Stelletta vervoorti Van, 2017, sp. nov.

Stelletta vervoorti sp. nov. Figures 48 a–h Stelletta spec. Van Soest & Stentoft 1988: 27, fig. 11. Material examined. Holotype RMNH Por. 9942, Guyana, ‘Luymes’ Guyana Shelf Expedition, station 63, 7.5833°N 57.0667°W, depth 71 m, sandy bottom, 31 August 1970. Additional material. ZMA Por. 0 3835...

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Main Author: Van, Rob W. M.
Format: Text
Language:unknown
Published: Zenodo 2017
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Online Access:https://dx.doi.org/10.5281/zenodo.5698623
https://zenodo.org/record/5698623
id ftdatacite:10.5281/zenodo.5698623
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
Porifera
Demospongiae
Astrophorida
Ancorinidae
Stelletta
Stelletta vervoorti
spellingShingle Biodiversity
Taxonomy
Animalia
Porifera
Demospongiae
Astrophorida
Ancorinidae
Stelletta
Stelletta vervoorti
Van, Rob W. M.
Stelletta vervoorti Van, 2017, sp. nov.
topic_facet Biodiversity
Taxonomy
Animalia
Porifera
Demospongiae
Astrophorida
Ancorinidae
Stelletta
Stelletta vervoorti
description Stelletta vervoorti sp. nov. Figures 48 a–h Stelletta spec. Van Soest & Stentoft 1988: 27, fig. 11. Material examined. Holotype RMNH Por. 9942, Guyana, ‘Luymes’ Guyana Shelf Expedition, station 63, 7.5833°N 57.0667°W, depth 71 m, sandy bottom, 31 August 1970. Additional material. ZMA Por. 0 3835, Barbados, 0.5 mile off Holetown, 13.25°N 59.6667° W, depth 100 m, coll. P. Wagenaar Hummelinck, #1442, 19 February 1964. Description. Semiglobular (Fig. 48 a) with hispid surface, encrusted with shells and barnacles. Size 2.5 cm in diameter, 2 cm high. Color in alcohol light beige. One specimen from French Guyana photographed by CREOCEAN—if correctly recognized—has an on deck color of brown to redbrown. Skeleton . Strictly radiate, with dichotriaenes dominant as a palisade at the surface, as well as present subcortically, where the cladomes carry small open spaces. Oxeas and other triaene types less common. Spicules. (Figs 48 b–h) Oxeas in two categories, dichotriaenes, plagiotriaenes, anatriaenes, oxyasters. Oxeas 1 (Figs 48 b,b1), thin, straight, distinguished from oxeas 2 by length-thickness relationship, tending to be somewhat asymmetrical, usually broken in the slides, (n=4), 2530–3420 x 12–16 µm. Oxeas 2 (Figs. 48 c,c1), fusiform, but with sharply tapering ends, often curved, younger forms are thin and straight, 1070– 2213 –3390 x 14– 27 –40 µm. Dichotriaenes (Figs 48 d,d1), with end of rhabdome thinly tapering, often wispy or curved, with cladome usually incurved; rhabdome 1890– 3217 –4620 x 22– 43 –61 µm, cladome diameter 228– 275 –324 µm, primary cladi 54– 84 –113 x 18– 26 –43 µm, secondary cladi 42– 81 –102 x 12– 25 –32 µm. Plagiotriaenes, rhabdomes straight, with thinly tapering ends, rather variable in size, but not readily divisible in larger (Figs 48 e,e1) and smaller (Figs 48 f,f1) size classes; cladome with incurved or straight conical cladi; rhabdomes (n=5), 900–2436 x 10–48 µm; cladome diameter 72– 133 –186 µm, cladi 36– 89 –114 x 10 – 21.5 –31 µm. Anatriaenes (Figs 48 g,g1), not common, thin, straight, with cladi curved away from the shaft, variable in length and cladome diameter; rhabdomes often broken (n=3), 1200–1556 x 10–27 µm; cladome diameter 66– 102 –180 µm; cladi 31– 66 –114 x 7– 15 –30 µm. We encountered some protriaenes in both the sections and the dissociated spicule slides, but these appear foreign as they were accompanied by some sigmaspires. Oxyasters (Figs 48 h), with spines concentrated near the apices of the rays, diameter quite variable, but ray number variation limited, so the asters are not readily divisible in distinct