The new paper in Science reports that the 1994 earthquake near the equator in the Romanche Transform in the mid-Atlantic ridge-transform system off South America was preceded by a similar episode of slow and smooth energy release that started 100 seconds before the main earthquake. That earthquake had a magnitude of 7.0. Earthquakes of this magnitude can cause major damage if they occur on land.
By exploring the spectral characteristics of the earthquake, or the energy of the seismic waves emitted from it at various frequencies, the scientists discovered that the slow precursor of the Romanche earthquake grew for at least 100 seconds before it triggered a fast, main rupture. The total amount of fault slippage that occurred during the precursor was about 15 percent of the main shock's slippage.
"Due to the low noise levels of the modern global network of seismic stations, this event marks the first time where a slow precursor's energy release can be seen as the first energy arriving at seismometers, providing more convincing evidence for the precursor's existance than in the past," Mr. McGuire said. He added that studying slow precursors may shed light on how big earthquakes get started.
This type of precursor does not occur in California, a highly active earthquake region. One reason may be that the fracture characteristics of continental rocks differ from those of the oceanic crust.
"We hope to learn something fundamental about earthquakes. You need to look at the full complexity of the earthquakes on the planet to understand earthquakes as a whole," Professor Jordan said.
To aid in further study of the precursor phenomenon, he and colleagues have started a global survey that uses very low-frequency waves to study earthquakes of magnitude 6.0 or greater that have occurred since 1995.
Funding for the research came from the National Science Foundation and NASA.
A version of this article appeared in MIT Tech Talk on October 9, 1996
1 comment:
But research is occurring in California about precursors to quakes. QuakeFinder has been researching and collecting data for over 5 years! But the true test is to have a ground sensor near a high enough magnitude quake to thoroughly prove or disprove the theory. They lucked into such circumstances for the Alum Rock, CA quake of Oct '07. I am sure they are waiting with bated breath to luck into the same circumstances to prove their theory that electromagnetic fields change 2+ days before an earthquake; thus, giving ample time to truly provide a warning/alert to the public. Check them out at www.quakefinder.com. It is highly intriguing!
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