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1. Two new endophytic species enrich the Coniochaeta endophytica / C. prunicola clade: Coniochaeta lutea sp. nov. and C. palaoa sp. nov.

   https://doi.org/doi.org/10.35535/pfsyst-2021-0006  

   Arnold, A.E. (January 2021, Plant and Fungal Systematics)

   null (Ed.)

   Coniochaeta (Coniochaetaceae, Ascomycota) is a diverse genus that includes a striking richness of undescribed species with endophytic lifestyles, especially in temperate and boreal plants and lichens. These endophytes frequently represent undescribed species that can clarify evolutionary relationships and trait evolution within clades of previously classified fungi. Here we extend the geographic, taxonomic, and host sampling presented in a previous analysis of the clade containing Coniochaeta endophytica, a recently described species occurring as an endophyte from North America; and C. prunicola, associated with necroses of stonefruit trees in South Africa. Our multi-locus analysis and examination of metadata for endophyte strains housed in the Robert L. Gilbertson Mycological Herbarium at the University of Arizona (ARIZ) (1) expands the geographic range of C. endophytica across a wider range of the USA than recognized previously; (2) shows that the ex-type of C. prunicola (CBS 120875) forms a well-supported clade with endophytes of native hosts in North Carolina and Michigan, USA; (3) reveals that the ex-paratype for C. prunicola (CBS 121445) forms a distinct clade with endophytes from North Carolina and Russia, is distinct morphologically from the other taxa considered here, and is described herein as Coniochaeta lutea; and (4) describes a new species, Coniochaeta palaoa, here identified as an endophyte of multiple plant lineages in the highlands and piedmont of North Carolina. Separation of CBS 120875 and CBS 121445 into C. prunicola sensu stricto and C. lutea is consistent with previously described genomic differences between these isolates, and morphological and functional differences among the four species (C. endophytica, C. prunicola, C. palaoa, and C. lutea) underscore the phylogenetic relationships described here. The resolving power of particular loci and the emerging perspective on the host- and geographic range of Coniochaeta and the C. endophytica / C. prunicola clade are discussed. 

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2. Two new species of the hyperdiverse geometrid moth genus Eois (Lepidoptera, Geometridae, Larentiinae) from Ecuador, with descriptions of early stages

   https://doi.org/10.3897/zookeys.1192.111275  

   Doan, Lydia M; Miller, James S; Brown, John W; Forister, Matthew L; Dyer, Lee A (February 2024, ZooKeys)

   The hyperdiverse geometrid genusEoisHübner, estimated to encompass more than 1,000 species, is among the most species-rich genera in all of Lepidoptera. While the genus has attracted considerable attention from ecologists and evolutionary biologists in recent decades, limited progress has been made on its alpha taxonomy. This contribution focuses on the Olivacea clade, whose monophyly has been recognized previously through molecular analyses. We attempt to define the clade from a morphological perspective and recognize the following species based on morphology and genomic data:E. olivacea(Felder & Rogenhofer);E. pseudolivaceaDoan,sp. nov.;E. auruda(Dognin),stat. rev.;E. beebei(Fletcher, 1952),stat. rev.;E. boliviensis(Dognin),stat. rev.; andE. parumsimiiDoan,sp. nov.Descriptions and illustrations of the immature stages ofE. pseudolivaceareared fromPiper(Piperaceae) in Ecuador are provided. 

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3. Powdery Mildews on North American Oaks: High Levels of Diversity and Pathogen‐Host Coevolution

   https://doi.org/10.1111/efp.70005  

   Bradshaw, Michael; Quijada, Luis; Braun, Uwe; Smith, Matthew_E; Pfister, Donald_H (January 2025, Forest Pathology)

   ABSTRACT Erysiphespecies infecting oaks in North America are common and widespread, but compared to Asia and Europe, the taxonomy and phylogeny of North American species is unknown. The present study addresses this dispairity. Comprehensive multilocus phylogenetic analyses, includingCAM,GAPDH,GS, ITS,RPB2andTUB, revealed a high degree of co‐evolution between North American oaks and theErysiphespp. that infect them. A concatenated multilocus tree and individual trees based on single loci revealed many highly supported species clades. The clades are formally named to conform with the current taxonomic classification. Available names, such asE. abbreviata,E. calocladophoraandE. extensa, are associated with corresponding clades, and are newly circumscribed supported by ex‐type sequences or, if not available, by the designation of epitypes with ex‐epitype sequences.Erysiphe densissimais reintroduced for a clade that corresponds to the old name ‘E. extensavar.curta’. Eight new species are described, includingErysiphe carolinensis,E. gambelii,E. occidentalis,E. phellos,E. pseudoextensa,E. quercophila,E. quercus‐laurifoliaeandE. schweinitziana. A new diagnostically and taxonomically relevant trait associated with the anamorphs of North AmericanErysiphespecies on oaks has been assssed. This is a special conidiophore‐like lateral outgrowth of the superficial hyphae, comparable to ‘aerial hyphae,’ which are also known for species of the powdery mildew genusCystothecawhich also infectQuercusspecies. 

