Neoturris breviconis ( Murbach & Shaerer, 1902 )

Schuchert, Peter, 2018, DNA barcoding of some Pandeidae species (Cnidaria, Hydrozoa, Anthoathecata), Revue suisse de Zoologie 125 (1), pp. 101-127 : 111-116

publication ID	https://doi.org/10.5281/zenodo.1196029
DOI	https://doi.org/10.5281/zenodo.5592952
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scientific name	Neoturris breviconis ( Murbach & Shaerer, 1902 )
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Neoturris breviconis ( Murbach & Shaerer, 1902) View in CoL

Fig. 10 View Fig A-E

Turris breviconis Murbach & Shearer, 1902: 73 . – Murbach & Shearer, 1903: 170, pl. 18 figs 1-2. – Mayer, 1910: 127.

in part Leuckartiara brevicornis View in CoL . – Hartlaub, 1914: 304, figs 254-256. [subsequent incorrect spelling]

not Leuckartiara breviconis View in CoL . ‒ Kramp & Damas, 1925: 280. [= Neoturris pileata ( Forsskål, 1775) View in CoL ]

in part or not Leuckartiara breviconis View in CoL . – Kramp, 1926: 80, pl. 2 fig. 8. ‒ Russell, 1953: 198, pl. 12 fig. 2. – Kramp, 1959: 120, fig. 121. – Kramp, 1961: 103. – Kramp, 1968: 4, fig. 124. – Russell, 1970: 246.

not Perigonimus breviconis View in CoL . – Naumov, 1969: 204, fig. 72. [= Catablema multicirratum View in CoL ]

Neoturris breviconis View in CoL . – Arai & Brinckmann-Voss, 1980: 57, figs 31-33, new combination.

in part Neoturris breviconis View in CoL . – Schuchert, 2007: 338, fig. 61A- B, not 61C-E.

Type locality: St. Paul Island, Pribilof Islands, Bering Sea.

Material examined: MHNG-INVE-82207, 1 mature specimen in ethanol; Canada, Vancouver Island, 49.0.467°-124.5018°, 0 m depth; collection date 21.05.2012; leg. M. Galbraith. ‒ Several specimens, not in permanent collection; USA, San Juan Island, Friday Harbor, 48.54514°-123.01206°, 0-0.5 m depth, collection date 16.05.2011; DNA isolates 949 and 882, photos Fig. 10 View Fig , see also Table 1 View Table 1 .

Presumed Atlantic material was examined for the publication Schuchert (2007).

Diagnosis: Neoturris medusa up to 45 mm high, broad, cylindrical bell, without or with shallow apical process, no exumbrellar ridges with nematocysts, manubrium voluminous, about half or less the height of subumbrella, 90-140 tentacles of similar size, interradial gonad region with 5-20 pits per quadrant, no papillae on gonads, radial canals jagged. Manubrium orange-brown sometimes with dark pigment granules at surface of gonads.

Description: Medusa up to 45 mm high and 35 mm wide, bell often rather cylindrical, top evenly rounded or with a shallow apical projection. Without exumbrellar ridges with nematocysts. Apical canal above manubrium absent or very thin. Aboral subumbrella often with distinct interradial pockets.

Manubrium broad and voluminous, about half the height of subumbrella or less; mesenteries variable in length, usually 1/3 of manubrium height; mouth margin crenulated or finely folded, perradial corners of often drawn out into long processes ( Fig. 10A, D View Fig ). Gonad tissue in upper two thirds of manubrium wall, this region with rows of horizontal folds along the radial canals, about 20 such folds per row, folds thick, and somewhat irregular, some also branched, most folds do not appear directed towards interradial (only those close to top, Fig. 10E View Fig ), interradial region of gonads rather narrow and depressed, with 5-20 pits per quadrant. If disturbed, the animal can contract the manubrium, resulting in a temporary horizontal fold that looks like a connection of the gonadfolds as seen in the genus Leuckartiara ( Fig. 10D View Fig ).

Radial canals jagged and very broad. Ring canal smooth, broad. Up to 140 tentacles, densely crowded, no rudimentary tentacles but some smaller tentacles in development. Marginal tentacle bulbs elongated, laterally compressed conical and tapering rapidly, base grasping margin with or without abaxial spur ( Fig. 10B View Fig ), no ocelli. Tentacles without permanent row of folds.

