Abstract
Today, the importance of restoring natural forest disturbance regimes and habitat structures for biodiversity is widely recognized. We evaluated the immediate effects of two restoration methods on wood-inhabiting (saproxylic) beetles in boreal forest voluntary set-asides. We used a before-after control-impact experimental set-up in 15 set-asides; each assigned to one of three treatments: (1) restoration burning, (2) gap cutting and (3) no-treatment reference stands. Before treatment, abundance, species richness and assemblage composition of trapped beetles did not differ significantly among treatments. Burning resulted in a significant change in assemblage composition and increased species richness and abundance compared to reference stands. As predicted, saproxylic species known to be fire favoured increased dramatically after burning. The immediate response shows that, initially, fire favoured species are attracted from the surrounding landscape and not produced on site. Gap cutting increased the abundance of cambium consumers but had no significant effect on total species richness or assemblage composition of saproxylic beetles. The stronger effect of burning compared to gap cutting on saproxylic assemblages is probably due to the very specific conditions created by fires that attracts many disturbance-dependent species, but that at the same time disfavour some disturbance-sensitive species. By contrast, gap cutting maintained assemblage composition, increased abundances and is likely to increase species richness in the years to follow, due to elevated level of dead wood. The restoration methods applied in this study may prove particularly useful, partly because of positive effect on saproxylic beetles, but also due to the cost-efficiency of the measures; the voluntary set-asides were already established and the restoration costs fully covered by revenue from the extracted timber.
Highlights
Global extraction of forest resources has led to changes in ecosystem structures and processes, losses of biodiversity and declines in ecosystem services (FAO 2010)
The stronger effect of burning compared to gap cutting on saproxylic assemblages is probably due to the very specific conditions created by fires that attracts many disturbance-dependent species, but that at the same time disfavour some disturbance-sensitive species
The abundance and species richness of saproxylic beetles did not differ among treatments groups prior to the restoration treatment
Summary
Global extraction of forest resources has led to changes in ecosystem structures and processes, losses of biodiversity and declines in ecosystem services (FAO 2010). In the boreal forest, intensive management for timber production has caused declines in biodiversity and decrease in habitat quality for a large number of specialized species (Kuuluvainen 2009; Paillet et al 2010). Stand variability is reduced as well as the availability of dead wood substrates, known to be important for biodiversity. These changes have reduced the amount of potential habitat in managed forests and are considered a key factor underlying species declines in degraded boreal forest ecosystems (Buddle et al 2006; Hjalten et al 2012; Jonsson et al 2005; Siitonen 2001; Stenbacka et al 2010). Today ecological restoration is recognized as a global priority and restoration efforts have increased exponentially (Jacobs et al 2015; Sayer et al 2004; Stanturf 2015)
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