Ophidiaster guildingi Gray 1840

Ophidiaster guildingi Gray, 1840 Figures 26–27 Ophidiaster guildingii Gray, 1840: 284. Ophidiaster guildingii — Tommasi & Aron 1988: 3; Hendler et al. 1995: 79, fig. 22; Madeira et al . 2019: 93–94. Ophidiaster guildingi — Clark & Downey 1992: 281, fig. 44c, d, pl. 69A, B; Benavides-Serrato...

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Main Authors: Cunha, Rosana, Martins, Luciana, Menegola, Carla, Souto, Camilla
Format: Text
Language:unknown
Published: Zenodo 2021
Subjects:
Biodiversity
Taxonomy
Animalia
Echinodermata
Asteroidea
Valvatida
Ophidiasteridae
Ophidiaster
Ophidiaster guildingi
Indian
Trinidad
Rodriguez
Sudeste
Perez
Carrera
Diaz
Caballero
Ayala
Pawson
Benavides
Aguilera
Besnard
Borras
North Atlantic
South Atlantic Ocean
Online Access:https://dx.doi.org/10.5281/zenodo.4701452
https://zenodo.org/record/4701452
id ftdatacite:10.5281/zenodo.4701452
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
Echinodermata
Asteroidea
Valvatida
Ophidiasteridae
Ophidiaster
Ophidiaster guildingi
spellingShingle Biodiversity
Taxonomy
Animalia
Echinodermata
Asteroidea
Valvatida
Ophidiasteridae
Ophidiaster
Ophidiaster guildingi
Cunha, Rosana
Martins, Luciana
Menegola, Carla
Souto, Camilla
Ophidiaster guildingi Gray 1840
topic_facet Biodiversity
Taxonomy
Animalia
Echinodermata
Asteroidea
Valvatida
Ophidiasteridae
Ophidiaster
Ophidiaster guildingi
description Ophidiaster guildingi Gray, 1840 Figures 26–27 Ophidiaster guildingii Gray, 1840: 284. Ophidiaster guildingii — Tommasi & Aron 1988: 3; Hendler et al. 1995: 79, fig. 22; Madeira et al . 2019: 93–94. Ophidiaster guildingi — Clark & Downey 1992: 281, fig. 44c, d, pl. 69A, B; Benavides-Serrato et al . 2011: 176; Sandino et al. 2017: S294; Borrero-Peìrez et al . 2019: 5; Cunha et al. 2020: 41, fig. 6; Mah 2020b: 238, fig. 18A–D. Material examined (3 specs, 7–22 mm R). BRAZIL. Bahia, Abrolhos, Minerva Seamount (17°03’S, 37°37’W)— 69 m, 18.viii.2012, 3 specs, R 7–22 mm (MZUSP 2102). Comparative material. BRAZIL. Espírito Santo: Trindade Island (20°29’– 20°32’S; 29°19’– 29°20’W)— Enseada dos Portugueses, 12 m, 15.vii.2013, 1 spec, R 9 mm (MZUSP 1563); Enseada do Príncipe, Pedra da Garoupa, 10.4 m, 16.vii.2013, 1 spec, R 25 mm (MZUSP 1576); Enseada das Orelhas, 8.9 m, 8.i.2015, 1 spec, R 62 mm (MZUSP 1570). Description of largest specimens (R 17–22 mm). Disc small; average R/r 4.9 (Fig. 26A–B). Five long, cylindrical, constricted at base. Madreporite subcircular (Fig. 26D), evident in interradial area. Anus conspicuous in center of disc, surrounded by 10 spines. Terminal plate round, smaller than arm diameter, with about 8 tubercles (Fig. 26G). Abactinal plates (Fig. 26C) cruciform, imbricated, covered by flattened granules, and arranged in seven regular rows. Papular areas forming regular rows parallel to abactinal plates; with 4–8 pores proximally (Fig. 26C) and 3–5 pores distally. Marginal plates similar to abactinal plates. One row of imbricate actinal plates; actinal papular areas with 4–6 papular pores (Fig. 26H). Each inferomarginal plate connected to two adjacent actinal plates via a rod-like plate. One row of adambulacral spines, two subequal spines per plate (Fig. 26F). One subambulacral spine per plate; spine flattened, tapering, twice as large as adambulacral spine. Space between adambulacral and subambulacral spines (Fig. 26E). Oral spines (Fig. 26E) similar to adambulacral spines. Tube feet in two rows, sucking disc with perforated plates. Pedicellariae absent. Ontogenetic variation (R 7 mm). Average R/r 2.3. The specimen has short and wide arms, not constricted at the base (Fig. 27A–B), and a relatively large terminal plate forming the tip of the arm (Fig. 27G). The number of spines, tubercles, and papular areas are reduced in some areas, the anus is surrounded by 7–9 spines, terminal plates have 4–5 tubercles, papular areas have 1–3 pores in the abactinal region, and 1–2 pores in the actinal region. Also, abactinal plates are round and not imbricated (Fig. 27C), and adambulacral spines equal (Fig. 27E). Coloration. No record of coloration of in vivo specimens from this region, but specimens from Trindade Island are dark brown (Cunha et al . 