Color of living specimens, gonads and manubrium pale orange-brown, surface of gonads sometimes with dark red to purple pigment granules ( Fig. 10 View Fig D-E).

Younger animals with short gonad-zone, low number of shallow folds, few interradial pits (figures 31-32 in Arai & Brinckmann-Voss (1980).

Hydroid not known.

Remarks: When describing N. breviconis, Murbach & Shearer (1903) already noted the similarity of this species to N. pileata , but the illustration depicting the medusa seen from the side was somewhat inaccurate and they did not mention the interradial pits. In his revision of the Pandeidae, Hartlaub (1914) deplored these inaccuracies, but hesitatingly also attributed some badly preserved medusae from the northern North Sea to this species. His specimens were smaller (23 mm in height) and the gonad folds resembled more the ones in the genus Leuckartiara . Therefore, he introduced the new combination Leuckartiara breviconis ( Murbach & Shaerer, 1902) . There were no ocelli present, but his material had been preserved for a long time and the pigment of ocelli disappears after a few months in formalin. Later, also Kramp (1926, 1959) and Russell (1953) thought to have found Atlantic specimens of this species. Their illustrations, however, were not N. breviconis . Schuchert (2007, 2012), after re-examination of some of Hartlaub’s and Kramp’s medusae, found that they are unlikely N. breviconis , perhaps rather large Leuckartiara nobilis , other Neoturris , or Catablema species.

After examination of medusae from the NE Pacific, Arai & Brinckmann-Voss (1980) found that the species closely resembles N. pileata (gonad structure, absence of ocelli) and they transferred it from the genus Leuckartiara to the genus Neoturris .

Living Neoturris breviconis originating from the NE Pacific ( Fig. 10 View Fig ) look quite distinct from typical N. pileata ( Figs 3-6 View Fig View Fig View Fig View Fig ), but the diagnostic differences are much more difficult to formulate, in particular also criteria that can be used for preserved material. Neoturris breviconis can be distinguished from N. pileata by the broader shape of the exumbrella, the relatively short manubrium, the smaller number of interradial pits on the manubrium (5-20 versus> 20 per quadrant), and the higher number of tentacles (fully grown 90-140 tentacles versus 60- 80). Additionally, the apical projection if present is smaller, the adradial gonadal folds not clearly directed towards interradii (except the most aboral ones), and the tentacles bases may have short abaxial spurs. The 16S and COI sequence data clearly separate N. pileata and N. breviconis ( Figs 8-9 View Fig View Fig ).

While it is well possible that N. breviconis is also present in the Atlantic, currently available evidence is insufficient to establish its presence in the Atlantic. New, living samples must be examined and ideally also their 16S or COI sequences compared with the data presented here.

There exist a few other, little known Pacific Neoturris species which are best distinguished using Kramp (1968).

References

Arai M. N., Brinckmann-Voss A. 1980. Hydromedusae of British Columbia and Puget Sound. Canadian Bulletin of Fisheries and Aquatic Sciences 204: 1 - 192.

Forsskal P. In: Niebuhr C. E. 1775. Descriptiones animalium avium, amphibiorium, piscium, insectorum, vermium; quae in itinere orientali observavit Petrus Forskal. Post mortem auctoris edidit Carsten Niebuhr. Molleri, KObenhavn, pp. 1 - 164. https: // dx. doi. org / 10.5962 / bhl. title. 2154

Hartlaub C. 1914. Craspedote Medusen. Teil 1, Lieferung 3, Tiaridae. Nordisches Plankton 6: 237 - 363.

Kramp P. L., Damas D. 1925. Les meduses de la Norvege. Introduction et partie speciale. Videnskabelige meddelelser fra Dansk naturhistorik Forening 80: 217 - 323.

Kramp P. L. 1926. Medusae. Part II. Anthomedusae. Danish Ingolf Expedition 5 (10): 1 - 102, pls 1 - 2.

Kramp P. L. 1959. The Hydromedusae of the Atlantic Ocean and adjacent waters. Dana Report 46: 1 - 283.

Kramp P. L. 1961. Synopsis of the medusae of the world. Journal of the Marine Biological Association of the United Kingdom 40: 1 - 469.

Kramp P. L. 1968. The hydromedusae of the Pacific and Indian Oceans. Sections II and III. Dana Report 72: 1 - 200.

Mayer A. G. 1910. Medusae of the world. Hydromedusae, Vols. I & II. Scyphomedusae, Vol III. Carnegie Institution, Washington, 735 pp., pls 1 - 76.

