Susan E. Hough
Susan Hough is a scientist in the Earthquake Hazards Program.
Science and Products
Filter Total Items: 127
Which earthquake accounts matter? Which earthquake accounts matter?
Earthquake observations contributed by human observers provide an invaluable source of information to investigate both historical and modern earthquakes. Commonly, the observers whose eyewitness accounts are available to scientists are a self‐selected minority of those who experience a given earthquake. As such these may not be representative of the overall population that experienced...
Authors
Susan Hough, Stacey Martin
The normal faulting 2020 Mw5.8 Lone Pine, Eastern California earthquake sequence The normal faulting 2020 Mw5.8 Lone Pine, Eastern California earthquake sequence
The 2020 Mw 5.8 Lone Pine earthquake, the largest earthquake on the Owens Valley fault zone, eastern California, since the nineteenth century, ruptured an extensional stepover in that fault. Owens Valley separates two normal‐faulting regimes, the western margin of the Great basin and the eastern margin of the Sierra Nevada, forming a complex seismotectonic zone, and a possible nascent...
Authors
Egill Hauksson, Brian Olsen, Alex Grant, Jennifer Andrews, Angela Chung, Susan Hough, Hiroo Kanamori, Sara K. McBride, Andrew Michael, Morgan Page, Zachary Ross, Deborah Smith, Sotiris Valkaniotis
Revisiting California’s past great earthquakes and long-term earthquake rate Revisiting California’s past great earthquakes and long-term earthquake rate
In this study, we revisit the three largest historical earthquakes in California—the 1857 Fort Tejon, 1872 Owens Valley, and 1906 San Francisco earthquakes—to review their published moment magnitudes, and compare their estimated shaking distributions with predictions using modern ground‐motion models (GMMs) and ground‐motion intensity conversion equations. Currently accepted moment...
Authors
Susan Hough, Morgan Page, Leah Salditch, Molly Gallahue, Madeleine Lucas, James Neely, Seth Stein
Introduction to the Special Issue on the 2019 Ridgecrest, California, Earthquake Sequence Introduction to the Special Issue on the 2019 Ridgecrest, California, Earthquake Sequence
No abstract available.
Authors
Susan Hough, Zachary Ross, Timothy E. Dawson
EERI earthquake reconnaissance report: 2019 Ridgecrest earthquake sequence EERI earthquake reconnaissance report: 2019 Ridgecrest earthquake sequence
The Ridgecrest Earthquake Sequence began the morning of 4 July 2019 with an M6.4 earthquake at 10:33 a.m., closely following several small foreshocks. The epicenter of this event was roughly 11 miles (18 km) east-northeast of Ridgecrest (Figure 1) within the Naval Air Weapons Station China Lake (NAWS-CL). Seismic and geologic data established that the M6.4 earthquake occurred primarily...
Authors
EERI Program, Katherine M. Scharer
California Historical Intensity Mapping Project (CHIMP): A consistently reinterpreted dataset of seismic intensities for the past 162 years and implications for seismic hazard maps California Historical Intensity Mapping Project (CHIMP): A consistently reinterpreted dataset of seismic intensities for the past 162 years and implications for seismic hazard maps
Historical seismic intensity data are useful for myriad reasons, including assessment of the performance of Probabilistic Seismic Hazard Assessment (PSHA) models and corresponding hazard maps by comparing their predictions to a dataset of historically observed intensities in the region. To assess PSHA models for California, a long and consistently interpreted intensity record is...
Authors
Leah Salditch, Molly Gallahue, Madeleine Lucas, James Neely, Susan Hough, Seth Stein
The 1933 Long Beach Earthquake (California, USA): Ground motions and rupture scenario The 1933 Long Beach Earthquake (California, USA): Ground motions and rupture scenario
We present a synoptic analysis of the ground motions from the 11 March 1933 Mw 6.4 Long Beach, California, earthquake, the largest known earthquake within the central Los Angeles Basin region. Our inferred shaking intensity pattern supports the association of the earthquake with the Newport-Inglewood fault; it further illuminates the concentration of severe damage in the town of Compton...
Authors
Susan Hough, Robert Graves
Mild displacements of boulders during the 2019 Ridgecrest Earthquakes Mild displacements of boulders during the 2019 Ridgecrest Earthquakes
Strong seismic waves from the July 2019 Ridgecrest, California, earthquakes displaced rocks in proximity to the M 7.1 mainshock fault trace at several locations. In this report, we document large boulders that were displaced at the Wagon Wheel Staging Area (WWSA), approximately 4.5 km southeast of the southern terminus of the large M 6.4 foreshock rupture (hereafter “the large foreshock”...
