Anchored hybrid enrichment provides new insights into the phylogeny and evolution of longhorned beetles ( C erambycidae)

Cerambycidae is a species‐rich family of mostly wood‐feeding (xylophagous) beetles containing nearly 35 000 known species. The higher‐level phylogeny of C erambycidae has never been robustly reconstructed using molecular phylogenetic data or a comprehensive sample of higher taxa, and its internal relationships and evolutionary history remain the subjects of ongoing debate. We reconstructed the higher‐level phylogeny of C erambycidae using phylogenomic data from 522 single copy nuclear genes, generated via anchored hybrid enrichment. Our taxon sample (31 C hrysomeloidea, four outgroup taxa: two C urculionoidea and two C ucujoidea) included exemplars of all families and 23 of 30 subfamilies of C hrysomeloidea (18 of 19 non‐chrysomelid C hrysomeloidea), with a focus on the large family C erambycidae. Our results reveal a monophyletic C erambycidae s.s. in all but one analysis, and a polyphyletic C erambycidae s.l. When monophyletic, C erambycidae s.s. was sister to the family D isteniidae. Relationships among the subfamilies of C erambycidae s.s. were also recovered with strong statistical support except for C erambycinae being made paraphyletic by Dorcasomus A udinet‐ S erville ( D orcasominae) in the nucleotide (but not amino acid) trees. Most other chrysomeloid families represented by more than one terminal taxon –  C hrysomelidae, D isteniidae, V esperidae and O rsodacnidae – were monophyletic, but M egalopodidae was rendered paraphyletic by Cheloderus G ray ( O xypeltidae). Our study corroborates some relationships within C hrysomeloidea that were previously inferred from morphological data, while also reporting several novel relationships. The present work thus provides a robust framework for future, more deeply taxon‐sampled, phylogenetic and evolutionary studies of the families and subfamilies of C erambycidae s.l. and other C hrysomeloidea.