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1. Key to sessile gnesiotrochan rotifers: Lacinularia and Sinantherina (Monogononta; Flosculariidae)

   https://doi.org/10.11646/zootaxa.5575.1.10  

   DAVIES, NATALIE; LAFLEUR, ALEXANDRE; HOCHBERG, RICK; WALSH, ELIZABETH J; WALLACE, ROBERT L (January 2025, Zootaxa)

   Understanding the general biology, biodiversity, ecology, and evolutionary history of organisms necessitates correct identification. Found worldwide in fresh, brackish, and some marine waters, rotifers can be difficult to identify due to their small size, complex characteristics, and dearth of keys to their identification. Moreover, many species lack a hard body wall (i.e., illoricate species), thus they are nearly impossible to identify when preserved. As a result detailed study of many illoricate rotifers is wanting. This is especially acute for the sessile rotifers where quality illustrations, either as line art or light or scanning electron photomicrographs, of adults and trophi is deficient. This leads to a serious impediment in providing a comprehensive accounting for some species. Lacinularia and Sinantherina (Monogononta; Gnesiotrocha; Flosculariidae) are two sessile genera in which the literature provides inadequate treatment. In this contribution we (1) provide simple, dichotomous keys for the identification of all valid species of both genera and (2) present collated information on their morphology thereby detailing where additional research is needed. Both keys focus on easily observable characters of adult female morphology, including features of their coronae, antennae, colony formation behaviors, and presence/absence of eyespots in the adults. We hope that our effort promotes additional research on these two genera, including better documentation of their trophi and general body morphology.   

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2. Key to sessile gnesiotrochan rotifers: Families, monospecific species in Flosculariidae, species of Atrochidae, Conochilidae, and Limnias

   https://doi.org/10.11646/zootaxa.5397.4.3  

   Davies, N; LaFleur, A.; Hochberg, R.; Walsh, E.J.; Wallace, R. (January 2024, Zootaxa)

   Accurate identification of species is key to understanding their ecological roles and evolutionary history. It is also essential in cataloging biodiversity for comparisons among habitat types, responses to climate change, effective management practices, and more. The paucity of taxonomic expertise is increasing and with it the ability to competently identify species, this is particularly true for small taxa including rotifers. In an effort to improve this situation, we collated information on morphological characters from the literature on all valid species of sessile Gnesiotrocha (phylum Rotifera) currently assigned to two orders and four families. We review Order Collothecaceae, which comprises families Atrochidae (3 spp.) and Collothecidae (50 spp.) and Order Flosculariaceae, which includes families Conochilidae (7 spp.) and Flosculariidae (71 species). Based on that information, we provide dichotomous keys to the Families, monospecific species in Flosculariidae, and species of Atrochidae, Conochilidae, and Limnias. These keys will aid researchers to identify species in these families and lead to a better understanding of freshwater biodiversity and eco-evolutionary processes. 

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3. Key to the currently recognized species of Limnias Schrank, 1803 (Rotifera, Monogononta, Gnesiotrocha, Flosculariidae)

   https://doi.org/10.11646/zootaxa.4442.2.7  

   WALLACE, ROBERT LEE; KORDBACHEH, AZAR; WALSH, ELIZABETH J. (July 2018, Zootaxa)

   null (Ed.)

   Although the most widely used key to the Rotifera subsumes six species of the sessile genus Limnias within two species groups (L. ceratophylli and L. melicerta), the original descriptions of these forms are sufficiently different to recognize them as distinct entities. We used these descriptions and all available literature on these species to develop dichotomous and formula keys to the six species based on easily recognizable morphological characters. As part of our review we added relevant ecological information from published sources, as well as our own data. We also discuss the need for additional observations of morphological, behavioral, life history, and genetic features to better understand the diversity of this widespread genus. 

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4. A phylogenetic and morphological study of the genus Dermoloma (Agaricales, Tricholomataceae) in Europe and North America exposes inefficiency of opportunistic species descriptions

   https://doi.org/10.3897/imafungus.16.157337  

   Adamčíková, Katarína; Kiran, Munazza; Caboň, Miroslav; Matheny, Brandon P; Sánchez-García, Marisol; Arnolds, Eef; Caboňová, Michaela; Corriol, Gilles; Dima, Bálint; Friebes, Gernot; et al (July 2025, IMA Fungus)

   Dermolomais traditionally known as a small genus of agarics classified in the familyTricholomataceae. This study implemented a multilocus phylogeny of six DNA regions to recognize phylogenetic species within the genus. The species concept is reinforced by observations of well-defined morphological characters enhanced by long term sampling effort in Europe and North America. Thirty EuropeanDermolomaspecies are described, including 16 new species from Europe and three from North American. These species are classified into two subgenera morphologically distinguished by spores with positive or negative amyloid reaction. A new genusNeodermolomais introduced for theDermoloma-like speciesN. campestre. Localized or continental-scale species endemicity was confirmed based on studied material, but more inclusive phylogenetic clustering supported a mixture of North American species among the European clades. Of the 22 names validly published from Europe prior to this study, 11 could be assigned to well-definedDermolomaspecies recognized here. Of the remaining 11 names, two were considered representingDermolomaspecies not recorded since their description, and nine were established as later synonyms of other species. Morphological studies ofDermolomaare challenging due to the relatively low number of characters suitable for identification of species. The majority of morphological characters showed continuous variation with high overlap throughout the genus. For this reason, species identification requires an awareness of morphological variability within species, and multiple distinguishing characters need to be combined, and furthermore, often a barcode sequence is needed for a certain identification. Stable isotope analysis inDermolomaof δ¹³C and δ¹⁵N revealed an ecological signature similar to known CHEGD fungi, i.e.ClavariaceaeandHygrocybes.l. This indicates thatDermolomaspecies are biotrophic but neither ectomycorrhizal nor saprotrophic and may form mutualistic root endophytic associations with vascular plants. 

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5. Review of Herb Gall Wasp Tribes (Hymenoptera: Cynipidae: Aylacini Sensu lato), with an Updated Key to Cynipid Tribes and a Checklist of World Species

   https://doi.org/10.4289/0013-8797.127.1.84  

   Nastasi, Louis F; Davis, Charles K; Nieves-Aldrey, José Luis; Buffington, Matthew L; Van_Noort, Simon; Deans, Andrew R (January 2025, Proceedings of the Entomological Society of Washington)

   We review the tribes of Cynipidae that are known to contain gall inducers on herbaceous plants, which are presently classified in four tribes: Aulacideini, Aylacini, Diastrophini, and Phanacidini. We provide a revised key to these tribes, diagnostic characters for each tribe, and an updated key to brachypterous and apterous Cynipoidea including the inclusion of brachyptery in Phanacidini. We propose the replacement name Eubothrus Förster, 1869 for the genus Isocolus Förster, 1869 (Aulacideini) as the latter is a homonym of the trilobite genus Isocolus Angelin, 1854 (Trilobita: Isocolidae). We also provide a checklist of world herb gall wasp species including host plant and geographic distribution data. Overall, we report 166 species of herb gall wasps, finding 96 species in 11 genera in Aulacideini, 6 species in 3 genera in Aylacini, and 39 species in 4 genera in Phanacidini, as well as 25 gall-inducing species in 3 genera in Diastrophini, of which 11 are or probably are associated with herbaceous plants. Online Lucid identification keys and images of all the taxa treated herein are available at: http://www.waspweb.org. 

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