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New system could warn the public of quakes
By Andrew Bridges
AP Science Writer LOS ANGELES Scientists working in Southern California have proposed a way of interpreting feeble tremors that herald a large earthquake, a step that could help in providing advance warning.

The system theoretically could give anywhere from seconds to tens of seconds of advance notice enough time to send school children diving below their desks or to cut the flow of gas through pipelines vulnerable to rupture, scientists said. Details appear today in the journal Science.

Similar systems already are used in California and Japan on a smaller scale. The latest system would not predict earthquakes, but rather interpret the staggered way in which a quake's energy travels to the surface.

The first indication at the surface that a large earthquake has occurred is typically the jolt caused by the arrival of a fast- moving but low-energy wave called the primary or P wave.

It is followed by the more energetic but slower-moving S or shear wave that causes far more violent shaking.

Richard Allen of the University of Wisconsin-Madison and Hiroo Kanamori of the California Institute of Technology developed a way to determine the location, origin, time and most importantly magnitude of an earthquake from as little as four seconds of measurements of the P wave. The system would rely on seismic instruments already de ployed across the greater Los Angeles region.

"If we can detect this P wave and use the information contained in it to estimate the hazard associated with an earthquake, then there is the potential to issue a warning before any significant ground motion reaches the surface,' Allen said.

The amount of forewarning would depend on the distance of the sensors from an earthquake's epicenter.

If directly above the epicenter, there would be no time for a warning, since the S wave would arrive almost immediately after the P wave. At 37 miles from the epicenter, the system could give a magnitude estimate 16 seconds before the arrival of the S wave and the strong ground motion that accompanies it, Allen said.

Allen and Kanamori are now testing their system on the regular earthquakes in the Los Angeles region to determine if it can provide accurate magnitude estimates in real time. There are no immediate plans to develop an actual warning system.

The study may settle the question of whether earthquakes of different magnitudes begin in different ways, said Lucy Jones, scientist in charge of the U.S. Geological Survey office in Pasadena. The study suggests they do.

"There's debate whether quakes start differently or if a (magnitude-) 6 is just a 2 that doesn't stop,' said Jones, who was not connected with the study.

An earthquake more deadly than any on record possibly killing as many as 1 million people is increasingly likely due to the growth of huge urban centers in temblor-prone regions, according to a study to be presented today. The most deadly quake in recorded history occurred Jan. 23, 1556, in Shensi, China, killing an estimated 830,000 people.

Typically, seismologists estimate that as many as 300,000 people will perish in one killer quake every century, but that rule of thumb is too conservative because of demographic changes, according to a study by University of Colorado professor Roger Bilham, a prominent seismologist.

Scripps Howard News Service contributed to this story. On the Net: http://www.sciencemag.org/