Tuesday, July 25, 2023

 

Using GPS as a possible earthquake predictor

Using GPS as a possible earthquake predictor
Earthquakes and GPS stations used in the study.(Top) Distribution and focal mechanisms
 (beachball plots) of the 90 Mw ≥ 7 earthquakes with 2 days of 5-min GPS records (with no
 gap and no noticeable foreshock) available within a 500-km radius of the epicenters. 
Mechanism sizes are indicative of event magnitudes. Colors indicate the number of time 
series available for each event. (Bottom) Distribution of the 3026 GPS stations with 
complete records in the 2 days preceding the 90 earthquakes shown above (the earthquake
 list is given in table S1). (Insets) Enlarged subpanels show areas of high station
 concentration. Credit: Science (2023). DOI: 10.1126/science.adg2565

A pair of seismologists at Côte d'Azur University has found what might turn out to be an accurate way to predict earthquakes. In their study, reported in the journal Science, Quentin Bletery and Jean-Mathieu Nocquet looked at high-rate GPS time series data that was gathered in the time leading up to the moment earthquakes of magnitude 7 or above occurred. Roland Bürgmann with the University of California, Berkeley, has published a Perspectives piece in the same journal issue outlining the work done by the team on this new effort.

Seismologists have long sought to predict earthquakes so that people could react. In many cases, several minutes warning would be helpful—it would allow people to exit buildings that might collapse. Finding a  is difficult due to the lack of information regarding what was happening in the vicinity of an epicenter before a quake. In this new effort, Bletery and Nocquet have found a way to go back in time to learn more about land shifting before a big quake.

In looking for an earthquake precursor, the researchers obtained and studied precise GPS data for geographical areas surrounding the epicenters of 90 quakes over magnitude 7 over the past several years. They found a pattern—a slip between  that caused the land above them to move in a measurable, horizontal direction.

They also found that such slips could be observed and measured using GPS, that they occurred up to two hours before the earthquake struck and were too small to show up on standard seismographs. Most important, they saw the same slip in all the earthquakes they studied.

The work suggests that a reliable  system could be designed based on a precise GPS listening system. On the downside, Bürgmann notes that more work is required to prove that such a precursor exists for all, or at least most, . Also, he adds, some upgrades to GPS technology are required to allow for measuring individual events around the clock.

More information: Quentin Bletery et al, The precursory phase of large earthquakes, Science (2023). DOI: 10.1126/science.adg2565

Roland Bürgmann, Reliable earthquake precursors?, Science (2023). DOI: 10.1126/science.adi8032


Journal information: Science 


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