Neoturris pileata ( Forsskål, 1775 )
|
publication ID |
https://doi.org/10.5281/zenodo.1196029 |
|
persistent identifier |
https://treatment.plazi.org/id/03FE406D-FFF5-E255-FE8F-FADBD87C1715 |
|
treatment provided by |
Plazi (2021-10-21 02:34:05, last updated 2024-11-26 23:39:19) |
|
scientific name |
Neoturris pileata ( Forsskål, 1775 ) |
| status |
|
Neoturris pileata ( Forsskål, 1775) View in CoL
Figs 1-7 View Fig View Fig View Fig View Fig View Fig View Fig View Fig
Medusa pileata Forsskål, 1775: 110 View in CoL . – Forsskål, 1776: pl. 33, fig. D.
Oceania Lesueurii Péron & Lesueur, 1810: 345 View in CoL . – Goy, 1995: 244, plate.
Carybdea pisifera Oken, 1815: 125 .
Oceania pileus de Blainville, 1830: 258 .
Oceania ampullacea M. Sars, 1835: 22 , pl. 4 fig. 8. – Haeckel, 1879: 58, synonym.
Tiaria papalis Lesson, 1843: 287 . – Haeckel, 1879: 58, synonym.
Turris digitale Forbes, 1846: 286 . – Hartlaub, 1914: 324, synonym.
Turris digitalis . – Forbes, 1848: 21, pl. 3 fig. 1. – Haeckel, 1879: 61, pl. 4 figs 2-3. ‒ Kramp, 1955: 153, revision of Haeckel’s material.
Oceania episcopalis Forbes, 1848: 27 , pl. 2 fig. 1. – Haeckel, 1879: 58, synonym.
Oceania coccinea Leuckart, 1856: 20 , pl. 2 fig. 3.– Haeckel, 1879: 58, synonym.
Oceania constricta Patterson, 1859: 279 , figs.
Tiara pileata View in CoL . – Haeckel, 1879: 58, pl. 3 figs 6-8.
Turris coeca Hartlaub, 1892: 19 , fig. 1. – Hartlaub, 1914: 329, synonym.
in part Turris pileata . – Mayer, 1910: 123, pl. 12 fig. 4, pl. 13 fig. 6.
Tiara pileata View in CoL . – Le Danois, 1914: 17, fig. 4.
Perigonimus abyssi G.O. Sars, 1874: 126 View in CoL , pl. 5 figs 27-30. new synonym
Neoturris pileata View in CoL . – Hartlaub, 1914: 326, figs 270, 273, 274- 281. – Kramp, 1926: 92, fig. 37, pl. 2 figs 13-14, chart XVIII. – Russell, 1953: 203, figs 104-106, pl. 12 fig. 1. – Edwards, 1965: 461, figs 1-4, life cycle. ‒ Schuchert, 2007: 333, figs 59-60, review.
in part Leuckartiara brevicornis View in CoL . – Hartlaub, 1914: 304, figs 254-256. [incorrect subsequent spelling]
in part Leuckartiara breviconis View in CoL . – Kramp, 1926: 80, pl. 2 fig. 8. ‒ Russell, 1953: 198, pl. 12 fig. 2. – Kramp, 1959: 120, fig. 121. [not Neoturris breviconis ( Murbach & Shaerer, 1902) View in CoL ]
Leuckartiara breviconis View in CoL . ‒ Kramp & Damas, 1925: 280 [not Neoturris breviconis ( Murbach & Shaerer, 1902) View in CoL ]
Leuckartiara abyssi View in CoL . – Rees, 1938: 19, fig. 6a-d, part of life cycle. – Rees, 1956: 114, re-examination of type material, lectotype designation. – Schuchert, 2007: 330, fig. 57, redescription, status.
Type locality: Mediterranean
Material of N. abyssi: All specimens came from Bergen area in Norway. See also Table 1 View Table 1 for GenBank numbers. If no museum accession number is given, there is no material in a permanent collection.
