Latest Articles from Arthropod Systematics & Phylogeny Latest 10 Articles from Arthropod Systematics & Phylogeny https://arthropod-systematics.arphahub.com/ Fri, 29 Mar 2024 12:12:54 +0200 Pensoft FeedCreator https://arthropod-systematics.arphahub.com/i/logo.jpg Latest Articles from Arthropod Systematics & Phylogeny https://arthropod-systematics.arphahub.com/ Unveiling ancient diversity of long-tailed wasps (Hymenoptera: Megalyridae): new taxa from Cretaceous Kachin and Taimyr ambers and their phylogenetic affinities https://arthropod-systematics.arphahub.com/article/111148/ Arthropod Systematics & Phylogeny 82: 151-181

DOI: 10.3897/asp.82.e111148

Authors: Manuel Brazidec, Lars Vilhelmsen, Brendon E. Boudinot, Adrian Richter, Jörg U. Hammel, Evgeny E. Perkovsky, Yong Fan, Zhen Wang, Qiong Wu, Bo Wang, Vincent Perrichot

Abstract: The Megalyridae are a small family of parasitoid wasps comprising eight extant genera (71 species) and six extinct genera (13 species). Here, we report eight new species from Late Cretaceous Kachin (Myanmar) and Taimyr (Russia) ambers; the family is recorded for the first time from the latter. †Cretolyra noijebumensis gen. et sp. nov., †Cretolyra shawi gen. et sp. nov., †Genkyhag innebula gen. et sp. nov., †Megacoxa chandrahrasa gen. et sp. nov., †Megacoxa janzeni gen. et sp. nov., and †Megacoxa synchrotron gen. et sp. nov., are described from late Albian – early Cenomanian Kachin amber; †Kamyristi exfrigore gen. et sp. nov. and †Kamyristi yantardakhensis gen. et sp. nov. from Taimyr amber (Baikura, late Albian – early Cenomanian Ognevka Formation and Yantardakh, Santonian Kheta Formation, respectively). Phylogenetic analyses of the family are presented and the classification of the Megalyridae is revised accordingly. A new tribe, †Megalavini trib. nov., is erected to accommodate †Cretolyra gen. nov., †Genkyhag gen. nov., †Megacoxa gen. nov. together with †Megalava Perrichot, 2009; †Megalavini trib. nov. is characterized by the vein M fully pigmented and veins Rs+M and M+Cu aligned, the crenulate mesometapectal sulcus, and the pronotal spiracle not posteriorly surrounded by cuticle. This spiracular condition was previously only observed in †Megazar Perrichot, 2009, thus the subfamily †Megazarinae Perrichot, 2009 stat. nov. is proposed for the clade (†Megalavini + †Megazar), as sister to the remaining Megalyridae. The latter is defined as the Megalyrinae, with †Kamyristi gen. nov. being retrieved as sister to all other genera except Rigel Shaw, 1987 under parsimony analyses. To align phylogeny with classification, three new tribes are erected (†Kamyristini trib. nov., †Megallicini trib. nov., and †Valaaini trib. nov.) and the †Cretodinapsini is synonymized under Megalyrini. A grouping [Rigel + Megalyridia] is supported under Bayesian analyses, which is the only specific conflict with the parsimony analyses, suggesting some degree of caution with respect to the internal relationships of the Megalyrinae. Finally, a revised key to the Megalyridae genera is provided.

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Research Article Fri, 22 Mar 2024 18:33:29 +0200
The earliest evidence of Omophroninae (Coleoptera: Carabidae) from mid-Cretaceous Kachin amber and the description of a larva of a new genus https://arthropod-systematics.arphahub.com/article/101374/ Arthropod Systematics & Phylogeny 81: 689-704

