Dendronotus yrjargul Korshunova & Bakken & GrØtan & Johnson & Lundin & Martynov 2021, sp. nov.

Dendronotus yrjargul sp. nov. Figs 1–4, 6, 7 ZooBank: http:// urn:lsid:zoobank.org:act: D44EDB5D-9C27-4D38-A18B-AD6DA5ACE43D Etymology. From Norwegian yrjar (= old name for the type locality in Ørland) and gul (= yellow) meaning “yellow/golden of Ørland” in reference to the remarkable habitus of thi...

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Main Authors: Korshunova, Tatiana, Bakken, Torkild, GrØtan, Viktor V., Johnson, Kjetil B., Lundin, Kennet, Martynov, Alexander
Format: Text
Language:unknown
Published: Zenodo 2020
Subjects:
Biodiversity
Taxonomy
Animalia
Mollusca
Gastropoda
Nudibranchia
Dendronotidae
Dendronotus
Dendronotus yrjargul
Norwegian Sea
Kara Sea
Bering Strait
Pacific
Norway
Bakken
Breivika
Ørland
Grøtan
Yrjar
Kamchatka
Online Access:https://dx.doi.org/10.5281/zenodo.4623950
https://zenodo.org/record/4623950
id ftdatacite:10.5281/zenodo.4623950
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Biodiversity
Taxonomy
Animalia
Mollusca
Gastropoda
Nudibranchia
Dendronotidae
Dendronotus
Dendronotus yrjargul
spellingShingle Biodiversity
Taxonomy
Animalia
Mollusca
Gastropoda
Nudibranchia
Dendronotidae
Dendronotus
Dendronotus yrjargul
Korshunova, Tatiana
Bakken, Torkild
GrØtan, Viktor V.
Johnson, Kjetil B.
Lundin, Kennet
Martynov, Alexander
Dendronotus yrjargul Korshunova & Bakken & GrØtan & Johnson & Lundin & Martynov 2021, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Mollusca
Gastropoda
Nudibranchia
Dendronotidae
Dendronotus
Dendronotus yrjargul
description Dendronotus yrjargul sp. nov. Figs 1–4, 6, 7 ZooBank: http:// urn:lsid:zoobank.org:act: D44EDB5D-9C27-4D38-A18B-AD6DA5ACE43D Etymology. From Norwegian yrjar (= old name for the type locality in Ørland) and gul (= yellow) meaning “yellow/golden of Ørland” in reference to the remarkable habitus of this species. Type locality . Norwegian Sea, Norway, Ørland. Material examined . Holotype. NTNU-VM- 76306, live length 95 mm (48 mm preserved), Norwegian Sea, mouth of Trondheimsfjord, Ørland, Breivika, 12.03.2018, depth 20–25 m, collector Viktor V. GrØtan. Paratypes with same provenance data: NTNU-VM-76307, 1 specimen, live length 75 mm (40 mm preserved); NTNU-VM-76308, 1 specimen, live length 60 mm (40 mm preserved); paratypes with same provenance data but collected 08.01.2018, depth 20–25 m, collector Viktor V. GrØtan, Kjetil B. Johnson: NTNU-VM-76302, 1 specimen, preserved length 18 mm; NTNU-VM- 76305, 1 specimen, preserved length 17 mm; NTNU-VM-76303, 1 specimen, preserved length 14 mm; NTNU-VM-76304, 1 specimen, preserved length 19 mm; ZMMU Op-718, 1 specimen, preserved length 19 mm. Description . Body elongate, living specimens up to 95 mm in length (fig. 4). Five to six main branched appendages on oral veil. Five appendages on rhinophoral stalks; 18–30 rhinophoral lamellae.Branchedlateralpapillaon rhinophoral sheath present. Seven to eight pairs of dorsolateral appendagespresentin largeadult specimens. Lip papillae 10 to 20. Dorsolateral appendages with relatively short primary stalk, strongly branched secondary branches and elongate tertiary branches (fig. 4A–D). Basal colour is semitransclucent white to greyish, with characteristic two thin wavy subparallel brownish-orange to brownish lines running from the head nearly to the tail. There are no specimens with brownish basal colour. Upper part of the dorsolateral appendages covered with bright golden yellow to yellowish pigment. Foot bordered with thin brownish-orange line. Dorsal processes of jaws inclined posteriorly at approximately 40–48° to the longitudinal axis of the jaw body and 0.4 of its length (fig. 4E–I). Masticatory border of jaw with evident ridge-like denticles (fig. 4H, I). Radular formula: 38–50 × 0–9.1.9–0. Central (rachidian) tooth moderately denticulated and bearing up to 16 distinctdenticles(fig.4J–M).Denticleswithdeep furrows. Lateral teeth elongate, slightly curved, bearing up to 7 denticles (fig. 4J–N). Ampulla thickened kidney-shaped (fig. 6A). Prostate discoidal, consisting of up to 50 alveolar glands. Distal part of vas deferens moderate in length, transitioning to long, thick, curved copulatory organ. Bursa copulatrix large, rounded, with seminalreceptaculum placeddistally. Distribution . From Norwegian Sea to Kara Sea. Habitatandecologicalobservations . Dendronotus yrjargul sp. nov. is closely associated with the hydroid Abietinaria fusca (Johnston, 1847) (see Vervoort,1942)whichformsdarkbrowncolonies that resemble small dry fir branches (personal observationsof VGand KJ).The hydroid usually inhabits somewhat deeper water, but currents and other conditions in the Norwegian waters makeit reachable by scuba diving at circa 20 m. We have only rarely observed the new species on other hydroids. Dendronotus yrjargul sp. nov. appears quite abundant in this location, up to 10 individualsper m 2. Thenewspecies appears to have a one-year life cycle. Mating and egg laying occurs around March, andthe large adult individuals eventually disappear throughout the spring, as does the hydroid they live on. During the summer, small individuals begin to reappear, along with the new growing phase of A. fusca . The new generation of D. yrjargul sp. nov. grow throughout autumn andwinter. Remarks . Externally, D. yrjargul sp. nov. readily differs from all known species of the genus Dendronotus (synopsis given below), including thesisterspeciesfromthe North Pacific, D.kalikal (description forcomparison isgiven below), by a combination of off-white semitransparent body with two thin dorsal subparallel brownish lines and dorso-lateral appendages golden-yellow to yellowish(fig.4A–D).Instead, D.kalikal invariably possesses a basal body colour covered with numerous brownish speckles and small spots, whichmakesubparalleldorsallinesconsiderably blurred and indistinct (fig. 4O). Importantly, we investigated more than ten D. kalikal specimens from very distantly placed localities in the Bering Strait, Kamchatka and Kurile Islands (fig. 3A) and not one specimen possessed a mostly whitish semitransparent body with distinct thin subparallel dorsal lines, as in D. yrjargul sp. nov. (fig. 4A–D). The whitish colouration in D.kalikal consists of a background colour represented by areas in between the numerous basal brownish spots and stripes. Furthermore, considerable differences in the reproductive system and the maturation process between D. yrjargul sp. nov. and D. kalikal were revealed in course of the presentstudy. Allstudiedspecimensof D.kalikal have an elongated bursa copulatrix (fig. 6B), whereas in all studied specimens of D. yrjargul sp. nov. (fig. 6A) thebursa copulatrix is rounded. Furthermore, we discovered that there is considerable difference in the patterns of maturation (and hence, ontogenetic patterns) between D. yrjargul sp. nov. and D. kalikal. Dendronotus yrjargul sp. nov. reaches a big size of 95 mm (live) in the adult state, and in specimens of 20–30 mm (live) the reproductive system was still very weakly developed. Instead, D. kalikal has a maximum length of 17 mm when preserved and already at lengths of 7–10 mm live specimens show a well-developed reproductive system. The molecular differences between D. yrjargul sp. nov. and D. kalikal areas follows. Regarding the COI marker, the maximal intragroup distance within D.kalikal is 1.74% andwithin D.yrjargul sp. nov. it is 0.85% (mean intragroupdistances are 0.80% and 0.39%). The mean intergroup distance between D. kalikal and D. yrjargul sp. nov. groups is 2.1% (Appendix, table A2). Thus, intragroup distances within D. yirargul sp. nov. are smaller than the distance between D. yirargul sp. nov. and D. kalikal. Thus, D. yrjargul sp. nov. and D. kalikal demonstrate considerable differences in morphological, molecular and, to a very large degree, ontogenetic levels. Dendronotus yrjargul sp. nov. thus represents a well-separated species, although possibly recently diverged, as indicated by the slight molecular divergence. : Published as part of Korshunova, Tatiana, Bakken, Torkild, GrØtan, Viktor V., Johnson, Kjetil B., Lundin, Kennet & Martynov, Alexander, 2021, A synoptic review of the family Dendronotidae (Mollusca: Nudibranchia): a multilevel organismal diversity approach, pp. 93-153 in Contributions To Zoology 90 (1) on pages 100-104, DOI: 10.1163/18759866-BJA10014, http://zenodo.org/record/4623915 : {"references": ["Vervoort, W. (1942) Northern Hydroida in the Collections of the Rijksmuseum van Natuurlijke Historie and the Zoological Museum at Amsterdam, with notes on their distribution. Zool. Meded,, 23, 275 - 312."]}
format Text
author Korshunova, Tatiana
Bakken, Torkild
GrØtan, Viktor V.
