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1. Frontiers in Imaging of Specimens in Mollusk Collections

   Leal, José H (April 2024, The Northeast Natural History Conference)

   Goldfarb, Keith (Ed.)

   Natural history collections are important depositories of biodiversity data. Digital photography of natural history collection specimens and subsequent dissemination of the resulting images on the web allow for the virtual discovery of these specimens, enhancing their accessibility to the target audience and the public in general. This presentation discusses digital photography of marine mollusks in collections, including some of the latest techniques for imaging of very small specimens, photography of specimens preserved in liquid, haptobionts, problems of color retention, transparency, 3-D photography, equipment, and other current areas of interest. Despite the focus on mollusks, the discussions can be extrapolated as generalities applicable to invertebrates from other phyla. The presentation also includes a discussion on equipment and the ideal digital parameters for imaging of natural history collection specimens, including image policies on acceptable file-format requirements for data hosts and aggregators such as iDigBio and others. (The presentation includes work funded in part by the NSF Thematic Collections Network grant award 2001528 “Mobilizing Millions of Mollusks from the Eastern Seaboard”). 

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2. Maximizing Molecular Data From Low-Quality Fluid-Preserved Specimens in Natural History Collections

   https://doi.org/10.3389/fevo.2022.893088  

   Bernstein, Justin M.; Ruane, Sara (June 2022, Frontiers in Ecology and Evolution)

   Over the past decade, museum genomics studies have focused on obtaining DNA of sufficient quality and quantity for sequencing from fluid-preserved natural history specimens, primarily to be used in systematic studies. While these studies have opened windows to evolutionary and biodiversity knowledge of many species worldwide, published works often focus on the success of these DNA sequencing efforts, which is undoubtedly less common than obtaining minimal or sometimes no DNA or unusable sequence data from specimens in natural history collections. Here, we attempt to obtain and sequence DNA extracts from 115 fresh and 41 degraded samples of homalopsid snakes, as well as from two degraded samples of a poorly known snake, Hydrablabes periops . Hydrablabes has been suggested to belong to at least two different families (Natricidae and Homalopsidae) and with no fresh tissues known to be available, intractable museum specimens currently provide the only opportunity to determine this snake’s taxonomic affinity. Although our aim was to generate a target-capture dataset for these samples, to be included in a broader phylogenetic study, results were less than ideal due to large amounts of missing data, especially using the same downstream methods as with standard, high-quality samples. However, rather than discount results entirely, we used mapping methods with references and pseudoreferences, along with phylogenetic analyses, to maximize any usable molecular data from our sequencing efforts, identify the taxonomic affinity of H. periops , and compare sequencing success between fresh and degraded tissue samples. This resulted in largely complete mitochondrial genomes for five specimens and hundreds to thousands of nuclear loci (ultra-conserved loci, anchored-hybrid enrichment loci, and a variety of loci frequently used in squamate phylogenetic studies) from fluid-preserved snakes, including a specimen of H. periops from the Field Museum of Natural History collection. We combined our H. periops data with previously published genomic and Sanger-sequenced datasets to confirm the familial designation of this taxon, reject previous taxonomic hypotheses, and make biogeographic inferences for Hydrablabes . A second H. periops specimen, despite being seemingly similar for initial raw sequencing results and after being put through the same protocols, resulted in little usable molecular data. We discuss the successes and failures of using different pipelines and methods to maximize the products from these data and provide expectations for others who are looking to use DNA sequencing efforts on specimens that likely have degraded DNA. Life Science Identifier ( Hydrablabes periops ) urn:lsid:zoobank.org :pub:F2AA44 E2-D2EF-4747-972A-652C34C2C09D. 

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3. The Walking Dead: Status Report, Data Workflow and Best Practices of the oVert Thematic Collections Network

   https://doi.org/10.3897/biss.2.26078  

   Watkins-Colwell, Gregory; Love, Kevin; Randall, Zachary; Boyer, Doug; Winchester, Julie; Stanley, Edward; Blackburn, David (June 2018, Biodiversity Information Science and Standards)

   In 2017 NSF funded “oVert (openVertebrate): Open Exploration of Vertebrate Diversity in 3D,” which is the first Thematic Collections Network devoted entirely to vertebrate morphological specimens. The primary goal of oVert is to generate and serve high-resolution digital three-dimensional data for internal anatomy across vertebrate diversity. oVert will CT-scan >20,000 fluid-preserved specimens representing >80% of the living genera of vertebrates, providing broad coverage for exploration and research on all major groups of vertebrates. Contrast-enhanced scans will be generated to reveal soft tissues and organs for a majority of the living vertebrate families. This collection of digital imagery and three-dimensional volumes will be open for exploration, download, and use. These new media will provide unprecedented global access to valuable morphological data of specimens in US collections.oVert is developing best practices and guidelines for high-throughput CT-scanning, including efficient workflows, preferred resolutions, and archival formats that optimize the variety of downstream applications. Using the Integrated Digitized Biocollections (iDigBio) API, we have developed a workflow where people uploading media files to MorphoSource can search for and import metadata for specimens directly from iDigBio. Via a Rich Site Summary (RSS) feed from MorphoSource, Audubon Core data describing media files for a given scientific collection can be retrieved and integrated into institutional IPT and databases. Such data migration of large files requires attention to detail and the development of data workflows that ensure correct specimen mapping at all steps. The RSS feed from MorphoSource will also consolidate usage information for media files from specimens in each scientific collection for reporting. Additional goals of the project are to provide information vital to the creation of collection best practices for imaging permissions/copyright. A status report and update on best practices will be presented. 

