Atlantic current collapse may already be locked in

New simulations show a 10 to 23 percent chance that the Atlantic Meridional Overturning Circulation has already reached a point of no return.

Researchers ran 21 computer models with different emissions peaks and Greenland ice melt rates. The results indicate that even under conservative assumptions with emissions peaking in 2025, there is a 10 percent chance the circulation is committed to collapse.

Phil Holden at the Open University said there is a significant probability that collapse is already inevitable. Under higher melt rates adding 274 millimetres to sea level by 2100, that probability rises to 23 percent.

If emissions do not reach net zero until 2100, the chance of collapse reaches 80 percent. Any collapse would still be decades away, with an average delay of 84 years after commitment and the earliest possible shutdown around 2060.

Tim Lenton at the University of Exeter noted that rapid emissions cuts could keep the risk closer to the lower end of the estimates.

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New climate modeling indicates that the Atlantic Meridional Overturning Circulation may weaken steadily due to Greenland meltwater but could recover if atmospheric carbon dioxide levels decline.

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A new study warns that a shutdown of the Atlantic Meridional Overturning Circulation (AMOC) would trigger the release of up to 640 billion tonnes of carbon dioxide from the deep Southern Ocean near Antarctica. This feedback effect could raise global temperatures by an additional 0.2°C. Researchers at the Potsdam Institute for Climate Impact Research highlight the risk as humanity's emissions continue to weaken the key ocean current.

Scientists using deep-diving Argo floats have pinpointed the reason behind Antarctica's dramatic sea ice contraction starting in 2016. The decline stems from a violent release of pent-up heat from ocean depths, triggered by shifting winds and salinity changes. This discovery highlights the ocean's key role in sea ice variability.

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An international team led by the University of Portsmouth has cataloged more than 3,100 surging glaciers worldwide that can suddenly accelerate, triggering floods, avalanches and other hazards. These glaciers, concentrated in regions like the Arctic and Karakoram Mountains, affect nearly one-fifth of global glacier area despite comprising just 1 percent of all glaciers. Climate change is altering their behavior, increasing unpredictability.

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