2020). Juveniles from the Caribbean are purple (Hendler et al . 1995). Specimens in ethanol are pale brown. Distribution. Eastern Atlantic: Cape Verde, Gulf of Guinea, Ascension Island. Western Atlantic: U.S.A. (FL, GA, TX), Bermuda, The Bahamas, Mexico, Cuba, Belize, Turks and Caicos, Anguilla, Dominican Republic, Puerto Rico, Virgin Islands, Trinidad and Tobago, Antilles, Nicaragua, Panama, Colombia (Pawson 1978; Clark & Downey 1992; Entrambasaguas 2003; Sandino et al . 2017; Borrero-Peìrez et al . 2019; Mah 2020b). BRAZIL: Bahia, Trindade Island, Rio Grande do Sul (Tommasi 1970; Carrera-Rodriguez & Tommasi 1977; Tommasi & Aron 1988; Cunha et al . 2020). Depth. 0–445 m (Mah 2020b). Biological notes. In Bahia, this species is found in rubble and coral reef ecosystems, calcareous rocks and gravel (Tommasi & Aron 1988). Although O. guildingi is not widely distributed, it is generally abundant locally. Ophidiaster guildingi is a slow-moving species (Hendler et al . 1995) and can reproduce asexually and regenerate a new individual from a single arm (Haeckel 1878). The specimens from Bahia did not show signs of asexual reproduction. Holotype. The type specimen of O. guildingi has not been found (Clark & Downey 1992). Type locality. St Thomas, Virgin Islands (Clark & Downey 1992). Remarks. This species is generally small, growing only up to R 62 mm; according to H.L. Clark (1933), O. guildingi reaches maturity at R 45 mm. As noted above, the number of pores per papular area varies with ontogeny. Specimens from Trindade Island with R 9 mm have 1–2 pores, with R 25 mm have 3–6 pores and with R 62 mm have 5–12 pores. At R 33 mm, specimens have 5–12 pores (Downey 1973), and the maximum number of pores is 15 (Clark & Downey 1992). Clark & Downey (1992) also noted the rare occurrence of pedicellariae in large specimens, but Cunha et al . (2020) did not find pedicellariae in the specimens from Trindade Island. Ophidiaster guildingi differs from O . alexandri , O . bullisi and O . reyssi by having only one row of actinal plates (vs. 3–5 rows in O . alexandri two rows in O . bullisi and four rows in O . reyssi ); from O . bayeri by having only one row of subambulacral spines (vs. two rows); from O . ophidianus by having up to 15 pores per papular area (vs. more than 20 pores) and flat and tapering spines subambulacral spines (vs. cylindrical and blunt) (Clark 1921; Clark & Downey 1992; Madeira et al . 2019). : Published as part of Cunha, Rosana, Martins, Luciana, Menegola, Carla & Souto, Camilla, 2021, Taxonomy of the sea stars (Echinodermata: Asteroidea) from Bahia State, including ontogenetic variation and an illustrated key to the Brazilian species, pp. 1-78 in Zootaxa 4955 (1) on pages 48-51, DOI: 10.11646/zootaxa.4955.1.1, http://zenodo.org/record/4691078 : {"references": ["Gray, J. E. (1840) A synopsis of the genera and species of the class Hypostoma (Asterias Linnaeus). Annals of the Magazine of Natural History, Series 1, 6 (37), 175 - 184 + 275 - 290. https: // doi. org / 10.1080 / 03745484009443296", "Tommasi, L. R. & Aron, M. A. (1988) Equinodermos da plataforma continental do sudeste do estado da Bahia. Relatos do Instituto Oceanografico da Universidade de Sao Paulo, 19, 1 - 6.", "Hendler, G., Muller, J. E., Pawson, D. L. & Kier, P. M. (1995) Sea Stars, Sea Urchins and Allies: Echinoderms of Florida and the Caribbean. Smithsonian Institution Press, Washington, 390 pp.", "Madeira, P., Kroh, A., Cordeiro, R., Frias, D. E., Martins, A. M. & Avila, S. P. (2019) The Echinoderm Fauna of the Azores (NE Atlantic Ocean). Zootaxa, 4639 (1), 1 - 231. https: // doi. org / 10.11646 / zootaxa. 