types; diameter 6–11.8–15 µm, ray number 7–12. Distribution and ecology. Guyana, Barbados, sandy bottom at 71– 100 m. Etymology. Named after Prof. Dr Wim Vervoort, 1917–2010, former director of the Rijkmuseum van Natuurlijke Historie, and distinguished marine invertebrate taxonomist (Hydrozoa, Copepoda). Vervoort was the biologist on board of the Guyana Shelf Expeditions 1966–1970, responsible for the collection of the sponges in the present collection. Remarks. The new species shares dichotriaenes with one other Central West Atlantic Stelletta species, viz. Stelletta ruetzleri Mothes & Silva, 2002 from the Brazilian SE coast, but that species lacks anatriaenes and has a thick crust of spheroxyasters at the surface. On paper, Ancorina individua Schmidt, 1870 from ‘Antillen’ and St. Croix could be conspecific with our material if Schmidt’s remark that it possesses ‘etwa 5 Ankervarietäten’ conforms to our diversity of triaenes. There are several ‘wet’ specimens (globular and of different sizes) from one of the two localities (St. Croix) in the Copenhagen Museum (confirmed by P. Cárdenas, pers.comm.), but no (re-)description of that syntype material has so far been made. A slide made from one of the St. Croix specimens was examined by me, and it revealed that there is indeed a large diversity of triaenes, dominated by various shapes of anatriaenes, but there are no dichotriaenes shaped like the above-described. Asters in the microscopic section are small and probably of a single type, but shape (oxyasters or tylasters) is uncertain due to the thickness of the slide. Additionally, the Natural History Museum (London), has a spicule slide from the Schmidt’s collection labeled ‘ Ancorina individua “121”, BMNH 1870.5.3.53 (re-examined by me). This conforms in its spicule composition to the Copenhagen type material. Due to the absence of dichotriaenes in Ancorina individua it is not likely to belong to the same species as the above described. The boreal North Atlantic / Arctic species Stelletta rhaphidiophora Hentschel, 1929, as redescribed by Cárdenas & Rapp (2015), has similarly shaped dichotriaenes and plagiotriaenes, and oxyaster microscleres, but it lacks anatriaenes and the oxyasters have smooth rays, unlike our new species. Likewise, the North Atlantic widespread deep-sea species Stelletta tuberosa (Topsent, 1892a) as redescribed by Cárdenas & Rapp (2015), looks superficially like our new species, but the dichotriaenes have rhabdomes and cladi more than twice as thick, and oxyasters three times as large as those of our new species. The Guyana material appears to belong to the same species as the specimen described previously as Stelletta spec. by Van Soest & Stentoft (1988). The spicule complement is closely similar: the protriaenes mentioned by Van Soest & Stentoft are in fact plagiotriaenes with short conical cladi such as found in several regional Stelletta ’s. A further difference would seem to be the small ‘chiasters’ of 3–6 µm diameter mentioned by these authors, but subsequent reexamination of the slides of the specimens demonstrated that these are oxyasters in a size range of 3–16 µm, quite similar to the present Guyana holotype. : Published as part of Van, Rob W. M., 2017, Sponges of the Guyana Shelf, pp. 1-225 in Zootaxa 1 on pages 75-77, DOI: 10.5281/zenodo.272951 : {"references": ["Van Soest, R. W. M. & Stentoft, N. (1988) Barbados Deep-Water Sponges. In: Hummelinck, P. W. & Van der Steen, L. J. (Eds.), Uitgaven van de Natuurwetenschappelijke Studiekring voor Suriname en de Nederlandse Antillen. No. 122. Studies on the Fauna of Curacao and other Caribbean Islands, 70 (215), 1 - 175. Avaliable from: http: // www. repository. naturalis. nl / document / 549872 (Accessed 11 Jan. 2017)", "Mothes, B. & Silva, C. M. M. Da (2002) Stelletta ruetzleri sp. nov., a new ancorinid from the Southwestern Atlantic (Porifera: Astrophorida). Scientia Marina, 66 (1), 69 - 75.", "Schmidt, O. (1870) Grundzuge einer Spongien-Fauna des atlantischen Gebietes. Wilhelm Engelmann, Leipzig, iii - iv, 88 pp.", "Hentschel, E. (1929) Die Kiesel- und Hornschwamme des Nordlichen Eismeers. In: Romer, F., Schaudinn, F., Brauer, A. & Arndt, W. (Eds.), Fauna Arctica. Eine Zusammenstellung der arktischen Tierformen mit besonderer Berucksichtigung des Spitzbergen-Gebietes auf Grund der Ergebnisse der Deutschen Expedition in das Nordliche Eismeer im Jahre 1898. 5 (4). G. Fischer, Jena, pp. 857 - 1042.", "Cardenas, P. & Rapp, H. T. (2015) Demosponges from the Northern Mid-Atlantic Ridge shed more light on the diversity and biogeography of North Atlantic deep-sea sponges. Journal of the Marine Biological Association of the United Kingdom. 95 (7), 1475 - 1516.", "Topsent, E. (1892 a) Contribution l'etude des Spongiaires de l'Atlantique Nord (Golfe de Gascogne, Terre-Neuve, Acores). Resultats des campagnes scientifiques accomplies par le Prince Albert I. Monaco, 2, 1 - 165"]}
format Text
author Van, Rob W. M.
author_facet Van, Rob W. M.
author_sort Van, Rob W. M.
title Stelletta vervoorti Van, 2017, sp. nov.
title_short Stelletta vervoorti Van, 2017, sp. nov.
title_full Stelletta vervoorti Van, 2017, sp. nov.
title_fullStr Stelletta vervoorti Van, 2017, sp. nov.
title_full_unstemmed Stelletta vervoorti Van, 2017, sp. nov.
title_sort stelletta vervoorti van, 2017, sp. nov.
publisher Zenodo
publishDate 2017
url https://dx.doi.org/10.5281/zenodo.5698623
https://zenodo.org/record/5698623
long_lat ENVELOPE(7.780,7.780,62.571,62.571)
ENVELOPE(-67.856,-67.856,-67.228,-67.228)
geographic Arctic
Mid-Atlantic Ridge
Steen
Mothes
geographic_facet Arctic
Mid-Atlantic Ridge
Steen
Mothes
genre Arctic
Arktis*
Atlantic Arctic
Atlantic-Arctic
North Atlantic
Spitzbergen
Terre-Neuve
genre_facet Arctic
Arktis*
Atlantic Arctic
Atlantic-Arctic
North Atlantic
Spitzbergen
Terre-Neuve
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op_doi https://doi.org/10.5281/zenodo.5698623
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spelling ftdatacite:10.5281/zenodo.5698623 2023-05-15T15:20:52+02:00 Stelletta vervoorti Van, 2017, sp. nov. Van, Rob W. M. 2017 https://dx.doi.org/10.5281/zenodo.5698623 https://zenodo.org/record/5698623 unknown Zenodo http://publication.plazi.org/id/FF9178687757FFACFF83A36B907DFF9A http://zoobank.org/6D68A019-6F63-4AA4-A8B3-92D351F1F69B https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5281/zenodo.272951 http://publication.plazi.org/id/FF9178687757FFACFF83A36B907DFF9A https://dx.doi.org/10.5281/zenodo.272999 http://zoobank.org/6D68A019-6F63-4AA4-A8B3-92D351F1F69B https://dx.doi.org/10.5281/zenodo.5698624 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Porifera Demospongiae Astrophorida Ancorinidae Stelletta Stelletta vervoorti Taxonomic treatment article-journal Text ScholarlyArticle 2017 ftdatacite https://doi.org/10.5281/zenodo.5698623 https://doi.org/10.5281/zenodo.272951 https://doi.org/10.5281/zenodo.272999 https://doi.org/10.5281/zenodo.5698624 2022-02-08T13:42:09Z Stelletta vervoorti sp. nov. Figures 48 a–h Stelletta spec. Van Soest & Stentoft 1988: 27, fig. 11. Material examined. Holotype RMNH Por. 9942, Guyana, ‘Luymes’ Guyana Shelf Expedition, station 63, 7.5833°N 57.0667°W, depth 71 m, sandy bottom, 31 August 1970. Additional material. ZMA Por. 0 3835, Barbados, 0.5 mile off Holetown, 13.25°N 59.6667° W, depth 100 m, coll. P. Wagenaar Hummelinck, #1442, 19 February 