A new international study finds that the Atlantic meridional overturning circulation (MOC), a deep-ocean process that plays a key role in regulating Earth's climate, is primarily driven by cooling waters west of Europe.

In a departure from the prevailing scientific view, the study shows that most of the overturning and variability is occurring not in the Labrador Sea off Canada, as past modeling studies have suggested, but in regions between Greenland and Scotland. There, warm, salty, shallow waters carried northward from the tropics by currents and wind, sink and convert into colder, fresher, deep waters moving southward through the Irminger and Iceland basins.

Overturning variability in this eastern section of the ocean was seven times greater than in the Labrador Sea, and it accounted for 88 percent of the total variance documented across the entire North Atlantic over the 21-month study period.

The study provides the first opportunity to directly link changes in the intensity of the MOC with the processes that drive deep water formation. The findings are important in understanding climate change, said co-author William Johns, professor of ocean sciences at the University of Miami (UM) Rosenstiel School of Marine and Atmospheric Science.

"It is critical that we learn more about how changes in the overturning circulation affect heat and carbon storage in the oceans and how these changes might feed back on our future climate," said Johns who co-led the planning, testing and deployments of the observing system that produced the new data.

These findings, unexpected as they may be, can help scientists better predict what changes might occur to the MOC and what the climate impacts of those changes will be, said co-author Susan Lozier, Professor of Earth and Ocean Sciences at Duke University's Nicholas School of the Environment.

"To aid predictions of climate in the years and decades ahead, we need to know where this deep overturning is currently taking place and what is causing it to vary," said Lozier, who co- led the international observational study.

The North Atlantic has the largest reservoir of anthropogenic carbon. Overturning carries vast amounts of this carbon deep into the ocean, helping to slow global warming. It also transports tropical heat northward, meaning any changes to it could have an impact on glaciers and Arctic sea ice. Understanding what is happening, and what may happen in the years to come, is vital.

Scientists from 16 research institutions from seven countries collaborated on the new study. They published their peer-reviewed findings Feb. 1 in Science.

"I cannot say enough about the importance of this international collaboration to the success of this project," Lozier said. "Measuring the circulation in the subpolar North Atlantic is incredibly challenging so we definitely needed an 'all hands on deck' approach."

This paper is the first from the $32 million, five-year initial phase of the OSNAP (Overturning in the Subpolar North Atlantic Program) research project, in which scientists have deployed moored instruments and sub-surface floats across the North Atlantic to measure the ocean's overturning circulation and shed light on the factors that cause it to vary. Lozier is co-lead investigator of the project, which began in 2014.

Though the overturning in the Labrador Sea is smaller than the scientists expected, they have learned this basin plays a large role in transporting freshwater from the Arctic and that continued measurements in that basin will be increasingly important, as the Arctic changes unexpectedly.

The new paper contains data collected over a 21-month period from August 2014 to April 2016.

Research paper

Related Links
University of Miami Rosenstiel School of Marine and Atmospheric Science
Water News - Science, Technology and Politics

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