Western forests recover quickly from natural wildfires

Last updated: 5 Jun, 2014


Lodgepole pine forests recover within a century following severe wildfires, according to a three-year study led by the University of Idaho in Rocky Mountain National Park, the results of which were published recently in New Phytologist. The research gives a benchmark for better understanding the impacts of naturally occurring wildfires.

 

The project was funded by the National Science Foundation and the University of Idaho.

 

Subalpine forest below Longs Peak, in Rocky Mountain National Park, Colorado, USA.  Photo: P. Higuera

Subalpine forest below Longs Peak, in Rocky Mountain National Park, Colorado, USA.  Photo: P. Higuera

 

‘Understanding fire and its historic patterns is vital to sound resource management, particularly in the context of ongoing and future climate change,’ said Paul Dunnette, a University of Idaho graduate student who led the work.

 

Large wildfires can kill vast amounts of trees, changing familiar landscapes for a lifetime. That is often what humans respond to. By looking at patterns beyond the length of a human life, this study reveals that lodgepole pine forests have the ability to repeatedly recover from wildfires.

 

The research was unusual in that it documented the occurrence and ecological impacts of wildfires over the past 4,200 years. The lodgepole pine forests of the Rocky Mountains were used because they are prevalent and fire is a regular part of their life cycle. By taking core samples of sediment from the bottom of a mountain lake and looking for charcoal fragments, Dunnette and his co-author and graduate advisor, Philip Higuera of the College of Natural Resources, were able to study when fires occurred in the distant past. By examining the sediments deposited immediately after past fires, Dunnette and colleagues studied how wildfires affected nutrient cycling and forest recovery.
 

Dunnette, Higuera, and National Park employees collect samples from Chickaree Lake, Colorado, USA. Photo: Grace Carter

Dunnette, Higuera, and National Park employees collect samples from Chickaree Lake, Colorado, USA. Photo: Grace Carter

 

‘The lake is a passive recorder of history,’ Higuera said. ‘Sediment works much like rings of a tree, which tell a story of past environmental change. Because the sediments are underwater, the material that lands on a lake is well preserved, unlike material deposited in forest soils.’
 

The goal of the study is to better understand the long-term pattern and effects of wildfires, and provide information for land managers and policy makers.
 

The paper was also co-authored by scientists from Kansas State University and the University of Colorado, Denver. It is available at http://onlinelibrary.wiley.com/doi/10.1111/nph.12828/abstract.
 

Odessa Lake and subalpine forest in Rocky Mountain National Park, Colorado, USA. Photo: P. Higuera

Odessa Lake and subalpine forest in Rocky Mountain National Park, Colorado, USA. Photo: P. Higuera



Reference:
Dunnette PV, Higuera PE,  McLauchlan KK, Derr KM, Briles CE, Keef MH. 2014. Biogeochemical impacts of wildfires over four millennia in a Rocky Mountain subalpine watershed. New Phytologist. doi: 10.1111/nph.12828.

 

Original press release published by University of Idaho on 19th May 2014 and be viewed here: http://www.uidaho.edu/newsevents/item?name=western-forests-recover-quickly-from-natural-wildfires

For futher information contact:
Jodi Walker
Marketing and Communications
College of Natural Resources
+1 (208) 885-2717
jwalker@uidaho.edu