Molgula pyriformis Herdman 1881

Molgula pyriformis Herdman, 1881 References : Molgula pyriformis Herdman 1881: 236; Herdman 1882: 79: pl. 6, fig. 1–3; Monniot & Monniot 1976: 652–655, fig. 11–12; Monniot & Monniot 1983: 101 (part). not Molgula malvinensis Ärnbäck-Christie-Linde, 1938: 5, pl. 1, fig. 1–3; Millar, 1960: 132,...

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Main Authors: Maggioni, Tamara, Taverna, Anabela, Reyna, Paola B., Alurralde, Gastón, Rimondino, Clara, Tatián, Marcos
Format: Text
Language:unknown
Published: Zenodo 2018
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Online Access:https://dx.doi.org/10.5281/zenodo.5995360
https://zenodo.org/record/5995360
id ftdatacite:10.5281/zenodo.5995360
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
Chordata
Ascidiacea
Stolidobranchia
Molgulidae
Molgula
Molgula pyriformis
spellingShingle Biodiversity
Taxonomy
Animalia
Chordata
Ascidiacea
Stolidobranchia
Molgulidae
Molgula
Molgula pyriformis
Maggioni, Tamara
Taverna, Anabela
Reyna, Paola B.
Alurralde, Gastón
Rimondino, Clara
Tatián, Marcos
Molgula pyriformis Herdman 1881
topic_facet Biodiversity
Taxonomy
Animalia
Chordata
Ascidiacea
Stolidobranchia
Molgulidae
Molgula
Molgula pyriformis
description Molgula pyriformis Herdman, 1881 References : Molgula pyriformis Herdman 1881: 236; Herdman 1882: 79: pl. 6, fig. 1–3; Monniot & Monniot 1976: 652–655, fig. 11–12; Monniot & Monniot 1983: 101 (part). not Molgula malvinensis Ärnbäck-Christie-Linde, 1938: 5, pl. 1, fig. 1–3; Millar, 1960: 132, fig. 57; Kott, 1969: 149 (part); Millar, 1970: 140; Monniot & Monniot, 1983: 101. Material examined: Seven individuals; net; -37.9951 lat. -54.6975 long. (station 7); 852 m; 11 August 2012 — Two individuals; trawl; -37.9876 lat. -54.6906 long. (station 8); 854 m; 11 August 2012 —Four individuals; trawl; - 37.9651 lat. -54.5320 long. (station 10); 1144 m; 11 August 2012 —Two individuals; net; -38.0164 lat. -54.5054 long. (station 9); 1006 m; 11 August 2012 (Figures 13 A–B). Individuals are spherical, olive-shaped. The mean size of the specimens was 1.2 cm long by 1.5 cm wide, and the oral and atrial apertures were separated approximately 0.9 cm from each other. The tunic is completely embedded with rests of sand and fragments of algae and sea shells. Thin and evenly distributed hair-like processes also cover the totality of the body. Once all the external material is removed, the tunic appears delicate and transparent. The oral and atrial apertures have six pointed lobes. There is a short oral velum that may be smooth or bear small papillae. Seven two-sized oral tentacles of the third order are placed in a single circle alternately with numerous minute ones. One of the bigger tentacles is situated exactly in the mid-dorsal line. The slightly undulated pre-pharyngeal band lies away from the tentacular circle. It forms a deep V that surrounds the dorsal tubercle and part of the neural ganglion. The dorsal tubercle is “funnel-shaped” (Herdman 1881). The broad dorsal lamina has smooth margins and extends until the entrance of the esophagus. The musculature is composed of a series of strong longitudinal fibers that radiate from both apertures and extend until the mid-ventral side of the body (from 24 to 27 per aperture), two dorsal muscular bands that enclose the neural complex, thin and densely packed circular muscles, and a series of short latero-dorsal fascicles unevenly distributed. The branchial sac bears seven folds on the right side and six on the left. The stigmata are long and curved, forming spirals at the top of the infundibula. The number of infundibula per fold ranges from seven to nine and may be single or double. The branchial formula on the right side of one of the biggest specimens is: E-0- 5 -0- 7 -0- 9 -0- 10 -0- 11 -0- 9 -0- 8 -0-DL The short esophagus connects with a stomach completely covered with liver lobes. The intestine is long. The primary intestinal loop forms an open curve, while the secondary loop forms a semicircle that runs adjacent to the stomach. The border of the anus is smooth. There are two elongated S-shaped gonads on each side of the body. The pear-shaped testes are distributed on the margins, while the ova reside