Cryptic genetic lineages of a colonial ascidian host distinct microbiomes

Colour variation in marine invertebrates is typically attributed to intraspecific variability; however, the use of molecular tools to investigate its genetic basis has uncovered many instances of cryptic speciation. The colonial ascidian Distaplia bermudensis occurs in a wide array of colour morphs, ranging from all white to a dark blue tunic with yellow siphon apertures; yet careful observations of zooid and larval morphologies have not revealed any consistent difference among these colour morphs. In this study, we sampled the 5 main colour morph groupings of D. bermudensis from Wilmington, North Carolina (USA) and sequenced fragments of the mitochondrial cytochrome c oxidase subunit I (COI) and the nuclear 18S rRNA genes. Analyses of both genes revealed the presence of two distinct genetic lineages that corresponded to unique colour morphology groupings. We further characterized symbiotic microbial communities for four samples from each lineage by high-throughput sequencing of partial 16S rRNA genes. Each genetic lineage also harboured unique symbiont communities that differed significantly in diversity and structure. Thus, the two genetic lineages detected herein corresponded to unique colour morphs and microbial communities, indicating that two distinct species coexist under the same scientific name. Further, our study reports the utility of symbiont profiling in resolving the taxonomic status of phenotypically variable ascidian species.

Automated summary

This study analyzed color morphs, genetic lineages, and symbiotic microbial communities of the colonial ascidian D. bermudensis, finding that two distinct genetic lineages corresponded to unique color morphs and microbial communities, indicating that two different species coexist under the same scientific name. The study highlights the utility of symbiont profiling in resolving the taxonomic status of phenotypically variable ascidian species.