A second eubrachythoracid arthrodire from Gogo, Western Australia

A new genus of long-snouted, eubrachythoracid arthrodire, Camuropiscis gen. nov., is described from the Upper Devonian Gogo formation of Western Australia. It is represented by two species, the type C. concinnus sp. nov. and C. laidlawi sp. nov. These species are interchangeable with Coccosteus spp. in a sketch cladograin for arthrodires; their phylogenetic relationships are not known in any detail. C. concinnus has a well-preserved pelvic girdle and throws new light on the structure of this element in arthrodires.     

The morphology of Yujiangolepis liujingensis (Placodermi,Arthrodira) from the Pragian of Guangxi (south China) and its phylogenetic significance

The morphology of the arthrodire placoderm Yujiangolepis liujingensis Wang, Pan & Wang, 1998, from the Lower Devonian of Guangxi is redescribed, and compared to that of the basal arthrodires Antarctaspis White, 1968 from Antarctica, Toombalepis Young & Goujet, 2003 and Wuttagoonaspis Ritchie, 1973 from Australia, and Yiminaspis Dupret, 2008 from south China. A very small plate of the skull roof at the junction of the nuchal, marginal, postorbital, and paranuchal plates is considered as the vestigial homologue of the anterior paranuchal plate in the Petalichthyida and Acanthothoraci. Yujiangolepis is attributed to the family ‘Antarctaspididae’ White, 1968, together with the genera Antarctaspis and Toombalepis. A computerized phylogenetic analysis resolved Yujiangolepis as the most basal arthrodire, and the family ‘Antarctaspididae’ appears paraphyletic, Yujiangolepis being possibly the most basal. The family Wuttagoonaspididae contains the genera Wuttagoonaspis and Yiminaspis, and remains monophyletic. A Chinese origin of the ‘Antarctaspididae’ is proposed, together with a southward dispersal into Gondwana during the Early Emsian.     

A primitive eubrachythoracid arthrodire from Gogo, Western Australia

A new eubrachythoracid arthrodire, Hanytoombsia elegans gen. et sp. nov., is described from the Upper Devonian Gogo formation of Western Australia. Its structure and relationships are discussed within the framework provided by a new sketch cladogram for arthrodires. H. elegans is morphologically similar to Coccosteus cuspidatus , but its relationships among primitive eubrachythoracids are unknown.     

云南盘溪地区节甲类鱼化石

本文记述了采自云南盘溪地区一节甲类鱼化石.作者1982年曾根据在该地区采获的少数骨片定为 Dunkleosteus yunnanensis.通过对原标本和新材料的仔细观察以及与有关属种对比,认为原定的 Dunkleosteus yunnanensis 应为 Eastmanosteus yunnanensis.     

Systematics of the Saharo‐Arabian clade of the Palearctic naked‐toed geckos with the description of a new species of Tropiocolotes endemic to Oman

