Chaetonotus (Hystricochaetonotus) slavicus, Križanová & Vďačný, 2022

Križanová, Františka Rataj & Vďačný, Peter, 2022, A huge undescribed diversity of the subgenus Hystricochaetonotus (Gastrotricha, Chaetonotidae, Chaetonotus) in Central Europe, European Journal of Taxonomy 840, pp. 1-93 : 70-71

publication ID

https://doi.org/ 10.5852/ejt.2022.840.1941

publication LSID

lsid:zoobank.org:pub:CE89365D-A3C5-483D-9C80-E5CAECCA740F

DOI

https://doi.org/10.5281/zenodo.7221897

persistent identifier

https://treatment.plazi.org/id/9826403E-1298-4889-8E0B-3A19A9EFB3AE

taxon LSID

lsid:zoobank.org:act:9826403E-1298-4889-8E0B-3A19A9EFB3AE

treatment provided by

Felipe

scientific name

Chaetonotus (Hystricochaetonotus) slavicus
status

sp. nov.

Chaetonotus (Hystricochaetonotus) slavicus View in CoL sp. nov.

urn:lsid:zoobank.org:act:9826403E-1298-4889-8E0B-3A19A9EFB3AE

Fig. 9 View Fig

Molecular diagnosis

18S rRNA gene: 1548 A. ITS2: 52 G, 107 C, 115 A, 156 C, 171 A. Cytochrome c oxidase subunit I (codon ordinal numbers are followed by the corresponding span of nucleotide positions in parentheses): 9 (25‒27) TTC, 65 (193‒195) TTC, 96 (286‒288) CTG, 100 (298‒300) CTG, 143 (427‒429) TCC, 161 (481‒483) GCC.

Reference molecules are shown in Supp. file 1: Figs S8 View Fig , S 12B, S View Fig 20 View Fig . All diagnostic molecular autapomorphies are marked by arrows. Reference alignments with corresponding nucleotide positions are in Supp. file 1: Alignments 1‒4.

The p- distance from species described in the present study is 0.05‒4.38% in 18S, 5.88‒31.02% in ITS2, 0.52‒9.78% in 28S, and 7.85‒13.59% in COI. There are 1‒16 CBCs (except for Ch. (H). arcanus sp. nov., Ch. (H). iratus sp. nov., and Ch. (H). luxus sp. nov., where there are no CBCs) in the 18S rRNA molecule, 1‒3 CBCs in the ITS2 molecule (except for Ch. (H). arcanus sp. nov., Ch. (H). gulosus sp. nov., and Ch. (H). luxus sp. nov., where there are no CBCs), and 2‒18 CBCs in the first two domains of the 28S rRNA gene (except for Ch. (H). arcanus sp. nov., Ch. (H). iratus sp. nov., and Ch. (H). luxus sp. nov., where there are no CBCs).

Etymology

The Latin adjective ‘ slavic · us, - a, - um ’ [m, f, n] (‘Slavic’) refers to the type locality (Devín castle) of the new species, which is an important place in Slovak history.

Material examined

Holotype SLOVAKIA • adult (the specimen was destroyed during DNA extraction); temporary pond in the floodplain area of the River Morava, Devín , Bratislava, Podunajská rovina plain; 48°10′29.4″ N, 16°58′35.8″ E. GoogleMaps

Paratypes SLOVAKIA • 3 adults (the specimens were destroyed during DNA extraction); same collection data as for holotype GoogleMaps .

Photomicrographs of the holotype are available at the Department of Zoology, Comenius University in Bratislava at https://fns.uniba.sk/en/gastrotricha/.

Type material

A DNA sample of the holotype specimen DB 40 has been deposited in the Natural History Museum, Vajanského nábrežie 2, 810 06 Bratislava, Slovakia (ID Collection Code 01427570).

Type locality

Ephemeral pond in the floodplain area of the River Morava near the foothill of the Devín castle, Bratislava, Podunajská rovina plain, Slovakia, 48°10′29.4″N 16°58′35.8″E.

Gene sequences

The nuclear 18S and ITS 1-5.8S-ITS2-28S rDNA sequences as well as the mitochondrial COI sequence of the holotype specimen DB 40 have been deposited in GenBank under the following accession numbers: OM 421724 View Materials , OM 421700 View Materials , and OM 424079 View Materials , respectively.

Remarks

Unfortunately, all our attempts for thorough morphological investigations of this species failed. Without a name, Ch. (H.) slavicus sp. nov. would be nothing but a label and nucleotide sequences in the GenBank database. However, this entity can be clearly separated from other species by the combination of 18S, ITS region, 28S, and COI sequences. Moreover, it represents a distinct lineage in multi-gene phylogenies ( Fig. 9 View Fig ). As ICZN (1999) allows that any part of an animal is eligible to be a name-bearing type (Article 72.5.1), we interpret the isolated DNA as a part of an animal and use it as type material. This strategy is also used in protists whose names are governed by the Zoological Code (e.g., Lynn et al. 2018; Pecina & Vďačný 2022). It is important to mention that the principle of priority applies even if any part of an animal is named before the whole animal (Article 23.3.2.1).

OM

Otago Museum

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