Publications
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The Teton fault The Teton fault
No abstract available.
Authors
M. Zellman, Christopher DuRoss, Glenn Thackray
Seismic design and hazard maps: Before and after Seismic design and hazard maps: Before and after
The 1994 Northridge earthquake generated world-record ground motions. At the time, the horizontal peak ground acceleration of 1.8 g measured by a seismometer in Tarzana was the largest ever. The same is true of the peak ground velocity of 148 cm/s measured in Granada Hills. Both measurements were within approximately 15 km of the source of the earthquake; they were also near most of the...
Authors
Nico Luco
Petrologic and mineral physics database for use with the U.S. Geological Survey National Crustal Model Petrologic and mineral physics database for use with the U.S. Geological Survey National Crustal Model
We present a petrologic and mineral physics database as part of the U.S. Geological Survey National Crustal Model (NCM). Each of 209 geologic units, 134 of which are currently part of the geologic framework within the NCM, was assigned a mineralogical composition according to generalized classifications with some refinement for specific geologic formations. This report is concerned with...
Authors
Theron Sowers, Oliver Boyd
Widespread initiation, reactivation, and acceleration of landslides in the northern California Coast Ranges due to extreme rainfall Widespread initiation, reactivation, and acceleration of landslides in the northern California Coast Ranges due to extreme rainfall
Episodically to continuously active slow-moving landslides are driven by precipitation. Climate change, which is altering both the frequency and magnitude of precipitation world21 wide, is therefore predicted to have a major impact on landslides. Here we examine the behavior of hundreds of slow-moving landslides in northern California in response to large changes in annual precipitation...
Authors
Alexander Handwerger, Eric Fielding, Mong-Han Huang, Georgina Bennett, Cunren Liang, William Schulz
Source-dependent amplification of earthquake ground motions in deep sedimentary basins Source-dependent amplification of earthquake ground motions in deep sedimentary basins
Deep sedimentary basins amplify long-period shaking from seismic waves, increasing the seismic hazard for cities within such basins. We perform 3-D simulations of point source earthquakes distributed around the Seattle and Tacoma basins in Washington State, to examine the dependence of basin amplification on source azimuth, depth, and earthquake type. For periods between 1-10 s, the...
Authors
Erin Wirth, John Vidale, Arthur Frankel, Thomas Pratt
A 4000-year history of debris flows in north-central Washington State, U.S.A.: Preliminary results from trenching and surficial geologic mapping at the Pope Creek fan A 4000-year history of debris flows in north-central Washington State, U.S.A.: Preliminary results from trenching and surficial geologic mapping at the Pope Creek fan
Long-term records of the magnitude and frequency of debris flows on fans are rare, but such records provide critical information needed for debris-flow hazard and risk assessments. This study explores the history of debris flows on a fan with seasonally inhabited cabins at Pope Creek along the Entiat River about 48 km upstream from the town of Entiat, Washington. Motivation for this...
Authors
Jeffrey Coe, Erin Bessette-Kirton, Stephen Slaughter, Francis Rengers, Trevor Contreras, Katherin Michelson, Emily Taylor, Jason Kean, Kara Jacobacci, Molly Hanson
Exploring controls on debris-flow surge velocity and peak discharge at Chalk Cliffs, Colorado, USA Exploring controls on debris-flow surge velocity and peak discharge at Chalk Cliffs, Colorado, USA
We present a series of debris-flow events and use combined sensor and video data to explore how sediment concentration and triggering rainfall intensity affect the velocity and discharge of debris-flow surges generated by surface-water runoff. We analyze an initial data set of 49 surges from four debris-flow events recorded by a monitoring system at Chalk Cliffs, Colorado and compare...
Authors
Joel Smith, Jason Kean, Jeffrey Coe
An evaluation of debris-flow runout model accuracy and complexity in Montecito, CA: Towards a framework for regional inundation-hazard forecasting An evaluation of debris-flow runout model accuracy and complexity in Montecito, CA: Towards a framework for regional inundation-hazard forecasting
Numerous debris-flow inundation models have been applied retroactively to noteworthy events around the world. While such studies can be useful in identifying controlling factors, calibrating model parameters, and assessing future hazards in specific study areas, model parameters tailored to individual events can be difficult to apply regionally. The advancement of debris-flow modeling...
Authors
Erin Bessette-Kirton, Jason Kean, Jeffrey Coe, Francis Rengers, Dennis Staley
Real-time monitoring of debris-flow velocity and mass deformation from field experiments with high sample rate lidar and video Real-time monitoring of debris-flow velocity and mass deformation from field experiments with high sample rate lidar and video
Debris flows evolve in both time and space in complex ways, commonly starting as coherent failures but then quickly developing structures such as roll waves and surges. This process is readily observed, but difficult to study or quantify because of the speed at which it occurs. Many methods for studying debris flows consist of point measurements (e.g., of flow height or basal stresses)...
Authors
Francis Rengers, Thomas Rapstine, Kate Allstadt, Michael Olsen, Michael Bunn, Richard Iverson, Jason Kean, Ben Leshchinsky, Matthew Logan, Mahyar Sharifi-Mood, Maciej Obryk, Joel Smith
Looking through the window of disturbance at post-wildfire debris-flow hazards Looking through the window of disturbance at post-wildfire debris-flow hazards
The extreme heat from wildfire alters soil properties and incinerates vegetation, leading to changes in infiltration capacity, ground cover, soil erodibility, and rainfall interception. These changes promote increases in runoff and sediment transport that increase the likelihood of runoff-generated debris flows. Over a period of several years, referred to as the window of disturbance...
Authors
Luke McGuire, Francis Rengers, Jason Kean, Dennis Staley, Hui Tang, Ann Youberg
Topographic change detection at Chalk Cliffs, Colorado, USA, using Airborne LiDAR and UAS-based Structure-from-Motion photogrammetry Topographic change detection at Chalk Cliffs, Colorado, USA, using Airborne LiDAR and UAS-based Structure-from-Motion photogrammetry
The Chalk Cliffs debris-flow site is a small headwater catchment incised into highly fractured and hydrothermally altered quartz monzonite in a semi-arid climate. Over half of the extremely steep basin is exposed bedrock. Debris flows occur multiple times per year in response to rainstorm events, typically during the summer monsoon season. The frequency of debris flows, and the...
Authors
Katherine Barnhart, Francis Rengers, Ghent N, Gregory Tucker, Jeffrey Coe, Jason Kean, Joel Smith, Dennis Staley, William Kleiber, Ashton M Wiens
Post-fire rockfall and debris-flow hazard zonation in the Eagle Creek Fire burn area, Columbia River Gorge, Oregon: a tool for emergency managers and first responders Post-fire rockfall and debris-flow hazard zonation in the Eagle Creek Fire burn area, Columbia River Gorge, Oregon: a tool for emergency managers and first responders
The Eagle Creek Fire engulfed 48,832 acres (196 km2) within the Columbia River Gorge, Oregon beginning September 2nd and was 100% contained by November 30th, 2017. The Columbia River Gorge area is steep and heavily forested characterized by cliffs and flanking talus slopes, receiving > 100 inches (> 254 cm) of precipitation annually. The Columbia River Gorge is a critical lifeline for...
Authors
Nancy Calhoun, William Burns, S.H. Hayduk, Dennis Staley, Jason Kean