Geckos are one of the most species‐rich, abundant, and widely distributed of all Squamata lineages and present several characteristics that have made them favorite model organisms for biogeographical, ecological, physiological, and evolutionary studies. One of the key aspects of any comparative study is to have a robust, comprehensive phylogeny, and an updated taxonomy. Recently, the Infraorder Gekkota has been the subject of several phylogenetic analyses and taxonomic revisions at different levels. Despite all these phylogenetic and taxonomic advances, there are still some groups whose systematics and taxonomy remain highly problematic. Maybe one of the most poorly resolved groups in spite of decades of intensive research by many herpetologists are the so‐called Palearctic naked‐toed geckos of the family Gekkonidae. This group of nocturnal geckos distributed from Mauritania across North Africa, Arabia, southwestern and central Asia to northern India, western China and southern Mongolia is characterized by the synapomorphy of lack of adhesive subdigital pads. Within the Palearctic naked‐toed geckos, the Saharo‐Arabian clade comprised by the genera Pseudoceramodactylus, Stenodactylus, and Tropiocolotes is the clade with the largest distribution range. At the same time, it is one of the problematic groups, presenting poorly supported phylogenetic relationships, with the genus Tropiocolotes being recovered non‐monophyletic in all analyses despite its morphological uniformity. To reassess the phylogeny of the Palearctic naked‐toed geckos with a special interest in the systematics of Tropiocolotes, we assembled a dataset comprising 298 gecko specimens from 283 different species (including all Tropiocolotes species but one) belonging to 122 of a total of 124 described gecko genera. This dataset included the nuclear c‐mos, ACM4, RAG1, RAG2, and PDC and the mitochondrial ND2 gene. To further investigate the relationships within Tropiocolotes and to revise the systematics of the south Arabian endemic species Tropiocolotes scorteccii, we used an integrative approach including information from the nuclear MC1R and c‐mos, the mitochondrial 12S, 16S, cytb genes, and morphological data from nine of the 10 described Tropiocolotes species. The phylogenetic analyses of the Gekkota dataset recovered a similar topology for the Palearctic naked‐toed geckos to previous studies, but in this case, Tropiocolotes was recovered monophyletic in all analyses, with high support in two of them. The results of the analyses of three datasets specifically assembled to test the effect of both gene sampling and taxon sampling in the monophyly of Tropiocolotes, and the internal relationships of the Palearctic naked‐toed geckos clearly showed that both the number and kind of characters (nuclear or mitochondrial data) and the number of taxa played a fundamental role in recovering the correct phylogenetic relationships. The phylogenetic analyses within Tropiocolotes suggested the existence of high levels of undescribed diversity in the south Arabian T. scorteccii, including a new genetically and morphologically distinct species endemic to Oman (Tropiocolotes confusus sp. nov. ). Our study using a large dataset, including several loci and a dense taxon sampling within Gekkota and especially within Tropiocolotes, has proved a valuable strategy to address the monophyly of Tropiocolotes and the relationships within the Saharo‐Arabian Palearctic naked‐toed geckos. The integrative systematic approach including several samples of south Arabian T. scorteccii based on many years of fieldwork has, once more, uncovered a new species endemic to this region. This highlights the importance of this area of Arabia as a reservoir of reptile endemicity and biodiversity, which is likely linked to the high degree of habitat heterogeneity and the effect of the monsoons. Obviously, based on this and previously published evidence, south Arabia represents an area with still high levels of undiscovered diversity.     

The phylogeny of aglaspidid arthropods and the internal relationships within Artiopoda

The phylogenetic position of aglaspidids, a problematic group of Lower Palaeozoic arthropods of undetermined affinities, is re‐examined in the context of the major Cambrian and Ordovician lamellipedian arthropod groups. A cladistic analysis of ten genera of aglaspidids sensu stricto, six aglaspidid‐like arthropods and 42 Palaeozoic arthropod taxa indicates that Xenopoda, Cheloniellida, Aglaspidida sensu lato and Trilobitomorpha form a clade (Artiopoda Hou and Bergström, 1997 ) nested within the mandibulate stem‐lineage, thus discarding previous interpretations of these taxa as part 'of the chelicerate stem‐group (Arachnomorpha Heider, 1913 ). The results confirm an aglaspidid identity for several recently described arthropods, including Quasimodaspis brentsae, Tremaglaspis unite, Chlupacaris dubia, Australaglaspis stonyensis and an unnamed Ordovician Chinese arthropod. The problematic Bohemian arthropod Kodymirus vagans was recovered as sister taxon to Beckwithia typa, and both form a small clade that falls outside Aglaspidida sensu stricto, thus discarding eurypterid affinities for the former. The analysis does not support the phylogenetic position of Kwanyinaspis maotianshanensis at the base of Conciliterga as proposed in recent studies, but rather occupies a basal position within Aglaspidida sensu lato. The results indicate a close association of aglaspidid arthropods with xenopods (i.e. Emeraldella and Sidneyia) and cheloniellids (e.g. Cheloniellon, Duslia); the new clade “Vicissicaudata” is proposed to encompass these arthropods, which are characterized by a differentiated posterior region. The phylogenetic position of aglaspidid arthropods makes them good outgroup candidates for analysing the internal relationships within the groups that form Trilobitomorpha. This work provides a much clearer picture of the phylogenetic relationships among Lower Palaeozoic lamellipedians.     

