Eohypsibiidae R. Bertolani & Kristensen 1987

EOHYPSIBIIDAE R. Bertolani & Kristensen, 1987 ( nomen novum for Amphibolidae Bertolani, 1981 in Bertolani & Kristensen, 1987) Eutardigrades without cephalic papillae. Diploclaws similar in the shape and size arranged asymmetrically with respect to the median plane of the leg (conventionally...

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Bibliographic Details
Main Authors: Pilato, Giovanni, Binda, Maria Grazia
Format: Text
Language:unknown
Published: Zenodo 2010
Subjects:
Biodiversity
Taxonomy
Animalia
Tardigrada
Eutardigrada
Parachela
Eohypsibiidae
Kristensen
Acutuncus antarcticus
Antarc*
antarcticus
Antarktis*
Online Access:https://dx.doi.org/10.5281/zenodo.6207179
https://zenodo.org/record/6207179
Description
Summary:EOHYPSIBIIDAE R. Bertolani & Kristensen, 1987 ( nomen novum for Amphibolidae Bertolani, 1981 in Bertolani & Kristensen, 1987) Eutardigrades without cephalic papillae. Diploclaws similar in the shape and size arranged asymmetrically with respect to the median plane of the leg (conventionally described as: 2121). Claws of the Eohypsibiidae type (= Bertolanius type) are divided into three distinct sections, basal section, secondary branch and primary branch, sequentially arranged and separated by obvious septa (Figs. 1 D, 9 A).The primary branch is rigidly joined to the secondary branch. The internal claws can rotate on their base by 180 °; this rotation may lead to a symmetric arrangement of the claws which confuses the real asymmetric arrangement. Two models of bucco-pharyngeal apparatuses can be recognized within the family: the Bertolanius model and the Eohyspibius model. The Bertolanius model (Fig. 9 B) Tube rigid without ventral lamina; apophyses for the insertion of the stylet muscles in the shape of "ridges" symmetrical with respect to the frontal plane; caudal processes of both these apophyses pointing backwards and sideways. Peribuccal lamellae (14) present; peribuccal papulae absent. The Eohypsibius model (Fig. 9 C) Tube subdivided into an anterior, rigid portion (buccal tube) without ventral lamina, and a posterior flexible portion (pharyngeal tube) with a spiral thickening; no cuticular thickening is present between the buccal tube and the pharyngeal tube in the known species. Apophyses for the insertion of the muscles of the stylets form "wingshaped ridges" symmetrical with respect to the frontal plane; caudal processes of both these apophyses pointing backwards and sideways. Peribuccal lamellae (14) present. This type of bucco-pharyngeal apparatus has some characteristics of the Itaquasconinae model (Hypsibiidae), but it is very different from all the known variants of that model in the shape of the apophyses for the insertion of the stylet muscles, in the presence of peribuccal lamellae (Bertolani & Kristensen, 1987), and in the shape of the stylet furcae (Pilato & Binda, 1996 b). Composition: Two genera, Bertolanius and Eohypsibius, are ascribed to the family. A third genus, Fujiscon Ito, 1991, was ascribed to the family Eohypsibiidae, but in our opinion it is not valid. As stated by Pilato & Binda (2003), the claws of Fujiscon are not of the Eohypsibius type (basal portion, secondary branch and primary branch are not exactly sequentially arranged; the primary branch is joined to the secondary branch by a flexible connection); in addition the two claws of the same leg are very different from one other, and the internal claw cannot rotate on its base. The claws of Fujiscon are basically of the Hypsibius type but with septa separating the basal section, secondary branch, and primary branch. Pilato & Binda (2003) remarked that septa are present in others species attributed to other genera ( e.g., Diphascon, Isohypsibius, Acutuncus and others).They also noted that in some species individual specimens may have claws both with and without septa, e.g., in Isohypsibius elegans Binda & Pilato, 1971 and in Acutuncus antarcticus (Richters, 1904). Therefore the presence and the degree of septa development in the claws must be considered as variable characters, and not significant at the genus level. In conclusion, the genus Fujiscon , in our opinion, is not valid and we do not take it into consideration in this paper. : Published as part of Pilato, Giovanni & Binda, Maria Grazia, 2010, Definition of families, subfamilies, genera and subgenera of the Eutardigrada, and keys to their identification, pp. 1-54 in Zootaxa 2404 on page 18, DOI: 10.5281/zenodo.194138 : {"references": ["Bertolani, R. & Kristensen, R. (1987) New records of Eohypsibius nadjae Kristensen, 1982, and revision of the taxonomic position of two genera of Eutardigrada (Tardigrada). In: Bertolani R. (Ed.), Biology of Tardigrades. Selected Symposia and Monographs, U. Z. I., 1. Mucchi, Modena, 359 - 372.", "Pilato, G. & Binda, M. G. (1996 b) Additional remarks to the description of some genera of eutardigrades. Bollettino delle sedute dell'Accademia Gioenia di Scienze Naturali, Catania, 29, 351, 33 - 40.", "Ito, M. (1991) Taxonomic study on the Eutardigrada from the Northern Slope of Mt Fuji, Central Japan. I. Families Calohypsibiidae and Eohypsibiidae. Proceedings Japanese Society of Systematic Zoology, 45, 30 - 43.", "Binda, M. G. & Pilato, G. (1971) Nuovo contributo alla conoscenza dei Tardigradi di Sicilia. Bollettino delle sedute dell'Accademia Gioenia di Scienze Naturali, Catania, S. IV, X, 10, 896 - 909.", "Richters, F. (1904) Vorlaufiger Bericht uber die antarktische Moosfauna. Verhandlungen der Deutschen Zoologischen Gesellschaft, 1904, 236 - 239."]}

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