Cellulose fermentation by the gut microbiota is likely not essential for the nutrition of millipedes

Millipedes are thought to depend on their gut microbiome for processing plant-litter-cellulose through fermentation, similar to many other arthropods. However, this hypothesis lacks sufficient evidence. To investigate this, we disrupted the gut microbiota of juvenile Epibolus pulchripes (tropical, CH ₄ -emitting) and Glomeris connexa (temperate, non-CH ₄ -emitting) using chemical inhibitors and isotopic labelling. Feeding the millipedes sterile or antibiotics-treated litter notably reduced faecal production and microbial load without major impacts on survival or weight. Bacterial diversity remained similar, with Bacteroidota dominant in E. pulchripes and Pseudomonadota in G. connexa . Sodium-2-bromoethanesulfonate treatment halted CH ₄ emissions and reduced the faecal mcrA copies in E. pulchripes after 14 days, but emissions resumed after returning to normal feeding. Methanogens in the order Methanobacteriales and Methanomasscilliicoccales associated with protists were detected using Catalysed Reporter Deposition Fluorescence In situ Hybridization (CARD-FISH) on day 21, despite suppressed CH ₄ -emission. Employing ¹³ C-labeled leaf litter and RNA-SIP revealed a slow and gradual prokaryote labelling, indicating a significant density shift only by day 21. In addition to labelling of taxa from orders well-recognized for their role in (ligno)cellulose fermentation (e.g., Bacteroidales , Burkholderiales , and Enterobacterales ), others, such as members of Desulfovibrionales were also labelled. Surprisingly, labelling of the fungal biomass was somewhat quicker. Our findings suggest that fermentation by the gut microbiota is likely not essential for the millipede’s nutrition.