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4. Phylogeny and Taxonomic Synopsis of the Genus Bougainvillea (Nyctaginaceae)

   https://doi.org/10.3390/plants11131700  

   Bautista, Mary Ann; Zheng, Yan; Boufford, David E.; Hu, Zhangli; Deng, Yunfei; Chen, Tao (July 2022, Plants)

   Bougainvillea Comm. ex Juss. is one of the renowned genera in the Nyctaginaceae, but despite its recognized horticultural value, the taxonomy and phylogeny of the genus is not well-studied. Phylogenetic reconstructions based on plastid genomes showed that B. pachyphylla and B. peruviana are basal taxa, while B. spinosa is sister to two distinct clades: the predominantly cultivated Bougainvillea clade (B. spectabilis, B. glabra, B. arborea, B. cultivar, B. praecox) and the clade containing wild species of Bougainvillea (B. berberidifolia, B. campanulata, B. infesta, B. modesta, B. luteoalba, B. stipitata, and B. stipitata var. grisebachiana). Early divergence of B. peruviana, B. pachyphylla and B. spinosa is highly supported, thus the previously proposed division of Bougainvillea into two subgenera (Bougainvillea and Tricycla) was not reflected in this study. Morphological analysis also revealed that leaf arrangement, size, and indumentum together with the perianth tube and anthocarp shape and indumentum are important characteristics in differentiating the species of Bougainvillea. In the present study, 11 species and one variety are recognized in Bougainvillea. Six names are newly reduced to synonymy, and lectotypes are designated for 27 names. In addition, a revised identification key and illustrations of the distinguishing parts are also provided in the paper. 

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5. Towards a nomenclatural clarification of the Peltigera ponojensis/monticola clade including metagenomic sequencing of type material and the introduction of P. globulata Miadl. & Magain sp. nov.

   https://doi.org/10.1017/S0024282923000373  

   Miadlikowska, Jolanta; Magain, Nicolas; Medeiros, Ian D.; Pardo-De la Hoz, Carlos J.; Carbone, Ignazio; LaGreca, Scott; Barlow, Thomas; Myllys, Leena; Schmull, Michaela; Lutzoni, François (September 2023, The Lichenologist)

   Abstract Peltigera globulata Miadl. & Magain, a new species in the P. ponojensis/monticola species complex of section Peltigera , is formally described. This clade was previously given the interim designation Peltigera sp. 17. It is found in sun-exposed and xeric habitats at high altitudes in Peru and Ecuador. Peltigera globulata can be easily recognized by its irregularly globulated margins covered mostly by thick, white pruina, somewhat resembling the sorediate thallus margins of P. soredians , another South American species from section Peltigera . The hypervariable region of ITS1 (ITS1-HR), which is in general highly variable among species of section Peltigera , does not have diagnostic value for species identification within the P. ponojensis/monticola complex. Nevertheless, no significant level of gene flow was detected among eight lineages representing a clade of putative species (including P. globulata ) within this complex. ITS sequences from the holotype specimens of P. monticola Vitik. (collected in 1979) and P. soredians Vitik. (collected in 1981) and lectotype specimens of P. antarctica C. W. Dodge (collected in 1941) and P. aubertii C. W. Dodge (collected in 1952) were successfully obtained through Sanger and Illumina metagenomic sequencing. BLAST results of these sequences revealed that the type specimen of P. monticola falls within the P. monticola/ponojensis 7 clade, which represents P. monticola s. str., and confirmed that the type specimen of P. aubertii falls within a clade identified previously as P. aubertii based on morphology. The ITS sequence from the type specimen of P. soredians , which superficially resembles P. globulata , confirms its placement in the P. rufescens clade. Finally, we discovered that the name P. antarctica was erroneously applied to a lineage in the P. ponojensis/monticola clade. The ITS sequence from the type specimen of P. antarctica represents a lineage within the P. rufescens clade, which is sister to the P. ponojensis/monticola clade. 

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