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December
26, 2006 Western U.S.
wildfires are likely
to increase in the coming decades, according to a new tree-ring study
led by
the States like
Washington, Oregon,
California, Colorado, New Mexico, Arizona and South Dakota all had an
increased
prevalence of wildfires in recent centuries when a phenomenon known as
the
Atlantic Multi-Decadal Oscillation -- similar but longer in duration
than the
better known El Nino-Southern Oscillation -- periodically shifted from
a cool
to a warm mode that lasted roughly 60 years each time, said the study
authors. Warmer waters in the
North
Atlantic correspond with episodes of drought and subsequent fires in
the West
as shown by fire scars in annual tree rings studied by the researchers,
said
Thomas Kitzberger of the University of Comahue, who led the study with
researchers from CU-Boulder, the University of Arizona, the U.S. Forest
Service
and Rocky Mountain Tree-Ring Research Inc., a private lab in Fort
Collins,
Colo. Kitzberger, who
received his
doctorate from CU-Boulder in 1994 under co-author and CU-Boulder
geography
Professor Thomas Veblen, said the While previous
tree-ring studies
have linked fires in different regions of western North America to
drought
associated with the warm El Niño phase or cool La
Niña phase of the Southern
El-Niño Southern Oscillation phenomenon in the Pacific, the
new study is the
first to correlate the Atlantic Multi-Decadal Oscillation with
increased North
American fires on such a large scale, said the authors. The team
analyzed
nearly 34,000 individual fire scar dates from tree rings, primarily
ponderosa
pine and Douglas fir, at 241 sites -- the largest record of tree rings
linked
to past wildfires ever assembled. "This trend of
warmer
sea-surface temperatures in the Although the
atmospheric
mechanisms relating drought in North America to sea-surface
temperatures in the
North Atlantic are subject to debate among climatologists, there is a
strong
statistical association of drought and fire in western "The key issue is
that the
Atlantic Multi-Decadal Oscillation persists on time scales of 60 to 80
years,
compared to just one year or a few years for El Niño," he
said. Veblen said warmer
temperatures
in the West since the 1990s have exacerbated outbreaks of spruce and
pine
beetle populations, which have decimated millions of acres of
coniferous
forests in the West. "There is good evidence that warming trends like
the
one we are now seeing is very favorable for the population growth of
these
beetles." Fire suppression
activities
during the 20th century have increased fuels and fire hazard in some
forest
types, although forest thinning may help reduce the impact of some
severe fires
by eliminating potential fuel sources, Veblen said. But the
effectiveness of
such practices pale in comparison to the potential of climatic factors. "The driving factor
influencing wildfires is overwhelmingly climate variation, which is why
studies
like these are crucial," he said. "This study
underscores the
value of building large networks of high-resolution fire history data
to better
understand how climate may affect fire regimes over large areas of the
globe," said Kitzberger. The team used data from the International
Multiproxy Paleofire Database that is maintained by the National
Oceanic and
Atmospheric Administration.
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