Hydroid stage:
MHNG-INVE-54693; without gonophores on Nucula spec ; Herdlafjord, 60.503° 5.2152°, 375-440 m depth; collection date 20.04.2007. ‒ MHNG-INVE-54695; without gonophores on Nucula spec. ; Hauglandsosen, 60.433°5.1167°, 180 m depth; collection date 15.08.2007. ‒ Hydroid without gonophores on scaphopod of about 5 mm size; Raunefjord, Vatlestraumen, 60.33802° 5.18163°, 32-42 m depth; collection date 16.09.2008; DNA isolate 935. ‒ Hydroid without gonophores on Nucula spec. ; Raunefjord, Vatlestraumen, 60.338017° 5.181633°, 32-42 m depth, temperature °C; collection date 16.09.2008; DNA isolate 936. ‒ Hydroid without gonophores on sipuncule in Antalis entalis ; Raunefjord, Flesland, 60.30282° 5.2016°, 45-100 m depth; collection date 19.09.2008; DNA isolate 694. ‒ Hydroid without gonophores on Nucula spec ; Hordaland, Hauglandosen, 60.435° 5.122°, 135-151 m depth; collection date 19.09.2008; DNA isolate 695. ‒ Hydroid without gonophores on Nucula spec ; Hordaland, Hauglandosen, 60.435° 5.122°, 135-151 m depth; collection date 19.09.2008; DNA isolate 704.
Medusa stage:
Raunefjord, 60.275° 5.200°, 10 m depth; collection date 22.05.2012; DNA isolate 953. ‒ MHNG-INVE-82129; Korsfjord, 60.20833° 5.20261°, 0-20 m depth; collection date 23.05.2012; DNA isolate 916. ‒ Korsfjord, 60.20833° 5.20261°, 0-20 m depth; collection date 23.05.2012; DNA isolate 917. ‒ Korsfjord, 60.20833° 5.20261°, 0-20 m depth; collection date 23.05.2012; DNA isolate 918. ‒ Korsfjord, 60.20833° 5.20261°, 0-20 m depth; collection date 23.05.2012; DNA isolate 919. ‒ Korsfjord, 60.20833° 5.20261°, 0-20 m depth; collection date 23.05.2012; DNA isolate 954. ‒ Fanafjord, 60.24079° 5.22941°, 0-20 m depth; collection date 24.04.2015; DNA isolate 1119.
Material of N. pileata : MHNG-INVE-97957; France, Bay of Villefranche-sur-Mer, 43.685° 7.315667°, 0-30 m depth; collection date 11.04.2017; DNA isolate 1280. Additional examined material is given in Schuchert (2007).
Diagnosis: Neoturris medusa with bell that is usually higher than wide, height 2-4 cm, no exumbrellar nematocyst ridges, with or without apical projection, no apical canal, with up to 60-90 tentacles. Manubrium usually longer than half the subumbrella height, interradial gonad region large and without folds but with many gonadal pits (>20 per quadrant), eight adradial rows of horizontal gonads folds, folds appear directed towards interradii; no papillae on gonads, radial canals jagged, tentacle bases without abaxial spurs, no ocelli. Colours depending on age and environment, manubrium in younger ones yellow-orange, in fully grown medusae pink to ruby-red; tentacle-bases yellowish.
Hydroids usually on scaphopods and Nucula shells, colonial, arising from creeping stolons; hydrocauli covered by perisarc, not branched, monosiphonic. Perisarc extends onto hydranth body as a more or less gelatinous pseudohydrotheca which does not envelop the tentacles. Hydranths with conical hypostome, one whorl of filiform tentacles. Gonophores develop on cauli or stolons, enclosed in thin perisarc membrane. Gonophores liberated as free medusae with four tentacles.
Description: See Schuchert (2007).
Remarks: As already suspected by Edwards (1965), the 16S and COI sequence comparisons presented above are evidence that the hydroid Leuckartiara abyssi G.O. Sars, 1874 must belong to Neoturris pileata ( Forsskål, 1775) . The hydroid of L. abyssi from near the original collecting site of Sars belongs unambiguously to Neoturris medusae found at the same locality. These Neoturris medusae were smaller than those of adult Mediterranean ones (largest ones seen about 15 mm high), but the morphology of the manubrium with its numerous interradial pits and the adradial folds ( Fig. 4B View Fig ) comes close to the ones in more southern waters (comp. Figs 6-7 View Fig View Fig ). The colour of the manubrium was, however, never as red as found in medusae south of Norway to the Mediterranean. A Neoturris medusa from Sweden ( Fig. 5 View Fig ) had a much darker manubrium, despite being not much larger than the Norwegian ones. The yellowish Neoturris medusae occur regularly in the Bergen region (see also Hosia & Båmstedt, 2007; as N. pileata ) and must also have been seen by Kramp & Damas (1925) who attributed them to N. breviconis . The sequence comparison made here ( Figs 8-9 View Fig View Fig ), however, show that this cannot be the case as N. breviconis is well separated from the N. abyssi + N. pileata clade.