Johnson, Kjetil B.
Lundin, Kennet
Martynov, Alexander
author_facet Korshunova, Tatiana
Bakken, Torkild
GrØtan, Viktor V.
Johnson, Kjetil B.
Lundin, Kennet
Martynov, Alexander
author_sort Korshunova, Tatiana
title Dendronotus yrjargul Korshunova & Bakken & GrØtan & Johnson & Lundin & Martynov 2021, sp. nov.
title_short Dendronotus yrjargul Korshunova & Bakken & GrØtan & Johnson & Lundin & Martynov 2021, sp. nov.
title_full Dendronotus yrjargul Korshunova & Bakken & GrØtan & Johnson & Lundin & Martynov 2021, sp. nov.
title_fullStr Dendronotus yrjargul Korshunova & Bakken & GrØtan & Johnson & Lundin & Martynov 2021, sp. nov.
title_full_unstemmed Dendronotus yrjargul Korshunova & Bakken & GrØtan & Johnson & Lundin & Martynov 2021, sp. nov.
title_sort dendronotus yrjargul korshunova & bakken & grøtan & johnson & lundin & martynov 2021, sp. nov.
publisher Zenodo
publishDate 2020
url https://dx.doi.org/10.5281/zenodo.4623950
https://zenodo.org/record/4623950
long_lat ENVELOPE(13.400,13.400,65.585,65.585)
ENVELOPE(24.083,24.083,-70.250,-70.250)
ENVELOPE(9.666,9.666,63.686,63.686)
ENVELOPE(9.917,9.917,62.836,62.836)
ENVELOPE(-20.027,-20.027,64.061,64.061)
geographic Norwegian Sea
Kara Sea
Bering Strait
Pacific
Norway
Bakken
Breivika
Ørland
Grøtan
Yrjar
geographic_facet Norwegian Sea
Kara Sea
Bering Strait
Pacific
Norway
Bakken
Breivika
Ørland
Grøtan
Yrjar
genre Bering Strait
Kamchatka
Kara Sea
Norwegian Sea
genre_facet Bering Strait
Kamchatka
Kara Sea
Norwegian Sea
op_relation http://zenodo.org/record/4623915
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op_rights Open Access
Creative Commons Zero v1.0 Universal
https://creativecommons.org/publicdomain/zero/1.0/legalcode
cc0-1.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC0
op_doi https://doi.org/10.5281/zenodo.4623950
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spelling ftdatacite:10.5281/zenodo.4623950 2023-05-15T15:44:18+02:00 Dendronotus yrjargul Korshunova & Bakken & GrØtan & Johnson & Lundin & Martynov 2021, sp. nov. Korshunova, Tatiana Bakken, Torkild GrØtan, Viktor V. Johnson, Kjetil B. Lundin, Kennet Martynov, Alexander 2020 https://dx.doi.org/10.5281/zenodo.4623950 https://zenodo.org/record/4623950 unknown Zenodo http://zenodo.org/record/4623915 http://publication.plazi.org/id/FF916F160249FF822334FFFDCA16110F https://zenodo.org/communities/biosyslit https://dx.doi.org/10.1163/18759866-bja10014 http://zenodo.org/record/4623915 http://publication.plazi.org/id/FF916F160249FF822334FFFDCA16110F https://dx.doi.org/10.5281/zenodo.4623918 https://dx.doi.org/10.5281/zenodo.4623920 https://dx.doi.org/10.5281/zenodo.4623922 https://dx.doi.org/10.5281/zenodo.4623924 https://dx.doi.org/10.5281/zenodo.4623928 https://dx.doi.org/10.5281/zenodo.4623930 https://dx.doi.org/10.5281/zenodo.4623949 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Mollusca Gastropoda Nudibranchia Dendronotidae Dendronotus Dendronotus yrjargul Text Taxonomic treatment article-journal ScholarlyArticle 2020 ftdatacite https://doi.org/10.5281/zenodo.4623950 https://doi.org/10.1163/18759866-bja10014 https://doi.org/10.5281/zenodo.4623918 https://doi.org/10.5281/zenodo.4623920 https://doi.org/10.5281/zenodo.4623922 https://doi.org/10.5281/zenodo.4623924 https: 2021-11-05T12:55:41Z Dendronotus yrjargul sp. nov. Figs 1–4, 6, 7 ZooBank: http:// urn:lsid:zoobank.org:act: D44EDB5D-9C27-4D38-A18B-AD6DA5ACE43D Etymology. From Norwegian yrjar (= old name for the type locality in Ørland) and gul (= yellow) meaning “yellow/golden of Ørland” in reference to the remarkable habitus of this species. Type locality . Norwegian Sea, Norway, Ørland. Material examined . Holotype. NTNU-VM- 76306, live length 95 mm (48 mm preserved), Norwegian Sea, mouth of Trondheimsfjord, Ørland, Breivika, 12.03.2018, depth 20–25 m, collector Viktor V. GrØtan. Paratypes with same provenance data: NTNU-VM-76307, 1 specimen, live length 75 mm (40 mm preserved); NTNU-VM-76308, 1 specimen, live length 60 mm (40 mm preserved); paratypes with same provenance data but collected 08.01.2018, depth 20–25 m, collector Viktor V. GrØtan, Kjetil B. Johnson: NTNU-VM-76302, 1 specimen, preserved length 18 mm; NTNU-VM- 76305, 1 specimen, preserved length 17 mm; NTNU-VM-76303, 1 specimen, preserved length 14 mm; NTNU-VM-76304, 1 specimen, preserved length 19 mm; ZMMU Op-718, 1 specimen, preserved length 19 mm. Description . Body elongate, living specimens up to 95 mm in length (fig. 4). Five to six main branched appendages on oral veil. Five appendages on rhinophoral stalks; 18–30 rhinophoral lamellae.Branchedlateralpapillaon rhinophoral sheath present. Seven to eight pairs of dorsolateral appendagespresentin largeadult specimens. Lip papillae 10 to 20. Dorsolateral appendages with relatively short primary stalk, strongly branched secondary branches and elongate tertiary branches (fig. 4A–D). Basal colour is semitransclucent white to greyish, with characteristic two thin wavy subparallel brownish-orange to brownish lines running from the head nearly to the tail. There are no specimens with brownish basal colour. Upper part of the dorsolateral appendages covered with bright golden yellow to yellowish pigment. Foot bordered with thin brownish-orange line. Dorsal processes of jaws inclined posteriorly at approximately 40–48° to the longitudinal axis of the jaw body and 0.4 of its length (fig. 4E–I). Masticatory border of jaw with evident ridge-like denticles (fig. 4H, I). Radular formula: 38–50 × 0–9.1.9–0. Central (rachidian) tooth moderately denticulated and bearing up to 16 distinctdenticles(fig.4J–M).Denticleswithdeep furrows. Lateral teeth elongate, slightly curved, bearing up to 7 denticles (fig. 4J–N). Ampulla thickened kidney-shaped (fig. 6A). Prostate discoidal, consisting of up to 50 alveolar glands. Distal part of vas deferens moderate in length, transitioning to long, thick, curved copulatory organ. Bursa copulatrix large, rounded, with seminalreceptaculum placeddistally. Distribution . From Norwegian Sea to Kara Sea. Habitatandecologicalobservations . Dendronotus yrjargul sp. nov. is closely associated with the hydroid Abietinaria fusca (Johnston, 1847) (see Vervoort,1942)whichformsdarkbrowncolonies that resemble small dry fir branches (personal observationsof VGand KJ).The hydroid usually inhabits somewhat deeper water, but currents and other conditions in the Norwegian waters makeit reachable by scuba diving at circa 20 m. We have only rarely observed the new species on other hydroids. Dendronotus yrjargul sp. nov. appears quite abundant in this location, up to 10 individualsper m 2. Thenewspecies appears to have a one-year life cycle. Mating and egg laying occurs around March, andthe large adult individuals eventually disappear throughout the spring, as does the hydroid they live on. During the summer, small individuals begin to reappear, along with the new growing phase of A. fusca . The new generation of D. yrjargul sp. nov. grow throughout autumn andwinter. Remarks . Externally, D. yrjargul sp. nov. readily differs from all known species of the genus Dendronotus (synopsis given below), including thesisterspeciesfromthe North Pacific, D.kalikal (description forcomparison