Susan E. Hough
Susan Hough is a scientist in the Earthquake Science Center.
Science and Products
Filter Total Items: 131
Geotechnical characterization of TriNet sites: A status report Geotechnical characterization of TriNet sites: A status report
The TriNet project, launched in 1997, created an improved, real-time seismic monitoring network in Southern California. Planning of the network began in 1995 (e.g., Heaton et al., 1996), building on the success of the earlier TERRAscope network, which included 24 digital broadband and strong-motion instruments throughout Southern California (e.g., Kanamori et al., 1993). At the end of...
Authors
John Tinsley, Susan E. Hough, Alan K. Yong, Kanamori Hiroo, Ellen Yu, V. Appel, Chris Wills
Analysing the 1811-1812 New Madrid earthquakes with recent instrumentally recorded aftershocks Analysing the 1811-1812 New Madrid earthquakes with recent instrumentally recorded aftershocks
Although dynamic stress changes associated with the passage of seismic waves are thought to trigger earthquakes at great distances, more than 60 per cent of all aftershocks appear to be triggered by static stress changes within two rupture lengths of a mainshock. The observed distribution of aftershocks may thus be used to infer details of mainshock rupture geometry. Aftershocks...
Authors
K. Mueller, S. E. Hough, R. Bilham
Revisiting the 23 February 1892 Laguna Salada earthquake Revisiting the 23 February 1892 Laguna Salada earthquake
According to some compilations, the Laguna Salada, Baja California, earthquake of 23 February 1892 ranks among the largest earthquakes in California and Baja California in historic times. Although surface rupture was not documented at the time of the earthquake, recent geologic investigations have identified and mapped a rupture on the Laguna Salada fault that can be associated with high
Authors
S. E. Hough, A. Elliot
Scientific overview and historical context of the 1811-1812 new Madrid earthquake sequence Scientific overview and historical context of the 1811-1812 new Madrid earthquake sequence
The central and eastern United States has experienced only 5 historic earthquakes with Mw 7.0, four during the New Madrid sequence of 1811-1812: three principal mainshocks and the so-called «dawn aftershock» following the first mainshock. Much of the historic earthquake research done in the United States has focused on the New Madrid Seismic Zone (NMSZ), because the largest New Madrid...
Authors
S. E. Hough
Remotely triggered seismicity on the United States west coast following the Mw 7.9 Denali fault earthquake Remotely triggered seismicity on the United States west coast following the Mw 7.9 Denali fault earthquake
The Mw 7.9 Denali fault earthquake in central Alaska of 3 November 2002 triggered earthquakes across western North America at epicentral distances of up to at least 3660 km. We describe the spatial and temporal development of triggered activity in California and the Pacific Northwest, focusing on Mount Rainier, the Geysers geothermal field, the Long Valley caldera, and the Coso...
Authors
S. G. Prejean, D.P. Hill, E. E. Brodsky, S. E. Hough, M.J.S. Johnston, S. D. Malone, D. H. Oppenheimer, A.D. Pitt, K. B. Richards-Dinger
A media-based assessment of damage and ground motions from the January 26th, 2001 M 7.6 Bhuj, India earthquake A media-based assessment of damage and ground motions from the January 26th, 2001 M 7.6 Bhuj, India earthquake
We compiled available news and internet accounts of damage and other effects from the 26th January, 2001, Bhuj earthquake, and interpreted them to obtain modified Mercalli intensities at over 200 locations throughout the Indian subcontinent. These values are used to map the intensity distribution using a simple mathematical interpolation method. The maps reveal several interesting...
Authors
Susan E. Hough, Stacey Martin, Roger Bilham, Gail M. Atkinson
Estimation of ground motion for Bhuj (26 January 2001; Mw 7.6) and for future earthquakes in India Estimation of ground motion for Bhuj (26 January 2001; Mw 7.6) and for future earthquakes in India
Only five moderate and large earthquakes (Mw ≥5.7) in India—three in the Indian shield region and two in the Himalayan arc region—have given rise to multiple strong ground-motion recordings. Near-source data are available for only two of these events. The Bhuj earthquake (Mw 7.6), which occurred in the shield region, gave rise to useful recordings at distances exceeding 550 km. Because...