The hydroid of N. pileata without medusa buds is not readily distinguishable from Leuckartiara octona , the only other pandeid known from the region ( Hosia & Båmstedt, 2007). The only character to reliably distinguish the two is found in the newly released medusae, which have four tentacles instead of the two tentacles present in L. octona . A less reliable character is the absence of branching of the stems, which in fully grown colonies of L. octona are quite regularly branched once, but not so in N. abyssi . The Norwegian hydroids here assigned to L. abyssi lacked medusa buds, but were nevertheless assigned to L. abyssi because they came from close to the type locality, they grew on the typical substrate, the pedicels were never branched, and they occurred in relatively deep waters. Their sequences separated them immediately from L. octona medusae collected at the same locality ( Figs 8-9 View Fig View Fig ). An infertile pandeid hydroid on a Nucula shell collected in 5-50 m depths along the Swedish coast (DNA 1055, Table 1 View Table 1 ) was initially also identified as L. abyssi , but the DNA data clearly identified it as L. octona and it was reclassified accordingly.
de Blainville H. M. D. 1830. Dictionnaire des Sciences naturelles. F. G. Levrault, Paris, pp. 1 - 548.
Edwards C. 1965. The hydroid and the medusa Neoturris pileata. Journal of the Marine Biological Association of the United Kingdom 45 (2): 443 - 468.
Forbes E. 1846. On the Pulmograde Medusae of the British Seas. Annals and Magazine of Natural History (ser. 1) 18: 284 - 287.
Forbes E. 1848. A monograph of the British naked-eyed medusae: with figures of all the species. Ray Society, London, 104 pp., 13 pls. https: // dx. doi. org / 10.5962 / bhl. title. 10032
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
Forsskal P. In: Niebuhr C. E. 1776. Icones rerum naturalium, quas in itinere orientali depingi curavit Petrus Forskal, Prof. Haun. Post mortem auctoris ad Regis mandatum aeri incisas edidit Carsten Niebuhr. Copenhagen: Molleri, 15 pp., 43 pls. https: // dx. doi. org / 10.5962 / bhl. title. 70772
Goy J. 1995. Les meduses de Francois Peron et Charles- Alexandre Lesueur. Un autre regard sur l'expedition Baudin. Ministere de l'enseignement superieur et de la recherche. Comite des travaux historiques et scientifiques, Paris, 392 pp.
Haeckel E. 1879. Das System der Medusen. Erster Teil einer Monographie der Medusen. Denkschriften der Medicinisch-Naturwissenschaftlichen Gesellschaft zu Jena 1: XX + 1 - 360, 20 plates. https: // dx. doi. org / 10.5962 / bhl. title. 46856
Hartlaub C. 1892. Zur Kenntniss der Anthomedusen. Nachrichten von der Gesellschaft der Wissenschaften zu Gottingen, Mathematisch-Physikalische Klasse: 17 - 22.
Hartlaub C. 1914. Craspedote Medusen. Teil 1, Lieferung 3, Tiaridae. Nordisches Plankton 6: 237 - 363.
Hosia A., Bamstedt U. 2007. Seasonal changes in the gelatinous zooplankton community and hydromedusa abundances in Korsfjord and Fanafjord, western Norway. Marine Ecology Progress Series 351: 113 - 127.
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. 1955. A revision of Ernst Haeckel's determinations of a collection of Medusae belonging to the Zoological Museum of Copenhagen. Deep Sea Research 3: 149 - 168.
Kramp P. L. 1959. The Hydromedusae of the Atlantic Ocean and adjacent waters. Dana Report 46: 1 - 283.
Le Danois E. 1914. Coelenteres du plankton recueillis pendant la croisiere du yacht Pourquoi-Pas dans l'Atlantique Nord et l'Ocean Glacial (sous le commendement du Dr. Charcot). Bulletin de la Societe zoologique de France 38: 13 - 34.
Lesson R. P. 1843. Histoire naturelle des zoophytes. Acalephes. Librairie Encyclopedique de Roret, Paris, 596 pp.
Leuckart R. 1856. Beitrage zur Kenntniss der Medusenfauna von Nizza. Archiv fur Naturgeschichte 22 (1): 1 - 40, pls 1 - 2.
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.
Oken L. 1815. Okens Lehrbuch der Naturgeschichte. Dritter Theil. Zoologie. Reclam, Jena, XXVIII, 850, XVIII pp.
Patterson R. 1859. On a new naked-eyed medusa. Proceedings of the Dublin University Zoological and Botanical Association 1 (3): 279 - 281.