DOI: 10.3897/asp.81.e101374

Authors: Kateřina Rosová, Jakub Prokop, Jörg U. Hammel, Rolf G. Beutel

Abstract: Omophroninae is a distinctive monogeneric group of Carabidae, presumably placed relatively close to the root of the megadiverse adephagan family. In the present study we describe a larva belonging to Omophroninae from mid-Cretaceous Burmese amber and erect a new genus †Cretomophron. Several features support the placement in this small but distinctive subfamily, such as the wedge-shaped head, the large triangular nasale, the elevated antennae with the apical segment directed sideways, the large and bidentate mandibular retinaculum, the enlarged hexagonal prothorax, legs with a distinct armature of spines, and the relatively narrow and posteriorly tapering abdomen. In contrast to larvae of the extant genus Omophron Latreille, the posterior tentorial grooves are not shifted backwards, apparently a plesiomorphic feature, the 2nd antennomeres are markedly longer, and the legs bear long setae and rather thin and long spike-like setae. †Cretomophron also differs in the presence of numerous setae arranged in transverse rows on abdominal segment VI. Lateral lobe-like expansions of abdominal tergites are a conspicuous feature of the new genus but similar structures occur in later instars of Omophron. Structural specializations of the head, prothorax and legs strongly suggest that the larvae were burrowing in sand, like adults and larvae of the extant genus, and that they were efficient predators, detecting prey with the unusually shaped antennae and long maxillae, grasping it with the elongate apical mandibular tooth, and squeezing and piercing it between the bidentate retinaculum and large and triangular nasale.

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Research Article Tue, 1 Aug 2023 14:47:06 +0300
Phylogeny of the old and fragmented genus Austrocoenosia Malloch reveals new evidences on the morphology and evolution of the genera Coenosia Meigen and Neodexiopsis Malloch (Diptera: Muscidae) https://arthropod-systematics.arphahub.com/article/104969/ Arthropod Systematics & Phylogeny 81: 611-653

DOI: 10.3897/asp.81.e104969

Authors: Luciano Damián Patitucci, Pablo Ricardo Mulieri, Márcia Souto Couri, Martha Cecilia Domínguez

Abstract: Coenosiini (Diptera: Muscidae) is a large cosmopolitan tribe of muscids, within which Coenosia Meigen and Neodexiopsis Malloch are the genera with the largest number of species. In this work, we revised for the first time, all the species placed by Malloch (1934) under Austrocoenosia, an endemic genus from the Andean Patagonian Forests, whose species are now placed in Coenosia and Neodexiopsis. We provide detail redescriptions for eight species placed by Malloch (1934) under Austrocoenosia, and decribed two new species (Coenosia delneneo sp. nov. and Coenosia patagonica sp. nov.), with high quality photographs detailing new structures of the male and female terminalia. To establish the position of the species of Austrocoenosia with respect to Coenosia and Neodexiopsis, we made a phylogenetic analysis using implied weighting for 36 taxa and 132 morphological characters of adults, including male and female genitalia. We recovered all species of Austrocoenosia as Coenosia species. We propose the following nomenclature actions: Austrocoenosia as a junior synonymy of Coenosia (syn. rest.); Coenosia brevicornis (Malloch) (comb. nov.), Coenosia dubia (Bigot) (comb. rest.); Coenosia hucketti, Pont (nom. nov.) and Coenosia nigerrima (Malloch) (comb. rest.). We also propose Coenosia spumicola Pont as an unplaced species of Coenosia sensu lato. Finally, we updated the geographic distributions for all species and observed several new male and female terminalia structures, which enriched the discussion of the genera and the tribe.

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Research Article Fri, 21 Jul 2023 16:41:02 +0300
Phylogeny and classification of Endromidae (Lepidoptera: Bombycoidea) based on mitochondrial genomes https://arthropod-systematics.arphahub.com/article/90721/ Arthropod Systematics & Phylogeny 81: 395-408

DOI: 10.3897/asp.81.e90721

Authors: Min Deng, Andreas Zwick, Qi Chen, Cheng-Qing Liao, Wei Wang, Xing Wang, Guo-Hua Huang

