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1. On some encrusting Xeniidae (Octocorallia): Re-examination of the type material of Sansibia flava (May, 1898) and a description of new taxa

   https://doi.org/10.11646/zootaxa.5093.4.3  

   BENAYAHU, YEHUDA; EKINS, MERRICK; OFWEGEN, LEEN P.; SAMIMI-NAMIN, KAVEH; MCFADDEN, CATHERINE S. (January 2022, Zootaxa)

   The type of the xeniid soft coral Sansibia flava (May, 1898) is re-described for the first time and its morphological diagnosis is presented. A subsequent integrated analysis of molecular and morphological characters of related Xeniidae, including species indigenous to the Indo-Pacific Ocean and invasive in the Atlantic (Brazil), led to the description of a new Sansibia species, as well as two new genera comprising an additional three new species. All of these taxa are encrusting, with polyps arising directly from a spreading basal membrane. Molecular phylogenetic analyses show that these genera are not sister taxa, thus further emphasizing the remarkable phylogenetic diversity of xeniids with such a growth form. The sclerites of all species are uniformly ellipsoid platelets, abundant throughout the colony. The species exhibit restricted, non-overlapping geographic ranges, with distinct genotypes (molecular operational taxonomic units) found in different marine realms. The results emphasize the importance of re-examination of original old type material while applying molecular phylogenetic analyses in order to delineate species boundaries and to recognize biodiversity patterns. 

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2. Phylogenomics of Lasiodoriforms: reclassification of the South American genus Vitalius Lucas, Silva and Bertani and allied genera (Araneae: Theraphosidae)

   https://doi.org/10.3389/fevo.2023.1177627  

   Galleti-Lima, Arthur; Hamilton, Chris A; Borges, Leandro M; Guadanucci, José_Paulo L (June 2023, Frontiers in Ecology and Evolution)

   Theraphosinae is the most diverse subfamily of Theraphosidae spiders, but their evolutionary history remains unresolved to date. This problem is common in taxonomic groups with phylogenetic hypotheses that have often been based only on qualitative morphological characters and, rarely, on molecular analyses. Phylogenomics has significantly contributed to the understanding of the evolution of many non-model groups, such as spiders. Herein, we employed ultraconserved elements (UCEs) phylogenomics to propose a new hypothesis for a group of Theraphosinae genera, namely Lasiodoriforms:Vitalius, Lasiodora, Eupalaestrus, Pterinopelma, Proshapalopus, andNhandu. We propose three genera and their respective morphological diagnoses are provided. Our phylogeny supports the transfer of species from the genusVitaliustoPterinopelmaandProshapalopusand fromProshapalopustoEupalaestrus. Finally, we describe a new species ofVitaliusfrom Southern Brazil. Based on these three new generic descriptions and transferred species, the Lasiodoriform tarantulas comprise nine genera from Argentina, Brazil, Paraguay, and Uruguay, and the genusVitaliusnow includes seven species. 

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3. Extensive paraphyly in the typical owl family (Strigidae)

   https://doi.org/10.1093/auk/ukz070  

   Salter, Jessie F.; Oliveros, Carl H.; Hosner, Peter A.; Manthey, Joseph D.; Robbins, Mark B.; Moyle, Robert G.; Brumfield, Robb T.; Faircloth, Brant C. (December 2019, The Auk)

   Abstract The typical owl family (Strigidae) comprises 194 species in 28 genera, 14 of which are monotypic. Relationships within and among genera in the typical owls have been challenging to discern because mitochondrial data have produced equivocal results and because many monotypic genera have been omitted from previous molecular analyses. Here, we collected and analyzed DNA sequences of ultraconserved elements (UCEs) from 43 species of typical owls to produce concatenated and multispecies coalescent-based phylogenetic hypotheses for all but one genus in the typical owl family. Our results reveal extensive paraphyly of taxonomic groups across phylogenies inferred using different analytical approaches and suggest the genera Athene, Otus, Asio, Megascops, Bubo, and Strix are paraphyletic, whereas Ninox and Glaucidium are polyphyletic. Secondary analyses of protein-coding mitochondrial genes harvested from off-target sequencing reads and mitochondrial genomes downloaded from GenBank generally support the extent of paraphyly we observe, although some disagreements exist at higher taxonomic levels between our nuclear and mitochondrial phylogenetic hypotheses. Overall, our results demonstrate the importance of taxon sampling for understanding and describing evolutionary relationships in this group, as well as the need for additional sampling, study, and taxonomic revision of typical owl species. Additionally, our findings highlight how both divergence and convergence in morphological characters have obscured our understanding of the evolutionary history of typical owls, particularly those with insular distributions. 