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4. Cranial anatomy and phylogenetic affinities of Bolosaurus major , with new information on the unique bolosaurid feeding apparatus and evolution of the impedance‐matching ear

   https://doi.org/10.1002/ar.25546  

   Jenkins, Kelsey_M; Foster, William; Napoli, James_G; Meyer, Dalton_L; Bever, Gabriel_S; Bhullar, Bhart‐Anjan_S (July 2024, The Anatomical Record)

   Abstract Resolving the phylogenetic relationships of early amniotes, in particular stem reptiles, remains a difficult problem. Three‐dimensional morphological analysis of well‐preserved stem‐reptile specimens can reveal important anatomical data and clarify regions of phylogeny. Here, we present the first thorough description of the unusual early Permian stem reptileBolosaurus major, including the first comprehensive description of a bolosaurid braincase. We describe previously obscured details of the palate, allowing for insight into bolosaurid feeding mechanics. Aspects of the rostrum, palate, mandible, and neurocranium suggest thatB. majorhad a particularly strong bite. We additionally foundB. majorhas a surprisingly slender stapes, similar to that of the middle Permian stem reptileMacroleter poezicus, which may suggest enhanced hearing abilities compared to other Paleozoic amniotes (e.g., captorhinids). We incorporated our new anatomical information into a large phylogenetic matrix (150 OTUs, 590 characters) to explore the relationship of Bolosauridae among stem reptiles. Our analyses generally recovered a paraphyletic “Parareptilia,” and found Bolosauridae to diverge after Captorhinidae + Araeoscelidia. We also includedB. majorwithin a smaller matrix (10 OTUs, 27 characters) designed to explore the interrelationships of Bolosauridae and found all species ofBolosaurusto be monophyletic. While reptile relationships still require further investigation, our phylogeny suggests repeated evolution of impedance‐matching ears in Paleozoic stem reptiles. 

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5. A small venomous reptile from the Late Triassic (Norian) of the southwestern United States

   https://doi.org/10.7717/peerj.18279  

   Burch, Helen E; Eddins, Hannah-Marie S; Stocker, Michelle R; Kligman, Ben T; Marsh, Adam D; Parker, William G; Nesbitt, Sterling J (January 2024, PeerJ)

   Reptile feeding strategies encompass a wide variety of diets and accompanying diversity in methods for subduing prey. One such strategy, the use of venom for prey capture, is found in living reptile clades like helodermatid (beaded) lizards and some groups of snakes, and venom secreting glands are also present in some monitor lizards and iguanians. The fossil record of some of these groups shows strong evidence for venom use, and this feeding strategy also has been hypothesized for a variety of extinct reptiles (e.g., archosauromorphs, anguimorphs, and a sphenodontian). However, evidence of systems for venom delivery in extinct groups and its evolutionary origins has been scarce, especially when based on more than isolated teeth. Here, we describe a potentially venomous new reptile,Microzemiotes sonselaensisgen. et sp. nov., from a partial left dentary recovered from the Sonsela Member of the Chinle Formation (middle Norian, Upper Triassic) of northeastern Arizona, U.S.A. The three dentary teeth have apices that are distally reclined relative to their bases and the tip of the posteriormost tooth curves mesially. The teeth show subthecodont implantation and are interspaced by empty sockets that terminate above the Meckelian canal, which is dorsoventrally expanded posteriorly. Replacement tooth sockets are positioned distolingually to the active teeth as in varanid-like replacement. We identify this new specimen as a diapsid reptile based on its monocuspid teeth that lack carinae and serrations. A more exclusive phylogenetic position within Diapsida is not well supported and remains uncertain. Several features of this new taxon, such as the presence of an intramandibular septum, are shared with some anguimorph squamates; however, these likely evolved independently. The teeth of the new taxon are distinctively marked by external grooves that occur on the entire length of the crown on the labial and lingual sides, as seen in the teeth of living beaded lizards. If these grooves are functionally similar to those of beaded lizards, which use the grooves to deliver venom, this new taxon represents the oldest known reptile where venom-conducting teeth are preserved within a jaw. The teeth of the new species are anatomically distinct from and ~10x smaller than those of the only other known Late Triassic hypothesized venomous reptile,Uatchitodon, supporting venom use across multiple groups of different body size classes. This new species represents the third Late Triassic reptile species to possibly have used envenomation as a feeding (and/or defensive) strategy, adding to the small number of venomous reptiles known from the Mesozoic Era. 

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