Susan E. Hough
Susan Hough is a scientist in the Earthquake Hazards Program.
Science and Products
Filter Total Items: 127
The 1886 Charleston, South Carolina, earthquake: Intensities and ground motions The 1886 Charleston, South Carolina, earthquake: Intensities and ground motions
The 1 September 1886 Charleston, South Carolina, earthquake was one of the largest preinstrumental earthquakes in eastern North America for which extensive contemporaneous observations were documented. The distribution of shaking was mapped shortly after the earthquake, and reconsidered by several authors in the late twentieth century, but has not been reconsidered with a modern...
Authors
Susan E. Hough, Roger Bilham
The 1886 Charleston, South Carolina, Earthquake: Relic railroad offset reveals rupture The 1886 Charleston, South Carolina, Earthquake: Relic railroad offset reveals rupture
In the absence of documented surface rupture during the 1 September 1886 Charleston earthquake, there has been considerable speculation about the location and mechanism of the causative fault. We use an inferred coseismic offset of the South Carolina Railroad and additional numerical constraints to develop an elastic deformation model—a west‐dipping fault following strands of two...
Authors
Roger Bilham, Susan E. Hough
Uncertainties in intensity-based earthquake magnitude estimates Uncertainties in intensity-based earthquake magnitude estimates
Estimating the magnitude of historical earthquakes is crucial for assessing seismic hazard. Magnitudes of early‐instrumental earthquakes can be inferred using a combination of instrumental records, field observations, and the observed distribution of shaking intensity determined from macroseismic observations. For earthquakes before 1900, shaking intensity distributions often provide the...
Authors
Madeleine C. Lucas, Susan E. Hough, Seth Stein, Leah Marschall Salditch, Molly M. Gallahue, James S. Neely, Norman A. Abrahamson
Modern products for a vintage event: An update on the 1933 Long Beach, California, earthquake Modern products for a vintage event: An update on the 1933 Long Beach, California, earthquake
When a notable earthquake occurs in the United States, a range of familiar real‐ and near‐real‐time products are produced by the U.S. Geological Survey (USGS) Advanced National Seismic System (ANSS), and made available via the ANSS Comprehensive Earthquake Catalog. For historical and early instrumental earthquakes, similar results and products are developed depending on data availability...
Authors
Susan E. Hough, J. Luke Blair, Sonia Ellison, Robert Graves, Scott Haefner, Eric M. Thompson, Nicholas van der Elst, Morgan T. Page, David J. Wald
Rupture scenarios for the 3 June 1770 Haiti earthquake Rupture scenarios for the 3 June 1770 Haiti earthquake
The 2010 M 7.0 Haiti earthquake provided the impetus to reconsider historical earthquakes in Hispaniola (Bakun et al., 2012). That earthquake also shed new light on complex fault systems along Haiti’s southern peninsula (Douilly et al., 2013; Saint Fleur et al., 2015). Recently, the 2021 M 7.2 Nippes earthquake (Calais et al., 2022; Douilly et al., 2022), and a recent study reconsidering...
Authors
Susan E. Hough, Stacey S. Martin, Steeve Symithe, Richard W. Briggs
On the documentation, independence, and stability of widely used seismological data products On the documentation, independence, and stability of widely used seismological data products
Earthquake scientists have traditionally relied on relatively small data sets recorded on small numbers of instruments. With advances in both instrumentation and computational resources, the big-data era, including an established norm of open data-sharing, allows seismologists to explore important issues using data volumes that would have been unimaginable in earlier decades. Alongside...
Authors
Boris Rosler, Seth Stein, Susan E. Hough
Science and Products
Filter Total Items: 127
The 1886 Charleston, South Carolina, earthquake: Intensities and ground motions The 1886 Charleston, South Carolina, earthquake: Intensities and ground motions
The 1 September 1886 Charleston, South Carolina, earthquake was one of the largest preinstrumental earthquakes in eastern North America for which extensive contemporaneous observations were documented. The distribution of shaking was mapped shortly after the earthquake, and reconsidered by several authors in the late twentieth century, but has not been reconsidered with a modern...
Authors
Susan E. Hough, Roger Bilham
The 1886 Charleston, South Carolina, Earthquake: Relic railroad offset reveals rupture The 1886 Charleston, South Carolina, Earthquake: Relic railroad offset reveals rupture
In the absence of documented surface rupture during the 1 September 1886 Charleston earthquake, there has been considerable speculation about the location and mechanism of the causative fault. We use an inferred coseismic offset of the South Carolina Railroad and additional numerical constraints to develop an elastic deformation model—a west‐dipping fault following strands of two...
Authors
Roger Bilham, Susan E. Hough
Uncertainties in intensity-based earthquake magnitude estimates Uncertainties in intensity-based earthquake magnitude estimates
Estimating the magnitude of historical earthquakes is crucial for assessing seismic hazard. Magnitudes of early‐instrumental earthquakes can be inferred using a combination of instrumental records, field observations, and the observed distribution of shaking intensity determined from macroseismic observations. For earthquakes before 1900, shaking intensity distributions often provide the...
Authors
Madeleine C. Lucas, Susan E. Hough, Seth Stein, Leah Marschall Salditch, Molly M. Gallahue, James S. Neely, Norman A. Abrahamson
Modern products for a vintage event: An update on the 1933 Long Beach, California, earthquake Modern products for a vintage event: An update on the 1933 Long Beach, California, earthquake
When a notable earthquake occurs in the United States, a range of familiar real‐ and near‐real‐time products are produced by the U.S. Geological Survey (USGS) Advanced National Seismic System (ANSS), and made available via the ANSS Comprehensive Earthquake Catalog. For historical and early instrumental earthquakes, similar results and products are developed depending on data availability...
Authors
Susan E. Hough, J. Luke Blair, Sonia Ellison, Robert Graves, Scott Haefner, Eric M. Thompson, Nicholas van der Elst, Morgan T. Page, David J. Wald
Rupture scenarios for the 3 June 1770 Haiti earthquake Rupture scenarios for the 3 June 1770 Haiti earthquake
The 2010 M 7.0 Haiti earthquake provided the impetus to reconsider historical earthquakes in Hispaniola (Bakun et al., 2012). That earthquake also shed new light on complex fault systems along Haiti’s southern peninsula (Douilly et al., 2013; Saint Fleur et al., 2015). Recently, the 2021 M 7.2 Nippes earthquake (Calais et al., 2022; Douilly et al., 2022), and a recent study reconsidering...
Authors
Susan E. Hough, Stacey S. Martin, Steeve Symithe, Richard W. Briggs
On the documentation, independence, and stability of widely used seismological data products On the documentation, independence, and stability of widely used seismological data products
Earthquake scientists have traditionally relied on relatively small data sets recorded on small numbers of instruments. With advances in both instrumentation and computational resources, the big-data era, including an established norm of open data-sharing, allows seismologists to explore important issues using data volumes that would have been unimaginable in earlier decades. Alongside...
Authors
Boris Rosler, Seth Stein, Susan E. Hough