Slowdown of the meridional overturning circulation in the upper Pacific Ocean

Decadal temperature fluctuations in the Pacific Ocean have a significant effect on marine ecosystems and the climate of North America. The physical mechanisms responsible for these fluctuations are poorly understood. Some theories ascribe a central role to the wind-driven meridional overturning circulation between the tropical and subtropical oceans. Here we show, from observations over the past 50 years, that this overturning circulation has been slowing down since the 1970s, causing a decrease in upwelling of about 25% in an equatorial strip between 9 degreesN and 9 degreesS. This reduction in equatorial upwelling of relatively cool water, from 47 x 10(6) to 35 x 10(6) m(3) s(-1), is associated with a rise in equatorial sea surface temperatures of about 0.8 degreesC. Another effect of the slowing circulation is a reduction in the outgassing of CO2 from the equatorial Pacific Ocean-at present the largest oceanic source of carbon dioxide to the atmosphere.