Authors
Norman Sleep, Susan Hough
Near-field ground motions from the July, 2019 Ridgecrest, California, earthquake sequence Near-field ground motions from the July, 2019 Ridgecrest, California, earthquake sequence
The 2019 Ridgecrest, California, earthquake sequence, including an Mw 6.4 event on 4 July and an Mw 7.1 approximately 34 hr later, was recorded by 15 instruments within 55 km nearest‐fault distance. To characterize and explore near‐field ground motions from the Mw 6.4 foreshock and Mw 7.1 mainshock, we augment these records with available macroseismic information, including conventional...
Authors
Susan Hough, Eric Thompson, Grace A. Parker, Robert Graves, Kenneth Hudnut, Jason Patton, Timothy E. Dawson, Tyler Ladinsky, Michael Oskin, Krittanon Sirorattanakul, Kelly Blake, Annemarie Baltay Sundstrom, Elizabeth Cochran
Where was the 31 October 1895, Charleston, Missouri Earthquake? Where was the 31 October 1895, Charleston, Missouri Earthquake?
We revisit the magnitude and location of the 31 October 1895 Charleston, Missouri earthquake, which is widely regarded to be the last MW6 or greater earthquake in the central United States. Although a recent study (Bakun et al., 2003) concluded that this earthquake was located in southern Illinois, over 100 km north of the traditionally inferred location near Charleston, Missouri, our...
Authors
Stacey Martin, Susan Hough
Revisiting earthquakes in the Los Angeles, California, basin during the early instrumental period: Evidence for an association with oil production Revisiting earthquakes in the Los Angeles, California, basin during the early instrumental period: Evidence for an association with oil production
A total of seven independent ML ≥ 4.0 earthquakes occurred in the Los Angeles, California, basin, during the early instrumental period between 1932 and 1952, the largest of which was the 1933 Long Beach earthquake. Revising available macroseismic and instrumental data for a total of 6 4.0 ≤ ML ≤ 5.1 events between 1938 and 1944, we conclude that early instrumental locations can be...
Authors
Susan Hough, Roger Bilham
Sources of long-range anthropogenic noise in southern California and implications for tectonic tremor detection Sources of long-range anthropogenic noise in southern California and implications for tectonic tremor detection
We study anthropogenic noise sources seen on seismic recordings along the central section of the San Jacinto fault near Anza, southern California. The strongest signals are caused by freight trains passing through the Coachella Valley north of Anza. Train‐induced transients are observed at distances of up to 50 km from the railway, with durations of up to 20 min, and spectra that are...
Authors
Asaf Inbal, Tudor Cristea-Platon, Jean-Paul Ampuero, Gregor Hillers, Duncan Agnew, Susan Hough
Science and Products
Filter Total Items: 127
Which earthquake accounts matter? Which earthquake accounts matter?
Earthquake observations contributed by human observers provide an invaluable source of information to investigate both historical and modern earthquakes. Commonly, the observers whose eyewitness accounts are available to scientists are a self‐selected minority of those who experience a given earthquake. As such these may not be representative of the overall population that experienced...
Authors
Susan Hough, Stacey Martin
The normal faulting 2020 Mw5.8 Lone Pine, Eastern California earthquake sequence The normal faulting 2020 Mw5.8 Lone Pine, Eastern California earthquake sequence
The 2020 Mw 5.8 Lone Pine earthquake, the largest earthquake on the Owens Valley fault zone, eastern California, since the nineteenth century, ruptured an extensional stepover in that fault. Owens Valley separates two normal‐faulting regimes, the western margin of the Great basin and the eastern margin of the Sierra Nevada, forming a complex seismotectonic zone, and a possible nascent...
Authors
Egill Hauksson, Brian Olsen, Alex Grant, Jennifer Andrews, Angela Chung, Susan Hough, Hiroo Kanamori, Sara K. McBride, Andrew Michael, Morgan Page, Zachary Ross, Deborah Smith, Sotiris Valkaniotis
Revisiting California’s past great earthquakes and long-term earthquake rate Revisiting California’s past great earthquakes and long-term earthquake rate
In this study, we revisit the three largest historical earthquakes in California—the 1857 Fort Tejon, 1872 Owens Valley, and 1906 San Francisco earthquakes—to review their published moment magnitudes, and compare their estimated shaking distributions with predictions using modern ground‐motion models (GMMs) and ground‐motion intensity conversion equations. Currently accepted moment...
Authors
Susan Hough, Morgan Page, Leah Salditch, Molly Gallahue, Madeleine Lucas, James Neely, Seth Stein
Introduction to the Special Issue on the 2019 Ridgecrest, California, Earthquake Sequence Introduction to the Special Issue on the 2019 Ridgecrest, California, Earthquake Sequence
No abstract available.