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4. Emerging global novelty in phyllobothriidean tapeworms (Cestoda: Phyllobothriidea) from sharks and skates (Elasmobranchii)

   https://doi.org/10.1093/zoolinnean/zlaa185  

   Caira, Janine N; Bueno, Veronica; Jensen, Kirsten (February 2021, Zoological Journal of the Linnean Society)

   null (Ed.)

   Abstract New genera are erected for three clades of tapeworms originally discovered using molecular sequence data. The morphological features of each are characterized after examination of specimens with light and scanning electron microscopy. Rockacestus gen. nov. parasitizes skates. Ruhnkebothrium gen. nov. parasitizes hammerhead sharks. Yamaguticestus gen. nov. parasitizes small squaliform sharks and catsharks. The novelty of these genera is supported by a taxonomically comprehensive molecular phylogenetic analysis of the D1–D3 region of the 28S rDNA gene, which, with the addition of newly generated sequence data, is the first to include representation of 15 of the 18 genera of phyllobothriideans plus the three new genera. Five new species are described from elasmobranchs in the western Atlantic Ocean, the Gulf of California, Chile, the Falkland Islands and South Africa to help circumscribe the new genera. Two of the genera provide appropriate generic homes for ten species of phyllobothriideans from catsharks and skates with uncertain generic affinities and thus resolve longstanding taxonomic issues. Given that these genera parasitize some of the most poorly sampled groups of elasmobranchs (i.e. hammerhead sharks, squaliform sharks, catsharks and skates), based on the strict degree of host specificity observed, we predict that further work on other members of these groups will yield as many as 200 additional species in these three genera of tapeworms globally. This brings the total number of genera in the Phyllobothriidea to 21. 

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5. Grappling with homoplasy: taxonomic refinements and reassignments in the ant genera Camponotus and Colobopsis (Hymenoptera: Formicidae)

   https://doi.org/10.3897/asp.79.e66978  

   Ward, Philip S.; Boudinot, Brendon E. (April 2021, Arthropod Systematics & Phylogeny)

   null (Ed.)

   Camponotus and Colobopsis are widely distributed and species-rich genera in the ant tribe Camponotini. Molecular phylogenetic studies demonstrate that they are not sister taxa, but several lineages within each genus have converged to a remarkable degree, confounding the taxonomy of these ants. Based on multiple lines of evidence, including worker and male morphology, we demonstrate that: (1) three species of “Camponotus” belonging to the subgenus Myrmotemnus, including its type species, are in fact members of the genus Colobopsis ; (2) four species previously assigned to Colobopsis belong to the subgenus Myrmamblys of Camponotus ; and (3) three Nearctic taxa recently placed in Colobopsis are members of the genus Camponotus and closely related to Camponotus clarithorax . These taxonomic findings yield the following new or revived combinations: Colobopsis moeschi ( comb. nov. ), Colobopsis moeschi lygaea ( comb. nov. ), Colobopsis nutans ( comb. nov. ), Colobopsis nutans cleliae ( comb. nov. ), and Colobopsis reichenspergeri ( comb. nov. ); Camponotus apostemata ( comb. nov. ), Camponotus aurelianus ( comb. rev. ), Camponotus cavibregma ( comb. nov. ), Camponotus horrens ( comb. rev. ), Camponotus politae ( comb. rev. ), Camponotus trajanus ( comb. rev. ), and Camponotus yogi ( comb. rev. ). A further consequence is the following generic synonymy (senior synonym listed first): Colobopsis = Myrmotemnus syn. nov. , and Camponotus = Dolophra syn. rev. At the species level, we argue that Camponotus apostemata and Camponotus cavibregma are junior synonyms ( syn. nov. ) of Camponotus yogi , and Camponotus quercicola is a junior synonym ( syn. nov. ) of Ca. laevigatus . Taxonomic comments are also provided on some members of the Camponotus reticulatus group, with Camponotus adustus ( stat. nov. ) and Ca. leucodiscus ( stat. rev. ) being recognized as distinct species rather than subspecies of Ca. bellus . A male-based diagnosis of the Camponotini is provided, and differences between the males of Colobopsis and Camponotus are documented and illustrated for the first time. This study reveals new character systems of potential value to the systematics of these ants, including features of the male genitalia, and emphasizes the value of reciprocal illumination between phylogenomics and critical morphological analysis. 

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