Phylogeny, systematics and evolution of mimetic wing patterns of Eterusia moths (Lepidoptera, Zygaenidae, Chalcosiinae)

.  The aim of the present study was to investigate the phylogeny, systematics and evolution of the mimetic wing patterns of Eterusia , a day‐flying moth genus that exhibits great morphological diversity, as well as the highest insular differentiation in eastern Asia and which has the most chaotic taxonomic history in the family Zygaenidae. We examined the wing patterns of the insects involved using visible and ultraviolet light (both reflectance and fluorescence). The phylogeny of thirty‐four taxa, including all the recognized species of Eterusia plus two species of Soritia as outgroups, was reconstructed based on eighty adult morphological characters, including forty‐one derived from colour patterns. Phylogenetic relationships based on the whole dataset revealed that (1) the most current concept of Eterusia is monophyletic, and (2) different types of mimetic pattern show different levels of phylogenetic conservation. To investigate the evolution of their colour patterns we inactivated all the relevant characters and reconstructed another phylogeny, which was found to differ significantly from the one based on the whole character set in the position of the E. risa species group. We used these phylogenetic hypotheses to test evolutionary predictions based on conventional Müllerian mimicry and quasi‐Batesian mimicry dynamics. The results of permutation–tail–probability tests showed that the coloration characters are phylogenetically conserved, thus justifying a Müllerian interpretation. However, when comparing the observed topologies with hypothetical trees constrained to fit perfect Müllerian or quasi‐Batesian scenarios using the Kishino–Hasegawa test, the observed phylogenies were more consistent with the phylogenetic prediction of quasi‐Batesian mimicry. Therefore, we consider that applying these two phylogenetic methods to justify mimicry models may not always be practical. Finally, the taxonomy of Eterusia is revised. In total, two new species ( E. austrochinensis , E. guanxiana ), one new subspecies ( E. risa palawanica ) and four new synonyms ( E. lativitta and E. fasciata of E. sublutea , E. coelestina of E. subcyanea , E. angustipennis gaedei of E. angustipennis angustipennis ) are established.