Abstract: The small, relict-like moth family Endromidae is well-established within the superfamily Bombycoidea, but relationships within the family have remained vague for the last decade, primarily due to very limited taxon sampling. This resulted in the explicit removal of all internal suprageneric classification by Zwick et al. (2011) when they synonymized Mirinidae and the bombycid subfamilies Oberthueriinae and Prismostictinae with Endromidae. Nucleotide and amino acid data sets of the 13 mitochondrial, protein-coding genes from representatives of 13 of the 16 accepted endromid genera were used to estimate phylogenetic relationships based on maximum likelihood and Bayesian inference methods. The results strongly support Endromidae as a monophyletic group and enable the establishment and diagnosis of four subfamilies (Endrominae, Mirininae stat. rev., Oberthueriinae stat. rev. and Prismostictinae stat. rev.). Within subfamily Oberthueriinae, we establish three tribes: Oberthueriini stat. rev., Andracini tribe nov. and Mustiliini tribe nov. We provide morphological diagnoses and a genus-level checklist for the three tribes. Promustilia yajiangensis Wang, X. & Zolotuhin, 2015 is transferred to Mustilizans as M. yajiangensis comb. nov. to establish reciprocal monophyly of the two genera, and Andraca gongshanensis is transferred to Pseudandraca as P. gongshanensis comb. nov. We also synonymize Andraca (Chrypathemola) syn. nov. with Andraca (Andraca), as the latter is deeply nested within the former.

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Research Article Thu, 20 Apr 2023 13:48:35 +0300
Diversity and phylogeny of the extinct wasp subfamily Lancepyrinae (Hymenoptera, Bethylidae) revealed by mid-Cretaceous Burmese amber https://arthropod-systematics.arphahub.com/article/96737/ Arthropod Systematics & Phylogeny 81: 345-369

DOI: 10.3897/asp.81.e96737

Authors: Manuel Brazidec, Frédéric Legendre, Vincent Perrichot

Abstract: The Lancepyrinae are an extinct subfamily of Bethylidae known exclusively from Cretaceous amber deposits of Lebanon, Spain, Taimyr and Myanmar. In this study, we describe and illustrate four new genera and five new species of lancepyrine wasps from the Albian of Hkamti and late Albian-early Cenomanian of Kachin (Myanmar): Azepyris delamarrei gen. et sp. nov., Burmapyris ohmkuhnlei sp. nov., Gwesped groehni gen. et sp. nov., Paralanceis chotardi gen. et sp. nov. and Yunbayin rossei gen. et sp. nov. These taxa not only highlight the taxonomic diversity of the Lancepyrinae during the mid-Cretaceous but they also reveal the morphological disparity of the subfamily. To establish the phylogenetic relationships of these fossils and to check the monophyly of the Lancepyrinae, we add them to a pre-existing morphological matrix and perform a cladistic analysis. We retrieve the subfamily as poorly supported yet monophyletic, with the newly described taxa deeply nested in it. A key to the genera of Lancepyrinae is provided. Finally, we erect the subfamily Cretabythinae subfam. nov. for the genera Cretabythus Evans, 1973, Holopsenelliscus Engel, 2019 and Megalopsenella Jouault et al., 2020 as no taxonomic treatment has been provided for these taxa after the transfer of Holopsenella Engel et al., 2016 as Aculeata incertae sedis.

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Research Article Tue, 4 Apr 2023 17:13:25 +0300
Phylogenetic analysis of the Belostoma plebejum group sensu Nieser (Insecta, Hemiptera, Belostomatidae): the effect of adding continuous characters on its accuracy https://arthropod-systematics.arphahub.com/article/87378/ Arthropod Systematics & Phylogeny 81: 1-34

DOI: 10.3897/asp.81.e87378

Authors: José R. I. Ribeiro, Augusto Ferrari

Abstract: The Belostoma plebejum group comprises nine species, and the most evident characteristic shared by all species of the group is a phallus that is strongly curved ventrally. The difficulty in studying its species is much aggravated by the scarcity of identified material in Brazilian collections, and this has negatively impacted phylogenetic studies within the group. We tested the monophyly of the B. plebejum group using discrete and continuous characters under different weighting schemes and inferences. We described B. lanemeloi sp. nov. and B. nieseri sp. nov. and they served as the basis to study the phylogenetic relationships. A strict-consensus tree recovered under maximum parsimony and with implicit weighting scheme is as follows: (B. parvum, ((B. lanemeloi sp. nov., (B. nessimiani, B. nieseri sp. nov.)), (B. micantulum var1, (B. micantulum var2, (B. estevezae, ((B. plebejum, (B. minusculum var1, B. minusculum var2)), ((B. nicaeum var1, B. nicaeum var2), ((B. lariversi var1, B. lariversi var2), (B. pygmeum var1, B. pygmeum var2))))))))). The monophyly of the B. plebejum group is corroborated by four non-homoplastic synapomorphies, and the aforementioned condition of the phallus is one of them. We tested the phylogenetic integrity of some species of the B. plebejum group, and only the exemplars of B. micantulum did not constitute monophyletic clades. Comparing the topologies obtained by different approaches clearly showed the presence of different scenarios in terms of heterogeneity of evolutionary rates among characters, but this could also be influenced by the disproportionate number of discrete characters compared with continuous characters.

