On August 23, 2011 tens of millions of people along the East Coast suddenly felt the earth shaking from the largest earthquake in the eastern U.S. since the M5.8 earthquake in 1944 near Cornwall and Massena, New York.
The M5.8 earthquake occurred near Mineral, Virginia, and provided scientists with a rare opportunity to record, observe, and analyze data that had previously not been available for this part of the U.S. It was widely felt--from Maine to Georgia, west to Cincinnati, Cleveland, and Chicago, and southeastern Canada--over a broad area inhabited by one-third of the U.S. population. When the earth stopped shaking, more than 148,000 people reported their experience of the earthquake on the USGS Did You Feel It? (DYFI) site. The total economic losses from the earthquake were about $200-$300 million, which included millions of dollars in damage to the National Cathedral, the Armed Forces Retirement Home, and the Washington Monument in Washington D.C., as well as minor to major damage to almost 600 residential properties.
Earthquakes in the Eastern US
Unlike California, which is situated on the western edge of the North American plate grinding along the very active San Andreas fault, the East Coast of the U.S. is on part of the North American tectonic plate that has been relatively passive during recent geologic time. While the rate of earthquakes is lower central and eastern U.S. than in the western U.S., earthquakes are not uncommon.
The Central Virginia Seismic Zone
The earthquake occurred in what scientists refer to as the “Central Virginia Seismic Zone”, a region characterized by low-level seismicity since at least 1774. The zone extends east-west about 120km from the Fall Line to Blue Ridge and is about 100km wide in the north-south direction. Scientists who study eastern and central North America earthquakes often work from the hypothesis that modern earthquakes occur as the result of slip on pre-existing faults that were formed in earlier geologic eras and that have been reactivated under the current stress conditions. However, even though several small earthquakes are recorded each month in the Eastern U.S., there are usually not enough events to map out and associate them with a specific fault, so the hypothesis had not been well tested. For the fault that ruptured, however, geologic boundaries imaged above and below the fault do not show evidence for large displacement, which suggests that the fault may not fit the reactivation model and instead may be a relatively new fault.
What Happened? Did You Feel It?
The M5.8 earthquake initiated near the town of Mineral, Virginia, about 65 km northwest of Richmond, Virginia at a depth of about 6-8 km. The shaking was felt by approximately one-third of the U.S. population, and there were reports that it caused minor damage as far away as Charleston, South Carolina, roughly 600km from the epicenter. The shaking caused the first ever shutdown of a U.S. commercial nuclear power plant at the North Anna nuclear power facility located about 23km northeast of the epicenter. Raw DYFI data suggest some general patterns, including significant apparent amplification of seismic waves along Chesapeake Bay, in parts of the District of Columbia (D.C.) and elsewhere, as well as a southwest-northeast directionality to the earthquake rupture and more efficient seismic wave propagation along the predominantly SW-NE-trending geologic structure.
Groundwater level changes (most <15 cm) were recorded at 48 wells as far as 550km from the epicenter, and the 40 3-component seismometers and 200 1-component seismometers, which were all deployed within about one week after the mainshock, provided the best-recorded aftershock sequence ever in the eastern U.S.
No evidence of surface rupture has been found, but there were small sand boils identified near the epicenter caused by strong shaking as well as rock falls up to 245 km away. (For comparison, a M5.8 in the western U.S. will usually cause rock falls up to about 70km.) This reveals the extraordinary distances that damaging ground shaking can extend in eastern North America – about 10 times further than damaging or felt shaking extends in western North America. This discrepancy is due to the older and denser rocks of the earth's crust on the East Coast that seismic waves can travel through more efficiently without losing energy.
What We’ve Learned from the Earthquake
The August 23, 2011 earthquake marked the first time scientists were able to associate seismic activity in the area with a particular fault since it was large enough to produce enough aftershocks to delineate the causative fault. Moderate to large earthquakes are infrequent in the Central and Eastern U.S., and many of the largest ones occurred before scientists deployed seismographs to record them. What we do know is from historical accounts; past earthquake magnitudes have been estimated by comparing recent measured earthquake magnitudes and modern accounts of shaking intensity with the historical accounts of reported intensities. Reported experiences for this earthquake provided data that can be used to more accurately estimate the shaking distribution from moderate-to-large future earthquakes in this area, as well as help us better estimate the magnitudes of older historical events with fewer historical accounts. Indeed, this earthquake reminded us that damaging earthquakes, though infrequent, are a part of living in the eastern United States.