in the center. They extend until the distal bend of the primary intestinal loop, never superpassing it (Figs 13 A–B). The oviducts are thick and long, extending almost until the atrial aperture. The vas deferens, on the contrary, is short. There is a narrow atrial velum whose margins are smooth. Remarks. Molgula pyriformis resembles the closely related species Molgula malvinensis Ärnbäck-Christie- Linde, 1938 and Molgula occidentalis Traustedt, 1883. According to Millar (1960), the main characteristics that separate them rely on the structure of the gonads, the shape of the intestinal loop and the dorsal tubercle opening. On the distinction between M. malvinensis and M. pyriformis , Monniot & Monniot (1976) agreed, claiming that the fundamental difference was found on the structure of the gonads (with M. malvinensis presenting more male follicles on each gonad). However, on the revision of the species (Monniot & Monniot 1983), the authors proposed instead the synonymy of M. malvinensis with M. pyriformis . Subsequent sampling in the SW Atlantic enabled us to reject the latter proposition and support the decision of maintaining both as separate species. Taverna (2013) found six individuals which were identified as M. malvinensis in an area close to its type location (Malvinas / Falkland Islands) and in a similar depth range (65–128 m). Additionally, all of our specimens present the characters mentioned by Millar (1960) as belonging to M. pyriformis . Our specimens were also found in an area close to the type locality of the latter (off Buenos Aires) and in a similar depth range (100–1097 m). In this way, we believe that the range of distribution of M. pyriformis is restricted to the north of the Argentine Sea, while the range of distribution of M. malvinensis extends from the south of the Argentine Sea to the north of the South Orkney Islands. Thus, the only specimen found in the Southern Ocean classified as M. pyriformis by Monniot & Monniot, 1983, might belong to M. malvinensis . : Published as part of Maggioni, Tamara, Taverna, Anabela, Reyna, Paola B., Alurralde, Gastón, Rimondino, Clara & Tatián, Marcos, 2018, Deep-sea ascidians (Chordata, Tunicata) from the SW Atlantic: species richness with descriptions of two new species, pp. 1-28 in Zootaxa 4526 (1) on pages 22-23, DOI: 10.11646/zootaxa.4526.1.1, http://zenodo.org/record/2611359 : {"references": ["Herdman, W. A. (1881) Preliminary report on the Tunicata of the Challenger Expedition. Part III. Cynthidae. Proceedings of the Royal Society of Edinburgh, 11 (3), 52 - 58.", "Herdman, W. A. (1882) Report on the Tunicata collected during the Voyage of H. M. S. Challenger during the years 1873 - 76; Part I. Ascidiae simplices. Report of the Scientific Results of the Uoyage of H. M. S. Challenger during the years 1873 - 76, 6 (17), 1 - 296.", "Monniot, F. & Monniot, C. (1976) Quelques ascidies bathyales et abyssales du Sud Est Atlantique. Bulletin du Museum National d'Histoire Naturelle Zoologie, 387 (269), 671 - 680.", "Monniot, C. & Monniot, F. (1983) Ascidies antarctiques et subantarctiques: Morphologie et Biogeographie. Memoires du Museum National d'Histoire Naturelle, Paris, 125, 1 - 168.", "Arnback-Christie-Linde, A. (1938) Ascidiacea. Part 2. Further zoological Results of the Swedish Antarctic Expedition, 3 (4), 1 - 54.", "Millar, R. H. (1960) Ascidiacea. Discovery Reports, 30, 1 - 160.", "Kott, P. (1969) Antarctic Ascidiacea. Antarctic Research Series, 13, 1 - 239.", "Millar, R. H. (1970) Ascidians, including specimens from the deep sea, collected by R. V. ' Vema' and now in the American Museum of Natural History. Zoological Journal of the Linnean Society, 49, 99 - 159. https: // doi. org / 10.1111 / j. 1096 - 3642.1970. tb 00732. x", "Traustedt, M. P. A. (1883) Vestindiske Ascidiae Simplices, Anden Afdeling. Molgulidae og Cynthiadae. Uidenskabelige Meddelelser fra Dansk Naturhistorisk Forening ann. 1882, 108 - 136.", "Taverna, A. (2013) Riqueza de ascidias de la Plataforma de Tierra del Fuego, colectadas durante la campana CONCACEN II del BO \" Puerto Deseado \". Tesis de grado, Universidad Nacional de Cordoba, Argentina, 60 pp."]}
format Text
author Maggioni, Tamara
Taverna, Anabela
Reyna, Paola B.
