Science
'Upwelling' deep in the mantle triggered magnitude 6.8 Morocco earthquake
On 8 September 2023, a magnitude 6.8 earthquake struck western Morocco, causing damage and destruction that claimed thousands of lives in rural communities in the High Atlas Mountains. Prior to the 2023 event, the last powerful earthquake to affect Morocco occurred in 1960, and this long stretch of seismic silence may have contributed to the region and its infrastructure being underprepared for major shaking and associated damage.
Most of Morocco's seismic activity occurs near the Rif Mountains to the north of the 2023 epicenter, which are formed by convergence of the African and Eurasian plates. But closer to the High Atlas Mountains—the tallest in North Africa, with peaks rising more than 4,000 meters—the plates are converging at a rate of only about 1 millimeter per year. It's thought that mantle upwelling beneath the High Atlas, more so than the slow convergence, is a main reason why these peaks reach as high as they do.
By examining geodetic and seismic data, Huang et al. found that the 2023 Morocco quake originated in the Tizi n'Test fault system on a fault plane centered about 26 kilometers below the surface and that the rupture's strongest effects occurred at a depth of 12-36 kilometers. The event caused displacement of the Moho, the boundary about 32 kilometers beneath the surface where the crust meets the mantle.
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Because of the unusual origination depth of the earthquake and its occurrence far from plate boundaries, the researchers suggest that the quake may have been triggered by the same mantle upwelling that helps lift the High Atlas Mountains, rather than by faulting activity closer to the surface.
The findings suggest that seismic hazard models should incorporate more data about deeper dynamics in intraplate regions, which are often overlooked in favor of plate boundary dynamics, according to the authors. They also highlight the importance of seismic monitoring for regions, such as this one, where slow deformation rates and complex fault structures cause infrequent but devastating disasters. (Geophysical Research Letters, https://doi.org/10.1029/2024GL109052, 2024)
This article was originally published on Eos.org. Read the original article.
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