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RESEARCH
Science
Atmospheric
Sciences
GLOBAL
WARMING
Climate sensitivity may
be higher than many think, researchers say
James E.
Kloeppel, Physical Sciences Editor
(217) 244-1073; kloeppel@uiuc.edu
6/1/2001
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Photo
by Bill Wiegand
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| Michael
Schlesinger, professor of atmospheric sciences, believes that
the probability of severe climate change is much greater than
many scientists or policy-makers had thought. |
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CHAMPAIGN, Ill. — In
the wake of mounting evidence of global warming, decision-makers are
wrestling with related policy issues. Now, researchers at the University
of Illinois have shown that the probability of severe climate change
is much greater than many scientists or policy-makers had thought.
"The size and impacts of anthropogenically induced climate change
strongly depend on the climate sensitivity – the change in equilibrium
surface warming due to a doubling of the concentration of carbon dioxide
in the atmosphere," said Michael Schlesinger, a UI atmospheric
scientist. "According to the Intergovernmental Panel on Climate
Change, the climate sensitivity lies between 1.5 and 4.5 degrees Centigrade."
If the climate sensitivity is less than 1.5 degrees Centigrade, then
climate change may not be a serious problem, Schlesinger said. "If,
however, the climate sensitivity is greater than the IPCC's upper bound,
then climate change may be one of humanity’s most severe problems
of the 21st century. By judging the likelihood of the climate sensitivity
having any particular value – that is, by its probability density
function – the crafting of robust adaptive climate-change policy
could be greatly facilitated."
Schlesinger and UI atmospheric scientist Natalia Andronova used a simple
climate/ocean model and the near-surface temperature record to estimate
the probability density function for climate sensitivity. They considered
16 radiative-forcing models, which included such factors as greenhouse
gases, anthropogenic sulfate aerosol, solar irradiance and volcanoes.
For each model, the changes in global-mean near-surface temperature
were calculated for the years 1765 through 1997.
The researchers found that, as a result of natural variability and uncertainty
in the radiative forcing, the climate sensitivity could lie between
1 and 10 degrees Centigrade. "Consequently, there is a 54 percent
likelihood that the climate sensitivity lies outside the IPCC range,"
Schlesinger said.
"Our results show that the probability density function very strongly
depends on which radiative forcing factors have actually been at work
during the period of the temperature measurements," he said. "At
present, the most likely scenario is one that includes anthropogenic
sulfate aerosol forcing but not solar variation. Although the value
of the climate sensitivity in that case is most uncertain, there is
a 70 percent chance that it exceeds the maximum IPCC value. This is
not good news."
One way to reduce the uncertainty of which probability distribution
is the appropriate one to use in impact and policy studies is "to
determine whether the sun's irradiance has actually changed during the
past 150 years," Andronova said. "Another way would be to
consider the net radiative forcing of all the anthropogenic aerosols,
not just the sulfate aerosol."
A paper discussing the researchers' findings has been accepted for publication
in the Journal of Geophysical Research. The National Science Foundation
and the U.S. Department of Energy supported the work.
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