Alurralde, Gastón
Rimondino, Clara
Tatián, Marcos
author_facet Maggioni, Tamara
Taverna, Anabela
Reyna, Paola B.
Alurralde, Gastón
Rimondino, Clara
Tatián, Marcos
author_sort Maggioni, Tamara
title Molgula pyriformis Herdman 1881
title_short Molgula pyriformis Herdman 1881
title_full Molgula pyriformis Herdman 1881
title_fullStr Molgula pyriformis Herdman 1881
title_full_unstemmed Molgula pyriformis Herdman 1881
title_sort molgula pyriformis herdman 1881
publisher Zenodo
publishDate 2018
url https://dx.doi.org/10.5281/zenodo.5995360
https://zenodo.org/record/5995360
long_lat ENVELOPE(-45.500,-45.500,-60.583,-60.583)
ENVELOPE(-61.833,-61.833,-64.500,-64.500)
ENVELOPE(-60.526,-60.526,-72.655,-72.655)
ENVELOPE(124.611,124.611,64.968,64.968)
geographic Antarctic
Southern Ocean
Argentina
Argentine
South Orkney Islands
Marcos
Herdman
Linde
geographic_facet Antarctic
Southern Ocean
Argentina
Argentine
South Orkney Islands
Marcos
Herdman
Linde
genre Antarc*
Antarctic
Antarctique*
South Orkney Islands
Southern Ocean
Tierra del Fuego
genre_facet Antarc*
Antarctic
Antarctique*
South Orkney Islands
Southern Ocean
Tierra del Fuego
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spelling ftdatacite:10.5281/zenodo.5995360 2023-05-15T14:01:47+02:00 Molgula pyriformis Herdman 1881 Maggioni, Tamara Taverna, Anabela Reyna, Paola B. Alurralde, Gastón Rimondino, Clara Tatián, Marcos 2018 https://dx.doi.org/10.5281/zenodo.5995360 https://zenodo.org/record/5995360 unknown Zenodo http://zenodo.org/record/2611359 http://publication.plazi.org/id/5C4FE40D7579FFA50B2135631216313A http://zoobank.org/028FC5EA-7123-4F3A-B6C4-5EBE57ADBE23 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4526.1.1 http://zenodo.org/record/2611359 http://publication.plazi.org/id/5C4FE40D7579FFA50B2135631216313A https://dx.doi.org/10.5281/zenodo.2611387 http://zoobank.org/028FC5EA-7123-4F3A-B6C4-5EBE57ADBE23 https://dx.doi.org/10.5281/zenodo.5995359 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 Chordata Ascidiacea Stolidobranchia Molgulidae Molgula Molgula pyriformis article-journal ScholarlyArticle Taxonomic treatment Text 2018 ftdatacite https://doi.org/10.5281/zenodo.5995360 https://doi.org/10.11646/zootaxa.4526.1.1 https://doi.org/10.5281/zenodo.2611387 https://doi.org/10.5281/zenodo.5995359 2022-04-01T09:02:10Z Molgula pyriformis Herdman, 1881 References : Molgula pyriformis Herdman 1881: 236; Herdman 1882: 79: pl. 6, fig. 1–3; Monniot & Monniot 1976: 652–655, fig. 11–12; Monniot & Monniot 1983: 101 (part). not Molgula malvinensis Ärnbäck-Christie-Linde, 1938: 5, pl. 1, fig. 1–3; Millar, 1960: 132, fig. 57; Kott, 1969: 149 (part); Millar, 1970: 140; Monniot & Monniot, 1983: 101. Material examined: Seven individuals; net; -37.9951 lat. -54.6975 long. (station 7); 852 m; 11 August 2012 — Two individuals; trawl; -37.9876 lat. -54.6906 long. (station 8); 854 m; 11 August 2012 —Four individuals; trawl; - 37.9651 lat. -54.5320 long. (station 10); 1144 m; 11 August 2012 —Two individuals; net; -38.0164 lat. -54.5054 long. (station 9); 1006 m; 11 August 2012 (Figures 13 A–B). Individuals are spherical, olive-shaped. The mean size of the specimens was 1.2 cm long by 1.5 cm wide, and the oral and atrial apertures were separated approximately 0.9 cm from each other. The tunic is