Published: Oct. 28, 2015

Contrary to expectations that spruce beetle infestations increase the severity of wildfires in southwestern baby直播app, a new study led by University of baby直播app Boulder researchers has found that this native insect may not be to blame after all.

Spruce bark beetles have affected roughly half a million acres of Engelmann spruce and subalpine fir forests across the state in recent years. In 2014, spruce beetles infested more than 87,000 new acres in baby直播app. Several large severe wildfires have occurred in the state over the past decade, leading some to hypothesize that the beetle鈥檚 destructive spread may be a contributing factor.

Not so, according to a field study led by CU-Boulder researchers, who found that higher levels of spruce beetle infestation did not lead to more ecologically severe fires. The findings were this week in the journal Ecological Applications.

The study is the first to quantify the influence of spruce beetle and fire severity on spruce-fir forests through direct field measurements as opposed to using satellite or aerial imagery. The researchers examined five recent subalpine fire zones in the San Juan Mountains of southwestern baby直播app.

鈥淥ur study is unique because we were actually out in the forest peeling bark off of the burned trees, looking for evidence of the beetle,鈥 said Robert Andrus, a graduate researcher in the Department of Geography at CU-Boulder and lead author of the new study. 鈥淲e were interested in the ecological effects of the interaction between these two disturbances and determining whether more trees were killed by fire in areas of higher beetle infestation.鈥

The lack of correlation between spruce beetle infestation and severe fire damage suggests that factors such as topography and weather conditions play a larger role in determining the severity of baby直播app鈥檚 subalpine wildfires.

The study may have future implications for state land managers and policymakers, who must decide how best to devote resources to fire suppression and spruce beetle containment efforts.

Brian Harvey and Sarah Hart, both postdoctoral researchers in CU-Boulder鈥檚 Department of Geography, and Thomas Veblen, a professor of geography at CU-Boulder, co-authored the study.

The National Science Foundation provided funding for the research.

Contact:
Robert Andrus, 360-774-0449
robert.andrus@colorado.edu
Trent Knoss, CU-Boulder media relations, 303-735-0528
trent.knoss@colorado.edu

A dead beetle is visible next to the charred bark of a tree. Photo by Robert Andrus / University of baby直播app Boulder.

鈥淥ur study is unique because we were actually out in the forest peeling bark off of the burned trees, looking for evidence of the beetle,鈥 said Robert Andrus, a graduate researcher in the Department of Geography at CU-Boulder and lead author of the new study. 鈥淲e were interested in the ecological effects of the interaction between these two disturbances and determining whether more trees were killed by fire in areas of higher beetle infestation.鈥