2 giant blobs in Earth’s mantle may explain Africa’s weird geology: Times Of Nation
Deep within Earth’s mantle, there are two giant blobs. One sits under Africa, while the other is almost precisely opposite the first, under the Pacific Ocean. But these two blobs are not evenly matched.
New research finds that the blob under Africa extends far closer to the surface — and is more unstable — than the blob under the Pacific. This difference could ultimately help to explain why the crust under Africa has been lifted upward and why the continent has seen so many large supervolcano eruptions over hundreds of millions of years.
“This instability can have a lot of implications for the surface tectonics, and also earthquakes and supervolcanic eruptions,” said Qian Yuan, a graduate associate in geology at Arizona State University (ASU) who led the research.
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A pair of blobs
The mantle blobs are properly known as “large low-shear-wave-velocity provinces,” or LLSVPs. This means that when seismic waves generated by earthquakes travel through these deep-mantle zones, the waves slow down. This deceleration indicates that there’s something different about the mantle at this spot, such as density or temperature — or both.
Scientists aren’t sure why the mantle blobs exist. There are two popular hypotheses, Yuan told Live Science. One is that they’re made up of accumulations of crust that have subducted from Earth‘s surface to deep inside the mantle. Another is that they’re the remnants of an ocean of magma that may have existed in the lower mantle during Earth’s early history. As this magma ocean cooled and crystallized, it may have left behind areas that were denser than the rest of the mantle.
Prior studies had hinted that these two blobs may not have been created equal, Yuan said, but none of this research had used global data sets that could easily compare the two. He and his adviser, ASU geodynamics assistant professor Mingming Li, examined 17 global seismic-wave data sets to determine the height of each blob.
They found that the African blob extends about 620 miles (1,000 kilometers) higher than the Pacific blob. That’s a difference of roughly 113 Mount Everests. In total, the Pacific blob extends 435 to 500 miles (700 to 800 km) upward from the boundary between the core and the mantle. The African blob extends upward about 990 to 1,100 miles (1,600 to 1,800 km).
The researchers then used computer modeling to figure out which features of the blobs could explain these differences. The most important ones, they found, were the density of the blobs themselves and the viscosity of the surrounding mantle. Viscosity refers to the ease with which the mantle rocks can be deformed.
For the African blob to be so much taller than the Pacific blob, it must be far less dense, according to Yuan. “Because it’s less dense, it’s unstable,” he said.
The African blob is still far from Earth’s crust — the mantle is 1,800 miles (2,900 km) thick in total — but this deep structure’s instability may have implications for the planet’s surface. LLSVPs may be a source of hot plumes of mantle material that rise upward. These plumes, in turn, might cause supervolcano eruptions, tectonic upheaval and possibly even continental breakup, Yuan said.
The African blob “is very close to the surface, so there is a possibility that a large mantle plume may rise from the African blob and may lead to more surface rising and earthquakes and supervolcano eruptions,” Yuan said.
These processes occur over many millions of years and have been ongoing in Africa. There does seem to be a connection between the African blob and major eruptions, Yuan said. A 2010 paper published in the journal Nature found that in the past 320 million years, 80% of kimberlites, or huge eruptions of mantle rock that bring diamonds to the surface, have occurred right over the boundary of the African blob.
Yuan and Li published their findings March 10 in the journal Nature Geoscience. They are now working on research into the origins of the blobs. Though those findings have not yet been published in a peer-reviewed journal, the researchers presented the results at the 52nd Lunar and Planetary Science Conference in March 2021; that research suggested that the blobs might be remnants of the planet-size object that slammed into Earth some 4.5 billion years ago, forming the moon.
Originally published on Live Science.
(News Source :Except for the headline, this story has not been edited by Times Of Nation staff and is published from a www.space.com feed.)
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