The real-life Day After Tomorrow: The Gulf Stream could COLLAPSE as early as 2025 – plunging Europe into a deep freeze, scientists warn

In the 2004 film The Day After Tomorrow, humanity is plunged into a nightmarish international storm that plunges the planet into a new ice age.

And while the blockbuster was relegated to the realm of science fiction, the science behind this terrifying scenario is true.

Within a few years, melting glaciers could shut down the Gulf Stream — the current system that brings heat to the Northern Hemisphere, experts say.

Without this additional heat source, average temperatures in North America, parts of Asia and Europe could drop by several degrees, and people would see “severe and cascading impacts around the world.”

Scientists are warning that an abrupt halt to Atlantic Ocean currents appears more likely than ever as computer simulations show a ‘cliff-like’ tipping point looms in the near future.

In some parts of Europe, the collapse of a large system of ocean currents called the AMOC could lead to a temperature drop of more than 3°C every 10 years

In the Hollywood blockbuster The Day After Tomorrow (pictured), ocean currents around the world stop due to global warming, creating a new ice age on Earth

In the Hollywood blockbuster The Day After Tomorrow (pictured), ocean currents around the world stop due to global warming, creating a new ice age on Earth

The study’s authors, from Utrecht University in the Netherlands, don’t know exactly when the collapse will occur, although an earlier study suggests it will happen as soon as next year.

“We are getting closer to collapse, but we are not sure how much closer,” said lead author Rene van Westen, a climate scientist and oceanographer at Utrecht University.

‘We are heading towards a tipping point.’

When a global weather disaster like the one in The Day After Tomorrow could occur, Van Westen says it’s “the million dollar question.”

“Unfortunately we cannot answer that at this time,” he said.

‘It also depends on the speed of climate change that we as humanity are causing.’

The Gulf Stream is part of a much broader system of currents, officially called the Atlantic Meridional Overturning Circulation, or AMOC.

Described as ‘the conveyor belt of the ocean’, it transports warm water near the ocean’s surface north – from the tropics to the Northern Hemisphere.

When the warm water reaches the North Atlantic Ocean (around Europe and the UK, and the east coast of the US), it releases heat and freezes.

As this ice forms, salt remains in the ocean water.

The large amount of salt in the water makes it denser, sinks and is carried south into the depths below.

Eventually, the water is drawn back to the surface and heats up in a process called upwelling, completing the cycle.

Scientists think AMOC brings enough heat to the Northern Hemisphere that without it, large parts of Europe could end up in a deep freeze.

Formally known as the Atlantic Meridional Overturning Circulation (AMOC), it powers the Gulf Stream which brings warm water from the Gulf of Mexico to the northeastern US coast

Formally known as the Atlantic Meridional Overturning Circulation (AMOC), it powers the Gulf Stream which brings warm water from the Gulf of Mexico to the northeastern US coast

WHAT IS THE AMOC?

Atlantic Meridional Overturning Circulation (AMOC) is an important part of Earth’s climate system.

The pattern transports warm, salty water in the upper Atlantic Ocean north, and colder fresh water in the deep Atlantic Ocean south.

This ocean circulation system transports a significant amount of heat from the tropics and the Southern Hemisphere to the North Atlantic Ocean, where the heat is transferred to the atmosphere.

High levels of carbon dioxide would cause the ice in the Arctic and Greenland to melt, increasing the amount of freshwater entering the ocean.

This increase in freshwater would disrupt the AMOC, which depends on a balance between fresh and salt water.

Previous studies have already shown that AMOC is slowing down due to climate change.

The engine of this conveyor belt is off the coast of Greenland, where as more ice melts due to climate change, more freshwater flows into the North Atlantic Ocean and everything slows down.

The new study predicts that an abrupt closure of the AMOC could occur in the coming decades, rather than in the coming centuries as previously thought.

The researchers designed a computer model simulation in which they could measure a sudden weakening of the ocean circulation.

The simulation introduced fresh water into the Atlantic Ocean, and as a result the circulation strength gradually decreased until it reached a critical ‘tipping point’ and collapsed.

According to the results, Europe’s climate will cool by about 1°C per decade, with some regions even experiencing more than 3°C of cooling per decade – much faster than current global warming of about 0.36 F ( 0.2 C) per decade.

Apart from sending countries into a deep freeze, this would expand Arctic ice further south, further increase heat in the Southern Hemisphere, alter global rainfall patterns and disrupt the Amazon rainforest.

Other scientists say it would be a catastrophe that could cause global food and water shortages.

AMOC collapse: It would change weather worldwide because it means a shutdown of one of the planet's most important climate and ocean forces.  Temperatures in northwestern Europe would drop by 9 to 27 degrees (5 to 15 degrees Celsius) in the coming decades

AMOC collapse: It would change weather worldwide because it means a shutdown of one of the planet’s most important climate and ocean forces. Temperatures in northwestern Europe would drop by 9 to 27 degrees (5 to 15 degrees Celsius) in the coming decades

“We found that once the tipping point is reached, the conveyor belt stops within a hundred years,” the authors said.

‘Heat transport towards the north is greatly reduced, leading to abrupt climate shifts.’

The only thing they couldn’t identify is when exactly this tipping point will be reached, even if it will take at least decades, if not longer.

“The research makes a compelling case that the AMOC is approaching a tipping point based on a robust, physically based early warning indicator,” said Tim Lenton, chair of climate change at the University of Exeter, who was not involved in the study.

“What it cannot (and does not) say is how close the tipping point is, because it shows there is insufficient data to make a statistically reliable estimate of that.”

The research has been published in the journal Scientific progress.

What would the world look like if the Gulf Stream collapsed?

If the AMOC were to collapse, much less heat would reach Western Europe and the region would experience very harsh winters, the kind of scenario depicted in extreme fashion in the film The Day After Tomorrow.

It was relatively stable until the 1800s, but the flow decreased after the so-called ‘Little Ice Age’ ended in 1850.

Temperatures fell so low that the River Thames froze completely and records show Londoners crossed the waterway on foot.

The last shutdown probably occurred at the end of the last ice age, 12,000 years ago, and caused a temperature drop of 5 to 10 degrees Celsius in Western Europe.

In the event of another collapse, not only would European winters become much colder, but droughts, storms and summer heat waves would likely become more common.

Sea levels could rise nearly 20 inches around the North Atlantic basin, which surrounds the U.S. east coast.

This would ultimately push people living along the coast further inland to escape flooding. There would be widespread collapse of deep-sea ecosystems.

In the US, Florida would be particularly hard hit as water flow north would be halted, causing it to pool on the state’s coastline.

An investigation published Last year we looked at the consequences that the termination of the AMOC could have specifically for Great Britain.

The Little Ice Age, a centuries-long cold period that lasted until about 1850. Experts believe that as the North Atlantic Ocean began to warm toward the end of the Little Ice Age, fresh water disrupted the system.  Pictured is Thames Frost Fair, 1683–84, by Thomas Wyke

The Little Ice Age, a centuries-long cold period that lasted until about 1850. Experts believe that as the North Atlantic Ocean began to warm toward the end of the Little Ice Age, fresh water disrupted the system. Pictured is Thames Frost Fair, 1683–84, by Thomas Wyke

Researchers from the University of Exeter made a computer model and found that the weather in 2080 would be 3.4°C colder than last year.

Rainfall during the growing season is expected to decrease by 123 mm, she added.

This, Ars Technica According to reports, this is enough to reduce the UK’s arable land from 32 percent to just seven percent, with major implications for food production.

The impact would not be felt in Europe and the United States, with the collapse of the AMOC also predicted to increase droughts in Africa’s Sahel.