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Tuesday, September 14, 2010

Opposing decadal changes for the North Atlantic meridional overturning circulation, Nature Geosci. (Sept. 12, 2010), M. S. Lozier, V. Roussenov, M. S. C. Reed & R. G. Williams

Nature Geoscience, published online 12 September 2010; doi: 10.1038/ngeo947

Opposing decadal changes for the North Atlantic meridional overturning circulation

M. Susan Lozier1, Vassil Roussenov2, Mark S. C. Reed1 and Richard G. Williams2


The hydrographic properties of the North Atlantic Ocean changed significantly from 1950 to 2000: the subtropics warmed and became more saline, whereas the subpolar ocean cooled and freshened. These changes directly affect the storage of heat and fresh water in the ocean, but their consequences for ocean dynamics are determined by the resultant changes in seawater density. Here we use historical hydrographic data to show that the overall seawater density in the North Atlantic basin decreased during this 50-year period. As a result of these density changes, sea-surface heights changed in a spatially varying pattern with typical rates of 2mmyr−1, in broad agreement with tide-gauge measurements. Melding the observed density fields within a numerical model we find a slight weakening in the overturning of the subtropical gyre by −1.5±1Sv and a slight strengthening in the overturning of the subpolar gyre by −0.8±0.5Sv. These gyre-specific changes run counter to the canonical notion of a single, basin-scale overturning cell and probably reflect interannual and decadal trends rather than any long-term climate trend. We conclude that gyre dynamics strongly affect temperature and salinity changes that translate into changes in the meridional overturning circulation.


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