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  1. No abstract available. 
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  2. Abstract

    We revise the Chilean genus Porteria, including the type species, Porteria albopunctata, and 11 new species: Porteria ajimayo sp. nov., Porteria alopobre sp. nov., Porteria ariasbohartae sp. nov., Porteria bunnyana sp. nov., Porteria contulmo sp. nov., Porteria correcaminos sp. nov., Porteria eddardstarki sp. nov., Porteria faberi sp. nov., Porteria fiura sp. nov., Porteria misbianka sp. nov. and Porteria torobayo sp. nov. A phylogenetic analysis using six genetic markers confirms the monophyly of Porteriinae, including Baiami and the core porteriines, here defined to include the ecribellate genera Cambridgea, Corasoides, Nanocambridgea and Porteria. Core porteriines are diagnosed by a narrowed section of the piriform gland spigot field, the cymbium extended to a narrow tip and lack of a median apophysis. Porteria and Corasoides are sister taxa, united by the behaviour of running atop the sheet of a web and by spinning a regular square mesh in the web platform. According to our results, the diversification of Porteria started about 30 Mya (44–17 Mya). A biogeographic analysis infers that an ancestor of Porteria reached South America via a founder event from Australia or New Zealand, where their close relatives occur.

     
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  3. Abstract

    Biodiversity catalogs are an invaluable resource for biological research. Efforts to scientifically document biodiversity have not been evenly applied, either because of charisma or because of ease of study. Spiders are among the most precisely cataloged and diverse invertebrates, having surpassed 50,000 described species globally. The World Spider Catalog presents a unique opportunity to assess the disproportionate documentation of spider diversity. In the present article, we develop a taxonomic ratio relating new species descriptions to other taxonomic activity as a proxy for taxonomic effort, using spiders as a case study. We use this taxonomic effort metric to examine biases along multiple axes: phylogeny, zoogeography, and socioeconomics. We also use this metric to estimate the number of species that remain to be described. This work informs arachnologists in identifying high-priority taxa and regions for species discovery and highlights the benefits of maintaining open-access taxonomic databases—a necessary step in overcoming bias and documenting the world's biodiversity.

     
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  4. No abstract available. 
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  5. Wiegmann, Brian (Ed.)
    Abstract Ultraconserved genomic elements (UCEs) are generally treated as independent loci in phylogenetic analyses. The identification pipeline for UCE probes does not require prior knowledge of genetic identity, only selecting loci that are highly conserved, single copy, without repeats, and of a particular length. Here, we characterized UCEs from 11 phylogenomic studies across the animal tree of life, from birds to marine invertebrates. We found that within vertebrate lineages, UCEs are mostly intronic and intergenic, while in invertebrates, the majority are in exons. We then curated four different sets of UCE markers by genomic category from five different studies including: birds, mammals, fish, Hymenoptera (ants, wasps, and bees), and Coleoptera (beetles). Of genes captured by UCEs, we find that many are represented by two or more UCEs, corresponding to nonoverlapping segments of a single gene. We considered these UCEs to be nonindependent, merged all UCEs that belonged to a particular gene, constructed gene and species trees, and then evaluated the subsequent effect of merging cogenic UCEs on gene and species tree reconstruction. Average bootstrap support for merged UCE gene trees was significantly improved across all data sets apparently driven by the increase in loci length. Additionally, we conducted simulations and found that gene trees generated from merged UCEs were more accurate than those generated by unmerged UCEs. As loci length improves gene tree accuracy, this modest degree of UCE characterization and curation impacts downstream analyses and demonstrates the advantages of incorporating basic genomic characterizations into phylogenomic analyses. [Anchored hybrid enrichment; ants; ASTRAL; bait capture; carangimorph; Coleoptera; conserved nonexonic elements; exon capture; gene tree; Hymenoptera; mammal; phylogenomic markers; songbird; species tree; ultraconserved elements; weevils.] 
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  6. Abstract

    Scorpions are an excellent system for understanding biogeographical patterns. Most major scorpion lineages predate modern landforms, making them suitable for testing hypotheses of vicariance and dispersal. The Caribbean islands are endowed with a rich and largely endemic scorpion fauna, the origins of which have not been previously investigated with modern biogeographical methods. Three sets of hypotheses have been proposed to explain present patterns of diversity in the Caribbean: (1) connections via land bridges, (2) vicariance events, and (3) overwater dispersal from continents and among islands. The present study investigates the biogeographical diversification of the New World buthid scorpion subfamily Centruroidinae Kraus, 1955, a clade of seven genera and more than 110 species; infers the ancestral distributions of these scorpions; and tests the relative roles of vicariance and dispersal in the formation of their present distributions. A fossil-calibrated molecular phylogeny was estimated with a Bayesian criterion to infer the dates of diversification events from which ancestral distributions were reconstructed, and the relative likelihood of models of vicariance vs. dispersal, calculated. Although both the timing of diversification and the ancestral distributions were congruent with the GAARlandia land-bridge hypothesis, there was no significant difference between distance-dependent models with or without the land-bridge.HeteroctenusPocock, 1893, the Caribbean-endemic sister taxon ofCentruroidesMarx, 1890 provides evidence for a Caribbean ancestor, which subsequently colonized Central America and North America, and eventually re-colonized the Greater Antilles. This ‘reverse colonization’ event of a continent from an island demonstrates the importance of islands as a potential source of biodiversity.

     
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  7. No abstract available. 
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