Pyrotag sequencing of the gut microbiota of the cockroach shelfordella lateralis reveals a highly dynamic core but only limited effects of diet on community structure
journal contribution
posted on 2023-10-25, 05:33authored byChristine Schauer, Claire Thompson, Andreas Brune
Although blattid cockroaches and termites share a common ancestor, their diets are distinctly different. While termites
consume a highly specialized diet of lignocellulose, cockroaches are omnivorous and opportunistic feeders. The role of the
termite gut microbiota has been studied intensively, but little is known about the cockroach gut microbiota and its function
in digestion and nutrition, particularly the adaptation to different diets. Our analyses of the bacterial gut microbiota of the
blattid cockroach Shelfordella lateralis combining terminal restriction fragment length polymorphism of their 16S rRNA
genes with physiological parameters (microbial metabolites, hydrogen and methane emission) indicated substantial
variation between individuals but failed to identify any diet-related response. Subsequent deep-sequencing of the 16S rRNA
genes of the colonic gut microbiota of S. lateralis fed either a high- or a low-fiber diet confirmed the absence of bacterial
taxa that responded to diet. Instead, we found a small number of abundant phylotypes that were consistently present in all
samples and made up half of the community in both diet groups. They varied strongly in abundance between individual
samples at the genus but not at the family level. The remaining phylotypes were inconsistently present among replicate
batches. Our findings suggest that S. lateralis harbors a highly dynamic core gut microbiota that is maintained even after
fundamental dietary shifts, and that any dietary effects on the gut community are likely to be masked by strong individual
variations.