Abstract
The insects constitute the majority of animal diversity. Most insects are holometabolous: during complete metamorphosis their bodies are radically re-organized. This re-organization poses a significant challenge to the gut microbiota, as the gut is replaced during pupation, a process that does not occur in hemimetabolous insects. In holometabolous hosts, it offers the opportunity to decouple the gut microbiota between the larval and adult life stages resulting in high beta diversity whilst limiting alpha diversity. Here we studied 18 different herbivorous insect species from 5 orders of holometabolous and 3 orders of hemimetabolous insects. Comparing larval and adult specimens, we find a much higher beta-diversity and hence microbiota turnover in holometabolous insects compared to hemimetabolous insects. Alpha diversity did not differ between holo-and hemimetabolous insects nor between developmental stages within these groups. Our results support the idea that pupation offers the opportunity to change the gut microbiota and hence facilitates ecological niche shifts. This effect of niche shift facilitation could explain a selective advantage of the evolution of complete metamorphosis, which is a defining trait of the most speciose insect taxon, the holometabola.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Minor changes in wording and clarification why rarfaction analysis was not used (following Willis 2019, Frontiers Microbiol)