A literature review for a recent ultrastructural study of a trichinelloid eggshell revealed consistently occurring errors in the literature on nematode eggshell anatomy. Examples included nematodes of medical, veterinary, and agricultural importance in several orders. Previous researchers had warned of some of these errors decades ago, but a comprehensive solution was not offered until 2012 when a clarifying new anatomical and developmental interpretation of nematode eggshells was proposed by members of the Caenorhabditis elegans Research Community. However, their findings were explained using arcane acronyms and technical jargon intended for an audience of experimental molecular geneticists, and so their papers have rarely been cited outside the C. elegans community. Herein we (1) provide a critical review of nematode eggshell literature in which we correct errors and relabel imagery in important historical reports; (2) describe common reporting errors and their causes using language familiar to researchers having a basic understanding of microscopy and nematode eggs; (3) recommend a new hexalaminar anatomical and terminological framework for nematode eggshells based on the 2012 C. elegans framework; and (4) recommend new unambiguous terms appropriate for the embryonated/larvated eggs regularly encountered by practicing nematodologists to replace ambiguous or ontogenetically restricted terms in the 2012 C. elegans framework. We also (5) propose a resolution to conflicting claims made by the C. elegans team versus classical literature regarding Layer #3, (6) extend the C. elegans hexalaminar framework to include the polar plugs of trichinelloids, and (7) report new findings regarding trichinelloid eggshell structure.
UNASSIGNED: La coque des œufs des nématodes : un nouveau cadre anatomique et terminologique, avec une revue critique de la littérature pertinente et des lignes directrices suggérées pour l’interprétation et la communication de l’imagerie des coques des œufs.
UNASSIGNED: Une revue de la littérature pour une étude ultrastructurale récente de la coque de l’œuf d’un trichinelloïde a révélé des erreurs récurrentes dans la littérature sur l’anatomie de la coque de l’œuf des nématodes. Les exemples comprenaient des nématodes d’importance médicale, vétérinaire et agricole dans plusieurs ordres. Des chercheurs avaient mis en garde contre certaines de ces erreurs il y a des décennies, mais une solution complète n’a été proposée qu’en 2012, lorsqu’une nouvelle interprétation anatomique et développementale clarifiant la structure des coques des œufs de nématodes a été proposée par des membres de la communauté de recherche de Caenorhabditis elegans. Cependant, leurs découvertes ont été expliquées à l’aide d’acronymes mystérieux et d’un jargon technique destiné à un public de généticiens moléculaires expérimentaux, et leurs articles ont donc rarement été cités en dehors de la communauté de C. elegans. Ici, nous (1) fournissons une revue critique de la littérature sur les coques des œufs de nématodes dans laquelle nous corrigeons les erreurs et réétiquetons les images dans des rapports historiques importants; (2) décrivons les erreurs de description courantes et leurs causes en utilisant un langage familier aux chercheurs ayant une compréhension de base de la microscopie et des œufs de nématodes; (3) recommandons un nouveau cadre anatomique et terminologique hexalaminaire pour les coques des œufs de nématodes basé sur le cadre de C. elegans de 2012; et (4) recommandons de nouveaux termes non ambigus appropriés pour les œufs embryonnés/larvés régulièrement rencontrés par les spécialistes de nématodes en exercice pour remplacer les termes ambigus ou à restriction ontogénétique dans le cadre de C. elegans de 2012. Nous proposons également (5) une résolution des affirmations contradictoires de l’équipe C. elegans par rapport à la littérature classique concernant la couche 3, (6) étendons le cadre hexalaminaire de C. elegans pour inclure les bouchons polaires des trichinelloïdes, et (7) signalons de nouvelles découvertes concernant la structure de la coque des œufs des trichinelloïdes.

Examination of 32 spiral valves from neonate specimens of hammerhead shark Sphyrna spp. (Carcharhiniformes: Sphyrnidae) captured between June and August 2018 off the Atlantic coast of South Carolina, USA, revealed the presence of the capillariid nematode Piscicapillaria bursata (Capillariidae) in the Carolina hammerhead S. gilberti, the scalloped hammerhead S. lewini, and their hybrids. This is the second find of this parasite originally described from hammerhead sharks off Australia, its first record from the western Atlantic Ocean, and its first record in a new host species and in hybrids.

OBJECTIVE: Data on helminth parasites in hammerhead sharks are scarce and, therefore, new examinations of these hosts are needed to recognize the species composition of their parasites, including nematodes.
METHODS: Helminthological examinations of hammerhead sharks, Sphyrna lewini (Griffith et Smith) (209 specimens) and Sphyrna mokarran (Rüppell) (57 specimens) (Sphyrnidae, Carcharhiniformes), from off the northern coast of Australia revealed one new and one insufficiently known species of intestinal nematode parasites. These were studied with the use of light and scanning electron microscopy.
RESULTS: Both nematode species are described. Piscicapillaria bursata sp. nov. (Capillariidae) from S. mokarran (type host) and S. lewini differs from its congeners mainly in the spicule length (330 µm), body length of gravid females 12.80-21.26 mm and in possessing a subterminal female anus. The specimens of Parascarophis sphyrnae Campana-Rouget, 1955 (Cystidicolidae) (type species of Parascarophis Campana-Rouget, 1955) collected from S. lewini made it possible to redescribe the female and, for the first time, to describe the male; the same species was also found in S. mokarran. Amended diagnosis of Parascarophis is provided. Parascarophis is mainly characterized by the presence of lateral alae, a unique feature within the Cystidicolidae, and by the cephalic structures (presence of a cuticular hood and a pair of anterolateral plate-like structures in the mouth).
CONCLUSIONS: In addition to the discovery of a new nematode species, Pi. bursata sp. nov., the finding of Pa. sphyrnae in Australian waters represents a new geographical record of this parasite outside the Atlantic Ocean. The species of Parascarophis previously described from teleosts, P. bharatii Agrawal, 1965, P. oteroi Arya, 1992 and P. mulloidi Imam, Tawfik et Abdel Hady, 1982, are designated as species inquirendae and incertae sedis. The finding of P. sphyrnae in Australian waters represents a new geographical record of this parasite outside the Atlantic Ocean. Pa. sphyrnae had not been reported previously from beyond the Atlantic Ocean.

The life cycle of the swim bladder nematode Huffmanela huffmani Moravec, 1987 (Trichinelloidea: Trichosomoididae), an endemic parasite of centrarchid fishes in the upper spring run of the San Marcos River in Hays County, Texas, USA, was experimentally completed. The amphipods Hyalella cf. azteca (Saussure), Hyalella sp. and Gammarus sp. were successfully infected with larvated eggs of Huffmanela huffmani. After ingestion of eggs of H. huffmani by experimental amphipods, the first-stage larvae hatch from their eggshells and penetrate through the digestive tract to the hemocoel of the amphipod. Within about 5 days in the hemocoel of the experimental amphipods at 22 °C, the larvae presumably attained the second larval stage and were infective for the experimental centrarchid definitive hosts, Lepomis spp. The minimum incubation period before adult nematodes began laying eggs in the swim bladders of the definitive hosts was found to be about 7.5 months at 22 °C. This is the first experimentally completed life cycle within the Huffmanelinae.

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