Identifying evolutionarily significant units for conservation of the endangered Malus sieversii using genome‐wide RADseq data

Malus sieversii, a wild progenitor of the domesticated apple, is an endangered species and is assigned second conservation priority by the China Plant Red Data Book. It is urgent to carry out in situ conservation of this species, but previous studies have not identified evolutionarily significant units (ESUs) for conservation management. In this study, we investigated the genetic diversity and relationships of six M. sieversii populations from China using integrated analysis of microsatellite (nSSR) data, genome‐wide SNPs and previous results in order to propose a reasonable conservation management. The results showed that levels of genetic diversity were inconsistently reflected by our nSSR and previous studies, suggesting that indices of genetic diversity are not effective to identify priority conservation areas for M. sieversii. Based on the selection criteria of ESUs for endangered species conservation, ESUs should reflect lineage divergence, geographical separation and different adaptive variation. Our phylogenetic tree based on genome‐wide SNPs yielded a clear relationship of divergent lineages among M. sieversii populations, leading to new different from those of previous studies. Three independent lineages, including the pairs of populations Huocheng‐Yining, Gongliu‐Xinyuan and Tuoli‐Emin, were identified. The geographic distances between populations among the different phylogenetic lineages were much greater than those within the same phylogenetic lineage. A cluster analysis on environmental variables showed that the three independent lineages inhabit different environmental conditions, suggesting that they may have adapted to different environments. Based on the results, we propose that three independent ESUs should be recognized as conservation units for M. sieversii in China.     

Global interrelationships of Plesiosauria (Reptilia,Sauropterygia) and the pivotal role of taxon sampling in determining the outcome of phylogenetic analyses

Previous attempts to resolve plesiosaurian phylogeny are reviewed and a new phylogenetic data set of 66 taxa (67% of ingroup taxa examined directly) and 178 characters (eight new) is presented. We recover two key novel results: a monophyletic Plesiosauridae comprising Plesiosaurus dolichodeirus, Hydrorion brachypterygius, Microcleidus homalospondylus, Occitanosaurus tournemirensis and Seeleyosaurus guilelmiimperatoris; and five plesiosaurian taxa recovered outside the split between Plesiosauroidea and Pliosauroidea. These taxa are Attenborosaurus conybeari, ‘Plesiosaurus’macrocephalus and a clade comprising Archaeonectrus rostratus, Macroplata tenuiceps and BMNH 49202. Based on this result, a new name, Neoplesiosauria, is erected for the clade comprising Plesiosauroidea and Pliosauroidea. Taxon subsamples of the new dataset are used to simulate previous investigations of global plesiosaurian relationships. Based on these simulations, most major differences between previous global phylogenetic hypotheses can be attributed to differences in taxon sampling. These include the position of Leptocleididae and Polycotylidae and the monophyly or paraphyly of Rhomaleosauridae. On this basis we favour the results recovered by our, larger analysis. Leptocleididae and Polycotylidae are sister taxa, forming a monophyletic clade within Plesiosauroidea, indicating that the large‐headed, short‐necked ‘pliosauromorph’ body plan evolved twice within Plesiosauria. Rhomaleosauridae forms the monophyletic sister taxon of Pliosauridae within Pliosauroidea. Problems are identified with previous phylogenetic definitions of plesiosaurian clades and new, stem‐based definitions are presented that should maintain their integrity over a range of phylogenetic hypotheses. New, rank‐free clade names Cryptoclidia and Leptocleidia are erected to replace the superfamilies Cryptoclidoidea and Leptocleidoidea. These were problematic as they were nested within the superfamily Plesiosauroidea. The incongruence length difference test indicates no significant difference in levels of homoplasy between cranial and postcranial characters.     

Taxonomy and biogeography of Diapensia (Diapensiaceae) based on chloroplast genome data

Diapensia L. is the second largest genus of Diapensiaceae. The taxonomic treatment within Diapensia and relationships within Diapensiaceae have been disputed. Chloroplast genome sequence data have proved to be useful for plant phylogenetic analyses and species delimitation. In this study, we de novo sequenced and assembled 22 chloroplast genomes of 15 species of Diapensiaceae, including all recognized species of Diapensia with multiple samples. A super‐matrix containing a total of 107 genes and 18 taxa was constructed for phylogenetic analyses to resolve phylogenetic relationships among genera of the family and within Diapensia. The resulting phylogenetic tree showed the following strongly supported relationships: (Galax, (Pyxidanthera, (Berneuxia, ((Schizocodon, Diapensia), and Shortia s.s.)))). The dated phylogeny and reconstructed lineage‐through‐time plot for the family indicated rapid diversification in the Neogene and an acceleration of diversification rate after c. 8 Ma. Biogeographic analysis suggested that Diapensia originated in the Northeast Asian mountains approximately 6.06 Ma, followed by northward dispersal to the Arctic and southwestward dispersal to the Himalaya–Hengduan Mountains. Phylogenetic relationships within Diapensia were well resolved. Based on the phylogenetic results, we proposed to reinstate the species status of Diapensia bulleyana Forrest ex Diels, and raised D. purpurea f. albida to the species rank (D. albida [W. E. Evans] J. F. Ye comb. & stat. nov.). The distribution ranges of all species delineated based on the phylogenetic results were revised accordingly based on specimen occurrences. Our study adds new examples for the power of plastid genome data for resolving phylogenetic relationships and clarifying taxonomic disputes among closely related species.     

