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1. Phylogenomic Delimitation of Morphologically Cryptic Species in Globetrotting Nylanderia (Hymenoptera: Formicidae) Species Complexes

   https://doi.org/10.1093/isd/ixab027  

   Williams, Jason L; Zhang, Y Miles; LaPolla, John S; Schultz, Ted R; Lucky, Andrea (January 2022, Insect Systematics and Diversity)

   Camacho, Gabriela P (Ed.)

   Abstract The ant genus Nylanderia Emery has a cosmopolitan distribution and includes 150 extant described species and subspecies, with potentially hundreds more undescribed. Global taxonomic revision has long been stalled by strong intra- and interspecific morphological variation, limited numbers of diagnostic characters, and dependence on infrequently collected male specimens for species description and identification. Taxonomy is further complicated by Nylanderia being one of the most frequently intercepted ant genera at ports of entry worldwide, and at least 15 globetrotting species have widespread and expanding ranges, making species-level diagnoses difficult. Three species complexes (‘bourbonica complex’, ‘fulva complex’, and ‘guatemalensis complex’) include globetrotting species. To elucidate the phylogenetic positions of these three complexes and delimit species boundaries within each, we used target enrichment of ultraconserved elements (UCEs) from 165 specimens representing 98 Nylanderia morphospecies worldwide. We also phased the UCEs, effectively doubling sample size and increasing population-level sampling. After recovering strong support for the monophyly of each complex, we extracted COI barcodes and SNPs from the UCE data and tested within-complex morphospecies hypotheses using three molecular delimitation methods (SODA, bPTP, and STACEY). This comparison revealed that most methods tended to over-split taxa, but results from STACEY were most consistent with our morphospecies hypotheses. Using these results, we recommend species boundaries that are conservative and most congruent across all methods. This work emphasizes the importance of integrative taxonomy for invasive species management, as globetrotting occurs independently across at least nine different lineages across Nylanderia. 

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2. A phylogenomic overview of the ant genus Tapinoma Foerster, 1850 (Formicidae: Dolichoderinae), with the phylogeographic history of the ghost ant Tapinoma melanocephalum

   https://doi.org/10.1093/isd/ixaf035  

   Pérez-Flores, Oscar; Branstetter, Michael G; Longino, John T; Matos-Maraví, Pável; Borovanska, Michaela; Janda, Milan (September 2025, Insect Systematics and Diversity)

   Abstract The ant genus Tapinoma Foerster, 1850 is a moderately diverse group (81 valid species) that occurs worldwide. It includes the tramp species T. melanocephalum, whose evolutionary history, biogeographic origin, and population limits remain unclear. Here, we present a time-calibrated phylogeny and a biogeographic history inference of the genus based on thousands of Ultraconserved Element (UCE) loci. Focusing on T. melanocephalum, we used single nucleotide polymorphisms from UCE loci and COI sequences to analyze species boundaries based on nuclear and mitochondrial DNA. We recovered a monophyletic Tapinoma with an estimated crown age corresponding to middle Eocene (49.4 to 34.4 Ma). Phylogenomic data differentiated T. melanocephalum from T. jandai, a recently established species based on morphology, and revealed that the 2 species diverged ∼12 Ma. Population genetic analyses identified considerable molecular divergence among sampled T. melanocephalum populations, and a heterogeneous genetic structure, showing a weak relationship between genetic differentiation and geographic distance. A phylogeographic comparison of habitat preferences of T. melanocephalum revealed an ecological shift from undisturbed to urban environments, a phenomenon which may have facilitated its ubiquitous and global distribution. Our study presents the first phylogenomic framework for this globally distributed ant genus and molecularly delineates a worldwide pest ant species. 

