Mysterious zones within the deep mantle the place earthquake waves gradual to a crawl may very well be in every single place, new analysis finds.
Scientists already knew that ultra-low velocity zones (ULVZs), hover close to hotspots — areas of the mantle the place sizzling rock strikes upward, forming volcanic island chains equivalent to Hawaii. However mysterious earthquake waves counsel that these options is likely to be widespread.
ULVZs, that are situated within the decrease mantle close to the core-mantle boundary, can gradual seismic waves by as much as 50%. That is exceptional, mentioned Michael Thorne, a geologist and geophysicist on the College of Utah.
“Here is one of the vital excessive options that we see anyplace contained in the planet,” Thorne informed Reside Science. “And we do not know what they’re, the place they’re coming from, what they’re manufactured from, [or] what function they play contained in the Earth.”
Thorne wasn’t considering of ULVZs when he launched the brand new analysis, printed Aug. 10 within the journal AGU Advances. As a substitute, he was intrigued by one other mantle thriller. Very giant quakes, like those who happen at subduction zones the place one tectonic plate slides below one other, launch highly effective waves. A few of these so-called PKP waves journey by means of the mantle, the liquid outer core, after which the mantle once more on their option to the alternative aspect of the planet from the place they originated. These waves are generally preceded by one other unusual kind of wave, known as a precursor PKP wave.
Precursor PKP waves arrive earlier than the primary wave after scattering off thriller options in Earth’s decrease mantle. To determine these options, Thorne and his colleagues modeled PKP waves touring by means of a pc mannequin of Earth’s mantle, into which they added areas that modified the waves’ velocity. They discovered predictable patterns in how PKP waves different in velocity.
So the workforce hunted for related patterns in actual earthquake information. The researchers used information from 58 deep earthquakes with magnitudes over 5.8 close to New Guinea that occurred between 2008 and 2022. Waves from these quakes traveled by means of the core and as much as North America, the place they had been recorded by EarthScope, a challenge that deployed moveable seismic screens throughout the U.S. between 2003 and 2018.
The findings recommended that one thing was dramatically slowing the earthquake waves to scatter their vitality, Thorne mentioned. The 2 possible candidates had been valleys and ridges alongside the core-mantle boundary the place the waves traveled, or ULVZs. The core-mantle boundary below the western Pacific, the place the waves handed, is considered clean. However earlier analysis discovered a big ULVZ below the western Pacific, east of the Philippines, overlapping the world studied.
And the researchers additionally discovered signatures of ULVZs after they appeared elsewhere. The research discovered smaller patches of what appear to be extra ULVZs below North America. And different analysis has discovered indicators of ULVZs beneath North Africa, East Asia, Papua New Guinea and the Pacific Northwest, Thorne mentioned.
Some researchers have theorized that ULVZs is likely to be the remnants of giant impactors from Earth’s early stage of meteor bombardment. Nonetheless, if ULVZs are widespread, it suggests they’re being actively generated right now, Thorne mentioned. He suspects that these zones could also be areas of the volcanic rock basalt, shaped at mid-ocean ridges the place the seafloor spreads aside. When this mid-ocean basalt ultimately will get pulled into the mantle by subduction, it melts simply and will kind pockets the place seismic waves gradual. These pockets might then get pushed across the mantle by different slabs of subducting crust, which poke into Earth’s inside like stirring sticks right into a smoothie.
Higher understanding these ULVZs might enhance geologists’ grasp of volcanic hotspots in addition to how the mantle strikes.
“There are quite a lot of open questions we do not have solutions to but,” Thorne mentioned.