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1. The millipede family Striariidae Bollman, 1893. IX. The identity of Striaria californica Cook, 1899, and the new genus Bayaria for Striaria nana Loomis, 1936, with a key to genera and an annotated checklist of the Striariidae (Diplopoda, Chordeumatida, Striarioidea)

   https://doi.org/10.11646/zootaxa.5463.4.4  

   Shear, William A; Marek, Paul E (June 2024, Zootaxa)

   The identity of Striaria californica Cook, described in 1899 from a single female, is established on the basis of additional specimens collected by Cook in 1929 and determined to be that species by Loomis (1936) as well as specimens from the San Francisco Bay region, likely to be from near the original collection locality. We propose Amplaria californica (Cook, 1899) new combination. A new genus, Bayaria Shear & Marek n. gen., is established for Striaria nana Loomis, 1936 Bayaria nana (Loomis, 1936) new combination. Striaria carmela Chamberlin, 1947, is a junior synonym of Bayaria nana. A key to the 16 genera of Striariidae and an annotated checklist of the 52 species are provided. 

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2. Taxonomic revision of the genus Machleida Fåhraeus, 1870 (Tenebrionidae, Pimeliinae, Asidini)

   https://doi.org/10.3897/zookeys.898.46465  

   Kamiński, Marcin J.; Kanda, Kojun; Smith, Aaron D. (December 2019, ZooKeys)

   null (Ed.)

   The taxonomic concept of the genus Machleida Fåhraeus, 1870 is tested and revised based on newly identified material. The following new species are described: Machleida banachi , M. flagstaffensis , M. tarskii , and M. zofiae Kamiński. Machleida capillosa Wilke, 1925 is considered as a junior subjective synonym of Asida devia Péringuey, 1899. Asida lecta Péringuey, 1899 (= Pseudomachla recurva Wilke, 1925) (transferred to Afrasida ), Machleida nossibiana Fairmaire, 1897 (transferred to Scotinesthes ), and Machleida tuberosa Wilke, 1925 (interpreted as incertae sedis in Asidini) are excluded from Machleida . An identification key for the species of the newly revised Machleida is provided. The present paper brings the total number of species within the genus to six ( M. banachi sp. nov. ; M. devia (Péringuey, 1899); M. flagstaffensis sp. nov. ; M. nodulosa Fåhraeus, 1870; M. tarskii sp. nov. ; M. zofiae Kamiński sp. nov. ). The morphology of female terminalia (ovipositor and genital tubes) is described for the genus for the first time. 

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3. UCE Phylogenomics of New World Cryptopone (Hymenoptera: Formicidae) Elucidates Genus Boundaries, Species Boundaries, and the Vicariant History of a Temperate–Tropical Disjunction

   https://doi.org/10.1093/isd/ixab031  

   Branstetter, Michael G; Longino, John T (January 2022, Insect Systematics and Diversity)

   Sosa-Calvo, Jeffrey (Ed.)

   Abstract The genus Cryptopone Emery contains 25 species of litter and soil ants, 5 of which occur in the Americas. Cryptopone gilva (Roger) occurs in the southeastern United States and cloud forests of Mesoamerica, exhibiting an uncommon biogeographic disjunction observed most often in plants. We used phylogenomic data from ultraconserved elements (UCEs), as well as mitogenomes and legacy markers, to investigate phylogenetic relationships, species boundaries, and divergence dates among New World Cryptopone. Species delimitation was conducted using a standard approach and then tested using model-based molecular methods (SNAPP, BPP, SODA, and bPTP). We found that Cryptopone as currently constituted is polyphyletic, and that all the South American species belong to Wadeura Weber, a separate genus unrelated to Cryptopone. A single clade of true Cryptopone occurs in the Americas, restricted to North and Central America. This clade is composed of four species that originated ~4.2 million years ago. One species from the mountains of Guatemala is sister to the other three, favoring a vicariance hypothesis of diversification. The taxonomy of the New World Cryptopone and Wadeura is revised. Taxonomic changes are as follows: Wadeura Weber is resurrected, with new combinations W. guianensis Weber, W. holmgreni (Wheeler), and W. pauli (Fernandes & Delabie); C. guatemalensis (Forel) (rev. stat.) is raised to species and includes C. obsoleta (Menozzi) (syn. nov.). The following new species are described: Cryptopone gilvagrande, C. gilvatumida, and Wadeura holmgrenita. Cryptopone hartwigi Arnold is transferred to Fisheropone Schmidt and Shattuck (n. comb.). Cryptopone mirabilis (Mackay & Mackay 2010) is a junior synonym of Centromyrmex brachycola (Roger) (syn. nov.). 

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4. Checklist of the genus Dendrophorbium (Senecioneae: Compositae) in Peru including a new combination and a new species

   https://doi.org/10.1111/njb.04385  

   Montesinos‐Tubée, Daniel B (November 2024, Nordic Journal of Botany)

   The genusDendrophorbiumoccurs in South America with one species known from the Caribbean. Despite recent advances in taxonomy and phylogeny, there is a still lack of molecular studies on the delimitation and identification of the genus.Dendrophorbiumis known to occupy a wide range of ecosystems mostly restricted to subtropical montane forests and montane scrub vegetation of the central Andes. In this study, a review of the species occurring in Peru is presented, in addition to material examined at different herbaria. The new combinationD. ligulatumwhich is separated fromD. yalusay, and the new species,D. arachnoideumis described from the department of Huánuco in central Peru. The species are assessed using the standards of the IUCN and additional notes are given. 

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5. The Rediscovery of Noblella peruviana after More than 115 Years Helps Resolve the Molecular Phylogeny and Taxonomy of Noblella (Amphibia, Anura, Strabomantidae)

   https://doi.org/10.3390/d16100613  

   von_May, Rudolf; Diaz, M Isabel; Ttito, Alex; Santa-Cruz, Roy; Catenazzi, Alessandro (October 2024, Diversity)

   We revise the taxonomy of the frog genus Noblella on the basis of a molecular phylogeny. Previous studies recognized that Noblella is non-monophyletic, with one clade distributed from southeastern Peru to northeastern Bolivia and adjacent areas in Brazil and another clade distributed from northern Peru to Ecuador and southeastern Colombia. The lack of sequences from the type species Noblella peruviana prevented the investigation of its phylogenetic position and the status of related taxa. Our rediscovery after more than 115 years allowed for the inclusion of DNA sequences of Noblella peruviana obtained from specimens collected at the type locality in southeastern Peru. We inferred a phylogeny based on a concatenated dataset (three mitochondrial and two nuclear loci) using Bayesian and maximum likelihood methods. Our phylogeny corroborated the non-monophyly of Noblella and helped resolve the status of related taxa, including Psychrophrynella bagrecito, the type species of the genus Psychrophrynella (rediscovered after 42 years). We identified a clade containing N. peruviana, P. bagrecito, and other species of Noblella and Psychrophrynella distributed in southern Peru. Given that the name Noblella predates Psychrophrynella, we propose that Psychrophrynella should be considered a junior synonym of Noblella. The second clade contains species of Noblella distributed in Ecuador and northern Peru, including N. myrmecoides, which used to be the type species of the genus Phyllonastes. Consequently, we propose to reinstate the genus Phyllonastes to accommodate all species of Noblella distributed in Ecuador, northern Peru, southeastern Colombia, and adjacent areas in Brazil. We present an updated taxonomy including new combinations for 12 species and reinstatements for three species. 

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