AMOC Current Collapse: Signs It May Already Be Happening

Atlantic Ocean Currents Visualization

Visualization of Atlantic Currents Based on Sea Surface Temperature Data

NASA/Goddard Space Flight Center Scientific Visualization Studio

Research indicates that a potentially disastrous collapse of the Atlantic Current—a crucial climate regulator for Europe—may be inevitable. Model forecasts suggest a 10 to 23 percent chance of this collapse becoming permanent.

“We are already on the brink of collapse, and even now, nothing can alter that,” states Phil Holden from the Open University, UK.

The Atlantic Meridional Overturning Circulation (AMOC) is vital for transporting warm, salty waters from the tropics to the North Atlantic. Here, the water cools, sinks, and travels south, regulating climate across Europe, Africa, and the Americas.

Recent observations reveal signs of weakening in this critical system, particularly a slowdown in specific regions. Factors such as Greenland melting and climate change are contributing, resulting in less dense saltwater that hampers the rate of subsidence.

Scientists warn that if AMOC collapses, Europe may face near-Arctic conditions, while global monsoon systems could weaken. A recent study suggests AMOC may reach a tipping point within a few decades, although estimating the likelihood remains challenging.

“Currently, the collapse of AMOC is somewhat invisible,” Holden remarked. “We lack clear predictions concerning the timing and quantification of such events.”

“There are abundant uncertainties and differing views within the scientific community,” adds Tim Renton from the University of Exeter, UK.

To enhance understanding of the AMOC’s dynamics, Holden, Renton, and their colleagues conducted 21 computer simulations from 2005 to 2135, varying rates of Greenland ice melt and peak emissions. The team anticipates that greenhouse gas emissions will decline to net zero over 35 years post-peak, with a consistent rate of ice melt.

Under conservative scenarios predicting peak emissions by 2025 and only 54 millimeters of sea-level rise from the Greenland ice sheet by 2100, there is already a 10 percent chance of AMOC collapse. This is defined as a circulation that occurs solely at lower latitudes, with reversed currents ceasing to deliver heat to higher latitudes.

Models predict that failing to commence a net-zero trajectory by 2100 could escalate the collapse probability to 80 percent.

Conversely, melting Greenland ice may raise sea-level rise predictions to 274 mm by 2100, which could increase the collapse probability to 23 percent.

Even with an inevitable collapse, it will take considerable time. Simulations show the average delay from the onset of collapse to its manifestation is about 84 years, with the earliest occurrence around 2060.

Tackling the notion of a “committed collapse,” Up to Wagner views this framing as useful for risk management. Yet, applying this to reality is complex. “There’s strong evidence of weakening, yet major mechanical consequences remain uncertain,” he cautioned.

According to Jonathan Baker from the UK’s Met Office, the simulation offers valuable insights into AMOC’s response to various conditions. However, the model’s lower resolution may affect risk estimates compared to other high-resolution climate models.

While state-of-the-art climate models operate on a 1° grid, extensive computations are required for long-term simulations. The chosen model for this study uses a 5° grid, a strategic decision due to computational limitations.

“Previous technology didn’t allow for high-resolution models,” Renton explained. Although lower resolution raises risk estimates, recent research indicates that higher resolutions may increase, rather than diminish, the estimates.

“Further investigations employing various climate models alongside broader evidence are crucial before drawing solid conclusions about potential AMOC collapse risks,” Baker emphasized.

If the world is progressing toward AMOC collapse, as modeled, it underscores the urgent need for emission reductions. Renton asserts that delaying net-zero commitments will significantly raise the probability of collapse. A ten-year delay may lead to an average collapse timeframe of 57 years instead of 84 years.

“What this model conveys is a pressing need to accelerate our journey to net-zero emissions and maintain the collapse risk at 10%,” Renton urged.

This aligns with recent studies indicating that AMOC’s slowdown could be reversed if carbon emissions are effectively reduced.

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Source: www.newscientist.com

When will the clock change to UK 2025 and why is the move forward happening?

British Summer Time (BST) is back in England, meaning the clocks are about to move forward by one hour. But when exactly will this change happen in the UK in 2025? And why do we shift time twice a year?

When will the clocks change in 2025?

In the UK, the clocks will spring forward on Sunday, March 30th, 2025 at 1am, meaning the official time will instantly become 2am.

What does this mean practically? Evening sunlight will last longer – London’s sunset will shift from around 6:29pm on Saturday to 7:30pm on Sunday.

Then, in a different direction, the clocks will fall back on October 27, 2024, giving us an extra hour in bed. However, on this occasion, that extra hour will not be granted.

British Summer Time will remain until Sunday, October 26th, 2025, when we will revert back to Greenwich Mean Time (GMT).

Most devices nowadays automatically adjust for daylight saving time, but you might need to manually change older clocks and appliances.

Will the clocks go forward in March or will they fall back?

In March, the clocks will move forward – we lose an hour of sleep but gain longer evenings.

In October, the clocks will fall back, giving us extra time in bed and marking the return to shorter daylight hours. The phrase “Spring forward, fall back” is a handy way to remember this.

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Why do we move the clocks forward?

While the concept may not have scientific roots, daylight saving time serves a practical purpose of maximizing the use of daylight during the summer months.

By moving the clocks forward, we extend daylight into the evening, which is beneficial for activities like evening walks, sports, and finishing work in daylight. This system is also used in parts of the Southern Hemisphere to align with the summer season.

Where did daylight saving time originate?

This idea is often credited to George Hudson, an insect enthusiast from New Zealand. He proposed the idea in 1895 to shift the clocks for more evening sunlight.

Germany was the first country to officially implement daylight saving time in 1916 during World War I. The UK followed suit shortly after, along with other countries involved in the conflict.

Why do some people want to stop changing the clocks?

Critics argue that daylight saving time can have negative effects including sleep disruptions, increased risk of heart attacks, and confusion in daily routines, especially for teenagers.

Disrupting morning sunlight can interfere with the body’s internal clock, affecting mood and alertness. Some believe that with more flexible working patterns and 24-hour lifestyles, daylight saving time is becoming less relevant.

Do all countries follow daylight saving time?

Of the 195 countries worldwide, only about 70 observe daylight saving time, and many are reconsidering its necessity. Equatorial countries tend to skip daylight saving time as they receive consistent sunlight throughout the year.

In Europe, the European Parliament proposed abolishing biannual clock changes in 2019, but the decision has yet to be finalized. For now, European countries continue to align their clocks with the UK.

Some research stations in Antarctica alternate between GMT and Central European Summer Time, making their timekeeping quite unusual.

How to adjust to clock changes?

To minimize the impact of losing an hour, consider adjusting your bedtime gradually leading up to the time change. Getting natural light early in the morning and staying active can help reset your internal clock.

If you have young children or pets, be prepared for disruptions in their routines. To learn more about minimizing the health impact of daylight saving time changes, check out expert tips on how to cope.

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Source: www.sciencefocus.com