Authors
S.K. Singh, B.K. Bansal, S.N. Bhattacharya, J.F. Pacheco, R.S. Dattatrayam, M. Ordaz, G. Suresh, S. E. Hough
Intraplate triggered earthquakes: Observations and interpretation Intraplate triggered earthquakes: Observations and interpretation
We present evidence that at least two of the three 1811-1812 New Madrid, central United States, mainshocks and the 1886 Charleston, South Carolina, earthquake triggered earthquakes at regional distances. In addition to previously published evidence for triggered earthquakes in the northern Kentucky/southern Ohio region in 1812, we present evidence suggesting that triggered events might...
Authors
S. E. Hough, L. Seeber, J.G. Armbruster
Source properties of earthquakes near the Salton Sea triggered by the 16 October 1999 M 7.1 Hector Mine, California, earthquake Source properties of earthquakes near the Salton Sea triggered by the 16 October 1999 M 7.1 Hector Mine, California, earthquake
We analyze the source properties of a sequence of triggered earthquakes that occurred near the Salton Sea in southern California in the immediate aftermath of the M 7.1 Hector Mine earthquake of 16 October 1999. The sequence produced a number of early events that were not initially located by the regional network, including two moderate earthquakes: the first within 30 sec of the P-wave...
Authors
S. E. Hough, H. Kanamori
By
Magnitude estimates of two large aftershocks of the 16 December 1811 New Madrid earthquake Magnitude estimates of two large aftershocks of the 16 December 1811 New Madrid earthquake
The three principal New Madrid mainshocks of 1811-1812 were followed by extensive aftershock sequences that included numerous felt events. Although no instrumental data are available for either the mainshocks or the aftershocks, available historical accounts do provide information that can be used to estimate magnitudes and locations for the large events. In this article we investigate...
Authors
S. E. Hough, S. Martin
The 26 January 2001 M 7.6 Bhuj, India, earthquake: Observed and predicted ground motions The 26 January 2001 M 7.6 Bhuj, India, earthquake: Observed and predicted ground motions
Although local and regional instrumental recordings of the devastating 26, January 2001, Bhuj earthquake are sparse, the distribution of macroseismic effects can provide important constraints on the mainshock ground motions. We compiled available news accounts describing damage and other effects and interpreted them to obtain modified Mercalli intensities (MMIs) at >200 locations...
Authors
S. E. Hough, S. Martin, R. Bilham, G. M. Atkinson
Science and Products
Filter Total Items: 131
Geotechnical characterization of TriNet sites: A status report Geotechnical characterization of TriNet sites: A status report
The TriNet project, launched in 1997, created an improved, real-time seismic monitoring network in Southern California. Planning of the network began in 1995 (e.g., Heaton et al., 1996), building on the success of the earlier TERRAscope network, which included 24 digital broadband and strong-motion instruments throughout Southern California (e.g., Kanamori et al., 1993). At the end of...
Authors
John Tinsley, Susan E. Hough, Alan K. Yong, Kanamori Hiroo, Ellen Yu, V. Appel, Chris Wills
Analysing the 1811-1812 New Madrid earthquakes with recent instrumentally recorded aftershocks Analysing the 1811-1812 New Madrid earthquakes with recent instrumentally recorded aftershocks
Although dynamic stress changes associated with the passage of seismic waves are thought to trigger earthquakes at great distances, more than 60 per cent of all aftershocks appear to be triggered by static stress changes within two rupture lengths of a mainshock. The observed distribution of aftershocks may thus be used to infer details of mainshock rupture geometry. Aftershocks...
Authors
K. Mueller, S. E. Hough, R. Bilham
Revisiting the 23 February 1892 Laguna Salada earthquake Revisiting the 23 February 1892 Laguna Salada earthquake
According to some compilations, the Laguna Salada, Baja California, earthquake of 23 February 1892 ranks among the largest earthquakes in California and Baja California in historic times. Although surface rupture was not documented at the time of the earthquake, recent geologic investigations have identified and mapped a rupture on the Laguna Salada fault that can be associated with high
Authors
S. E. Hough, A. Elliot
Scientific overview and historical context of the 1811-1812 new Madrid earthquake sequence Scientific overview and historical context of the 1811-1812 new Madrid earthquake sequence
The central and eastern United States has experienced only 5 historic earthquakes with Mw 7.0, four during the New Madrid sequence of 1811-1812: three principal mainshocks and the so-called «dawn aftershock» following the first mainshock. Much of the historic earthquake research done in the United States has focused on the New Madrid Seismic Zone (NMSZ), because the largest New Madrid...
