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NASA
Examines Arctic Sea Ice Changes Leading to Record Low In 2007
Monday, October 1, 2007
QuikScat
measurements of Arctic perennial sea ice coverage (shown in
red) in winter 2006 were 14-percent less than in winter
2005.
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Image
credit: NASA/JPL
A new NASA-led study found
a 23-percent loss in the extent of the Arctic's thick, year-round
sea ice cover during the past two winters. This drastic reduction
of perennial winter sea ice is the primary cause of this summer's
fastest-ever sea ice retreat on record and subsequent
smallest-ever extent of total Arctic coverage.
A team led
by Son Nghiem of NASA's Jet Propulsion Laboratory, Pasadena,
Calif., studied trends in Arctic perennial ice cover by combining
data from NASA's Quick Scatterometer (QuikScat) satellite with a
computing model based on observations of sea ice drift from the
International Arctic Buoy Programme. QuikScat can identify and
map different classes of sea ice, including older, thicker
perennial ice and younger, thinner seasonal ice. Between winter
2005 and winter 2007, the perennial ice shrunk by an area the
size of Texas and California combined. This severe loss continues
a trend of rapid decreases in perennial ice extent in this
decade. Study results will be published Oct. 4 in the journal
Geophysical Research Letters.
The scientists observed
less perennial ice cover in March 2007 than ever before, with the
thick ice confined to the Arctic Ocean north of Canada.
Consequently, the Arctic Ocean was dominated by thinner seasonal
ice that melts faster. This ice is more easily compressed and
responds more quickly to being pushed out of the Arctic by winds.
Those conditions facilitated the ice loss, leading to this year's
record low amount of total Arctic sea ice.
Nghiem said
the rapid decline in winter perennial ice the past two years was
caused by unusual winds. "Unusual atmospheric conditions set
up wind patterns that compressed the sea ice, loaded it into the
Transpolar Drift Stream and then sped its flow out of the
Arctic," he said. When that sea ice reached lower latitudes,
it rapidly melted in the warmer waters.
"The winds
causing this trend in ice reduction were set up by an unusual
pattern of atmospheric pressure that began at the beginning of
this century," Nghiem said.
The Arctic Ocean's shift
from perennial to seasonal ice is preconditioning the sea ice
cover there for more efficient melting and further ice reductions
each summer. The shift to seasonal ice decreases the reflectivity
of Earth's surface and allows more solar energy to be absorbed in
the ice-ocean system.
The perennial sea ice pattern
change was deduced by using the buoy computing model infused with
50 years of data from drifting buoys and measurement camps to
track sea ice movement around the Arctic Ocean. From the 1970s
through the 1990s, perennial ice declined by about 193,000 square
miles each decade. Since 2000, that rate of decline has nearly
tripled.
Results from the buoy model were verified
against the past eight years of QuikScat observations, which have
much better resolution and coverage. The QuikScat data were
verified with field experiments conducted aboard the U.S. Coast
Guard icebreaker Healy as well as by sea ice charts derived from
multiple satellite data sources by analysts at the National
Oceanic and Atmospheric Administration’s National Ice
Center in Suitland, Md.
The new study differs
significantly from other recent studies that only looked at the
Arctic's total sea ice extent. "Our study applies QuikScat's
unique capabilities to examine how the composition of Arctic sea
ice is changing, which is crucial to understanding Arctic sea ice
mass balance and overall Arctic climate stability," Nghiem
said.
Pablo Clemente-Colón of the National Ice
Center said the rapid reduction of Arctic perennial sea ice
requires an urgent reassessment of sea ice forecast model
predictions and of potential impacts to local weather and
climate, as well as shipping and other maritime operations in the
region. "Improving ice forecast models will require new
physical insights and understanding of complex Arctic processes
and interactions."
Other organizations participating
in the study include the University of Washington's Polar Science
Center, Seattle, and the U.S. Army Cold Regions Research and
Engineering Laboratory, Hanover, N.H.
Source:
NASA / JPL
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