Low-severity fires in the boreal region: reproductive implications for black spruce stands in between stand-replacing fire events
Section 1: Publication
Publication Type
Journal Article
Authorship
Alfaro-Sanchez, R., Johnstone, J.F., Baltzer, J.L.
Title
Low-severity fires in the boreal region: reproductive implications for black spruce stands in between stand-replacing fire events
Year
2024
Publication Outlet
Annals of Botany
DOI
ISBN
ISSN
Citation
Alfaro-Sanchez, R., Johnstone, J.F., Baltzer, J.L. (2024) Low-severity fires in the boreal region: reproductive implications for black spruce stands in between stand-replacing fire events, Annals of Botany,
https://doi.org/10.1093/aob/mcae055
Abstract
Background and Aims: Stand-replacing crown fires are the most prevalent type of fire regime in boreal forests in North America. However, a substantial proportion of low-severity fires are found within fire perimeters. Here, we aimed to investigate the effects of low-severity fires on the reproductive potential and seedling recruitment in boreal forest stands in between stand-replacing fire events. Methods: We recorded site and tree characteristics from 149 trees within 12 sites dominated by mature black spruce [Picea mariana (Mill.) B.S.P.] trees in the Northwest Territories, Canada. The presence of fire-scarred trees supported classification of sites as unburned or affected by low-severity fires in recent history. We used non-parametric tests to evaluate differences in site conditions between unburned and low-severity sites. We used linear and additive statistical models to evaluate differences in tree age, size and reproductive traits among unburned trees and trees from low-severity sites. Key Results: The results showed a significantly higher density of dead black spruce trees in low-severity sites and marginally significant higher presence of permafrost. Trees from low-severity fire sites were significantly older, exhibited significantly lower tree growth and showed a tendency towards a higher probability of cone presence and percentage of open cones compared with trees from unburned sites. Surviving fire-scarred trees affected by more recent low-severity fires showed a tendency towards a higher probability of cone presence and cone production. The density of black spruce seedlings increased significantly with recent low-severity fires. Conclusions: Trees in low-severity sites appeared to have escaped mortality from up to three fires, as indicated by fire-scar records and their older ages. Shallow permafrost at low-severity sites might cause lower flammability, allowing areas to act as fire refugia. Low-severity surface fires temporarily enhanced the reproductive capacity of surviving trees and the density of seedlings, probably as a stress response to fire events.
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