Drivers of post-fire vascular plant regeneration in the conifer-dominated boreal forest of southern Northwest Territories
In recent years, climate warming has led to an increase in the severity and frequency of naturally occurring fires in boreal ecosystems globally. In 2014, an unprecedented 3.4 million hectares of boreal forest burned in the Northwest Territories (NWT). While much research has focused on post-fire su...
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| Format: | Text |
| Language: | English |
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Scholars Commons @ Laurier
2018
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| Online Access: | https://scholars.wlu.ca/etd/2026 https://scholars.wlu.ca/context/etd/article/3141/viewcontent/Alison_White_Final_Thesis_180224.pdf |
| Summary: | In recent years, climate warming has led to an increase in the severity and frequency of naturally occurring fires in boreal ecosystems globally. In 2014, an unprecedented 3.4 million hectares of boreal forest burned in the Northwest Territories (NWT). While much research has focused on post-fire succession of serotinous tree species such as Picea mariana (black spruce) and Pinus banksiana (jack pine), the understory community of vascular plants play an important role in ecosystem functioning but less is known about the response of this component of the system to changing fire regimes. Regeneration strategies such as the ability to resprout from underground rhizomes or disperse an abundance of seeds following fire are examples of plant traits that are adapted to fire regimes and have supported patterns of early recovery of boreal plant communities. Environmental factors such as surficial moisture and soil substrate conditions can also impact post-fire community assembly. Vascular plant community responses to changing fire severity and frequency will shape patterns of succession; understanding changes in these patterns in vascular plant assembly immediately following disturbance will enable future predictions to be made regarding forest recovery. Understanding the patterns of early recovery of plant communities is of interest both for humans and wildlife that depend on self-recovery of vegetation in this region. During the summer of 2015, information was collected on the presence of plant species and their regeneration modes in 212 sample plots throughout the NWT. Our objectives were to 1) quantify the role of environmental variables and fire characteristics on taxa richness and regeneration traits following an extreme wildfire event; and 2) characterize and investigate vascular plant species composition immediately following fire, with a view to understanding the environmental variables and plant traits underlying post-fire assembly processes. We found that plant community recovery in the southern boreal forest ... |
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