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What planet Earth might look like in 200 million years



The outer layer of the earth, is made up of broken pieces, much like the shell of a broken egg. These pieces, the tectonic plates, move around the planet at speeds of a few centimeters per year.

Every so often they come together and combine into a supercontinent, which remains for a few hundred million years before breaking up. The plates then disperse or scatter and move away from 400-600 million years, reports The Conversation.

The last supercontinent, Pangea, formed around 310 million years ago, and began to break around 180 million years ago. It has been suggested that the next supercontinent will form in 200-250 million years, so we are currently about halfway through the scattered phase of the current supercontinent cycle.

The question is: how will the next supercontinent form, and why?

There are four fundamental scenarios for the formation of the next supercontinent: Novopange, Pangea Ultima, Aurica and Amasia. How each form depends on different scenarios but ultimately are linked to how Pangea is separated, and how the world's continents are still moving today.

The breakup of Pangea led to the formation of the Atlantic Ocean, which is still opening and getting wider today. Consequently, the Pacific Ocean is closing and getting narrower.

The Pacific is home to a ring of subduction along its edges (the "ring of fire") where ocean floor is brought down, or subducted, under continental plates and into the earth's interior. There, the old ocean floor is recycled and can go into volcanic plumes.

The Atlantic, by contrast, has a large ocean ridge producing a new ocean plate, the Lesser Antilles Arc in the Caribbean and the Scotia Arc between South America and Antarctica.

1. Novopangea

Novopangea. Photo / Supplied
Novopangea. Photo / Supplied

If we assume that present day conditions persist, so that the Atlantic continues to open and the Pacific keeps closing, we have a scenario where the next supercontinent forms in the antipodes of Pangea. The Americas would collide with the northward drifting Antarctica, and then into the already collided Africa-Eurasia. The supercontinent that would then form has been named Novopangea, or Novopangaea.

2. Pangea Ultima

The Atlantic opening may, however, slow down and actually start closing in the future. The two small arcs of subduction in the Atlantic could potentially spread all the east coasts of the Americas, leading to a reforming of Pangea as the Americas, Europe and Africa are brought back into a supercontinent called Pangea Ultima. This new supercontinent would be surrounded by a super Pacific Ocean.

Pangea Ultima, formed by the Atlantic closing. Photo / Supplied
Pangea Ultima, formed by the Atlantic closing. Photo / Supplied

3. Aurica

However, if the Atlantic was the new subduction zones – something that may already be happening – both the Pacific and the Atlantic Ocean may be fated to close. This means that a new ocean basin would have to replace them.

Amasia, the fourth scenario. Photo / Supplied
Amasia, the fourth scenario. Photo / Supplied

In this scenario the Pan-Asian Rrift currently cuts through Asia from the West of India up to the Arctic opens to form the new ocean. The result is the formation of the supercontinent Aurica. Because of Australia's current northwards drift it will be at the center of the new continent as East Asia and the Americas close the Pacific from either side. The European and African plates would then rejoin the Americas as the Atlantic closes.

4. Amasia

The fourth scenario predicts a completely different fate for future Earth. Several of the tectonic plates are currently moving north, including both Africa and Australia. This drift is believed to be driven by anomalies left by Pangea, deep in the earth's interior, in the part called the mantle. Because of this northern drift, one can envision a scenario where the continents, except Antarctica, keep drifting north.

This means that they would eventually gather around the North Pole in a supercontinent called Amasia. In this scenario, both the Atlantic and the Pacific would mostly remain open.

Of these four scenarios we believe that Novopangea is the most likely. It is a logical progression of the current continental plate, while the other three assume that another process comes into play. There will be new Atlantic submission for Aurica, the reversal of the Atlantic opening for Ultima, or anomalies in the Earth's interior left by Pangea for Amasia.

Investigating the Earth's tectonic future forces us to push the boundaries of our knowledge, and to think about the processes that shape our planet over long time scales.

It also leads us to think about the whole system, and raises a series of other questions – what will the climate of the next supercontinent be?

How will the ocean circulation adjust? How will life evolve and adapt? These are the kind of questions that push the boundaries of science because they push the boundaries of our imagination.


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