Phylogenetic analysis of the leafhopper genus Apogonalia (Insecta: Hemiptera: Cicadellidae) and comments on the biogeography of the Caribbean islands

A phylogenetic analysis of the leafhopper genus Apogonalia was conducted based on a matrix of 40 terminal taxa and 147 morphological characters. The analysis yielded 1391 equally most‐parsimonious trees, which do not support the monophyly of Apogonalia in the strict consensus. A successive weighting procedure yielded 62 trees in which the genus appeared as a monophyletic group. The strict consensus of these 62 trees is almost entirely dichotomous, showing only two polytomies. The test of phylogenetic integrity was applied for distinct variations of three species: A. germana, A. sanguinipes, and A. histrio. Only for the first species was the conjecture that its variations belong to the same entity corroborated. The best‐supported clade within Apogonalia, which has several synapomorphies and high branch support indices, comprises nine Antillean endemic species. This distributional pattern probably was originated by vicariance in the Late Cretaceous, when the Proto‐Antillean archipelago was pushed north‐eastward by the Caribbean Plate to become the modern Greater Antilles. © 2011 The Linnean Society of London, Zoological Journal of the Linnean Society, 2011, 163 , 548–570.     

Cladogenesis and reticulation in the Hawaiian endemic mints (Lamiaceae)

The Hawaiian endemic mints, which comprise 58 species of dry‐fruited Haplostachys and fleshy‐fruited Phyllostegia and Stenogyne, represent a major island radiation that likely originated from polyploid hybrid ancestors in the temperate North American Stachys lineage. In contrast with considerable morphological and ecological diversity among taxa, sequence variation in the nrDNA 5S non‐transcribed spacer was found to be remarkably low, which when analyzed using standard parsimony resulted in a lack of phylogenetic resolution among accessions of insect‐pollinated Phyllostegia and bird‐pollinated Stenogyne. However, many within‐individual nucleotide polymorphisms were observed, and under the assumption that they could contain phylogenetic information, these ambiguities were recoded as new character states. Substantially more phylogenetic structure was obtained with these data, including the resolution of most Stenogyne species into a monophyletic group with an apparent recent origin on O’ahu (3.0 My) or the Maui Nui island complex (2.2 My). Subsequent diversification appears to have involved multiple inter‐island dispersal events. Intergeneric placements for a few morphotypes, seemingly misplaced within either Phyllostegia or Stenogyne, may indicate reticulation as one polymorphism‐generating force. For a finer scale exploration of hybridization, preliminary AFLP fragment data were examined among putative hybrids of Stenogyne microphylla and S. rugosa from Mauna Kea, Hawai’i, that had been identified based on morphology. Cladistic analysis (corroborated by multivariate correspondence analysis) showed the morphologically intermediate individuals to group in a strongly supported monophyletic clade with S. microphylla. Therefore, reticulation could be both historic and active in Stenogyne, and perhaps a force of general importance in the evolution of the Hawaiian mints. The relatively greater extent of lineage‐sorted polymorphisms in Stenogyne may indicate selective differentiation from other fleshy‐fruited taxa, perhaps through the agency of highly specialized bird pollinators that restricted gene flow with other Hawaiian mint morphotypes.     

