Litcius/Paper detail

Bacteria Contribute to Plant Secondary Compound Degradation in a Generalist Herbivore System

Charlotte B. Francoeur, Lily Khadempour, Rolando D. Moreira-Soto, Kirsten Gotting, Adam J. Book, Adrian A. Pinto‐Tomás, Ken Keefover‐Ring, Cameron R. Currie

2020mBio46 citationsDOIOpen Access PDF

Abstract

Leaf-cutter ants are dominant neotropical herbivores capable of deriving energy from a wide range of plant substrates. The success of leaf-cutter ants is largely due to their external gut, composed of key microbial symbionts, specifically, the fungal mutualist L. gongylophorus and a consistent bacterial community. Both symbionts are known to have critical roles in extracting energy from plant material, yet comparatively little is known about their roles in the detoxification of plant secondary compounds. In this study, we assessed if the bacterial communities associated with leaf-cutter ant fungus gardens can degrade harmful plant chemicals. We identify plant secondary compound detoxification in leaf-cutter ant gardens as a process that depends on the degradative potential of both the bacterial community and L. gongylophorus . Our findings suggest that the fungus garden and its associated microbial community influence the generalist foraging abilities of the ants, underscoring the importance of microbial symbionts in plant substrate suitability for herbivores.

Topics & Concepts

Generalist and specialist speciesHerbivoreDegradation (telecommunications)BacteriaBiologyEcologyComputer scienceHabitatGeneticsTelecommunicationsPlant Parasitism and ResistanceBiological Control of Invasive SpeciesBiochemical and biochemical processes