isgiven below), by a combination of off-white semitransparent body with two thin dorsal subparallel brownish lines and dorso-lateral appendages golden-yellow to yellowish(fig.4A–D).Instead, D.kalikal invariably possesses a basal body colour covered with numerous brownish speckles and small spots, whichmakesubparalleldorsallinesconsiderably blurred and indistinct (fig. 4O). Importantly, we investigated more than ten D. kalikal specimens from very distantly placed localities in the Bering Strait, Kamchatka and Kurile Islands (fig. 3A) and not one specimen possessed a mostly whitish semitransparent body with distinct thin subparallel dorsal lines, as in D. yrjargul sp. nov. (fig. 4A–D). The whitish colouration in D.kalikal consists of a background colour represented by areas in between the numerous basal brownish spots and stripes. Furthermore, considerable differences in the reproductive system and the maturation process between D. yrjargul sp. nov. and D. kalikal were revealed in course of the presentstudy. Allstudiedspecimensof D.kalikal have an elongated bursa copulatrix (fig. 6B), whereas in all studied specimens of D. yrjargul sp. nov. (fig. 6A) thebursa copulatrix is rounded. Furthermore, we discovered that there is considerable difference in the patterns of maturation (and hence, ontogenetic patterns) between D. yrjargul sp. nov. and D. kalikal. Dendronotus yrjargul sp. nov. reaches a big size of 95 mm (live) in the adult state, and in specimens of 20–30 mm (live) the reproductive system was still very weakly developed. Instead, D. kalikal has a maximum length of 17 mm when preserved and already at lengths of 7–10 mm live specimens show a well-developed reproductive system. The molecular differences between D. yrjargul sp. nov. and D. kalikal areas follows. Regarding the COI marker, the maximal intragroup distance within D.kalikal is 1.74% andwithin D.yrjargul sp. nov. it is 0.85% (mean intragroupdistances are 0.80% and 0.39%). The mean intergroup distance between D. kalikal and D. yrjargul sp. nov. groups is 2.1% (Appendix, table A2). Thus, intragroup distances within D. yirargul sp. nov. are smaller than the distance between D. yirargul sp. nov. and D. kalikal. Thus, D. yrjargul sp. nov. and D. kalikal demonstrate considerable differences in morphological, molecular and, to a very large degree, ontogenetic levels. Dendronotus yrjargul sp. nov. thus represents a well-separated species, although possibly recently diverged, as indicated by the slight molecular divergence. : Published as part of Korshunova, Tatiana, Bakken, Torkild, GrØtan, Viktor V., Johnson, Kjetil B., Lundin, Kennet & Martynov, Alexander, 2021, A synoptic review of the family Dendronotidae (Mollusca: Nudibranchia): a multilevel organismal diversity approach, pp. 93-153 in Contributions To Zoology 90 (1) on pages 100-104, DOI: 10.1163/18759866-BJA10014, http://zenodo.org/record/4623915 : {"references": ["Vervoort, W. (1942) Northern Hydroida in the Collections of the Rijksmuseum van Natuurlijke Historie and the Zoological Museum at Amsterdam, with notes on their distribution. Zool. Meded,, 23, 275 - 312."]} Text Bering Strait Kamchatka Kara Sea Norwegian Sea DataCite Metadata Store (German National Library of Science and Technology) Norwegian Sea Kara Sea Bering Strait Pacific Norway Bakken ENVELOPE(13.400,13.400,65.585,65.585) Breivika ENVELOPE(24.083,24.083,-70.250,-70.250) Ørland ENVELOPE(9.666,9.666,63.686,63.686) Grøtan ENVELOPE(9.917,9.917,62.836,62.836) Yrjar ENVELOPE(-20.027,-20.027,64.061,64.061)

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