Data partitioning in Bayesian analysis: molecular phylogenetics of metalmark moths (Lepidoptera: Choreutidae)

In this study a multilocus phylogenetic analysis of metalmark moths (Lepidoptera: Choreutidae) focused on resolving the higher‐level phylogeny of this group is presented. Through the analysis of this dataset, I explore different data‐partitioning strategies in Bayesian phylogenetic inference, and find that a partitioning strategy can have a large influence on the results of phylogenetic analysis. Depending on how the data are partitioned, there can be significant differences in branch support. I also test for the existence of the Bayesian star tree paradox, and its importance in this dataset, and find that it appears to inflate support for the clade including Rhobonda gaurisana, Hemerophila houttuinialis, H. diva and H. felis, but plays no role in other cases where the differences between maximum‐likelihood bootstraps and Bayesian posterior probabilities are large. The results of all the phylogenetic analyses strongly suggest that including Millieriinae in Choreutidae renders the family polyphyletic. The monophyly of the other two subfamilies, Brenthiinae and Choreutinae, as well as their sister‐group relationship, is strongly supported. Similarly, the monophyly of all the genera examined except Hemerophila is also well supported. To bring the classification of Choreutidae in line with our current understanding of the phylogenetic relationships in the family, I propose to exclude Millieriinae from Choreutidae, elevate it to Millieriidae Heppner, and place it as incertae sedis within Ditrysia.     

The phylogenetic systematics of blue‐tailed skinks (Plestiodon) and the family Scincidae

Blue‐tailed skinks (genus Plestiodon) are a common component of the terrestrial herpetofauna throughout their range in eastern Eurasia and North and Middle America. Plestiodon species are also frequent subjects of ecological and evolutionary research, yet a comprehensive, well‐supported phylogenetic framework does not yet exist for this genus. We construct a comprehensive molecular phylogeny of Plestiodon using Bayesian phylogenetic analyses of a nine‐locus data set comprising 8308 base pairs of DNA, sampled from 38 of the 43 species in the genus. We evaluate potential gene tree/species tree discordance by conducting phylogenetic analyses of the concatenated and individual locus data sets, as well as employing coalescent‐based methods. Specifically, we address the placement of Plestiodon within the evolutionary tree of Scincidae, as well as the phylogenetic relationships between Plestiodon species, and their taxonomy. Given our sampling of major Scincidae lineages, we also re‐evaluate ‘deep’ relationships within the family, with the goal of resolving relationships that have been ambiguous in recent molecular phylogenetic analyses. We infer strong support for several scincid relationships, including a major clade of ‘scincines’ and the inter‐relationships of major Mediterranean and southern African genera. Although we could not estimate the precise phylogenetic affinities of Plestiodon with statistically significant support, we nonetheless infer significant support for its inclusion in a large ‘scincine’ clade exclusive of Acontinae, Lygosominae, Brachymeles, and Ophiomorus. Plestiodon comprises three major geographically cohesive clades. One of these clades is composed of mostly large‐bodied species inhabiting northern Indochina, south‐eastern China (including Taiwan), and the southern Ryukyu Islands of Japan. The second clade comprises species inhabiting central China (including Taiwan) and the entire Japanese archipelago. The third clade exclusively inhabits North and Middle America and the island of Bermuda. A vast majority of interspecific relationships are strongly supported in the concatenated data analysis, but there is nonetheless significant conflict amongst the individual gene trees. Coalescent‐based gene tree/species tree analyses indicate that incongruence amongst the nuclear loci may severely obscure the phylogenetic inter‐relationships of the primarily small‐bodied Plestiodon species that inhabit the central Mexican highlands. These same analyses do support the sister relationship between Plestiodon marginatus Hallowell, 1861 and Plestiodon stimpsonii (Thompson, 1912), and differ with the mitochondrial DNA analysis that supports Plestiodon elegans (Boulenger, 1887) + P. stimpsonii. Finally, because the existing Plestiodon taxonomy is a poor representation of evolutionary relationships, we replace the existing supraspecific taxonomy with one congruent with our phylogenetic results. © 2012 The Linnean Society of London, Zoological Journal of the Linnean Society, 2012, 165 , 163–189.     

The phylogenetic position of the Aeolosomatidae and Parergodrilidae, two enigmatic oligochaete-like taxa of the 'Polychaeta', based on molecular data from 18S rDNA sequences