A list of highlights of the scientific findings so far includes:
- Both scientific numerical modeling and the aftershock locations define a 10-km-long fault rupture plane trending N28°E and inclined 50°ESE. This new fault zone has been named the Quail fault zone.
- Low-altitude geophysical (gravity and magnetic) flight surveys in 2012 over the epicenter unveiled not only one fault, which is roughly aligned with a fault defined by the earthquake’s aftershocks, but a second fault or contact between different rock types that comes in at an angle to the first one, forming a fault crossroads that may concentrate stresses and lead to earthquakes.
- The earthquake had a 3-part rupture: 1) first, a small initial rupture at about 8km depth, 2) then, 0.75 seconds later a larger subsequent rupture, which accounted for about 60% of total energy release, 3) and finally, a smaller rupture 1.75 seconds after the onset of the earthquake. The rupture began near the SW end of the fault plane and progressed from SW to NE along trend and up the fault plane towards the surface. No clear evidence of surface rupture has been found so far.
- Outlying aftershocks were triggered on a nearby fault roughly delineating other structures that were previously unknown.
- The seismic waves were focused along a northeasterly trend parallel to (and probably somewhat guided by) the Appalachian geologic structure toward Washington D.C., Baltimore, Philadelphia and New York.
- Similar to the DYFI felt reports, recordings from the 2011 central Virginia earthquake at USGS (and its partner’s) seismograph stations in the eastern U.S., showed that the crustal rocks are especially efficient at transmitting seismic waves. This well-observed characteristic of eastern U.S. earthquakes permits them to cause felt shaking and damage over a broader area.
- Much of the structural damage was confined to brick buildings and unreinforced masonry structures.
Ultimately, scientific studies of this earthquake have helped scientists confirm with empirical data what they were previously able to only estimate or model from the sparse data and smaller earthquakes in this area.
References
- Horton, J.W., Jr., Chapman, M.C., and Green, R.A., eds., 2015, The 2011 Mineral, Virginia, Earthquake, and Its Significance for Seismic Hazards in Eastern North America, Boulder, Colorado, Geological Society of America Special Paper 509, 431p., doi:10.1130/9780813725093.
For More Information
Eventpage
Tectonic summary, maps and data.
Did You Feel It?
Shaking from the earthquake reported by citizen scientists.
ShakeMap
Shaking recorded on seismic instruments.
Below are videos and podcasts associated with this project.
USGS infographic on the magnitude 5.8 earthquake that struck central Virginia August 23, 2011, east coast earthquake hazards and how the USGS is helping inform critical decisions to protect lives and property.
Full Text Description:
10-YEAR ANNIVERSARY OF THE M5.8 EARTHQUAKE IN VIRGINIA
America’s Most Widely Felt Earthquake
USGS infographic on the magnitude 5.8 earthquake that struck central Virginia August 23, 2011, east coast earthquake hazards and how the USGS is helping inform critical decisions to protect lives and property.
Full Text Description:
10-YEAR ANNIVERSARY OF THE M5.8 EARTHQUAKE IN VIRGINIA
America’s Most Widely Felt Earthquake
A year after the August 23, 2011 Virginia earthquake, USGS geologist Dr. Mike Blanpied discusses whether a similar event could occur again in the region in the near future, and in an earthquake, what you can do to stay stay safe.
A year after the August 23, 2011 Virginia earthquake, USGS geologist Dr. Mike Blanpied discusses whether a similar event could occur again in the region in the near future, and in an earthquake, what you can do to stay stay safe.
A year after the August 23, 2011 Virginia earthquake, USGS geologist Dr. Mike Blanpied discusses USGS efforts currently underway to learn more about the cause of the event. Dr. Blanpied discusses how scientists are using the August 23 earthquake to inform estimates of the region's seismic hazard.