Authors
S. E. Hough
Remotely triggered seismicity on the United States west coast following the Mw 7.9 Denali fault earthquake Remotely triggered seismicity on the United States west coast following the Mw 7.9 Denali fault earthquake
The Mw 7.9 Denali fault earthquake in central Alaska of 3 November 2002 triggered earthquakes across western North America at epicentral distances of up to at least 3660 km. We describe the spatial and temporal development of triggered activity in California and the Pacific Northwest, focusing on Mount Rainier, the Geysers geothermal field, the Long Valley caldera, and the Coso...
Authors
S. G. Prejean, D.P. Hill, E. E. Brodsky, S. E. Hough, M.J.S. Johnston, S. D. Malone, D. H. Oppenheimer, A.D. Pitt, K. B. Richards-Dinger
A media-based assessment of damage and ground motions from the January 26th, 2001 M 7.6 Bhuj, India earthquake A media-based assessment of damage and ground motions from the January 26th, 2001 M 7.6 Bhuj, India earthquake
We compiled available news and internet accounts of damage and other effects from the 26th January, 2001, Bhuj earthquake, and interpreted them to obtain modified Mercalli intensities at over 200 locations throughout the Indian subcontinent. These values are used to map the intensity distribution using a simple mathematical interpolation method. The maps reveal several interesting...
Authors
Susan E. Hough, Stacey Martin, Roger Bilham, Gail M. Atkinson
Estimation of ground motion for Bhuj (26 January 2001; Mw 7.6) and for future earthquakes in India Estimation of ground motion for Bhuj (26 January 2001; Mw 7.6) and for future earthquakes in India
Only five moderate and large earthquakes (Mw ≥5.7) in India—three in the Indian shield region and two in the Himalayan arc region—have given rise to multiple strong ground-motion recordings. Near-source data are available for only two of these events. The Bhuj earthquake (Mw 7.6), which occurred in the shield region, gave rise to useful recordings at distances exceeding 550 km. Because...
Authors
S.K. Singh, B.K. Bansal, S.N. Bhattacharya, J.F. Pacheco, R.S. Dattatrayam, M. Ordaz, G. Suresh, S. E. Hough
Intraplate triggered earthquakes: Observations and interpretation Intraplate triggered earthquakes: Observations and interpretation
We present evidence that at least two of the three 1811-1812 New Madrid, central United States, mainshocks and the 1886 Charleston, South Carolina, earthquake triggered earthquakes at regional distances. In addition to previously published evidence for triggered earthquakes in the northern Kentucky/southern Ohio region in 1812, we present evidence suggesting that triggered events might...
Authors
S. E. Hough, L. Seeber, J.G. Armbruster
Source properties of earthquakes near the Salton Sea triggered by the 16 October 1999 M 7.1 Hector Mine, California, earthquake Source properties of earthquakes near the Salton Sea triggered by the 16 October 1999 M 7.1 Hector Mine, California, earthquake
We analyze the source properties of a sequence of triggered earthquakes that occurred near the Salton Sea in southern California in the immediate aftermath of the M 7.1 Hector Mine earthquake of 16 October 1999. The sequence produced a number of early events that were not initially located by the regional network, including two moderate earthquakes: the first within 30 sec of the P-wave...
Authors
S. E. Hough, H. Kanamori
By
Magnitude estimates of two large aftershocks of the 16 December 1811 New Madrid earthquake Magnitude estimates of two large aftershocks of the 16 December 1811 New Madrid earthquake
The three principal New Madrid mainshocks of 1811-1812 were followed by extensive aftershock sequences that included numerous felt events. Although no instrumental data are available for either the mainshocks or the aftershocks, available historical accounts do provide information that can be used to estimate magnitudes and locations for the large events. In this article we investigate...
Authors
S. E. Hough, S. Martin
The 26 January 2001 M 7.6 Bhuj, India, earthquake: Observed and predicted ground motions The 26 January 2001 M 7.6 Bhuj, India, earthquake: Observed and predicted ground motions
Although local and regional instrumental recordings of the devastating 26, January 2001, Bhuj earthquake are sparse, the distribution of macroseismic effects can provide important constraints on the mainshock ground motions. We compiled available news accounts describing damage and other effects and interpreted them to obtain modified Mercalli intensities (MMIs) at >200 locations...
Authors
S. E. Hough, S. Martin, R. Bilham, G. M. Atkinson