthquakes are posited to release the elastic strain energy that has accumulated over centuries by the gradual movement of tectonic plates1, 2. However, knowledge of plate deformation during a complete seismic cycle—two successive great earthquakes and the intervening interseismic period—remains incomplete3. A complete seismic cycle began in south-central Chile in 1835...
Authors
Robert L. Wesson, Daniel Melnick, Marco Cisternas, Marcos Moreno, Lisa Ely
A century of oilfield operations and earthquakes in the greater Los Angeles Basin, southern California A century of oilfield operations and earthquakes in the greater Los Angeles Basin, southern California
Most of the seismicity in the Los Angeles Basin (LA Basin) occurs at depth below the sediments and is caused by transpressional tectonics related to the big bend in the San Andreas fault. However, some of the seismicity could be associated with fluid extraction or injection in oil fields that have been in production for almost a century and cover ∼ 17% of the basin. In a recent study...
Authors
Egill Hauksson, Thomas Goebel, Jean-Paul Ampuero, Elizabeth S. Cochran
On the reliability of Quake-Catcher Network earthquake detections On the reliability of Quake-Catcher Network earthquake detections
Over the past two decades, there have been several initiatives to create volunteer‐based seismic networks. The Personal Seismic Network, proposed around 1990, used a short‐period seismograph to record earthquake waveforms using existing phone lines (Cranswick and Banfill, 1990; Cranswicket al., 1993). NetQuakes (Luetgert et al., 2010) deploys triaxial Micro‐Electromechanical Systems...
Authors
Battalgazi Yildirim, Elizabeth S. Cochran, Angela Chung, Carl M. Christensen, Jesse F. Lawrence
Improved rapid magnitude estimation for a community-based, low-cost MEMS accelerometer network Improved rapid magnitude estimation for a community-based, low-cost MEMS accelerometer network
Immediately following the Mw 7.2 Darfield, New Zealand, earthquake, over 180 Quake‐Catcher Network (QCN) low‐cost micro‐electro‐mechanical systems accelerometers were deployed in the Canterbury region. Using data recorded by this dense network from 2010 to 2013, we significantly improved the QCN rapid magnitude estimation relationship. The previous scaling relationship (Lawrence et al...
Authors
Angela Chung, Elizabeth S. Cochran, Anna E. Kaiser, Carl M. Christensen, Battalgazi Yildirim, Jesse F. Lawrence
Measurements of the initiation of post-wildfire runoff during rainstorms using in situ overland flow detectors Measurements of the initiation of post-wildfire runoff during rainstorms using in situ overland flow detectors
Overland flow detectors (OFDs) were deployed in 2012 on a hillslope burned by the 2010 Fourmile Canyon fire near Boulder, Colorado, USA. These detectors were simple, electrical resistor-type instruments that output a voltage (0–2·5 V) and were designed to measure and record the time of runoff initiation, a signal proportional to water depth, and the runoff hydrograph during natural...
Authors
John A. Moody, Richard G. Martin
Increasing seismicity in the U. S. midcontinent: Implications for earthquake hazard Increasing seismicity in the U. S. midcontinent: Implications for earthquake hazard
Earthquake activity in parts of the central United States has increased dramatically in recent years. The space-time distribution of the increased seismicity, as well as numerous published case studies, indicates that the increase is of anthropogenic origin, principally driven by injection of wastewater coproduced with oil and gas from tight formations. Enhanced oil recovery and long...
Authors
William L. Ellsworth, Andrea L. Llenos, Arthur F. McGarr, Andrew J. Michael, Justin L. Rubinstein, Charles S. Mueller, Mark D. Petersen, Eric Calais
Postearthquake relaxation evidence for laterally variable viscoelastic structure and water content in the Southern California mantle Postearthquake relaxation evidence for laterally variable viscoelastic structure and water content in the Southern California mantle
I reexamine the lower crust and mantle relaxation following two large events in the Mojave Desert: the 1992 M7.3 Landers and 1999 M7.1 Hector Mine, California, earthquakes. Time series from continuous GPS sites out to 300 km from the ruptures are used to constrain models of postseismic relaxation. Crustal motions in the Mojave Desert region are elevated above background for several years...
Authors
Frederick Pollitz
Updating the USGS seismic hazard maps for Alaska Updating the USGS seismic hazard maps for Alaska
The U.S. Geological Survey makes probabilistic seismic hazard maps and engineering design maps for building codes, emergency planning, risk management, and many other applications. The methodology considers all known earthquake sources with their associated magnitude and rate distributions. Specific faults can be modeled if slip-rate or recurrence information is available. Otherwise...
Authors
Charles Mueller, Richard W. Briggs, Robert L. Wesson, Mark D. Petersen
Geologic and geomorphic controls on the occurrence of fens in the Oregon Cascades and implications for vulnerability and conservation Geologic and geomorphic controls on the occurrence of fens in the Oregon Cascades and implications for vulnerability and conservation
Montane fens are biologically diverse peat-forming wetlands that develop at points of groundwater discharge. To protect these ecosystems, it is critical to understand their locations on the landscape and the hydrogeologic systems that support them. The upper Deschutes Basin has a groundwater flow system that supports baseflow in many rivers, but little is known about the wetland types...
Authors
A. Aldous, Marshall W. Gannett, Mackenzie K. Keith, James E. O'Connor
Evolution of Mars’ Northern Polar Seasonal CO2 deposits: variations in surface brightness and bulk density Evolution of Mars’ Northern Polar Seasonal CO2 deposits: variations in surface brightness and bulk density
Small scale variations of seasonal ice are explored at different geomorphic units on the Northern Polar Seasonal Cap (NPSC). We use seasonal rock shadow measurements, combined with visible and thermal observations, to calculate density over time. The coupling of volume density and albedo allows us to determine the microphysical state of the seasonal CO2 ice. We find two distinct...
Authors
Christopher P. Mount, Timothy N. Titus
Surface monitoring of microseismicity at the Decatur, Illinois, CO2 sequestration demonstration site Surface monitoring of microseismicity at the Decatur, Illinois, CO2 sequestration demonstration site
Sequestration of CO2 into subsurface reservoirs can play an important role in limiting future emission of CO2 into the atmosphere (e.g., Benson and Cole, 2008). For geologic sequestration to become a viable option to reduce greenhouse gas emissions, large-volume injection of supercritical CO2 into deep sedimentary formations is required. These formations offer large pore volumes and good...
Authors
J. Ole Kaven, Stephen H. Hickman, Arthur F. McGarr, William L. Ellsworth
Dynamic rupture models of earthquakes on the Bartlett Springs Fault, Northern California Dynamic rupture models of earthquakes on the Bartlett Springs Fault, Northern California
The Bartlett Springs Fault (BSF), the easternmost branch of the northern San Andreas Fault system, creeps along much of its length. Geodetic data for the BSF are sparse, and surface creep rates are generally poorly constrained. The two existing geodetic slip rate inversions resolve at least one locked patch within the creeping zones. We use the 3-D finite element code FaultMod to conduct...
Authors
Julian C. Lozos, Ruth A. Harris, Jessica R. Murray, James J. Lienkaemper