https://www.sciencemag.org/news/2021/01/what-might-earth-s-next-supercontinent-look-new-study-provides-clues

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[Amasia_128]

In the next 200 million years, Eurasia and the Americas will collide
to form the supercontinent Amasia, according to a model of tectonic
plate motion.

Nicolle R. Fuller/Science Source

What might Earth's next supercontinent look like? New study provides
clues

By Jenny WuJan. 21, 2021 , 10:30 AM

From Columbia to Rodinia to Pangaea, Earth has seen a few
supercontinents come and go in its ancient past. Now, researchers
theorize that these giant landmasses form in regular cycles, about
once every 600 million years. They even predict when and where the
next supercontinent will form, driven by the creeping flow of rocks
in our planet's hot mantle.

"It's not an entirely surprising idea, but I like the way it's put
together," says Paul Hoffman, a geologist and supercontinent expert
at Harvard University who was not involved with the work.

Continents sit on tectonic plates--slabs of crust that float on the
mantle. The mantle acts like a boiling pot of water: Earth's molten
core heats the rock at the bottom of the mantle, causing it to slowly
rise. Meanwhile, cooling slabs of crust sink in subduction zones to
the bottom of the mantle. This circular flow is called mantle
convection, and over millions of years it drives the motions of
continental plates--and their occasional assembly into
supercontinents.

To uncover more about Earth's supercontinent cycle, Ross Mitchell, a
geologist at the Chinese Academy of Sciences, and his colleagues
focused on "megacontinents," which are smaller than a full
supercontinent. One such megacontinent is Gondwana, which formed
about 520 million years ago and led to the assembly of Pangaea 200
million years later.

To study how Gondwana became Pangaea, the researchers mapped the
continental plates over time, based on fossils and other deep-time
records. And they explored how the position of these continents
related to models of mantle flow--and the expected location of ancient
upwellings and downwellings.

They found continents tend to drift "downhill" toward subduction
zones where mantle rocks are cooling and sinking down. Mitchell calls
these zones "subduction girdles," because the continental plates, too
thick to subduct, go there and "get stuck," he says. They can only
move laterally along this girdle and collect more continents, a
process seen as Gondwana became Pangaea, the team reported in
November 2020 in Geology.

Their model also predicts what's next for our planet. When Pangaea
broke up 175 million years ago, it led to the formation of the Ring
of Fire, a set of subduction zones along the perimeter of the Pacific
Ocean that fuels volcanoes and earthquakes. Several continents have
already combined to create the current megacontinent, Eurasia, and it
has run up against the Ring of Fire, the subduction girdle of our
age. As Eurasia moves laterally along the Ring of Fire, it will
eventually collide with the Americas, forming a new supercontinent in
the next 50 million to 200 million years, Mitchell says.

Geologists have named this next supercontinent "Amasia." Although
there is much debate on where Amasia will end up, Mitchell's model
suggests it will likely be polar, centered on today's Arctic Ocean.

"We can see that there's a sort of rhythm to the Earth's evolution,"
says Damian Nance, a geologist at Ohio University and expert on
supercontinent evolution. "The jury's still out" on whether Mitchell
has solved the exact rhythm, he says, but "the pendulum is swinging
towards [his] model."

Posted in:

  * Earth

doi:10.1126/science.abg6491

Jenny Wu

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