Michael Bastasch, DCNF

New evidence suggests climate model predictions are way off when it comes to the Gulf Stream.

Scientists warned global warming could halt the Atlantic’s “conveyor belt” and plunge temperatures.

However, observational data contradicts this alarming prediction and suggests climate models are wrong.

New evidence casts further doubt on model-based predictions that global warming could halt the Gulf Stream currents as part of an alarming scenario that inspired the 2004 disaster film, “The Day After Tomorrow.”

For years, scientists warned global warming could halt the Atlantic’s “conveyor belt” and foment extreme weather and raise sea levels from North America to Europe. That prediction is based on climate models that, the new study found, may be analyzing the wrong thing.

“Some of these models are producing five times the amount of Labrador Sea water they should be producing, based on observations,” lead author Susan Lozier, a professor at Duke University, told The Washington Post Friday.

Lozier’s study found that climate models overestimate the role of the Labrador Sea west of Greenland in the Atlantic meridional overturning circulation (AMOC). The study found the Nordic Sea east of Greenland played a dominant role in the AMOC.

Lozier led an international effort to measure AMOC in the North Atlantic. Scientists from 16 organizations launched the Overturning in the Subpolar North Atlantic Program (OSNAP) in 2014, and now released data collected during the first 21 months of operations.

Some researchers cautioned that 21 months of data is too sparse to draw firm conclusions, but that, if these results hold, it would be a dramatic change in our understanding of how the AMOC works.

Observational data is available for the Gulf Stream closer to the U.S., which brings warm water north. A 2014 study examining actual measurements taken off the U.S. coast found “absolutely no evidence that suggests that the Gulf Stream is slowing down,” its lead author said.

The AMOC is like a conveyor belt that brings warm, salty water north towards Greenland where it’s mixed with fresher cold water. As the water cools, it sinks and influences the climate and regional weather patterns.

Polar ice melt and enhanced rainfall is putting more cold, fresher water into the Labrador Sea, reducing salinity and disrupting the key current, some scientists say. Climate models generally predict warming will weaken the AMOC, but observational evidence has been scant.

Indeed, a 2018 study claimed of a “tipping point” in the coming decades whereby the AMOC could shutdown completely. That study analyzed sea surface temperatures since the mid-19th Century, but did not collect any field data on the AMOC.

“The specific trend pattern we found in measurements looks exactly like what is predicted by computer simulations as a result of a slowdown in the Gulf Stream System, and I see no other plausible explanation for it,” scientist Stefan Rahmstorf, one of the 2018 study’s authors, said in a statement last year.

A second 2018 study used proxy data, not observational evidence, to claim the AMOC had become “anomalously weak over the past 150 years or so” in comparison to the previous 1,500 years.

Former Vice President Al Gore featured that prediction in his 2006 film “An Inconvenient Truth,” and it also formed the premise of the 2004 blockbuster disaster film “The Day after Tomorrow.”

However, many scientists were skeptical of the studies since neither relied on observational evidence. Lozier’s study provides further evidence that climate models may be wrong on more than just temperature rise.

“I think that’s one big take-home message from our study, is that these previous papers that have discussed that are almost like barking up the wrong tree,” Bob Pickart, an oceanographer and a co-author of the study, told ScienceNews.

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