Enhancing bark- and wood-boring beetle colonization and survival in vertical deadwood during thinning entries

Abstract

Snags are used as habitat by several organisms, including bark- and wood-boring beetles, which contribute to snag decomposition and facilitate subsequent snag colonization by other organisms. However, snags seldom occur in young managed forests. This study examines how snag characteristics and spatial arrangement affect bark- and wood-boring beetle colonization and survival in spruce plantations subjected to commercial thinning, thinning with biomass removal and thinning with snag creation where a few clumps of trees were girdled. To this end, we documented the volume of snags, their characteristics and the number of beetle emergence holes in their basal section. Beetle colonization and survival to adulthood in snags was ~33 times greater when expressed per unit area in plantations supplemented with clumps of girdled trees than in other thinning regimes where low densities of beetle emergence holes per hectare were documented. Snag diameter at breast height, snag species and thinning treatments influenced the number of emergence holes per snag. Positive spatial autocorrelation between the abundance of emergence holes per snag was detected but no other spatial effect was noticeable. This work suggests that vertical deadwood is a limiting factor for bark- and wood-boring beetle colonization within plantations and challenges current thinking about the effect of thinning on beetle communities that was developed from window trap studies. These results underline the importance of large diameter snags for beetle conservation within managed forests and demonstrate that tree girdling during thinning entries is a viable method for creating snags to enhance beetle colonization and survival.