Santa Barbara, Calif.) -- A green ocean is
a productive ocean; the light from the sun helps the phytoplankton -- tiny
ocean plants -- to be productive. This production in turn drives ocean
food webs. New research, published in Science on April 26, assesses the
color of the ocean and finds that many key ecosystem parameters describing
marine food web function are nearly constant across the entire North
Atlantic Ocean. The research is also expected to yield clues about the
carbon cycle and global warming.
David Siegel, professor of geography at the University of California,
Santa Barbara, and first author on the paper, analyzed satellite ocean
color data from the 'Sea-viewing Wide Field of view Sensor' called "Sea
WiFS" to address the factors regulating the spring bloom of phytoplankton
in the North Atlantic Ocean.
"When viewed from space, the North Atlantic spring bloom is among the
largest mass greenings observed on the Earth surface extending over scales
of more than 2000 kilometers," states the article. The blooming propagates
to the north at speeds of 20 kilometers per day, leaving a green wake in
its path.
"The productivity of the ocean is well established," said Siegel. "What we
don't know is how it gets recycled, how the food chain works. We're trying
to get at these loss processes, which will tell us how the ocean's
biological pump works."
The biological pump is the mechanism by which carbon dioxide is exported
from the surface ocean into the deep ocean via sinking particles. It is a
critical factor in the carbon cycle and global warming.
The satellite data showed light flux and greenness or chlorophyll. From
this information Siegel and colleagues were able to deduce the conditions
required to start a "spring bloom."
The data also showed that the partitioning of ecosystem function is
constant. "It shows the resilience of open ocean communities," said
Siegel, "and that simple models may indeed work."
Previously this research on spring blooms was done at sea with microscopes
and other tools. But with the satellite, Siegel was able to evaluate the
process using tens of thousands of data points.
"This opens the door to using satellite measurements to study grazing and
respiration," said Siegel. "These important loss processes have not yet
been well characterized."
Jim Yoder, a co-author of the report, and currently division director of
ocean sciences at the National Science Foundation, commented, "We used
satellite and other data to observe the start of the phytoplankton growth
period (bloom) in the North Atlantic ocean. We were able to confirm that a
simple model developed many years ago, based on observations in coastal
waters can be used to explain the timing of the spring growth period in
the entire North Atlantic. We also quantified the role that plankton
animals and bacteria play in determining the timing of the phytoplankton
bloom and its duration."
The work was funded by NASA and the National Science Foundation.
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Contact: David Siegel, (805) 893-4547, after Thursday April 25 at noon
Pacific Time call (805) 451-0611 or davey@icess.ucsb.edu
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