completely embedded with rests of sand and fragments of algae and sea shells. Thin and evenly distributed hair-like processes also cover the totality of the body. Once all the external material is removed, the tunic appears delicate and transparent. The oral and atrial apertures have six pointed lobes. There is a short oral velum that may be smooth or bear small papillae. Seven two-sized oral tentacles of the third order are placed in a single circle alternately with numerous minute ones. One of the bigger tentacles is situated exactly in the mid-dorsal line. The slightly undulated pre-pharyngeal band lies away from the tentacular circle. It forms a deep V that surrounds the dorsal tubercle and part of the neural ganglion. The dorsal tubercle is “funnel-shaped” (Herdman 1881). The broad dorsal lamina has smooth margins and extends until the entrance of the esophagus. The musculature is composed of a series of strong longitudinal fibers that radiate from both apertures and extend until the mid-ventral side of the body (from 24 to 27 per aperture), two dorsal muscular bands that enclose the neural complex, thin and densely packed circular muscles, and a series of short latero-dorsal fascicles unevenly distributed. The branchial sac bears seven folds on the right side and six on the left. The stigmata are long and curved, forming spirals at the top of the infundibula. The number of infundibula per fold ranges from seven to nine and may be single or double. The branchial formula on the right side of one of the biggest specimens is: E-0- 5 -0- 7 -0- 9 -0- 10 -0- 11 -0- 9 -0- 8 -0-DL The short esophagus connects with a stomach completely covered with liver lobes. The intestine is long. The primary intestinal loop forms an open curve, while the secondary loop forms a semicircle that runs adjacent to the stomach. The border of the anus is smooth. There are two elongated S-shaped gonads on each side of the body. The pear-shaped testes are distributed on the margins, while the ova reside in the center. They extend until the distal bend of the primary intestinal loop, never superpassing it (Figs 13 A–B). The oviducts are thick and long, extending almost until the atrial aperture. The vas deferens, on the contrary, is short. There is a narrow atrial velum whose margins are smooth. Remarks. Molgula pyriformis resembles the closely related species Molgula malvinensis Ärnbäck-Christie- Linde, 1938 and Molgula occidentalis Traustedt, 1883. According to Millar (1960), the main characteristics that separate them rely on the structure of the gonads, the shape of the intestinal loop and the dorsal tubercle opening. On the distinction between M. malvinensis and M. pyriformis , Monniot & Monniot (1976) agreed, claiming that the fundamental difference was found on the structure of the gonads (with M. malvinensis presenting more male follicles on each gonad). However, on the revision of the species (Monniot & Monniot 1983), the authors proposed instead the synonymy of M. malvinensis with M. pyriformis . Subsequent sampling in the SW Atlantic enabled us to reject the latter proposition and support the decision of maintaining both as separate species. Taverna (2013) found six individuals which were identified as M. malvinensis in an area close to its type location (Malvinas / Falkland Islands) and in a similar depth range (65–128 m). Additionally, all of our specimens present the characters mentioned by Millar (1960) as belonging to M. pyriformis . Our specimens were also found in an area close to the type locality of the latter (off Buenos Aires) and in a similar depth range (100–1097 m). In this way, we believe that the range of distribution of M. pyriformis is restricted to the north of the Argentine Sea, while the range of distribution of M. malvinensis extends from the south of the Argentine Sea to the north of the South Orkney Islands. Thus, the only specimen found in the Southern Ocean classified as M. pyriformis by Monniot & Monniot, 1983, might belong to M. malvinensis . : Published as part of Maggioni, Tamara, Taverna, Anabela, Reyna, Paola B., Alurralde, Gastón, Rimondino, Clara & Tatián, Marcos, 2018, Deep-sea ascidians (Chordata, Tunicata) from the SW Atlantic: species richness with descriptions of two new species, pp. 1-28 in Zootaxa 4526 (1) on pages 22-23, DOI: 10.11646/zootaxa.4526.1.1, http://zenodo.org/record/2611359 : {"references": ["Herdman, W. A. (1881) Preliminary report on the Tunicata of the Challenger Expedition. Part III. Cynthidae. Proceedings of the Royal Society of Edinburgh, 11 (3), 52 - 58.", "Herdman, W. A. (1882) Report on the Tunicata collected during the Voyage of H. M. S. Challenger during the years 1873 - 76; Part I. Ascidiae simplices. Report of the Scientific Results of the Uoyage of H. M. S. Challenger during the years 1873 - 76, 6 (17), 1 - 296.", "Monniot, F. & Monniot, C. (1976) Quelques ascidies bathyales et abyssales du Sud Est Atlantique. Bulletin du Museum National d'Histoire Naturelle Zoologie, 387 (269), 671 - 680.", "Monniot, C. & Monniot, F. (1983) Ascidies antarctiques et subantarctiques: Morphologie et Biogeographie. Memoires du Museum National d'Histoire Naturelle, Paris, 125, 1 - 168.", "Arnback-Christie-Linde, A. (1938) Ascidiacea. Part 2. Further zoological Results of the Swedish Antarctic Expedition, 3 (4), 1 - 54.", "Millar, R. H. (1960) Ascidiacea. Discovery Reports, 30, 1 - 160.", "Kott, P. (1969) Antarctic Ascidiacea. Antarctic Research Series, 13, 1 - 239.", "Millar, R. H. (1970) Ascidians, including specimens from the deep sea, collected by R. V. ' Vema' and now in the American Museum of Natural History. Zoological Journal of the Linnean Society, 49, 99 - 159. https: // doi. org / 10.1111 / j. 1096 - 3642.1970. tb 00732. x", "Traustedt, M. P. A. (1883) Vestindiske Ascidiae Simplices, Anden Afdeling. Molgulidae og Cynthiadae. Uidenskabelige Meddelelser fra Dansk Naturhistorisk Forening ann. 1882, 108 - 136.", "Taverna, A. (2013) Riqueza de ascidias de la Plataforma de Tierra del Fuego, colectadas durante la campana CONCACEN II del BO \" Puerto Deseado \". Tesis de grado, Universidad Nacional de Cordoba, Argentina, 60 pp."]} Text Antarc* Antarctic Antarctique* South Orkney Islands Southern Ocean Tierra del Fuego DataCite Metadata Store (German National Library of Science and Technology) Antarctic Southern Ocean Argentina Argentine South Orkney Islands ENVELOPE(-45.500,-45.500,-60.583,-60.583) Marcos ENVELOPE(-61.833,-61.833,-64.500,-64.500) Herdman ENVELOPE(-60.526,-60.526,-72.655,-72.655) Linde ENVELOPE(124.611,124.611,64.968,64.968)