Canadian Journal of Forest Research, Volume 52, Issue 3


Anthology ID:
G22-4
Month:
Year:
2022
Address:
Venue:
GWF
SIG:
Publisher:
Canadian Science Publishing
URL:
https://gwf-uwaterloo.github.io/gwf-publications/G22-4
DOI:
Bib Export formats:
BibTeX MODS XML EndNote

pdf bib
Peat surface compression reduces smouldering fire potential as a novel fuel treatment for boreal peatlands
Patrick Jeffrey Deane | SOPHIE WILKINSON | Gregory J. Verkaik | Paul Moore | Dave Schroeder | J. M. Waddington

The wildfire regime in Canada’s boreal region is changing; extended fire seasons are characterized by more frequent large fires (≥200 ha) burning greater areas of land, whilst climate-mediated drying is increasing the vulnerability of peatlands to deep burning. Proactive management strategies, such as fuel modification treatments, are necessary to reduce fire danger at the wildland-human interface (WHI). Novel approaches to fuel management are especially needed in peatlands where deep smouldering combustion is a challenge to suppression efforts and releases harmful emissions. Here, we integrate surface compression within conventional stand treatments to examine the potential for reducing smouldering of near-surface moss and peat. A linear model (adj. R2=0.62, p=2.2e-16) revealed that ground cover (F(2,101)=60.97, p<0.001) and compression (F(1,101)=56.46, p<0.001) had the greatest effects on smouldering potential, while stand treatment did not have a significant effect (F(3,101)=0.44, p=0.727). On average, compressed Sphagnum and feather moss plots showed 57.1% and 58.7% lower smouldering potential, respectively, when compared to uncompressed analogs. While practical evaluation is warranted to better understand the evolving effectiveness of this strategy, these findings demonstrate that a compression treatment can be successfully incorporated within both managed and unmanaged peatlands to reduce fire danger at the WHI.