News has come that the famed ocean conveyor belt, subject of countless TV documentaries and science lessons, is not as simple as scientists believed. The 50 year old model of global ocean circulation that predicts a deep Atlantic counter current below the Gulf Stream has been called into question by an armada of drifting subsurface sensors. As shocking as this news it to oceanographers it is even worse for climate modelers—it means that all the current climate prediction models are significantly wrong.
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It is known by many names: the meridional overturning current (MOC), the thermohaline circulation (THC), and, popularly, the great ocean conveyor belt. It has been the subject of study by oceanographers for half a century and is known to be a fundamentally important part of earthly climate regulation. It is the primary mechanism for transferring heat from the tropics to higher latitudes, the proximate reason that the occasional palm tree grows on the south coast of England. Until now, scientists thought they had a pretty good handle on how the current flowed, the mechanisms that drove the circulation and affects climate world wide.
A new report by Amy Bower of Wood’s Hole and Susan Lozier of Duke University et al., to be published in a forthcoming issue of Nature, has rocked the climate community's complacency. A bevy of subsurface RAFOS floats, drifting 2200 – 4900 feet (700 – 1500 m) deep, have shown several fundamental assumptions about the structure of the current to be wrong. RAFOS floats (SOFAR spelled backward) are floating instruments designed to move with the water and track the water's movements. It seems that 75% of the RAFOS floats escaped the Deep Western Boundary Current (DWBC) and drifted into open ocean. Only 8% of the RAFOS floats followed the DWBC conveyor belt current, according to the Nature report.
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