A year after the August 23, 2011 Virginia earthquake, USGS geologist Dr. Mike Blanpied discusses USGS efforts currently underway to learn more about the cause of the event. Dr. Blanpied discusses how scientists are using the August 23 earthquake to inform estimates of the region's seismic hazard.
Watch video interviews with four people discussing their experiences near the epicenter of the magnitude 5.8 earthquake in central Virginia on August 23, 2011. Tens of millions of people in the eastern U.S. and southeastern Canada were startled by sudden ground shaking from this earthquake, which was among the largest to occur in this region in the last century.
Watch video interviews with four people discussing their experiences near the epicenter of the magnitude 5.8 earthquake in central Virginia on August 23, 2011. Tens of millions of people in the eastern U.S. and southeastern Canada were startled by sudden ground shaking from this earthquake, which was among the largest to occur in this region in the last century.
The magnitude 5.8 earthquake that struck Louisa County was among the largest to occur along the eastern seaboard of the United States. It caused extensive damage in central Virginia and was likely felt by more people than any other earthquake in U.S. history.
The magnitude 5.8 earthquake that struck Louisa County was among the largest to occur along the eastern seaboard of the United States. It caused extensive damage in central Virginia and was likely felt by more people than any other earthquake in U.S. history.
A live, online chat about East Coast earthquakes and the Virginia 5.8M earthquake that occurred on August 23, 2011, with Dr. Michael Blanpied, Associate Coordinator for the USGS Earthquake Hazards Program.
A live, online chat about East Coast earthquakes and the Virginia 5.8M earthquake that occurred on August 23, 2011, with Dr. Michael Blanpied, Associate Coordinator for the USGS Earthquake Hazards Program.
A magnitude 5.8 earthquake occurred in Virginia on August 23, 2011. Join us as we talk to David Russ, who is the USGS Regional Executive for the Northeast Area, about that event as well as earthquake risk, history and geology along the East coast.
A magnitude 5.8 earthquake occurred in Virginia on August 23, 2011. Join us as we talk to David Russ, who is the USGS Regional Executive for the Northeast Area, about that event as well as earthquake risk, history and geology along the East coast.
On August 23, 2011 tens of millions of people along the East Coast suddenly felt the earth shaking from the largest earthquake in the eastern U.S. since the M5.8 earthquake in 1944 near Cornwall and Massena, New York.
The M5.8 earthquake occurred near Mineral, Virginia, and provided scientists with a rare opportunity to record, observe, and analyze data that had previously not been available for this part of the U.S. It was widely felt--from Maine to Georgia, west to Cincinnati, Cleveland, and Chicago, and southeastern Canada--over a broad area inhabited by one-third of the U.S. population. When the earth stopped shaking, more than 148,000 people reported their experience of the earthquake on the USGS Did You Feel It? (DYFI) site. The total economic losses from the earthquake were about $200-$300 million, which included millions of dollars in damage to the National Cathedral, the Armed Forces Retirement Home, and the Washington Monument in Washington D.C., as well as minor to major damage to almost 600 residential properties.
Earthquakes in the Eastern US
Unlike California, which is situated on the western edge of the North American plate grinding along the very active San Andreas fault, the East Coast of the U.S. is on part of the North American tectonic plate that has been relatively passive during recent geologic time. While the rate of earthquakes is lower central and eastern U.S. than in the western U.S., earthquakes are not uncommon.
The Central Virginia Seismic Zone
The earthquake occurred in what scientists refer to as the “Central Virginia Seismic Zone”, a region characterized by low-level seismicity since at least 1774. The zone extends east-west about 120km from the Fall Line to Blue Ridge and is about 100km wide in the north-south direction. Scientists who study eastern and central North America earthquakes often work from the hypothesis that modern earthquakes occur as the result of slip on pre-existing faults that were formed in earlier geologic eras and that have been reactivated under the current stress conditions. However, even though several small earthquakes are recorded each month in the Eastern U.S., there are usually not enough events to map out and associate them with a specific fault, so the hypothesis had not been well tested. For the fault that ruptured, however, geologic boundaries imaged above and below the fault do not show evidence for large displacement, which suggests that the fault may not fit the reactivation model and instead may be a relatively new fault.
