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sábado, 29 de junio de 2013

nsf.gov : Ghosts of Forests Past: Bark Beetles Kill Lodgepole Pines, Affecting Entire Watersheds

Bark beetle epidemic changing water quality as well as forest health,
Mountain with dried trees in a forest overlooking Grand Lake, Colorado
Ghosts of a forest past: bark beetle-killed trees overlook Grand Lake, Colo.
Credit: Lindsay Bearup
Download the high-resolution JPG version of the image. (3.3 MB)
A stream going through bark beetle-felled trees
Bark beetle-felled trees fall, landing on a river and likely affecting the health of its waters.
Credit: Lindsay Bearup
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Scientists with soil and microbial samples beneath a beetle-killed tree.
Scientists take soil and microbial samples beneath a beetle-killed tree.
Credit: Thomas Cooper, Lightbox Images
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Beetle-killed trees line a river
Beetle-killed trees line a river; researchers have found water quality changes.
Credit: Lindsay Bearup
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Close-up of a pine with open areas in the bark created by beetle burrowing
Beetles burrowing into pines create open areas in the trees' bark.
Credit: Lindsay Bearup
Download the high-resolution 29 version of the image. (3.6 MB)
Researcher conducting experiments in a lab.
Researchers conduct experiments on the influence of chemicals in pine needles on soil.
Credit: Thomas Cooper, Lightbox Images
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The following is part eleven in a series on the National Science Foundation's Science, Engineering and Education for Sustainability (SEES) investment. Visit parts one, two, three, four, five, six, seven, eight, nine and ten in this series.
In mountains across the Western United States, scientists are racing against time--against a tiny beetle--to save the last lodgepole pines.
Forests are bleeding out from the effects of the beetles, their conifers' needles turning crimson before the trees die.
Now, researchers are also hurrying to preserve the region's water quality, affected by the deaths of the pines.
"When these trees die," says hydrologist Reed Maxwell of the Colorado School of Mines, "the loss of the forest canopy affects hydrology and the cycling of essential nutrients."
Maxwell and other scientists recently published results of their study in the journal Biogeochemistry.
Co-authors, in addition to Maxwell, are Kristin Mikkelson, Lindsay Bearup, John McCray and Jonathan Sharp of the Colorado School of Mines, and John Stednick of Colorado State University. Mikkelson is the paper's first author.

Bark beetle numbers: heating up
"The mountain pine beetle outbreak in Western states has reached epidemic proportions," says Maxwell.
Bark beetles, as they're known, are native to the United States. They're so-named as the beetles reproduce in the inner bark of trees. Some species, such as the mountain pine beetle, attack and kill live trees. Others live in dead, weakened or dying hosts.
Massive outbreaks of mountain pine beetles in western North America since the mid-2000s have felled millions of acres of forests from New Mexico to British Columbia, threatening increases in mudslides and wildfires.
Climate change could be to blame. The beetles' numbers were once kept in check by cold winter temperatures and trees that had plenty of water to use as a defense.
But winters have become warmer, and droughts have left trees water-stressed and less able to withstand an onslaught of winged invaders.
"A small change in temperature leads to a large change in the number of beetles--and now to a large change in water quality," says Tom Torgersen, director of the National Science Foundation's (NSF) Water, Sustainability and Climate (WSC) Program, which funded the research.
WSC is part of NSF's Science, Engineering and Education portfolio of investments.
"Bark beetles have killed 95 percent of mature lodgepole pines," says Maxwell.

Death of a lodgepole pine
But the trees don't die immediately.
When beetles invade, a blue fungus spreads inside a tree's trunk, choking off transpiration and killing the tree in about two years.
The trees turn blood-red, then the ashen gray of death, dropping their needles to the forest floor.
"Some of the most important effects of bark beetles may be changes in the hydrologic cycle," says Maxwell, "via snow accumulation under trees and water transpiration from trees and other plants."
Biogeochemical changes may be even more important, he says, with carbon and nitrogen cycles interrupted.
"We're studying these hydrologic and geochemical processes through a combination of field work, lab research and computer modeling," says Maxwell.

Whither the beetles, so the trees, forests...and waters
Changes in tree canopies affect snowpack development and snowmelt.
For example, a lack of needles on branches lets more snow fall through the canopy--snow that would otherwise be caught on branches. A tree without needles also has less shade beneath it.
The result is a shallower snowpack, earlier snowmelt and less water in spring.
"The real question," Maxwell says, "is how these processes translate from individual trees to hillslopes to large watersheds."
Dead trees don't transpire water. Once a forest has died, this important flow of moisture from the ground to the atmosphere ceases.
That can mean a loss of as much as 60 percent of the water budget, although increases in ground evaporation or transpiration from understory shrubs and bushes may compensate for some of the lack.
"Combined with what's happening to snowpack depth," says Maxwell, "it becomes a complicated relationship that can change the timing and magnitude of spring runoff from snowmelt--and an entire year's water resources."
Tree mortality also appears to affect forest carbon and nitrogen cycles through increases in dissolved organic carbon.
"We've seen changes in drinking water quality in beetle-affected watersheds that are almost certainly related to high dissolved organic carbon levels," says Maxwell.
As Maxwell, Mikkelson, Bearup and colleagues discovered, there's a lag time between beetle infestation and water quality declines, "so tree and forest water transport processes are very likely involved," says Maxwell.

All watersheds great and small

The observations prompted the researchers to study processes at the individual tree and hillslope scale to better understand what's happening in watersheds large and small.
"Watersheds are complex, interrelated systems," says Maxwell, "which makes understanding them more challenging.
"We're developing complex, numerical models of bark beetle-infested watersheds that include our best understanding of how and where water flows. The models are allowing us to isolate individual processes by turning them on and off in 'what-if' scenarios."
Along with on-the-ground observations, he says, "they're showing us more of the complex story of pine beetle effects on Western watersheds.
"We now know that healthy watersheds ultimately depend on healthy forests."
Western streams and rivers soon may be part of dead and dying forests, surrounded only by the ghosts of lodgepole pines past.

Related WebsitesNSF Science, Engineering and Education for Sustainability (SEES) Programs:
 http://www.nsf.gov/sees
NSF "Discoveries in Sustainability" Publication:
 http://www.nsf.gov/pubs/2012/disco12001/disco12001.pdf
NSF News Release: How Is Earth's Water System Linked With Land Use, Climate Change and Ecosystems?:  
NASA
Guillermo Gonzalo Sánchez Achutegui
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