Abstract
BackgroundTree-killing bark beetles (Coleoptera, Scolytinae) are among the most economically and ecologically important forest pests in the northern hemisphere. Induction of terpenoid-based oleoresin has long been considered important in conifer defense against bark beetles, but it has been difficult to demonstrate a direct correlation between terpene levels and resistance to bark beetle colonization.MethodsTo test for inhibitory effects of induced terpenes on colonization by the spruce bark beetle Ips typographus (L.) we inoculated 20 mature Norway spruce Picea abies (L.) Karsten trees with a virulent fungus associated with the beetle, Ceratocystis polonica (Siem.) C. Moreau, and investigated induced terpene levels and beetle colonization in the bark.ResultsFungal inoculation induced very strong and highly variable terpene accumulation 35 days after inoculation. Trees with high induced terpene levels (n = 7) had only 4.9% as many beetle attacks (5.1 vs. 103.5 attacks m−2) and 2.6% as much gallery length (0.029 m m−2 vs. 1.11 m m−2) as trees with low terpene levels (n = 6). There was a highly significant rank correlation between terpene levels at day 35 and beetle colonization in individual trees. The relationship between induced terpene levels and beetle colonization was not linear but thresholded: above a low threshold concentration of ∼100 mg terpene g−1 dry phloem trees suffered only moderate beetle colonization, and above a high threshold of ∼200 mg terpene g−1 dry phloem trees were virtually unattacked.Conclusion/SignificanceThis is the first study demonstrating a dose-dependent relationship between induced terpenes and tree resistance to bark beetle colonization under field conditions, indicating that terpene induction may be instrumental in tree resistance. This knowledge could be useful for developing management strategies that decrease the impact of tree-killing bark beetles.
Highlights
Bark beetles (Coleoptera, Scolytinae) and their associated microorganisms are among the most economically important threats to conifer forests worldwide [1,2,3]
Terpene levels varied extensively between trees and increased with time since inoculation Phloem that had been induced with low densities of C. polonica inoculation had significantly increased levels of all analyzed terpenes relative to uninoculated control phloem
This study clearly shows that fungal inoculation induces a strong quantitative terpene response in Norway spruce bark and that trees with strong terpene accumulation suffer much less bark beetle colonization than other trees
Summary
Bark beetles (Coleoptera, Scolytinae) and their associated microorganisms are among the most economically important threats to conifer forests worldwide [1,2,3]. In Eurasia, the spruce bark beetle Ips typographus (L.) is the most serious killer of mature Norway spruce, Picea abies (L.) Karsten [4]. This beetle is associated with several phytopathogenic bluestain fungi, including Ceratocystis polonica (Siem.) C. Induced defenses have been studied extensively and seem to play essential roles in conifer resistance against the bark beetle-fungus complex [13,19,20]. Induction of terpenoid-based oleoresin has long been considered important in conifer defense against bark beetles, but it has been difficult to demonstrate a direct correlation between terpene levels and resistance to bark beetle colonization
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