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Research

Tsunami on the Delaware River? Study of Historical Quake and Early East Coast Seismicity



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Imagine the Delaware River abruptly rising toward Philadelphia in a tsunami-like wave of water. Scientists now propose that this might not be a hypothetical scenario. A newly published paper concludes that a modest (1 foot) tsunami-like event on the East Coast was generated in the early 19th century by a large offshore earthquake. This result may have potential ramifications for emergency-management professionals, government officials, businesses, and the general public.

Early in the morning of January 8, 1817, earthquake shaking was felt along the Atlantic seaboard as far north as Baltimore, Maryland, and at least as far south as Charleston, South Carolina. Later that morning, a keen observer saw a “sudden agitation of the river Delaware” near Philadelphia, Pennsylvania, as reported in an article published January 20, 1817, in the Philadelphia Gazette. According to the eyewitness, “vessels at the wharves were violently tossed about, and the tide swelled upwards of 12 inches.” The observer commented on the earthquake felt earlier to the south and remarked that the tidal swell was most likely “the reverberation or concussion of the earth operating on the watery element.”

Tsunami radiation pattern for the preferred earthquake parameters shown in inset panel.
Above: Tsunami radiation pattern for the preferred earthquake parameters shown in inset panel. Note the efficiency of wave propagation toward Delaware Bay and the relative inefficiency of propagation toward the northeast and the west-northwest. Estimated runup (height of tsunami above sea level when it reaches land) at the mouth of Delaware Bay is approximately 50 centimeters (20 inches). Numbers at top of inset panel show preferred earthquake magnitude (7.4) and mean slip (3.5 meters [11 feet]); numbers at bottom show preferred fault length (60 kilometers [40 miles]), width (25 kilometers [15 miles]) and depth to top edge (1 kilometer [0.6 mile]), and strike/dip/rake of assumed rupture plane. Slightly modified from figure 4 of Seismological Research Letters paper at http://dx.doi.org/10.1785/0220120152. [larger version]

Scientists have previously interpreted this earthquake to have a magnitude around 6 and a location somewhere in the Carolinas or slightly offshore. In a new study, U.S. Geological Survey (USGS) research geophysicist Susan Hough and colleagues reconsider the accounts of shaking and, for the first time, consider in detail the Delaware River account. They show that the combined observations point to a larger magnitude and a location farther offshore than previously believed. In particular, they show that a magnitude-7.4 earthquake located 400–500 miles off South Carolina or Georgia could have generated a tsunami wave large enough to account for the tidal swell on the Delaware. Using searchable electronic archives of historical newspapers, they uncovered firsthand accounts from ships’ logs and news stories—such as the Philadelphia Gazette article quoted above—that give a wider perspective on the 1817 event. Notably, the predicted timing of such a tsunami wave from this location matches the documented timing in the eyewitness account.

The USGS monitors offshore earthquakes and, in recent years, has undertaken research to better understand shaking and tsunami hazards from offshore earthquakes and landslides. Scientific understanding of faults and geological processes in this part of the Atlantic is limited. Still, it has long been understood that large, infrequent offshore earthquakes may pose a tsunami hazard to the Atlantic coast. In 1929, the magnitude-7.2 Grand Banks, Newfoundland, earthquake triggered a submarine landslide that generated a large tsunami. Waves 10 to 13 feet high struck the Newfoundland coast, killing 29 people and leaving 10,000 temporarily homeless.

The inferred 1817 tsunami was significantly smaller than the Newfoundland disaster. However, the new interpretation by Hough and colleagues highlights the potential earthquake and tsunami hazard along the Atlantic seaboard from the still poorly understood offshore earthquake faults. The new study shows that there is still work to be done to characterize this hazard in the southeastern United States.

Hough and her coauthors—seismologists Jeffrey Munsey of the Tennessee Valley Authority and Steven N. Ward of the University of California, Santa Cruz—published their results in the September/October issue of Seismological Research Letters. The full citation is:

Hough, S.E., Munsey, J., and Ward, S.N., 2013, Reverberations on the watery element—A significant, tsunamigenic historical earthquake offshore the Carolina coast: Seismological Research Letters, v. 84, no., 5, p. 891–898, doi:10.1785/0220120152, http://dx.doi.org/10.1785/0220120152.


Related Sound Waves Stories
Experts Team Up on Tsunami Resilience in California
Sept. / Oct. 2013

Related Websites
Reverberations on the Watery Element: A Significant, Tsunamigenic Historical Earthquake Offshore the Carolina Coast
GeoScienceWorld—Seismological Research Letters

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California's Sea Otter Numbers Continue Slow Climb

Research Experts Team Up on Tsunami Resilience in California

Historical Quake and Early East Coast Seismicity

Sea Otters Promote Recovery of Seagrass Beds

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