What Happened? Did You Feel It?
The M5.8 earthquake initiated near the town of Mineral, Virginia, about 65 km northwest of Richmond, Virginia at a depth of about 6-8 km. The shaking was felt by approximately one-third of the U.S. population, and there were reports that it caused minor damage as far away as Charleston, South Carolina, roughly 600km from the epicenter. The shaking caused the first ever shutdown of a U.S. commercial nuclear power plant at the North Anna nuclear power facility located about 23km northeast of the epicenter. Raw DYFI data suggest some general patterns, including significant apparent amplification of seismic waves along Chesapeake Bay, in parts of the District of Columbia (D.C.) and elsewhere, as well as a southwest-northeast directionality to the earthquake rupture and more efficient seismic wave propagation along the predominantly SW-NE-trending geologic structure.
Groundwater level changes (most <15 cm) were recorded at 48 wells as far as 550km from the epicenter, and the 40 3-component seismometers and 200 1-component seismometers, which were all deployed within about one week after the mainshock, provided the best-recorded aftershock sequence ever in the eastern U.S.
No evidence of surface rupture has been found, but there were small sand boils identified near the epicenter caused by strong shaking as well as rock falls up to 245 km away. (For comparison, a M5.8 in the western U.S. will usually cause rock falls up to about 70km.) This reveals the extraordinary distances that damaging ground shaking can extend in eastern North America – about 10 times further than damaging or felt shaking extends in western North America. This discrepancy is due to the older and denser rocks of the earth's crust on the East Coast that seismic waves can travel through more efficiently without losing energy.
What We’ve Learned from the Earthquake
The August 23, 2011 earthquake marked the first time scientists were able to associate seismic activity in the area with a particular fault since it was large enough to produce enough aftershocks to delineate the causative fault. Moderate to large earthquakes are infrequent in the Central and Eastern U.S., and many of the largest ones occurred before scientists deployed seismographs to record them. What we do know is from historical accounts; past earthquake magnitudes have been estimated by comparing recent measured earthquake magnitudes and modern accounts of shaking intensity with the historical accounts of reported intensities. Reported experiences for this earthquake provided data that can be used to more accurately estimate the shaking distribution from moderate-to-large future earthquakes in this area, as well as help us better estimate the magnitudes of older historical events with fewer historical accounts. Indeed, this earthquake reminded us that damaging earthquakes, though infrequent, are a part of living in the eastern United States.
A list of highlights of the scientific findings so far includes:
- Both scientific numerical modeling and the aftershock locations define a 10-km-long fault rupture plane trending N28°E and inclined 50°ESE. This new fault zone has been named the Quail fault zone.
- Low-altitude geophysical (gravity and magnetic) flight surveys in 2012 over the epicenter unveiled not only one fault, which is roughly aligned with a fault defined by the earthquake’s aftershocks, but a second fault or contact between different rock types that comes in at an angle to the first one, forming a fault crossroads that may concentrate stresses and lead to earthquakes.
- The earthquake had a 3-part rupture: 1) first, a small initial rupture at about 8km depth, 2) then, 0.75 seconds later a larger subsequent rupture, which accounted for about 60% of total energy release, 3) and finally, a smaller rupture 1.75 seconds after the onset of the earthquake. The rupture began near the SW end of the fault plane and progressed from SW to NE along trend and up the fault plane towards the surface. No clear evidence of surface rupture has been found so far.
- Outlying aftershocks were triggered on a nearby fault roughly delineating other structures that were previously unknown.
- The seismic waves were focused along a northeasterly trend parallel to (and probably somewhat guided by) the Appalachian geologic structure toward Washington D.C., Baltimore, Philadelphia and New York.
- Similar to the DYFI felt reports, recordings from the 2011 central Virginia earthquake at USGS (and its partner’s) seismograph stations in the eastern U.S., showed that the crustal rocks are especially efficient at transmitting seismic waves. This well-observed characteristic of eastern U.S. earthquakes permits them to cause felt shaking and damage over a broader area.
- Much of the structural damage was confined to brick buildings and unreinforced masonry structures.
Ultimately, scientific studies of this earthquake have helped scientists confirm with empirical data what they were previously able to only estimate or model from the sparse data and smaller earthquakes in this area.