1964. Description. Semiglobular (Fig. 48 a) with hispid surface, encrusted with shells and barnacles. Size 2.5 cm in diameter, 2 cm high. Color in alcohol light beige. One specimen from French Guyana photographed by CREOCEAN—if correctly recognized—has an on deck color of brown to redbrown. Skeleton . Strictly radiate, with dichotriaenes dominant as a palisade at the surface, as well as present subcortically, where the cladomes carry small open spaces. Oxeas and other triaene types less common. Spicules. (Figs 48 b–h) Oxeas in two categories, dichotriaenes, plagiotriaenes, anatriaenes, oxyasters. Oxeas 1 (Figs 48 b,b1), thin, straight, distinguished from oxeas 2 by length-thickness relationship, tending to be somewhat asymmetrical, usually broken in the slides, (n=4), 2530–3420 x 12–16 µm. Oxeas 2 (Figs. 48 c,c1), fusiform, but with sharply tapering ends, often curved, younger forms are thin and straight, 1070– 2213 –3390 x 14– 27 –40 µm. Dichotriaenes (Figs 48 d,d1), with end of rhabdome thinly tapering, often wispy or curved, with cladome usually incurved; rhabdome 1890– 3217 –4620 x 22– 43 –61 µm, cladome diameter 228– 275 –324 µm, primary cladi 54– 84 –113 x 18– 26 –43 µm, secondary cladi 42– 81 –102 x 12– 25 –32 µm. Plagiotriaenes, rhabdomes straight, with thinly tapering ends, rather variable in size, but not readily divisible in larger (Figs 48 e,e1) and smaller (Figs 48 f,f1) size classes; cladome with incurved or straight conical cladi; rhabdomes (n=5), 900–2436 x 10–48 µm; cladome diameter 72– 133 –186 µm, cladi 36– 89 –114 x 10 – 21.5 –31 µm. Anatriaenes (Figs 48 g,g1), not common, thin, straight, with cladi curved away from the shaft, variable in length and cladome diameter; rhabdomes often broken (n=3), 1200–1556 x 10–27 µm; cladome diameter 66– 102 –180 µm; cladi 31– 66 –114 x 7– 15 –30 µm. We encountered some protriaenes in both the sections and the dissociated spicule slides, but these appear foreign as they were accompanied by some sigmaspires. Oxyasters (Figs 48 h), with spines concentrated near the apices of the rays, diameter quite variable, but ray number variation limited, so the asters are not readily divisible in distinct types; diameter 6–11.8–15 µm, ray number 7–12. Distribution and ecology. Guyana, Barbados, sandy bottom at 71– 100 m. Etymology. Named after Prof. Dr Wim Vervoort, 1917–2010, former director of the Rijkmuseum van Natuurlijke Historie, and distinguished marine invertebrate taxonomist (Hydrozoa, Copepoda). Vervoort was the biologist on board of the Guyana Shelf Expeditions 1966–1970, responsible for the collection of the sponges in the present collection. Remarks. The new species shares dichotriaenes with one other Central West Atlantic Stelletta species, viz. Stelletta ruetzleri Mothes & Silva, 2002 from the Brazilian SE coast, but that species lacks anatriaenes and has a thick crust of spheroxyasters at the surface. On paper, Ancorina individua Schmidt, 1870 from ‘Antillen’ and St. Croix could be conspecific with our material if Schmidt’s remark that it possesses ‘etwa 5 Ankervarietäten’ conforms to our diversity of triaenes. There are several ‘wet’ specimens (globular and of different sizes) from one of the two localities (St. Croix) in the Copenhagen Museum (confirmed by P. Cárdenas, pers.comm.), but no (re-)description of that syntype material has so far been made. A slide made from one of the St. Croix specimens was examined by me, and it revealed that there is indeed a large diversity of triaenes, dominated by various shapes of anatriaenes, but there are no dichotriaenes shaped like the above-described. Asters in the microscopic section are small and probably of a single type, but shape (oxyasters or tylasters) is uncertain due to the thickness of the slide. Additionally, the Natural History Museum (London), has a spicule slide from the Schmidt’s collection labeled ‘ Ancorina individua “121”, BMNH 1870.5.3.53 (re-examined by me). This conforms in its spicule composition to the Copenhagen type material. Due to the absence of dichotriaenes in Ancorina individua it is not likely to belong to the same species as the above described. The boreal North Atlantic / Arctic species Stelletta rhaphidiophora Hentschel, 1929, as redescribed by Cárdenas & Rapp (2015), has similarly shaped dichotriaenes and plagiotriaenes, and oxyaster microscleres, but it lacks anatriaenes and the oxyasters have smooth rays, unlike our new species. Likewise, the North Atlantic widespread deep-sea species Stelletta tuberosa (Topsent, 1892a) as redescribed by Cárdenas & Rapp (2015), looks superficially like our new species, but the dichotriaenes have rhabdomes and cladi more than twice as thick, and oxyasters three times as large as those of our new species. The Guyana material appears to belong to the same species as the specimen described previously as Stelletta spec. by Van Soest & Stentoft (1988). The spicule complement is closely similar: the protriaenes mentioned by Van Soest & Stentoft are in fact plagiotriaenes with short conical cladi such as found in several regional Stelletta ’s. A further difference would seem to be the small ‘chiasters’ of 3–6 µm diameter mentioned by these authors, but subsequent reexamination of the slides of the specimens demonstrated that these are oxyasters in a size range of 3–16 µm, quite similar to the present Guyana holotype. : Published as part of Van, Rob W. M., 2017, Sponges of the Guyana Shelf, pp. 1-225 in Zootaxa 1 on pages 75-77, DOI: 10.5281/zenodo.272951 : {"references": ["Van Soest, R. W. M. & Stentoft, N. (1988) Barbados Deep-Water Sponges. In: Hummelinck, P. W. & Van der Steen, L. J. (Eds.), Uitgaven van de Natuurwetenschappelijke Studiekring voor Suriname en de Nederlandse Antillen. No. 122. Studies on the Fauna of Curacao and other Caribbean Islands, 70 (215), 1 - 175. Avaliable from: http: // www. repository. naturalis. nl / document / 549872 (Accessed 11 Jan. 2017)", "Mothes, B. & Silva, C. M. M. Da (2002) Stelletta ruetzleri sp. nov., a new ancorinid from the Southwestern Atlantic (Porifera: Astrophorida). Scientia Marina, 66 (1), 69 - 75.", "Schmidt, O. (1870) Grundzuge einer Spongien-Fauna des atlantischen Gebietes. Wilhelm Engelmann, Leipzig, iii - iv, 88 pp.", "Hentschel, E. (1929) Die Kiesel- und Hornschwamme des Nordlichen Eismeers. In: Romer, F., Schaudinn, F., Brauer, A. & Arndt, W. (Eds.), Fauna Arctica. Eine Zusammenstellung der arktischen Tierformen mit besonderer Berucksichtigung des Spitzbergen-Gebietes auf Grund der Ergebnisse der Deutschen Expedition in das Nordliche Eismeer im Jahre 1898. 5 (4). G. Fischer, Jena, pp. 857 - 1042.", "Cardenas, P. & Rapp, H. T. (2015) Demosponges from the Northern Mid-Atlantic Ridge shed more light on the diversity and biogeography of North Atlantic deep-sea sponges. Journal of the Marine Biological Association of the United Kingdom. 95 (7), 1475 - 1516.", "Topsent, E. (1892 a) Contribution l'etude des Spongiaires de l'Atlantique Nord (Golfe de Gascogne, Terre-Neuve, Acores). Resultats des campagnes scientifiques accomplies par le Prince Albert I. Monaco, 2, 1 - 165"]} Text Arctic Arktis* Atlantic Arctic Atlantic-Arctic North Atlantic Spitzbergen Terre-Neuve DataCite Metadata Store (German National Library of Science and Technology) Arctic Mid-Atlantic Ridge Steen ENVELOPE(7.780,7.780,62.571,62.571) Mothes ENVELOPE(-67.856,-67.856,-67.228,-67.228)