Murbach L., Shaerer C. 1902. Preliminary report on a collection of medusae from the coast of British Columbia and Alaska. Annals and Magazine of Natural History (7) 9: 71 - 73.

Murbach L., Shearer C. 1903. On medusae from the coast of British Columbia and Alaska. Proceedings of the Zoological Society of London 2: 164 - 192, pls 17 - 22.

Naumov D. V. 1969. Hydroids and Hydromedusae of the USSR. Israel Program for scientific translation, 463 pp., 30 pls.

Russell F. S. 1953. The medusae of the British Isles. Cambridge University Press, London, 530 pp., 35 pls.

Russell F. S. 1970. The Medusae of the British Isles. II Pelagic Scyphozoa with supplement to the first volume on Hydromedusae. Cambridge University Press, Cambridge, 284 pp.

Schuchert P. 2007. The European athecate hydroids and their medusae (Hydrozoa, Cnidaria): Filifera Part 2. Revue suisse de Zoologie 114 (2): 195 - 396.

Schuchert P. 2012. North-West European Athecate Hydroids and their Medusae. Synopses of the British Fauna (New Series) 59. The Linnean Society of London, London, viii, 364 pp.

Figures

Fig. 10. Neoturris breviconis, living individuals from Friday Harbor, USA. (A) Fully grown animal without apical process, height approximately 3-4 cm. (B) Tentacle bases, note abaxial spurs and the absence of ocelli. (C) Smaller animal than shown in A (not to scale) with an apical process. (D) Medusa of with dark pigment in gonad region. The H-form of the gonad-bearing part of the manubrium is rather characteristic, but only temporary as due to contraction. This H-shape of the gonads is reminiscent of some Leuckartiara species. (E) Same specimen as in D seen from aboral side. Note that the gonadal pits are more numerous and much better seen in this view.

Fig. 3. Neoturris abyssi (=Neoturris pileata) medusae from Norway, photographs of living, relatively young stages. (A) Lateral view of medusa with bell size 7 mm (DNA 953, see Table 1). (B) Same as A, detail of radial canals and folds of stomach wall. (C) Same as A, oblique view from below. (D) Animal of bell size 9 mm, detail of tentacle bases, note the absence of ocelli.

Fig. 4. Neoturris abyssi (=Neoturris pileata) medusae from Norway, photographs of the most advanced stages found. (A) Lateral view of manubrium of a medusa with bell size 9 mm (DNA 918, see Table 1). No gametes could be seen when examining the gonad fold under a compound microscope. (B) Manubrium of a medusa with bell size 12 mm (DNA 916, see Table 1); note the increased number of gonadal folds and pits. Small oocytes were present in the gonads folds. Except for the colour this animal closely resemble Mediterranean specimens (Figs 6-7). (C) Medusa of about 10 mm height (DNA 919, see Table 1) cut open and spread to visualise anatomical details (inner side of stomach facing observer).

Fig. 5. Neoturris abyssi (=Neoturris pileata), living medusa from the Swedish coast, photo taken by Fredrik Pleijel and reproduced with the permission of the author. The manubrium is contracted, feigning a horizontal gonadal fold on the manubrium resembling the permanent one seen in some Leuckartiara species. This photo is copyright protected and it must not be reproduced without the consent of the author.

Fig. 6. Neoturris pileata, preserved specimen (MHNG- INVE-35522) from the Mediterranean, collected before 1895 and identified by C. Hartlaub. Note that the bell shape is not elongated as often seen in other illustrations (e.g. Fig. 7), but nevertheless lies within the range of variation for Mediterranean specimens. Moreover, the bell is somewhat flattened in this preserved sample.

Fig. 8. 16S maximum likelihood phylogenetic tree of Pandeidae species obtained with PhyML (GTR+G+I model) and based on 595 bp positions of the mitochondrial 16S gene. Node-support values are bootstrap values of 100 pseudoreplicates (shown only if > 70%). For more details see text and Table 1. Samples based on the polyp stage are indicated, all others are medusa samples.

Fig. 9. COI maximum likelihood phylogenetic tree of Pandeidae species obtained with PhyML (GTR+G+I model) and based on 664 bp positions of the mitochondrial COI gene. Node-support values are bootstrap values of 100 pseudoreplicates (shown only if> 70%). For more details see text and Table 1. Samples based on the polyp stage are indicated, all others are medusa samples.