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Science, Location and Luck Minimized Alaska’s Earthquake Damage
Released: 11/6/2002

Contact Information:
U.S. Department of the Interior, U.S. Geological Survey
Office of Communication
119 National Center
Reston, VA 20192
Carolyn Bell 1-click interview
Phone: 703-648-4463

Butch Kinerney
Phone: 703-648-4732



For map see: http://www.usgs.gov and click on "Magnitude 7.9 Denali Natl. Park, AK"

Sunday’s magnitude (M) 7.9 central Alaska earthquake was one of the largest recorded earthquakes in our Nation’s history. The epicenter of the Nov. 3 temblor was located approximately 75 miles (135 km) south of Fairbanks and 176 miles (283 km) north of Anchorage. It struck at 1:12 PM local time, causing countless landslides and road closures, but minimal structural damage and amazingly few injuries and no deaths.

In contrast, the 1964 M9.2 Good Friday earthquake, centered offshore in Prince William Sound, took 125 lives and cost $311M in property losses. The 1906 M7.8 San Francisco earthquake and subsequent fires took 3,000 lives and caused $524M in property losses. The remote location of the M7.9 event played a role in ensuring that the earthquake was not more devastating. However, advanced seismic monitoring, long term research, and a commitment to hazard preparedness and mitigation also played a key role. This is perhaps best demonstrated by the successful performance of the Alaska pipeline.

U.S. Geological Survey (USGS) seismologists and geologists, serving on a Federal task force, were instrumental in ensuring that the Alaska pipeline was designed and built to withstand the effects of a magnitude 8.0 earthquake with up to 20 feet of movement at the pipeline. Although considered to be excessively conservative at the time, the USGS design guidance proved to be on target, and the resilience of the pipeline to Sunday’s fault rupture is a testament to the importance of science in hazard mitigation and decision-making.

"Good science, when applied in the way that the people of Alaska have done, made the difference between an emergency and a tragedy," said USGS Director Charles Groat. "It’s an example of how partnerships between the USGS, the Federal Emergency Management Agency, universities, state and local officials, and business leaders and the community enable us to apply our scientific knowledge. We know we can’t stop the earth from changing but we can work together making public safety our primary goal."

Has the USGS effort paid off? The pipeline success alone indicates that it has. Each day the pipeline carries one million barrels of oil, valued at over $25M. With the pipeline intact (although temporarily shut down for inspection), an important source of revenue for the State of Alaska has been preserved. Moreover, as Alaskans know all too well, the consequences to the environment, should the pipeline have failed, would have been catastrophic.

The National Earthquake Hazards Reduction Program (NEHRP), launched 25 years ago by an act of Congress in the aftermath of the1964 Alaska and the 1972 San Fernando, California earthquakes, led to improvements in building design that resulted from USGS geologic hazards and earthquake engineering research. The public law establishing NEHRP must be reauthorized during the first session of the 108th Congress.

The earthquake resulted from slip on the Denali fault, one of the longest continental faults in the world, rivaling California’s San Andreas Fault in size. This was the second major earthquake along this portion of the fault in less than two weeks - a magnitude 6.7 earthquake occurred a few miles to the west on October 23 and is now believed to be a foreshock of Sunday’s massive quake.

Early reports of fault movements indicate that Sunday’s event caused more than 18 feet of slip at the ground surface- and possibly much more - along at least a 150 mile-long stretch of the fault. Movement on the fault caused ground north of the fault to move eastward, relative to ground south of the fault.

The quake also created a ripple effect thousands of miles away. The passing seismic waves triggered a series of microearthquakes (M<3) at the Geysers geothermal area in northern California and at Yellowstone National Park in Wyoming. In the New Orleans area - more than 3,000 miles away - residents saw water in Lake Ponchetrain slosh about as a result of the quake’s power. Similar observations were recorded in Seattle, Minnesota, Texas and Louisiana. As far east as Pennsylvania and Georgia, USGS instruments recorded significant changes in ground-water level immediately following the earthquake.

The USGS plays a pivotal role in deciphering and communicating the seismic hazards of Alaska. In cooperation with the University of Alaska and NOAA’s Alaska Tsunami Warning Center, the USGS has operated a seismic network to record earthquakes, to monitor earthquake faults, record and study volcanic activity and record seismic data that indicate possible tsunamis. The USGS supports a range of other geologic and geophysical investigations which have been important in documenting the geologic forces affecting the region and delineating the seismic hazards which threaten economic and social stability.

The probability of an event with significantly larger ground motions and corresponding damage still exists in Anchorage, Fairbanks and other metropolitan areas across the U.S.

To address these concerns and further enhance earthquake mitigation, the USGS is building a modern network of sophisticated ground shaking measurement systems, both on the ground and in buildings, called the Advanced National Seismic System (ANSS). ANSS will become the first line of defense in the war on earthquake hazards - with the ultimate victory being public safety, lives saved, and major losses to the economy avoided. ANSS stations will assist emergency responders within minutes of an event showing not only the magnitude and epicenter, but where damage is most likely to have occurred.


The USGS serves the nation by providing reliable scientific information to describe and understand the Earth; minimize loss of life and property from natural disasters; manage water, biological, energy, and mineral resources; and enhance and protect our quality of life.

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