Publications
Filter Total Items: 7490
Shallow seismic structure of Kunlun fault zone in northern Tibetan Plateau, China: Implications for the 2001 M s8.1 Kunlun earthquake Shallow seismic structure of Kunlun fault zone in northern Tibetan Plateau, China: Implications for the 2001 M s8.1 Kunlun earthquake
The shallow seismic velocity structure of the Kunlun fault zone (KLFZ) was jointly deduced from seismic refraction profiling and the records of trapped waves that were excited by five explosions. The data were collected after the 2001 Kunlun Ms8.1 earthquake in the northern Tibetan Plateau. Seismic phases for the in-line record sections (26 records up to a distance of 15 km) along the...
Authors
Chun-Yong Wang, Walter D. Mooney, Z. Ding, J. Yang, Z. Yao, H. Lou
Basal-topographic control of stationary ponds on a continuously moving landslide Basal-topographic control of stationary ponds on a continuously moving landslide
The Slumgullion landslide in the San Juan Mountains of southwestern Colorado has been moving for at least the last few hundred years and has multiple ponds on its surface. We have studied eight ponds during 30 trips to the landslide between July 1998 and July 2007. During each trip, we have made observations on the variability in pond locations and water levels, taken ground-based...
Authors
J. A. Coe, J.P. McKenna, J. W. Godt, R.L. Baum
Validation of the rupture properties of the 2001 Kunlun, China (Ms = 8.1), earthquake from seismological and geological observations Validation of the rupture properties of the 2001 Kunlun, China (Ms = 8.1), earthquake from seismological and geological observations
We determine the finite-fault slip distribution of the 2001 Kunlun earthquake (Ms = 8.1) by inverting teleseismic waveforms, as constrained by geological and remote sensing field observations. The spatial slip distribution along the 400-km-long fault was divided into five segments in accordance with geological observations. Forward modelling of regional surface waves was performed to...
Authors
Yi-Ying Wen, Ma Kuo-Fong, Teh-Ru Alex Song, Walter D. Mooney
After the disaster: The hydrogeomorphic, ecological, and biological responses to the 1980 eruption of Mount St. Helens, Washington After the disaster: The hydrogeomorphic, ecological, and biological responses to the 1980 eruption of Mount St. Helens, Washington
The 1980 eruption of Mount St. Helens caused instantaneous landscape disturbance on a grand scale. On 18 May 1980, an ensemble of volcanic processes, including a debris avalanche, a directed pyroclastic density current, voluminous lahars, and widespread tephra fall, abruptly altered landscape hydrology and geomorphology, and created distinctive disturbance zones having varying impacts on...
Authors
Jon J. Major, Charlie Crisafulli, John Bishop
Volcano-tectonic implications of 3-D velocity structures derived from joint active and passive source tomography of the island of Hawaii Volcano-tectonic implications of 3-D velocity structures derived from joint active and passive source tomography of the island of Hawaii
We present a velocity model of the onshore and offshore regions around the southern part of the island of Hawaii, including southern Mauna Kea, southeastern Hualalai, and the active volcanoes of Mauna Loa, and Kilauea, and Loihi seamount. The velocity model was inverted from about 200,000 first-arrival traveltime picks of earthquakes and air gun shots recorded at the Hawaiian Volcano...
Authors
J. Park, J.K. Morgan, C.A. Zelt, P. G. Okubo
Deformation band clusters on Mars and implications for subsurface fluid flow Deformation band clusters on Mars and implications for subsurface fluid flow
High-resolution imagery reveals unprecedented lines of evidence for the presence of deformation band clusters in layered sedimentary deposits in the equatorial region of Mars. Deformation bands are a class of geologic structural discontinuity that is a precursor to faults in clastic rocks and soils. Clusters of deformation bands, consisting of many hundreds of individual subparallel...
Authors
Chris Okubo, Richard A. Schultz, Marjorie A. Chan, Goro Komatsu
Deep low-frequency earthquakes in tremor localize to the plate interface in multiple subduction zones Deep low-frequency earthquakes in tremor localize to the plate interface in multiple subduction zones
Deep tremor under Shikoku, Japan, consists primarily, and perhaps entirely, of swarms of low-frequency earthquakes (LFEs) that occur as shear slip on the plate interface. Although tremor is observed at other plate boundaries, the lack of cataloged low-frequency earthquakes has precluded a similar conclusion about tremor in those locales. We use a network autocorrelation approach to...
Authors
Justin R. Brown, Gregory C. Beroza, Satoshi Ide, David R. Shelly, Kazuaki Ohta, Susan Y. Schwartz, Wolfgang Rabbel, M. Thorwart, Honn Kao
The puzzle of the 1996 Bárdarbunga, Iceland, earthquake: no volumetric component in the source mechanism The puzzle of the 1996 Bárdarbunga, Iceland, earthquake: no volumetric component in the source mechanism
A volcanic earthquake with Mw 5.6 occurred beneath the Bárdarbunga caldera in Iceland on 29 September 1996. This earthquake is one of a decade-long sequence of events at Bárdarbunga with non-double-couple mechanisms in the Global Centroid Moment Tensor catalog. Fortunately, it was recorded well by the regional-scale Iceland Hotspot Project seismic experiment. We investigated the event...
Authors
Hrvoje Tkalcic, Douglas S. Dreger, Gillian R. Foulger, Bruce R. Julian
On baseline corrections and uncertainty in response spectrafor baseline variations commonly encountered in digital accelerograph records On baseline corrections and uncertainty in response spectrafor baseline variations commonly encountered in digital accelerograph records
Most digital accelerograph recordings are plagued by long-period drifts, best seen in the velocity and displacement time series obtained from integration of the acceleration time series. These drifts often result in velocity values that are nonzero near the end of the record. This is clearly unphysical and can lead to inaccurate estimates of peak ground displacement and long-period...
Authors
Sinan Akkar, David M. Boore
New research and tools lead to improved earthquake alerting protocols New research and tools lead to improved earthquake alerting protocols
What’s the best way to get alerted about the occurrence and potential impact of an earthquake? The answer to that question has changed dramatically of late, in part due to improvements in earthquake science, and in part by the implementation of new research in the delivery of earthquake information
Authors
David J. Wald
Precision leveling and geodetic GPS observations performed on Surtsey between 1967 and 2002 Precision leveling and geodetic GPS observations performed on Surtsey between 1967 and 2002
The load on the crust from the ~ 0.8 km3 of eruptive products of the Surtsey eruption is expected to lead to subsidence of the Surtsey island by sagging of the lithosphere, compaction of material, and slumping of the volcanic edifice. Immediately after the eruption ended in the summer of 1967 a levelling line was established across the island to monitor this expected subsidence. The line
Authors
Erik Sturkell, P. Einarsson, Halldor Geirsson, E. Tryggvason, James G. Moore, Rosa Olafsdottir
Data from theodolite measurements of creep rates on San Francisco Bay region faults, California Data from theodolite measurements of creep rates on San Francisco Bay region faults, California
Introduction Our purpose is to annually update our creep-data archive on San Francisco Bay region active faults for use by the scientific research community. Earlier data (1979-2001) were reported in Galehouse (2002) and were analyzed and described in detail in a summary report (Galehouse and Lienkaemper, 2003). A complete analysis of our earlier results obtained on the Hayward Fault was...
Authors
Forrest S. McFarland, James J. Lienkaemper, S. John Caskey