Ocean plankton sponge up nearly twice the carbon currently assumed
http://news.uci.edu/press-releases/ocean-plankton-sponge-up-nearly-twice-the-carbon-currently-assumed/[font face=Serif][font size=5]Ocean plankton sponge up nearly twice the carbon currently assumed[/font]
[font size=4]Famed marine principle refuted by UCI-led study[/font]
[font size=3]Irvine, Calif. Models of carbon dioxide in the worlds oceans need to be revised, according to new work by UC Irvine and other scientists published online Sunday in Nature Geoscience. Trillions of plankton near the surface of warm waters are far more carbon-rich than has long been thought, they found. Global marine temperature fluctuations could mean that tiny Prochlorococcus and other microbes digest double the carbon previously calculated. Carbon dioxide is the leading driver of disruptive climate change.
In making their findings, the researchers have upended a decades-old core principle of marine science known as the Redfield ratio, named for famed oceanographer Alfred Redfield. He concluded in 1934 that from the top of the worlds oceans to their cool, dark depths, both plankton and the materials they excrete contain the same ratio (106:16:1) of carbon, nitrogen and phosphorous.
But as any gardener who has done a soil test knows, amounts of those elements can vary widely. The new studys authors found dramatically different ratios at a variety of marine locations. What matters more than depth, they concluded, is latitude. In particular, the researchers detected far higher levels of carbon in warm, nutrient-starved areas (195:28:1) near the equator than in cold, nutrient-rich polar zones (78:13:1).
The Redfield concept remains a central tenet in ocean biology and chemistry. However, we clearly show that the nutrient content ratio in plankton is not constant and thus reject this longstanding central theory for ocean science, said lead author Adam Martiny, associate professor of Earth system science and ecology & evolutionary biology at UC Irvine. Instead, we show that plankton follow a strong latitudinal pattern.
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http://dx.doi.org/10.1038/ngeo1757