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Research Article Mon, 16 Jan 2023 13:46:40 +0200
Systematics of Amphineurus (Rhamphoneurus Alexander) (Diptera: Tipuloidea: Limoniidae) https://arthropod-systematics.arphahub.com/article/83035/ Arthropod Systematics & Phylogeny 80: 439-494

DOI: 10.3897/asp.80.e83035

Authors: Daubian Santos, Rodrigo dos Reis Santos, Guilherme Cunha Ribeiro

Abstract: The subgenus Amphineurus (Ramphoneurus Alexander) (Diptera: Limoniidae), a group of craneflies endemic to southern South America, is revised. The previously described species are redescribed and illustrated, along with fifteen new species: A. (R.) alexanderi sp. nov., A. (R.) amorimi sp. nov., A. (R.) anchoralis sp. nov., A. (R.) anfractus sp. nov., A. (R.) billinghami sp. nov., A. (R.) caleuchus sp. nov., A. (R.) deceptus sp. nov., A. (R.) falcatus sp. nov., A. (R.) immaculatus sp. nov., A. (R.) morphyi sp. nov., A. (R.) oosterbroeki sp. nov., A. (R.) podenasi sp. nov., A. (R.) theischingeri sp. nov., A. (R.) triangularis sp. nov., and A. (R.) stigmaticus sp. nov. In addition, A. (R.) fuscifusus Alexander is considered a nomen dubium. A phylogenetic analysis with a broad taxonomic sampling with all valid species of the subgenus A. (Rhamphoneurus Alexander) and species from all the subgenera of Amphineurus Skuse is performed. The broad outgroup sampling used in the study (including taxa from the entire range of distribution of Amphineurus) suggests that the subgenus A. (Rhamphoneurus) is a monophyletic taxon, that its closest relatives are taxa currently distributed in New Zealand, and that Australasian taxa are paraphyletic with respect to the Neotropical Clade.

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Research Article Mon, 12 Sep 2022 19:05:48 +0300
Phylogeny and biogeography of the unique snakefly genus Alena Navás, 1916 (Raphidioptera: Raphidiidae) https://arthropod-systematics.arphahub.com/article/77260/ Arthropod Systematics & Phylogeny 80: 39-58

DOI: 10.3897/asp.80.e77260

Authors: Caleb Califre Martins, Horst Aspöck, Ulrike Aspöck, Atilano Contreras-Ramos

Abstract: The genus Alena Navás, 1916, is considered the most distinct genus of Raphidiidae, because of the uncommon shape of its male genital sclerites and its geographic distribution restricted to the southwestern U.S.A. and western Mexico. Herein, we present a new species of the subgenus Aztekoraphidia U. Aspöck and H. Aspöck, 1970, – Alena (Aztekoraphidia) alanae sp. nov. Based on this discovery we present a detailed morphological study and the first morphological phylogeny of Alena. Our results recover this genus as monophyletic, including the subgenus Aztekoraphidia as sister to a clade composed by the other two monotypic subgenera, Alena s.s. Navás, 1916, and Mexicoraphidia U. Aspöck and H. Aspöck, 1970. We also provide a hypothesis about the biogeographic history of the group, which advocates that species of Alena are strongly associated with central Mexico and their ancestors were probably widely distributed through western North America in the past, of which only a few small groups survived in glacial refuges.

