DOI: 10.3897/asp.83.e164315

Authors: Felipe Francisco Barbosa, André Silva Roza, José Ricardo M. Mermudes, Michael F. Geiser, Jiri Hodecek, Lara-Sophie Dey, Michael A. Ivie, Viridiana Vega-Badillo, Vinicius S. Ferreira, Robin Kundrata

Abstract: Abstract Phengodidae, or railroad-worm beetles, are bioluminescent soft-bodied beetles with flight capable adult males and highly paedomorphic larviform females. They are well accepted as part of the “lampyroid” clade within Elateroidea, and their suprageneric relationships have been recently studied using a phylogenomic approach. However, the placement of taxa currently classified in the subfamily Penicillophorinae remained untested. Penicillophorinae form an assemblage of morphologically modified, rarely collected Neotropical genera that are unique among Phengodidae. They are particularly characterized by their moniliform, serrate or uniramose antennae, in contrast to the typically bipectinate antennae present in all other members of the family. To investigate the phylogenetic position of Penicillophorinae, we implemented a low-coverage whole genome sequencing approach to produce genomic data for Acladocera and Walterius, two out of five genera classified in this subfamily. The resulting phylogenomic analyses confirmed the monophyly of Phengodidae; however, Penicillophorinae were not found as a monophyletic group. Our results recovered the topology: Cydistinae + (Phengodinae + (Acladocera + (Cenophenginae + Mastinocerinae including Walterius))). Therefore, we suggest that the antennal double rami were lost at least twice among Phengodidae: once in the newly circumscribed Mastinocerinae (with Walterius), and once in Acladocera, which we tentatively keep in Penicillophorinae. Further, we discuss the morphological modifications of other genera currently classified in Penicillophorinae. Future phylogenomic research should focus on clarifying the boundaries and composition of phengodid subfamilies, particularly by including additional genera from Penicillophorinae and Mastinocerinae.

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DOI: 10.3897/asp.81.e111281

Authors: Hao Yu Liu, Ruo Lan Du, Wei Zhao, Xing Ke Yang, Yu Xia Yang

Abstract: Insect male genitalia show an evolutionarily variable morphology that is valuable for both species identification and phylogenetic analyses. However, we often encounter some difficulties when conducting relevant studies due to only quantitative variations exhibited in male genitalia. In this study, based on the taxonomy of the Macrolycus dotatus species group (a total of seven species, including three new species described here), we analyzed the male genitalia shapes by GM and then constructed the phenotypic relationships by UPGMA, NJ and MP analyses. The results demonstrated that the species could be well delineated by the shape of male genitalia, and the produced phenograms frequently recovered phenotypic similarity between the coupled species, including M. atronotatimimus sp. nov. + M. huoditangensis sp. nov. and M. aemulus + M. dotatus, which is useful for making comparisons in species descriptions. Meanwhile, the MP analysis of male genitalia shape using two landmark configurations is considered reliable in inferring the phylogenetic relationship among species in terms of the consistency between its topologies and the molecular phylogeny. This study sheds new light on improving the morphological taxonomy of insects in lower grades while fully utilizing the taxonomic value of male genitalia in a phylogenetic context.

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DOI: 10.3897/asp.81.e101411

Authors: Wei Zhao, Hao Yu Liu, Xue Ying Ge, Yu Xia Yang

Abstract: The resolution of phylogenetic relationship among animals is still one of the most challenging problems in systematic zoology. Insect wing is a highly valued morphological character in the systematics, but few studies have been conducted to quantify wing shape variations for phylogenetic reconstruction. In this study, with Cantharinae as the subject, we conducted the GM analyses from hindwings of 16 representative genera. Further, we conducted the UPGMA based on Procrustes distance and Euclidean similarity measure of Mahalanobis distance, respectively, and NJ analysis of the Mahalanobis distance, as well as MP analysis using merged landmark dataset. In the meantime, we constructed the phylogenetic relationships among these genera based on the mitochondrial genomes, with a total of 41 sequences novel to Cantharinae, by BI and ML analyses. As a result, the CVA analysis demonstrated that the hindwing shapes of the cantharid genera are significantly different from one another. All the topologies produced by the GM data partially correspond with that of mitogenomic data. The close relationships of some genera are frequently recovered, including Cyrebion + Themus, Cantharis + Taiwanocantharis + Taocantharis, Stenothemus + Falsopodabrus + Habronychus. These results prove the importance and potential application of the hindwing shapes in recovering the relationships among the sibling genera.

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