Most Arkansans don’t think about earthquakes when they list the natural hazards they see as risks to this state, but numerous earthquakes do occur in Arkansas every year. While most of these tremors are far too small to be felt by humans, there is an ever present risk of a catastrophic earthquake occurring along an area known as the New Madrid Seismic Zone which is partially located in the northeastern portion of our state. The largest earthquake risk in Arkansas exists in 19 counties in eastern and central Arkansas. That doesn’t mean the rest of the state is earthquake free. Earthquakes can and do happen all over Arkansas, as shown on the Arkansas Geological Survey website.
If you feel an earthquake, the best protective measure is to drop to the ground, cover yourself (especially your head) with something sturdy, and hold on until the ground stops shaking. Visit ShakeOut.org for information on what to do and not do during an earthquake and to find out how to become involved in the world’s largest earthquake drill.
Unlike other natural disasters that affect our state (like tornadoes, floods and ice), earthquakes are impossible to predict. The time to prepare for an earthquake is now. This page is here to help you and your family prepare for an earthquake. The information found here will guide you in what to do before, during and after an earthquake to stay safe.
Mitigation can help save lives and property in the event of earthquakes. Properly built structures are more likely to withstand the ground movement that occurs in earthquakes better than those not built to seismic standards. To view information about building codes for the State of Arkansas click the link below:
After the earthquake, if communications are available, visit the United States Geological Survey Did You Feel It Website to identify what you felt. Information generated through these reports will help researchers to identify important facts related to the earthquake. If you have damages to your home or business, contact the Arkansas Department of Emergency Management.
For additional information on how to be prepared for an earthquake, please contact firstname.lastname@example.org
ACA §12-77-107 Report
20 Cool Facts about Earthquakes on the New Madrid Seismic Zone
1. First Main Shock
The first in a series of major earthquakes occurred on December 16, 1811, at about 2:15 a.m. near present-day Blytheville, Arkansas. Estimated at magnitude (M) 7.7, this event awakened people across much of what is now the eastern United States, up to about 900 miles away, including President James Madison in Washington, D.C. There were several large aftershocks that day, including the largest “Dawn” aftershock at about 7:15 a.m., estimated at M6.8–7.0.
2. First Steamboat Voyage Interrupted
The maiden voyage of the first steamboat on the Mississippi River, the New Orleans, began in September 1811 on the Ohio River at Pittsburgh, Pennsylvania. It reached the Mississippi River the week before the December 16 earthquake. One morning the passengers woke to find that the island they had moored to the night before had disappeared because of liquefaction due to frequent earthquake shaking.
3. Riverbanks Caved, Widespread Flooding
According to reports of boat captains and others on the Mississippi River in December 1811, the earthquakes caused the river to fill with debris as the tree-covered river banks caved into the river. Other reports said the river flooded large tracks of land, created temporary waterfalls, and even ran backwards in some places. Today, similar bank failure, flooding, and river debris would affect bridge abutments, farm land and industries along the river, and barge traffic.
4. Second Main shock Earthquake
The second of the three major earthquakes, estimated at M7.5, occurred on January 23, 1812, at about 9:15 a.m. Similar to the December 1811 earthquake, this event was also widely felt throughout the region. Damage occurred in an area of about 232,000 square miles.
5. Only 5,700 People Lived in St. Louis in 1811
In 1811, the population of what is now the central United States was very sparse. Still considered to be the western frontier, there were only about 5,700 people in the St. Louis area at the time. Most historical reports (journals, letters, and newspapers) describing the earthquake shaking and its effects were written by people who were located east of the Mississippi River. Today, about 11–12 million people live in the St. Louis–Memphis region.
The New Madrid earthquakes caused extensive landsliding along about 125 miles of the bluffs on the east side of the Mississippi River north of Memphis. A repeat of these earthquake-triggered landslides today would affect eastern access to the Mississippi River, pipelines, and transmission towers located in this area.
7. Third Main shock Earthquake
The third and probably the most widely felt of the three major New Madrid earthquakes occurred on February 7, 1812, at about 3:00 a.m. There were several destructive shocks that day, the last and largest estimated at M7.7. As a result, the town of New Madrid, Missouri, was severely damaged.
8. Homemade Seismograph Records Quakes in Cincinnati
Dr. Daniel Drake, a physician in Cincinnati, Ohio, kept a detailed account of the New Madrid earthquake sequence and cataloged thousands of earthquakes. He reportedly used a pendulum-type seismograph that “marked the direction of undulation from south-southwest to north-northeast.”
