Warming from Arctic Sea Ice Melting More Dramatic than Thought
This pristine photo of Arctic sea ice was taken by scientists from the Alfred Wegener Institute for Polar …
Melting Arctic sea ice
has contributed considerably more to warming at the top of the world
than previously predicted by climate models, according to a new analysis
of 30 years of satellite observations.
Sea ice
helps cool the Arctic by reflecting incoming solar radiation back into
space. Because of its light color, sea ice has what is known as high
albedo, which is the percentage of solar radiation a surface reflects
back to space. Dark ocean water left behind by melting sea ice, on the
other hand, has a low albedo, usually measuring less than 20 percent,
whereas bare sea ice generally measures between 50 and 70 percent,
according to the National Snow and Ice Data Center.
Since as
early as the 1960s, scientists have hypothesized that melting sea ice
amplifies global warming by decreasing Arctic albedo. Researchers have
since devised climate models to demonstrate this phenomenon but, until
now, nobody had relied entirely on satellite data to confirm this effect
through time. [See Stunning Photos of Earth's Vanishing Ice]
Now, scientists based at the University of California, San Diego have
analyzed Arctic satellite data from 1979 to 2011, and have found that
average Arctic albedo
levels have decreased from 52 percent to 48 percent since 1979 — twice
as much as previous studies based on models have suggested, the team
reports today (Feb. 17) in the journal Proceedings of the National
Academy of Sciences.
The
amount of heat generated by this decrease in albedo is equivalent to
roughly 25 percent of the average global warming currently occurring due
to increased carbon dioxide levels, the team reports.
"Although
more work is needed, a possible implication of this is that the
amplifying feedback of Arctic sea ice retreat on global warming is
larger than has been previously expected," study co-author Ian Eisenman
told Live Science.
Previous
models of Arctic albedo have suggested the reflectiveness of white cloud
cover could potentially mitigate a portion of albedo loss due to
melting ice; but these new observations show that cloud cover has had a
negligible effect on overall Arctic reflectivity, the team says.
While Arctic sea ice
will not likely return to 1979 values in the near future, the ice does
change from year to year and might still experience some comeback this
century, though the extent to which this might happen remains unclear,
Eisenman said."There are a lot of questions right now as to why the ice is retreating as fast as it is, and why it has the structure that it has is a little hard to say," said Eisenman. "The cause and effects get subtle — ocean currents respond to sea ice and sea ice responds to currents."
The team is now following up this work by studying how the deposition of black carbon
— a component of soot — on Arctic ice and snow may be darkening these
reflective surfaces and contributing to the decrease in albedo. If this
does turn out to be a significant factor in albedo, it could explain the
underestimations of previous models that didn't account for black
carbon, Eisenman said.
Follow Laura Poppick on Twitter. Follow us @livescience, Facebook& Google+. Original article on Live Science.
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