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The transition from
an ice age to an ice-free planet 300
million years ago was highly unstable, marked by dips and rises in
carbon
dioxide, extreme swings in climate and drastic effects on tropical
vegetation,
according to a study published in the journal Science
January 5. "This is the best
documented record we have of what
happens to the climate system during long-term global warming following
an ice
age," said Isabel Montanez, professor of geology at the In the mid-Permian,
300 million years ago, the Earth was in
an ice age. Miles-thick ice sheets covered much of the southern
continent, and
floating pack ice likely covered the northern polar ocean. The tropics
were
dominated by lush rainforests, now preserved as coal beds. Forty million years
later, all the ice was gone. The world
was a hot, dry place, vegetation was sparse, soils little more than
drifts of
wind-blown dust. "You'd have to be a
reptile to want to live
there," Montanez said. Montanez and her
co-authors derived records of atmospheric
carbon dioxide from ancient soils that have been preserved as rocks,
from coal
and from fossils of plants. They extracted a record of sea surface
temperatures
from the fossils of brachiopod shellfish and looked at the extensive
records of
past plant life from fossils of the ancient rainforests. To see how the
glaciers advanced and retreated, they looked at the scars and clues
left by ice
sheets that once covered the great southern continent of Gondwanaland,
which
included most of the land masses of the modern southern hemisphere. They placed
statistical constraints on their data with
computer modeling by Deb Niemeier, professor of civil and environmental
engineering and director of the John Muir Institute of the Environment
at UC
Davis. The new data show
that throughout millions of years,
atmospheric carbon dioxide levels swung back and forth between about
250 parts
per million, close to present-day levels, to more than 2,000 parts per
million.
At the same time, the southern ice sheets retreated as carbon dioxide
rose and
expanded again when levels fell, a pattern compatible with the idea
that
greenhouse gases caused the end of the late Paleozoic ice age. "We can see a
pattern of increasing carbon dioxide and
increasing temperatures, with a series of rises and dips," Montanez
said. Scientists had
assumed that as the climate warmed, a tipping
point would be reached at which the ice sheets would melt rapidly and
for good.
Instead, the new data shows that the climate went back and forth
between the
extremes. But the overall trend was to warming, and by 260 million
years ago,
the ice sheets were gone. Records of fossil
plants show rapid changes in tropical
plant communities as the climate changed. On scales of a few thousand
years,
lush forests of tree ferns in cool, wet periods alternated with
conifers and
other plants adapted to a harsher, drier and warmer climate. "The Permian
greenhouse is the only record we have of
the transition from an ice age to an ice-free climate on a vegetated
planet," Montanez said. But instead of a smooth shift, the transition
occurred in a series of sharp swings between cold and hot conditions,
occurring
during perhaps a half-million to few million years. But Montanez pointed
out that these results cannot be
directly applied to current global warming. The current rise in
atmospheric
carbon dioxide is occurring throughout a much shorter timescale, for
one thing.
But the current work does show that such a major change in climate will
likely
not proceed in small, gradual steps, but in a series of unstable,
dramatic
swings. While these data cover millions of years, similar events might
take
place during a much shorter time span. "Perhaps this is the
behavior one should expect when we
go through a major climate transition," Montanez said. Further, the record
of fossil plants shows the drastic
effects of major climate change on living things. In the modern era,
tropical
forests are already stressed by human use and settlement, and
ecological
researchers have recorded species moving north or south, likely driven
by
current global warming.
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