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Planning timber harvest of residual forest stands without compromising bird and small mammal communities in boreal landscapes
Authors:Martin-Hugues St-Laurent,Jean Ferron,Samuel Haché  ,Ré  jean Gagnon
Affiliation:1. Département de Biologie, de Chimie et de Géographie, Université du Québec à Rimouski 300 Allée des Ursulines, Rimouski, Québec, G5L 3A1 Canada;2. Vice-rectorat à l’enseignement et à la recherche, Université du Québec à Rimouski 300 Allée des Ursulines, Rimouski, Québec, G5L 3A1 Canada;3. Département des Sciences fondamentales, Université du Québec à Chicoutimi 555 Boulevard de l’Université, Chicoutimi, Québec, G7H 2B1 Canada
Abstract:Numerous efforts have been invested in designing and configuring residual forest stands in Canadian boreal forest to preserve their overall biodiversity. Now that several landscapes have been partially logged, the next issue in forest management involves the planning of residual forest stand harvesting without compromising wildlife populations. Residual stands can be cut when adjacent regeneration reaches 3 m in height according to current regulations in several Canadian provinces (e.g., Québec, Ontario, Alberta, and British-Columbia). However, little is known on whether such regenerating habitat (RE-3m) can maintain wildlife communities similar to those found in unharvested mature forest (CO). We estimated the relative abundance of small mammals and forest birds in RE-3m and CO habitats and characterized landscape and stand structures. These variables were then compared between the two contrasting successional stages and were used to build habitat use models (HUMs) for 21 species. CO and RE-3m differed with regard to several landscape characteristics and stand structure variables as a result of logging. Snowshoe Hare, Northern Flicker, Alder Flycatcher, Ruby-crowned Kinglet, White-throated Sparrow and Magnolia Warbler were more abundant in RE-3m than CO, while Red-backed Vole, Brown Creeper and Golden-crowned Kinglet exhibited lower abundances in RE-3m. No significant differences in abundance were observed for the 12 other species. Species HUMs were highly significant and explained between 64.3 and 99.1% of the total variability in abundance. Following variance partitioning, stand structure variables accounted for most of the explained variability (54.2%) while landscape characteristics accounted for only 28.7%. No difference in species richness was observed but community evenness was greater in CO than RE-3m. Our results suggest that current regulations may threaten the maintenance of 3 out of 21 censused species for which abundances were significantly lower in regenerating 3 m tall stands. As stand structure explained a large amount of variability in abundance, it should be considered during timber harvest planning in both mature and regenerating stands. Until we know more on whether the current regulations are suitable for maintaining overall biodiversity, our results suggest that some mature forest stands should be maintained within managed landscapes for a complete logging rotation period.
Keywords:Boreal forest   Forest birds   Regulations   Small mammals   Successional stages
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