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Research Article Thu, 10 Feb 2022 23:08:12 +0200
Phylogenetic analysis of the tribe Dufouriini (Diptera: Tachinidae) using a total evidence approach based on adult and immature stages https://arthropod-systematics.arphahub.com/article/69618/ Arthropod Systematics & Phylogeny 80: 1-38

DOI: 10.3897/asp.80.e69618

Authors: Marcelo Domingos de Santis, Silvio Shigueo Nihei

Abstract: Abstract Dufouriini are a worldwide distributed tachinid tribe comprised of 51 species in 13 genera, made up of parasitoids of adult Coleoptera. The systematic positioning of Dufouriini has been controversial. Currently, it is placed within Dexiinae, but was previously placed in Phasiinae and Voriinae, and has even had the status of subfamily. Delimitation and composition of Dufouriini has also been debated, whether it is a single tribe or divided into two (Dufouriini and Freraeini) or three (Dufouriini, Oestrophasiini and Freraeini) tribes. Herein, we present the first phylogenetic analysis of Dufouriini based on total evidence using morphological data from adult and immature stages. The taxonomic sampling included all genera in Dufouriini (including Oestrophasiini) and also the genus belonging to Freraeini, a historically related tribe. Data matrix comprised 35 species and 22 genera in the ingroup, and 185 characters constructed from eggs, first instar larvae, puparia and adults, including female and male terminalia and spermathecae. The phylogenetic analysis recovered Dexiinae as paraphyletic in relation to Phasiinae, since the clade (Freraeini (Dufouriini + Oestrophasiini)) is more closely related to Phasiinae than Dexiinae. Dufouriini, Oestrophasiini and Freraeini are recovered as separate monophyletic tribes, strongly supported by a number of synapomorphies. Oestrophasiini is revalidated. A new synonymy is proposed: Comyopsis Townsend syn. nov. of Ebenia Macquart. Accordingly, Ebenia fumata (Townsend, 1919) is nomen preoccupatum by Ebenia fumata (Wulp, 1891), thus we change its specific epithet by designation of the new replacement name Ebenia neofumata Santis and Nihei [nomen novum]. The genera Mesnilana and Rhinophoroides are removed from Dufouriini and tentatively placed into Palpostomatini. Finally, Cenosoma stat. rev., previously a subgenus of Oestrophasia, is revalidated as genus.

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Research Article Fri, 21 Jan 2022 14:52:07 +0200
Harvestmen in the semiarid: a new genus and three new species of Pachylinae (Opiliones: Gonyleptidae) from Caatinga dry vegetation, with a cladistic analysis https://arthropod-systematics.arphahub.com/article/66321/ Arthropod Systematics & Phylogeny 79: 485-507

DOI: 10.3897/asp.79.e66321

Authors: Nícolas Eugenio de Vasconcelos Saraiva, Marcos Ryotaro Hara, Marcio Bernardino DaSilva

Abstract: Abstract Opiliones are highly diverse in the Neotropics. Because of biological constraints, most harvestmen communities are associated with humid forests, exhibiting a high species diversity and endemism in these habitats. Drier formations, such as the Caatinga biome in northeastern Brazil, are less diverse and still considered under-sampled for the order. This study represents an effort to examine the aforementioned diversity by describing a new Gonyleptidae genus, Sertaneja gen. nov., comprising two new species from Ceará state, Sertaneja bicuspidata sp. nov. and Sertaneja crassitibialis sp. nov., and one new species from Rio Grande do Norte state, Sertaneja falcata sp. nov. A morphological cladistic analysis consisting of 20 terminals and 72 characters was performed to evaluate monophyly of the new genus and relate it to other Gonyleptidae. The analysis resulted in a single most parsimonious tree, corroborating Sertaneja gen. nov. monophyly and relatedness to Gyndoides springmanni Soares & Soares, 1947, which in turn is the sister group to the DRMN clade. Taking into account the morphological traits and phylogenetic placement of Sertaneja gen. nov., we chose to place the new genus in Pachylinae despite its polyphyletic status, given that the Sertaneja gen. nov. clade is closely related to one of the Brazilian Pachylinae lineage. A resolution to the Pachylinae conundrum is needed to further explain the subfamily intricacies. Future research requires a larger scope, but currently, based on the new genus monophyly, support, and relatedness, we formally propose its creation and hope to shed light on the possible evolutionary scenarios for the subfamily.

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Research Article Fri, 8 Oct 2021 21:27:24 +0300