West L.A. Fault Line May Go Down to Earth’s Mantle

Bianca BarraganNewsLeave a Comment

Image: California Department of Conservation

The Hollywood Fault has gotten a lot of attention lately from opponents of developments in its vicinity, but we can’t forget that Hollywood is not the only fault in town. Researchers at U.C. Santa Barbara have just discovered something super fascinating about one lower-profile (but very important) fault: the Newport-Inglewood Fault, which runs along the Westside through the Los Angeles Basin and was responsible for the 6.4 Long Beach earthquake in 1933. The new findings suggest the fault might be ‘way deeper than previously thought. It may be the ancient collision site of the Pacific and North American tectonic plates, says the UC Santa Barbara Current, the university’s official news site.

The revelation comes from UCSB geologist Jim Boles, who took samples from 24 oil wells along a 30-mile section of the fault (it runs from Costa Mesa to Culver City, traveling through Inglewood, Gardena, Compton, Signal Hill, Long Beach, Seal Beach, and Huntington Beach, and is marked by a string of low hills). Over one-third of the samples indicated high levels of “primordial” helium-3, a remnant of the Big Bang whose only source on Earth is in the mantle, which lies under the Earth’s crust.

(Scientists also analyzed the carbon dioxide in the samples. They found it, too, was from the mantle.) If that leaked helium-3 is coming from the mantle, it suggests that the Newport-Inglewood Fault is a lot deeper than scientists thought and is “directly or indirectly connected with the mantle.” That is especially incredible because the fault “maintains a significant pathway through the crust,” as Mr. Boles puts it. It appears to cut all the way from the mantle (or close to it) up to the surface of the Earth where we can see it in those hills.

Furthermore, scientists have found blueschist rock at the bottom of deep wells; that’s “a metamorphic rock only revealed when regurgitated to the surface via geologic upheaval,” and it suggests that the fault is the site of a 30-million-year-old subduction zone, where the Pacific plate collided with (and began to slide under) the North American plate.

That is crazy because the Newport-Inglewood Fault is 40 miles west of the present-day edge of the plate, at the San Andreas Fault system. “About 30 million years ago,” Mr. Boles says, “the Pacific plate was colliding with the North American plate, which created a subduction zone at the Newport-Inglewood fault. Then somehow that intersection jumped clear over to the present San Andreas Fault, although how this occurred is really not known.” Mr. Boles’s research shows that Newport-Inglewood leaks more from the mantle than San Andreas does, meaning it’s probably deeper.

What does this all mean? Unfortunately, at this point, all that is really known is that the Newport-Inglewood Fault “is a lot more important than previously thought, but time will tell what the true importance of all this is,” Mr. Boles says.

Ms. Barragan may be contacted at la.curbed.com, where this story originated

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