Abstract
Windstorms are a dominant recurrent natural disturbance type within Carolinian old-growth forests in southwestern Ontario. This study examined how windthrow generated microsites differ from background microsites in soil properties and seedling survival across 84 locations in Hamilton. For each site, soil samples from windthrow generated mound tops and adjacent non-disturbed forest floor were analyzed. Seedlings of red oak ( Quercus rubra ) and black cherry ( Prunus serotina ) were planted on mound tops and adjacent ground microsites, and their survival was monitored. Non-disturbed ground microsites had significantly higher soil moisture ( p < 0.001) and organic matter ( p < 0.001) than disturbed sites, whereas disturbed sites were consistently drier ( p < 0.001). Red oak survival was 28% higher on the non-disturbed microsites relative to the disturbed microsites, while black cherry survival was 41% higher on disturbed microsites relative to the non-disturbed ground microsite. Logistic regression analyses reveal that soil moisture was the strongest predictor of seedling survival ( p = 0.030 ), with contrasting responses between the two species ( p = 0.019 ). These results suggest that windthrow generated mounds create distinct environmental conditions that selectively favor unique autecology. As windthrow frequency rises under climate change, mounds could become major mediators of forest canopy composition.
Full text
2,223 characters
· extracted from
oa-doi-fallback
· click to expand
Abstract
Carolinian old-growth forests in southwestern Ontario are among the most biodiverse ecosystems in Canada, yet regeneration of several canopy tree species is increasingly constrained by intense white-tailed deer browsing and changing disturbance regimes. Windstorms frequently uproot trees in this region, creating tip-up mounds that alter soil structure, drainage, and microtopography. These microsites may provide important opportunities for seedling establishment, but their role in forest regeneration remains poorly understood. This study examined how tip-up mound microsites differ from adjacent ground microsites in soil properties and how these differences influence seedling survival. A total of 84 tip-up mounds were sampled across several conservation areas in Hamilton, Ontario. For each mound, soil samples were collected from the mound top and adjacent forest floor and analyzed for soil moisture, pH, organic matter, and texture. Seedlings of two deer-preferred native species, red oak (Quercus rubra) and black cherry (Prunus serotina), were planted on mound tops and adjacent ground microsites, and their survival was monitored over the growing season. Ground microsites had significantly higher soil moisture and organic matter than mound tops, whereas mound tops were consistently drier. Seedling responses differed between species: red oak survival was higher on ground microsites, while black cherry survival was higher on mound tops. Logistic regression analyses indicated that soil moisture was the strongest predictor of seedling survival, with contrasting responses between the two species. These results suggest that tip-up mounds create distinct environmental conditions that selectively favor different regeneration strategies. As white-tailed deer browsing continues to suppress regeneration on the forest floor - particularly in areas of high deer activity and low wildlife species richness - while windthrow frequency rises under climate change, tip-up mounds are poised to become increasingly critical regeneration niches for species capable of establishing under drier, well-aerated microsite conditions.
Competing Interest Statement
The authors have declared no competing interest.
Text is read by the "Ask this paper" AI Q&A widget below.
Extraction quality varies by source — PMC NXML preserves structure
cleanly, OA-HTML may include some navigation residue, and OA-PDF can
have broken hyphenation. The publisher copy
(via DOI)
is the canonical version.