The Aeolosomatidae and the Parergodrilidae are meiofaunal Annelida showing different combinations of clitellate‐like and non‐clitellate character states. Their phylogenetic positions and their systematic status within the Annelida are still in debate. Here we attempt to infer their systematic position using 18S rDNA sequences of the aeolosomatid Aeolosoma sp. and the parergodrilid Stygocapitella subterranea and several other meiofaunal taxa such as the Dinophilidae, Polygordiidae and Saccocirridae. The data matrix was complemented by sequences from several annelid, arthropod and molluscan species. After evaluation of the phylogenetic signal the data set was analysed with maximum‐parsimony, distance and maximum‐likelihood algorithms. Sequences from selected arthropods or molluscs were chosen for outgroup comparison. The resolution of the resulting phylogenies is discussed in comparison to previous studies. The results do not unequivocally support a sister‐group relationship of Aeolosoma sp. and the Clitellata. Instead, depending on the algorithms applied, Aeolosoma clusters in various clades within the polychaetes, for instance, together with eunicidan species, the Dinophilidae, Harmothoë impar or Nereis limbata. The position of Aeolosoma sp. thus cannot be resolved on the basis of the data available. S. subterranea always falls close to a cluster comprising Scoloplos armiger, Questa paucibranchiata and Magelona mirabilis, all of which were resolved as not closely related to both Aeolosoma sp. and the Clitellata. Therefore, convergent evolution of clitellate‐like characters in S. subterranea and hence in the Parergodrilidae is suggested by our phylogenetic analysis. Moreover, the Clitellata form a monophyletic clade within the paraphyletic polychaetes.     

A eubrachythoracid arthrodire with a snubnose from Gogo, Western Australia

A new eubrachythoracid arthrodire, Simosteus tuberculatus gen. et sp. nov., is described from the Upper Devonian Gogo Formation of Western Australia and its structure and relationships are discussed. It is related to the trematosteids, leiosteids and hadrosteids on the evidence of 'fused' preorbital and postnasal bones.     

A total‐evidence phylogenetic analysis of Hormaphidinae (Hemiptera: Aphididae), with comments on the evolution of galls

A phylogenetic analysis of Hormaphidinae is presented based on a total‐evidence approach. Four genes (two mitochondrial, COI and CytB, and two nuclear, EF‐1α and LWO) are combined with 65 morphological and seven biological characters. Sixty‐three hormaphidine species representing three tribes and 36 genera as well as nine outgroups are included. Parsimony and model‐based approaches are used, and several support values and implied weighting schemes are explored to assess clade stability. The monophyly of Hormaphidinae and Nipponaphidini is supported, but Cerataphidini and Hormaphidini are not recovered as monophyletic. Based on the parsimony hypothesis from the total‐evidence analysis, the phylogenetic relationships within Hormaphidinae are discussed. Cerataphidini is re‐delimited to exclude Doraphis and Tsugaphis, and Hormaphidini is redefined to include Doraphis. Ceratocallis Qiao & Zhang is established as a junior synonym of Ceratoglyphina van der Goot, syn. nov. Lithoaphis quercisucta Qiao, Guo & Zhang is transferred to the genus Neohormaphis Noordam as Neohormaphis quercisucta (Qiao, Guo & Zhang) comb. nov. Galls have evolved independently within three tribes of Hormaphidinae. In Cerataphidini, pseudogalls are ancestral, both single‐cavity and multiple‐cavity galls have evolved once, and galls appear to have evolved towards greater complexity. Galling on secondary hosts has evolved twice in hormaphidines.     

Phylogeny of the conodont genera Hindeodus and Isarcicella across the Permian–Triassic boundary

Jiang, H., Aldridge, R.J., Lai, X., Yan, C. & Sun, Y. 2010: Phylogeny of the conodont genera Hindeodus and Isarcicella across the Permian–Triassic boundary. Lethaia, Vol. 44, pp. 374–382. Several phylogenetic hypotheses have been put forward to explain the relationships between species of the conodont genera Hindeodus and Isarcicella across the Permian–Triassic boundary. These phylogenetic models can be tested by cladistic analysis. A data matrix of 25 P₁ element characters for 22 species of Hindeodus and Isarcicella has been analysed and the resulting cladogram converted to a phylogenetic tree using the ranges of taxa in the Meishan Section, China. The proposed phylogeny does not concur entirely with any of those forwarded in the previous literature, and Hindeodus parvus is not resolved as a direct descendant of Hindeodus praeparvus. Species assigned to the genus Isarcicella form a natural group, with Hindeodus species apparently representing a paraphyletic array. The Hindeodus + Isarcicella clade survived the end‐Permian extinction event well, with Hindeodus species that became extinct just above the boundary replaced by radiation within the Isarcicella clade. □Cladistics, conodonts, phylogeny, Permian, Triassic.