Authors
Susan Hough, Zachary Ross, Timothy E. Dawson
EERI earthquake reconnaissance report: 2019 Ridgecrest earthquake sequence EERI earthquake reconnaissance report: 2019 Ridgecrest earthquake sequence
The Ridgecrest Earthquake Sequence began the morning of 4 July 2019 with an M6.4 earthquake at 10:33 a.m., closely following several small foreshocks. The epicenter of this event was roughly 11 miles (18 km) east-northeast of Ridgecrest (Figure 1) within the Naval Air Weapons Station China Lake (NAWS-CL). Seismic and geologic data established that the M6.4 earthquake occurred primarily...
Authors
EERI Program, Katherine M. Scharer
California Historical Intensity Mapping Project (CHIMP): A consistently reinterpreted dataset of seismic intensities for the past 162 years and implications for seismic hazard maps California Historical Intensity Mapping Project (CHIMP): A consistently reinterpreted dataset of seismic intensities for the past 162 years and implications for seismic hazard maps
Historical seismic intensity data are useful for myriad reasons, including assessment of the performance of Probabilistic Seismic Hazard Assessment (PSHA) models and corresponding hazard maps by comparing their predictions to a dataset of historically observed intensities in the region. To assess PSHA models for California, a long and consistently interpreted intensity record is...
Authors
Leah Salditch, Molly Gallahue, Madeleine Lucas, James Neely, Susan Hough, Seth Stein
The 1933 Long Beach Earthquake (California, USA): Ground motions and rupture scenario The 1933 Long Beach Earthquake (California, USA): Ground motions and rupture scenario
We present a synoptic analysis of the ground motions from the 11 March 1933 Mw 6.4 Long Beach, California, earthquake, the largest known earthquake within the central Los Angeles Basin region. Our inferred shaking intensity pattern supports the association of the earthquake with the Newport-Inglewood fault; it further illuminates the concentration of severe damage in the town of Compton...
Authors
Susan Hough, Robert Graves
Mild displacements of boulders during the 2019 Ridgecrest Earthquakes Mild displacements of boulders during the 2019 Ridgecrest Earthquakes
Strong seismic waves from the July 2019 Ridgecrest, California, earthquakes displaced rocks in proximity to the M 7.1 mainshock fault trace at several locations. In this report, we document large boulders that were displaced at the Wagon Wheel Staging Area (WWSA), approximately 4.5 km southeast of the southern terminus of the large M 6.4 foreshock rupture (hereafter “the large foreshock”...
Authors
Norman Sleep, Susan Hough
Near-field ground motions from the July, 2019 Ridgecrest, California, earthquake sequence Near-field ground motions from the July, 2019 Ridgecrest, California, earthquake sequence
The 2019 Ridgecrest, California, earthquake sequence, including an Mw 6.4 event on 4 July and an Mw 7.1 approximately 34 hr later, was recorded by 15 instruments within 55 km nearest‐fault distance. To characterize and explore near‐field ground motions from the Mw 6.4 foreshock and Mw 7.1 mainshock, we augment these records with available macroseismic information, including conventional...
Authors
Susan Hough, Eric Thompson, Grace A. Parker, Robert Graves, Kenneth Hudnut, Jason Patton, Timothy E. Dawson, Tyler Ladinsky, Michael Oskin, Krittanon Sirorattanakul, Kelly Blake, Annemarie Baltay Sundstrom, Elizabeth Cochran
Where was the 31 October 1895, Charleston, Missouri Earthquake? Where was the 31 October 1895, Charleston, Missouri Earthquake?
We revisit the magnitude and location of the 31 October 1895 Charleston, Missouri earthquake, which is widely regarded to be the last MW6 or greater earthquake in the central United States. Although a recent study (Bakun et al., 2003) concluded that this earthquake was located in southern Illinois, over 100 km north of the traditionally inferred location near Charleston, Missouri, our...
Authors
Stacey Martin, Susan Hough
Revisiting earthquakes in the Los Angeles, California, basin during the early instrumental period: Evidence for an association with oil production Revisiting earthquakes in the Los Angeles, California, basin during the early instrumental period: Evidence for an association with oil production
A total of seven independent ML ≥ 4.0 earthquakes occurred in the Los Angeles, California, basin, during the early instrumental period between 1932 and 1952, the largest of which was the 1933 Long Beach earthquake. Revising available macroseismic and instrumental data for a total of 6 4.0 ≤ ML ≤ 5.1 events between 1938 and 1944, we conclude that early instrumental locations can be...
Authors
Susan Hough, Roger Bilham
Sources of long-range anthropogenic noise in southern California and implications for tectonic tremor detection Sources of long-range anthropogenic noise in southern California and implications for tectonic tremor detection
We study anthropogenic noise sources seen on seismic recordings along the central section of the San Jacinto fault near Anza, southern California. The strongest signals are caused by freight trains passing through the Coachella Valley north of Anza. Train‐induced transients are observed at distances of up to 50 km from the railway, with durations of up to 20 min, and spectra that are...
Authors
Asaf Inbal, Tudor Cristea-Platon, Jean-Paul Ampuero, Gregor Hillers, Duncan Agnew, Susan Hough