Peron F., Lesueur C. A. 1810. Tableau des caracteres generiques et specifiques de toutes les especes de meduses connues jusqu'a ce jour. Annales du Museum national d'histoire naturelle de Paris 14: 325 - 366.
Rees W. J. 1938. Observations on British and Norwegian hydroids and their medusae. Journal of the Marine Biological Association of the U. K. 23: 1 - 42.
Rees W. J. 1956. A revision of some northern gymnoblastic hydroids in the Zoological Museum, Oslo. Nytt Magasin for Zoologi 4: 109 - 120.
Russell F. S. 1953. The medusae of the British Isles. Cambridge University Press, London, 530 pp., 35 pls.
Sars M. 1835. Beskrivelser og jagttagelser over nogle maerkelige eller nye i havet ved den Bergenske kyst levende dyr af polypernes, acalephernes, radiaternes, annelidernes og molluskernes classer, med en kort oversigt over de hidtil af forfatteren sammesteds fundne ar. T. Hallager, Bergen, xii + 81 pp. https: // dx. doi. org / 10.5962 / bhl. title. 13017
Sars G. O. 1874. Bidrag til Kundskaben om Norges Hydroider. Forhandlinger i Videnskabs-Selskabet i Kristiana 1873: 91 - 150, pls 2 - 5.
Schuchert P. 2007. The European athecate hydroids and their medusae (Hydrozoa, Cnidaria): Filifera Part 2. Revue suisse de Zoologie 114 (2): 195 - 396.
Fig. 2. Neoturris abyssi (=Neoturris pileata), preserved polyp specimens from Norway, Bergen area, Hauglandsosen. (A) MHNG- INVE-54695 on Nucula spec. (B) MHNG-INVE-62572, on a scaphopod, (DNA 695, see Table 1).
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. 7. Neoturris pileata, living medusa photographed by Nicholas Samaras, location: Mediterranean, Greece, Chalkidiki Peninsula, depth 3 m. The photo shows a perfect and typical N. pileata, note the intense red colour of the manubrium as well as the folds and pits on it. Note that this photo is copyright protected and the right to reproduce it here was acquired by paying a royalty fee to the copyright holder Nicholas Samaras (www.underwater-photography.gr).
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.
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
|
Kingdom |
|
|
Phylum |
|
|
Class |
|
|
Order |
|
|
Family |
|
|
Genus |
Neoturris pileata ( Forsskål, 1775 )
| Schuchert, Peter 2018 |
Leuckartiara abyssi
| Schuchert P. 2007: 330 |
| Rees W. J. 1956: 114 |
| Rees W. J. 1938: 19 |
Leuckartiara breviconis
| Kramp P. L. & Damas D. 1925: 280 |
Tiara pileata
| Le Danois E. 1914: 17 |
Neoturris pileata
| Schuchert P. 2007: 333 |
| Edwards C. 1965: 461 |
| Russell F. S. 1953: 203 |
| Kramp P. L. 1926: 92 |
| Hartlaub C. 1914: 326 |
Turris coeca
| Hartlaub C. 1914: 329 |
| Hartlaub C. 1892: 19 |
Tiara pileata
| Haeckel E. 1879: 58 |
Perigonimus abyssi G.O. Sars, 1874: 126
| Sars G. O. 1874: 126 |
Turris digitalis
| Kramp P. L. 1955: 153 |
| Haeckel E. 1879: 61 |
| Forbes E. 1848: 21 |
Turris digitale
| Hartlaub C. 1914: 324 |
| Forbes E. 1846: 286 |
Tiaria papalis
| Haeckel E. 1879: 58 |
| Lesson R. P. 1843: 287 |
Carybdea pisifera
| Oken L. 1815: 125 |
Medusa pileata Forsskål, 1775: 110
| Forsskal P. & In & Niebuhr C. E. 1775: 110 |
1 (by plazi, 2021-10-21 02:34:05)
2 (by felipe, 2021-10-21 20:28:01)
3 (by felipe, 2021-10-21 20:36:18)
4 (by ExternalLinkService, 2021-10-21 20:56:13)
5 (by felipe, 2021-10-22 14:33:12)
6 (by ExternalLinkService, 2021-10-22 14:43:33)
7 (by ExternalLinkService, 2021-10-22 15:26:52)
8 (by felipe, 2021-11-13 21:57:33)
9 (by ExternalLinkService, 2021-11-13 22:02:47)
10 (by plazi, 2023-11-08 04:49:25)