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Results of a new study show that episodes of reduced precipitation in
the Southern Rocky Mountains, especially during the 2001-2002 drought,
greatly accelerated a rise in numbers of mountain pine beetles. The
overabundance is a threat to regional forests.
The research is the first to chart the evolution of the current pine beetle epidemic in the southern Rocky Mountains.
It
compared patterns of beetle outbreaks in the two primary host species,
the ponderosa pine and lodgepole pine, said University of Colorado at
Boulder (CU-Boulder) researcher Teresa Chapman.
A paper on the subject is published in the current issue of the journal Ecology. Chapman is lead author of the paper; co-authors include CU-Boulder scientists Thomas Veblen and Tania Schoennagel.
The National Science Foundation (NSF) funded the research.
"This
study confirms that warming temperatures and drought are likely
triggers of the widespread bark beetle outbreaks that have devastated
forests over vast areas of the West," said Richard Inouye, program
director in NSF's Division of Environmental Biology.
"It also
suggests why bark beetle outbreaks may vary for two different tree
species," he said, "and how different forests may be more or less
susceptible to these insects that are transforming mountain landscapes."
The
current mountain pine beetle outbreak in the Southern Rockies--which
ranges from southern Wyoming through Colorado and into northern New
Mexico--is estimated to have affected almost 3,000 square miles of
forests.
While the 2001-2002 drought in the West played a key role
in pushing the pine beetle outbreak into a true regional epidemic, the
outbreak continued to gain ground even after temperature and
precipitation levels returned to levels nearer the long-term averages.
The
beetles decimated lodgepole pine forests by moving into wetter and
higher elevations and into less susceptible tree stands--those with
smaller-diameter lodgepoles that share space with other tree species.
"In
recent years some researchers have thought the pine beetle outbreak in
the Southern Rocky Mountains might have started in one place and spread
from there," said Chapman.
"What we found was that the mountain
pine beetle outbreak originated in many locations. The idea that the
outbreak spread from multiple places, then coalesced and continued
spreading, really highlights the importance of the broad-scale drivers
of the pine beetle epidemic, like climate and drought."
Mountain
pine beetles range from Canada to Mexico and are found at elevations
from sea level to 11,000 feet. These native insects have shaped the
forests of North America for thousands of years by attacking old or
weakened trees, resulting in younger forests.
The effects of pine
beetle overpopulation are especially evident in recent years on
Colorado's Western Slope, including Rocky Mountain National Park, with a
particularly severe epidemic occurring in Grand and Routt counties.
The
most recent mountain pine beetle outbreak began in the 1990s, primarily
in scattered groups of lodgepole pines at low elevations in areas of
lower annual precipitation.
Following the 2001-2002 drought, the
outbreak was "uncoupled" from the initial weather and landscape
conditions, triggering a rise in beetle populations on the Western Slope
and propelling the insects over the Continental Divide into the
Northern Front Range to infect ponderosa pine, Chapman said.
The
current pine beetle epidemic in the Southern Rocky Mountains also was
influenced by extensive forest fires that ravaged Colorado's Western
Slope from roughly 1850 to 1890.
Lodgepole pine stands completely
burned off by the fires were followed by huge swaths of seedling
lodgepoles that eventually grew side-by-side into dense mature stands,
making them easier targets for the pine beetles.
"The widespread
burning associated with dry years in the 19th century set the stage by
creating vast areas of trees in the size classes most susceptible to
beetle attack," said Chapman.
Veblen said a 1980s outbreak of the
pine beetle in Colorado's Grand County ended when extremely low minimum
temperatures were reached in the winters of 1983 and 1984, killing the
beetle larvae.
But during the current outbreak, minimum
temperatures during all seasons have been persistently high since 1996,
well above the levels of extreme cold shown to kill beetle larvae in
laboratory experiments.
"This implies that under continued warming
trends, future outbreaks will not be terminated until they exhaust
their food supply--the pine tree hosts," said Veblen.
Chapman
said there has been a massive and unprecedented beetle epidemic in
British Columbia, which also began in the early 1990s and now has
affected nearly 70,000 square miles.
"It is hard to tell if this
current beetle epidemic in the Southern Rockies is unprecedented," she
said. "While warm periods in the 16th century may have triggered a
large beetle epidemic, any evidence would have been wiped out by the
massive fires in the latter 19th century."
The rate of spread of
the mountain pine beetle in lodgepole pine forests has declined in the
southern Rocky Mountains during the past two years because of a
depletion of host pine population.
But surveys indicate that the
rate of beetle spread in ponderosa pine forests on the Front Range has
increased sharply over the past three years.
The current study
suggests that under a continued warmer climate, the spread of the beetle
in ponderosa pines is likely to grow until that food source also is
depleted.
"Our results emphasize the importance of considering
different patterns in the population dynamics of mountain pine beetles
for different host species, even under similar regional-scale weather
variations," said Chapman.
"Given the current outbreak of
mountain pine beetles on the Front Range, the effect on ponderosa pines
is certainly something that needs further study."
-NSF-
Media Contacts
Cheryl Dybas, NSF (703) 292-7734 cdybas@nsf.gov
Jim Scott, University of Colorado at Boulder (303) 492-3114 jim.scott@colorado.edu
Jim Scott, University of Colorado at Boulder (303) 492-3114 jim.scott@colorado.edu
The National Science Foundation (NSF) is an independent federal
agency that supports fundamental research and education across all
fields of science and engineering. In fiscal year (FY) 2012, its budget
is $7.0 billion. NSF funds reach all 50 states through grants to nearly
2,000 colleges, universities and other institutions. Each year, NSF
receives over 50,000 competitive requests for funding, and makes about
11,000 new funding awards. NSF also awards nearly $420 million in
professional and service contracts yearly.
Useful NSF Web Sites:
NSF Home Page: http://www.nsf.gov
NSF News: http://www.nsf.gov/news/
For the News Media: http://www.nsf.gov/news/newsroom.jsp
Science and Engineering Statistics: http://www.nsf.gov/statistics/
Awards Searches: http://www.nsf.gov/awardsearch/
NSF Home Page: http://www.nsf.gov
NSF News: http://www.nsf.gov/news/
For the News Media: http://www.nsf.gov/news/newsroom.jsp
Science and Engineering Statistics: http://www.nsf.gov/statistics/
Awards Searches: http://www.nsf.gov/awardsearch/
The National Science Foundation (NSF).
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
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ayabaca@yahoo.com
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