Abstract
Insects harbor a community of gut bacteria, ranging from pathogenic to obligate mutualistic organisms. Both biotic and abiotic factors can influence species composition and structure of the insect gut bacterial communities. Dendroctonus valens is a destructive forest pest in China. To overcome host pine defenses, beetles mass-attack the pine to a threshold density that can exhaust pine defenses. The intensity of pine chemical defenses and carbohydrate concentrations of pines can be influenced by beetle attack, both of which are known factors that modify beetle’s gut microbiota. However, little is known to what extent variation exists in the beetle’s gut communities, and host monoterpenes and carbohydrates at different attack densities. In this study, the gut bacterial microbiota of D. valens at low and high attack densities were analyzed, and monoterpenes and carbohydrates in host pine phloem were assayed in parallel. The results showed that no significant changes of gut bacterial communities of the beetles and concentrations of D-glucose, D-pinitol, and D-fructose in pine phloem were found between low and high attack densities. The concentrations of α-pinene, β-pinene, limonene at high attack densities were significantly higher than those at low attack densities. Our results suggested that different attack densities of D. valens influence monoterpenes concentration of host pines’ phloem but have no significant impact on gut bacterial community structures of D. valens and carbohydrate concentration of host trees’ phloem in early attack phase. Similar gut bacterial community structures of D. valens between low and high attack densities might be due to the quick adaptation of gut microbiota to high monoterpenes concentrations.
Highlights
The intestinal tract of insects is colonized by a dense microbiota composed of diverse communities ranging from pathogenic to obligate mutualistic organisms (Dillon and Dillon, 2004; Engel and Moran, 2013)
An NMDS ordination analysis based on Bray-Curtis similarities across the samples suggested that the gut bacterial communities of D. valens in the low attack density group were similar to those in the high attack density group (Figure 2A; ANOSIM, P = 0.54)
Our results confirmed that the different attack densities of D. valens can influence host defensive monoterpenes concentration. α-Pinene and β-pinene are the most abundant defensive monoterpenes for host P. tabulaeformis (Chen et al, 2006; Xu et al, 2014), and their concentrations rapidly accumulate after beetle attack (Miller et al, 1986; Leufvén and Birgersson, 1987)
Summary
The intestinal tract of insects is colonized by a dense microbiota composed of diverse communities ranging from pathogenic to obligate mutualistic organisms (Dillon and Dillon, 2004; Engel and Moran, 2013). Gut bacteria of bark beetles were reported to possess many beneficial ecological functions including degradation of defensive chemicals and nutrition provision (Boone et al, 2013; MoralesJiménez et al, 2013; García-Fraile, 2018; Howe et al, 2018) These previous studies described a complex and elusive interaction between gut microbiota of beetles and host pines. Gut bacteria communities of bark beetles at different life stages have been investigated (Vasanthakumar et al, 2006; Briones-Roblero et al, 2017; Durand et al, unpublished), little is known about how gut bacterial communities of beetles vary in parallel with carbohydrates and defensive chemicals concentration changes of host pines at different attack densities. The purpose of this study was to evaluate the effect of low and high attack densities on gut bacterial community structure of D. valens, defensive chemicals and carbohydrate concentrations of host pines. We discussed the connection between the change in bacterial community structure and defensive monoterpenes and carbohydrate variation of host pines, which may reveal how gut bacterial communities facilitate successful attack by D. valens
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