Integrative redescription of a common Arctic water bear Pilatobius recamieri (Richters, 1911)

Gąsiorek, Piotr; Zawierucha, Krzysztof; Stec, Daniel; Michalczyk, Łukasz

doi:10.1007/s00300-017-2137-9

Cited by 19 publications

(14 citation statements)

References 49 publications

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“…Hypsibius valentinae, known from central and northern Belarus (Pilato et al, 2012), only by shorter external and posterior primary branches (5.9-14.0 μm in H. dujardini vs 14.5-17.2 μm in H. valentinae), and by and internal and anterior primary branches (4.6-9.4 μm in H. dujardini vs 9.3-11.5 μm in H. valentinae). Pseudolunulae under internal and anterior claws are present in both species (these structures were defined as "lunulae" in Pilato et al 2012 but the term "pseudolunula" is more appropriate to differentiate the weak cuticular outlines present under claws in hypsibiids and isohypsibiids from well-defined lunulae connected with the claw by a peduncle observed in macrobiotids and eohypsibiids; see Gąsiorek et al 2017b).…”

Section: Taxonomic Accountsmentioning

confidence: 99%

An integrative redescription of Hypsibius dujardini (Doyère, 1840), the nominal taxon for Hypsibioidea (Tardigrada: Eutardigrada)

Gąsiorek¹,

Stec²,

Morek³

et al. 2018

Zootaxa

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A laboratory strain identified as “Hypsibius dujardini” is one of the best studied tardigrade strains: it is widely used as a model organism in a variety of research projects, ranging from developmental and evolutionary biology through physiology and anatomy to astrobiology. Hypsibius dujardini, originally described from the Île-de-France by Doyère in the first half of the 19th century, is now the nominal species for the superfamily Hypsibioidea. The species was traditionally considered cosmopolitan despite the fact that insufficient, old and sometimes contradictory descriptions and records prevented adequate delineations of similar Hypsibius species. As a consequence, H. dujardini appeared to occur globally, from Norway to Samoa. In this paper, we provide the first integrated taxonomic redescription of H. dujardini. In addition to classic imaging by light microscopy and a comprehensive morphometric dataset, we present scanning electron photomicrographs, and DNA sequences for three nuclear markers (18S rRNA, 28S rRNA, ITS-2) and one mitochondrial marker (COI) that are characterised by various mutation rates. The results of our study reveal that a commercially available strain that is maintained in many laboratories throughout the world, and assumed to represent H. dujardini sensu stricto, represents, in fact, a new species: H. exemplaris sp. nov. Redescribing the nominal taxon for Hypsibiidae, we also redefine the family and amend the definitions of the subfamily Hypsibiinae and the genus Hypsibius. Moreover, we transfer H. arcticus (Murray, 1907) and Hypsibius conifer Mihelčič, 1938 to the genus Ramazzottius since the species exhibit claws and eggs of the Ramazzottius type. Finally, we designate H. fuhrmanni as subjectively invalid because the extremely poor description precludes identifying neotype material.

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Section: Taxonomic Accountsmentioning

confidence: 99%

An integrative redescription of Hypsibius dujardini (Doyère, 1840), the nominal taxon for Hypsibioidea (Tardigrada: Eutardigrada)

Gąsiorek¹,

Stec²,

Morek³

et al. 2018

Zootaxa

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750

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“…Structures were measured only if they were intact and orientated in a flat plane. Terminology for the structures within the buccal apparatus and for the claws follows that of and Gąsiorek et al (2017). Additionally, in order to avoid misunderstandings and aid comparisons between isohypsibioid taxa, we propose new terminology describing the details of the oral cavity armature (OCA); see also fig.…”

Section: Morphometrics Terminology and Classificationmentioning

confidence: 99%

Deceptive conservatism of claws: distinct phyletic lineages concealed within Isohypsibioidea (Eutardigrada) revealed by molecular and morphological evidence

Gąsiorek

Stec

Morek

et al. 2019

Contributions to Zoology

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Isohypsibioidea are most likely the most basally branching evolutionary lineage of eutardigrades. Despite being second largest eutardigrade order, phylogenetic relationships and systematics within this group remain largely unresolved. Broad taxon sampling, especially within one of the most speciose tardigrade genera, Isohypsibius Thulin, 1928, and application of both comparative morphological methods (light contrast and scanning electron microscopy imaging of external morphology and buccal apparatuses) and phylogenetic framework (18S + 28S rRNA sequences) resulted in the most comprehensive study devoted to this order so far. Two new families are erected from the currently recognised family Isohypsibiidae: Doryphoribiidae fam. nov., comprising all aquatic isohypsibioids and some terrestrial isohypsibioid taxa equipped with the ventral lamina; and Halobiotidae fam. nov., secondarily marine eutardigrades with unique adaptations to sea environment. We also split Isohypsibius into four genera to accommodate phylogenetic, morphological and ecological variation within the genus: terrestrial Isohypsibius s.s.Isohypsibiidae), with smooth or sculptured cuticle but without gibbosities; terrestrial Dianea gen. nov. (Isohypsibiidae), with small and pointy gibbosities; terrestrial Ursulinius gen. nov. (Isohypsibiidae), with Downloaded from Brill.com07/05/2020 12:11:41AM via free access PHYLOGENY OF ISOHYPSIBIOIDEA 79 large and rounded gibbosities; and aquatic Grevenius gen. nov. (Doryphoribiidae fam. nov.), typically with rough cuticle and claws with branches of very similar heigths. Claw morphology is reviewed and, for the first time, shown to encompass a number of morphotypes that correlate with clades recovered in the molecular analysis. The anatomy of pharynx and cuticle are also shown to be of high value in distinguishing supraspecific taxa in Isohypsibioidea. Taxonomy of all isohypsibioid families and genera is discussed, with special emphasis on the newly erected entities. Finally, a dychotomous diagnostic key to all currently recognised isohypsibioid families and genera is provided.

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“…Body length was measured from the anterior to the posterior end of the body, excluding the hind legs. Terminology for the structures within the buccal apparatus and for the claws follows that of Pilato & Binda (2010) and Gąsiorek et al (2017). Gibbosity denotation system by Michalczyk & Kaczmarek (2010) was applied to the plaque arrangement.…”

Section: Morphometricsmentioning

confidence: 99%

Revisiting Calohypsibiidae and Microhypsibiidae: Fractonotus Pilato, 1998 and its phylogenetic position within Isohypsibiidae (Eutardigrada: Parachela)

et al. 2019

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Integrative redescription of a common Arctic water bear Pilatobius recamieri (Richters, 1911)

Cited by 19 publications

References 49 publications

An integrative redescription of Hypsibius dujardini (Doyère, 1840), the nominal taxon for Hypsibioidea (Tardigrada: Eutardigrada)

An integrative redescription of Hypsibius dujardini (Doyère, 1840), the nominal taxon for Hypsibioidea (Tardigrada: Eutardigrada)

Deceptive conservatism of claws: distinct phyletic lineages concealed within Isohypsibioidea (Eutardigrada) revealed by molecular and morphological evidence

Revisiting Calohypsibiidae and Microhypsibiidae: Fractonotus Pilato, 1998 and its phylogenetic position within Isohypsibiidae (Eutardigrada: Parachela)

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