References
- Horton, J.W., Jr., Chapman, M.C., and Green, R.A., eds., 2015, The 2011 Mineral, Virginia, Earthquake, and Its Significance for Seismic Hazards in Eastern North America, Boulder, Colorado, Geological Society of America Special Paper 509, 431p., doi:10.1130/9780813725093.
For More Information
Eventpage
Tectonic summary, maps and data.
Did You Feel It?
Shaking from the earthquake reported by citizen scientists.
ShakeMap
Shaking recorded on seismic instruments.
Below are videos and podcasts associated with this project.
USGS infographic on the magnitude 5.8 earthquake that struck central Virginia August 23, 2011, east coast earthquake hazards and how the USGS is helping inform critical decisions to protect lives and property.
Full Text Description:
10-YEAR ANNIVERSARY OF THE M5.8 EARTHQUAKE IN VIRGINIA
America’s Most Widely Felt Earthquake
USGS infographic on the magnitude 5.8 earthquake that struck central Virginia August 23, 2011, east coast earthquake hazards and how the USGS is helping inform critical decisions to protect lives and property.
Full Text Description:
10-YEAR ANNIVERSARY OF THE M5.8 EARTHQUAKE IN VIRGINIA
America’s Most Widely Felt Earthquake
A year after the August 23, 2011 Virginia earthquake, USGS geologist Dr. Mike Blanpied discusses whether a similar event could occur again in the region in the near future, and in an earthquake, what you can do to stay stay safe.
A year after the August 23, 2011 Virginia earthquake, USGS geologist Dr. Mike Blanpied discusses whether a similar event could occur again in the region in the near future, and in an earthquake, what you can do to stay stay safe.
A year after the August 23, 2011 Virginia earthquake, USGS geologist Dr. Mike Blanpied discusses USGS efforts currently underway to learn more about the cause of the event. Dr. Blanpied discusses how scientists are using the August 23 earthquake to inform estimates of the region's seismic hazard.
A year after the August 23, 2011 Virginia earthquake, USGS geologist Dr. Mike Blanpied discusses USGS efforts currently underway to learn more about the cause of the event. Dr. Blanpied discusses how scientists are using the August 23 earthquake to inform estimates of the region's seismic hazard.
Watch video interviews with four people discussing their experiences near the epicenter of the magnitude 5.8 earthquake in central Virginia on August 23, 2011. Tens of millions of people in the eastern U.S. and southeastern Canada were startled by sudden ground shaking from this earthquake, which was among the largest to occur in this region in the last century.
Watch video interviews with four people discussing their experiences near the epicenter of the magnitude 5.8 earthquake in central Virginia on August 23, 2011. Tens of millions of people in the eastern U.S. and southeastern Canada were startled by sudden ground shaking from this earthquake, which was among the largest to occur in this region in the last century.
The magnitude 5.8 earthquake that struck Louisa County was among the largest to occur along the eastern seaboard of the United States. It caused extensive damage in central Virginia and was likely felt by more people than any other earthquake in U.S. history.
The magnitude 5.8 earthquake that struck Louisa County was among the largest to occur along the eastern seaboard of the United States. It caused extensive damage in central Virginia and was likely felt by more people than any other earthquake in U.S. history.
A live, online chat about East Coast earthquakes and the Virginia 5.8M earthquake that occurred on August 23, 2011, with Dr. Michael Blanpied, Associate Coordinator for the USGS Earthquake Hazards Program.
A live, online chat about East Coast earthquakes and the Virginia 5.8M earthquake that occurred on August 23, 2011, with Dr. Michael Blanpied, Associate Coordinator for the USGS Earthquake Hazards Program.
A magnitude 5.8 earthquake occurred in Virginia on August 23, 2011. Join us as we talk to David Russ, who is the USGS Regional Executive for the Northeast Area, about that event as well as earthquake risk, history and geology along the East coast.
A magnitude 5.8 earthquake occurred in Virginia on August 23, 2011. Join us as we talk to David Russ, who is the USGS Regional Executive for the Northeast Area, about that event as well as earthquake risk, history and geology along the East coast.