9. Widespread Ground Failure and Sand Blows
Important surface-deformation features caused by the 1811–1812 earthquakes are the Reelfoot fault scarp (an uplift of the land surface above the fault); Reelfoot Lake in western Tennessee; a large sand-blow liquefaction field in Arkansas, Missouri, and Tennessee; and the Big Lake and St. Francis sunken lands in northeastern Arkansas. The New Madrid earthquakes covered the region with sand blows, thousands of which remain today and can be seen as large, light-colored sandy patches in agricultural fields.
10. Reelfoot Lake Forms
As a result of land subsidence and uplift from the February 7, 1812, earthquake, water from the Mississippi River flooded the area and formed Reelfoot Lake. This event added to reports of the Mississippi River flowing backwards.
11. Thousands of Aftershocks
By March 15, 1812, an estimated 2,000 aftershocks had been felt, but it is likely that tens of thousands more were not felt or otherwise noted. At the time, many people were afraid to enter their homes for fear they would collapse. Damage from the largest of these shocks was reported from as far as about 300 miles away. Today, a robust aftershock sequence like this would impede rescue and rebuilding efforts throughout the region.
12. It Had Happened Before 1811
Research indicates that the 1811–1812 New Madrid earthquake sequence was preceded by at least two similar earthquake sequences in about 1450 AD and 900 AD, and that over the past 5,000 years or so, other large earthquakes have also occurred in the region surrounding the main area of the currently active New Madrid seismic zone.
13. Archaeological Age Constraints on Earthquake Timing
Geologists and archaeologists use Native American artifacts buried in the upper Mississippi River Valley near earthquake deformation features, such as liquefaction sand blows, to help determine when large prehistoric earthquakes occurred.
14. First Disaster Relief Act
In 1814, Missouri Territorial Governor William Clark (of the Lewis & Clark Expedition) asked for Federal relief for the “inhabitants of New Madrid County.” In response, Congress allocated $50,000 for recovery in 1815. This was the first disaster relief act in the United States. Today, a repeat of the New Madrid earthquake sequence would cause billions of dollars in damage, especially to older unreinforced brick buildings.
15. More Quakes – M6.0 in 1843, M 6.6 in 1895
The strongest earthquakes to occur in the NMSZ since the 1811–1812 sequence happened on January 4, 1843, and October 31, 1895. The 1843 earthquake, estimated at M6.0 and located near Marked Tree, Arkansas, caused damage in Memphis. The 1895 earthquake, located near Charleston, Missouri, estimated at M6.3−6.6, caused extensive damage to chimneys, walls, and windows in homes, churches, and schools in the area; and caused damage to almost all the commercial buildings in downtown Charleston.
16. 1909 – Seismograph Installed at Saint Louis University
The first seismograph in the region (called a Wiechert) was installed at Saint Louis University in 1909. This instrument recorded its first earthquake on October 9 of that year.
17. Growth of Seismograph Network
In the 1930s, a seismograph was installed in Cape Girardeau, Missouri. It is the oldest continuously recording seismic station specifically installed to study the NMSZ. In 1974, installation began on a dense network of 50 seismic stations in and around the NMSZ. Today there are about 270 seismograph stations in the New Madrid cooperative network in the area between St. Louis and Memphis.
18. Another Quake – M 5.0 in 1976
A M5.0 earthquake occurred in Poinsett County, Arkansas, at the southern end of the NMSZ, on March 24, 1976. It was felt over 174,000 square miles and caused power outages, downed telephone lines, broken windows, and roof damage.
19. Will a Damaging Earthquake Occur Again?
There is a 7–10% chance or probability that a quake of magnitude 7.0 or greater will occur in the New Madrid region within the next 50 years. The probability of a quake of magnitude 6.0 or greater occurring during the same time period is somewhere between 28 and 46%.
20. Most Seismically Active Area East of the Rockies
The NMSZ is the most seismically active area of the United States east of the Rocky Mountains, according to information from the last 40 years of instrumental recordings. It experiences an average of 200 earthquakes (greater than M1.5) every year—most, however, are too small to be felt.
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Disclaimer: The suggestions and illustrations included in this website are intended to improve earthquake awareness and preparedness; however, they do not guarantee the safety of an individual or a structure. The writers, contributors, and sponsors do not assume liability for any injury, death, property damage, or other effect of an earthquake.