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3. Phylogenomics of North American cybaeid spiders (Araneae, Cybaeidae), including the description of new taxa from the Klamath Mountains Geomorphic Province

   https://doi.org/10.3897/zookeys.1226.140204  

   Hedin, Marshal; Ramírez, Martín J; Monjaraz-Ruedas, Rodrigo (February 2025, ZooKeys)

   The systematics of humble-in-appearance brown spiders (“marronoids”), within a larger group of spiders with a modified retrolateral tibial apophysis (the RTA Clade), has long vexed arachnologists. Although not yet fully settled, recent phylogenomics has allowed the delimitation and phylogenetic relationships of families within marronoids to come into focus. Understanding relationships within these families still awaits more comprehensive generic-level sampling, as the majority of described marronoid genera remain unsampled for phylogenomic data. Here we conduct such an analysis in the family Cybaeidae Banks, 1892. We greatly increase generic-level sampling, assembling ultraconserved element (UCE) data for 18 of 22 described cybaeid genera, including all North American genera, and rigorously test family monophyly using a comprehensive outgroup taxon sample. We also conduct analyses of traditional Sanger loci, allowing curation of some previously published data. Our UCE phylogenomic results support the monophyly of recognized cybaeids, with strongly supported internal relationships, and evidence for five primary molecular subclades. We hypothesize potential morphological synapomorphies for most of these subclades, bringing a robust phylogenomic underpinning to cybaeid classification. A new cybaeid genusSiskiyugen. nov.and speciesSiskiyu armillasp. nov.is discovered and described from far northern California and adjacent southern Oregon and a new species in the elusive genusCybaeozyga,C. furtivasp. nov., is described from far northern California. 

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4. Phylogenetics and Morphometrics of Saw-scaled Vipers in Support of Lineage Diversification

   Highland, Dyland; Myers, Edward A. (October 2023, Society for the Advancement of Chicanos/Hispanics and Native Americans in Science - 2023 NDiSTEM)

   Saw-scaled vipers (genus Echis) are small (up to 58 cm snout-to-vent length), venomous, eastern hemisphere snakes of the subfamily Viperinae. They are distributed across northern Africa, the Arabian Peninsula, and southwestern Asia. This group has been separated into four species complexes and twelve proposed species, however the true diversity within these groups is unclear even given numerous studies on this genus. This is partly due to uneven geographic sampling of specimens and tissue samples, overlapping distributions, and historically difficult to access species’ ranges making this genus difficult to research. Furthermore, previous studies have not used objective species delimitation approaches with either molecular or morphological data. Using recently collected tissue samples, we generate cytochrome b sequences for 24 specimens and combine these with sequences available on GenBank in order to create a time-calibrated phylogeny and estimate species level diversity using single locus species delimitation methods. We couple this with morphological analysis of specimens from the California Academy of Sciences and UC Berkeley Museum of Vertebrate Zoology collections, in order to determine if these genetically delimited species are morphologically diverged. These data can further aid in identifying specimens to species in this genus, as was demonstrated by classifying individuals to species within the Academy’s collection. 

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5. Led astray by 16S rRNA: phylogenomics reaffirms the monophyly of Methylobacterium and lack of support for Methylorubrum as a genus

   https://doi.org/10.1093/ismejo/wraf011  

   Alleman, Alexander_B; Stolyar, Sergey; Marx, Christopher_J; Leducq, Jean-Baptiste (January 2025, The ISME Journal)

   Abstract Although the 16S (and 18S) rRNA gene has been an essential tool in classifying prokaryotes, using a single locus to revise bacteria taxonomy can introduce unwanted artifacts. There was a recent proposition to split the Methylobacterium genus, which contains diverse plant-associated strains and is important for agriculture and biotechnology, into two genera. Resting strongly on the phylogeny of 16S rRNA, 11 species of Methylobacterium were transferred to a newly proposed genus Methylorubrum. Numerous recent studies have independently questioned Methylorubrum as a valid genus, but the prior revision has left discrepancies among taxonomic databases. Here, we review phylogenomic and phenotypic evidence against Methylorubrum as a genus and call for its abandonment. Because Methylobacterium sensu lato forms a consistent and monophyletic genus, we argue for the restoration of the former and consensual Methylobacterium taxonomy. The large genomic, phenotypic, and ecological diversity within Methylobacterium however suggests complex evolutionary and adaptive processes and support the description of the most basal clade of Methylobacterium (group C) as a distinct genus in future work. Overall, this perspective demonstrates the danger of solely relying upon the 16S rRNA gene as a delimiter of genus level taxonomy and that further attempts must include more robust phenotypic and phylogenomic criteria. 

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