4639.1", "Clark, A. M. & Downey, M. E. (1992) Starfishes of the Atlantic. Chapman and Hall, London, 794 pp. https: // doi. org / 10.5860 / choice. 30 - 2659", "Benavides-Serrato, M., Borrero-Perez, G. & Diaz-Sanchez, C. (2011) Equinodermos del caribe colombiano: Crinodea, Asteroidea y Ophiuroidea. Vol. 1. Marquillas, Santa Marta, 384 pp.", "Sandino, O. B., Solis-Marin, F. A., Caballero-Ochoa, A. A., Conejeros-Vargas, C. A., Marquez-Borras, F., Ayala-Aguilera, A. P. & Laguarda-Figueras, A. (2017) Equinodermos de Nicaragua: nuevos registros del Pacifico y Caribe Sur. Revista de Biologia Tropical, 65, 288 - 298. https: // doi. org / 10.15517 / rbt. v 65 i 1 - 1.31696", "Cunha, R., Tavares, M. & Mendonca, J. B. (2020) Asteroidea (Echinodermata) from shallow-waters of the remote oceanic archipelago Trindade and Martin Vaz, southeastern Atlantic, with taxonomic and zoogeographical notes. Zootaxa, 4742 (1), 31 - 56. https: // doi. org / 10.11646 / zootaxa. 4742.1.2", "Mah, C. L. (2020 b) New species, occurrence records and observations of predation by deep-sea Asteroidea (Echinodermata) from the North Atlantic by NOAA ship Okeanos Explorer. Zootaxa, 4766 (2), 201 - 260. https: // doi. org / 10.11646 / zootaxa. 4766.2.1", "Pawson, D. L. (1978) The echinoderm fauna of Ascension Island, South Atlantic Ocean, Smithsonian. Contributions Marine Sciences, 2, 1 - 31. https: // doi. org / 10.5479 / si. 01960768.2.1", "Entrambasaguas, L. (2003) Estudio de la fauna de equinodermos del archipielago de Cabo Verde: escalas de variabilidad espacial y factores que explican su distribucion. Tesis de licenciatura no publicada. Universidad de Murcia, Murcia. [unknown pagination]", "Tommasi, L. R. (1970) Lista dos asteroides recentes do Brasil. Contribuicoes Avulsas do Instituto Oceanografico, Universidade de Sao Paulo, 18, 1 - 61, 38 pls.", "Carrera-Rodriguez, C. J. & Tommasi, L. R. (1977) Asteroidea de la plataforma continental de Rio Grande do Sul (Brasil), coleccionados durante los viajes del N / Oc. \" Prof. W. Besnard \" para el proyecto Rio Grande do Sul. Boletim do Instituto Oceanografico da Universidade de Sao Paulo, 26 (1), 51 - 130. https: // doi. org / 10.1590 / S 0373 - 55241977000100004", "Haeckel, E. (1878) Die Kometenform der Seesterne und der Generationswechsel der Echinodermum. Zeitschrift fur Wissenschaftliche Zoologie, 30 (Supplement), 424 - 445.", "Clark, H. L. (1933) A handbook of the littoral echinoderms of Porto Rico and the other West Indian Islands. Scientific Survey of Puerto Rico, 16, 1 - 147.", "Downey, M. E. (1973) Starfishes from the Caribbean and the Gulf of Mexico. Smithsonian Contributions Zoology, 126, 1 - 158. https: // doi. org / 10.5479 / si. 00810282.126", "Clark, H. L. (1921) The echinoderm fauna of Torres Strait: Its composition and its origin. Carnegie Institution of Washington Publication, 10, 1 - 223. https: // doi. org / 10.5962 / bhl. title. 14613"]}
format Text
author Cunha, Rosana
Martins, Luciana
Menegola, Carla
Souto, Camilla
author_facet Cunha, Rosana
Martins, Luciana
Menegola, Carla
Souto, Camilla
author_sort Cunha, Rosana
title Ophidiaster guildingi Gray 1840
title_short Ophidiaster guildingi Gray 1840
title_full Ophidiaster guildingi Gray 1840
title_fullStr Ophidiaster guildingi Gray 1840
title_full_unstemmed Ophidiaster guildingi Gray 1840
title_sort ophidiaster guildingi gray 1840
publisher Zenodo
publishDate 2021
url https://dx.doi.org/10.5281/zenodo.4701452
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geographic Indian
Trinidad
Rodriguez
Sudeste
Perez
Carrera
Diaz
Caballero
Ayala
Pawson
Benavides
Aguilera
Besnard
Borras
geographic_facet Indian
Trinidad
Rodriguez
Sudeste
Perez
Carrera
Diaz
Caballero
Ayala
Pawson
Benavides
Aguilera
Besnard
Borras
genre North Atlantic
South Atlantic Ocean
genre_facet North Atlantic
South Atlantic Ocean
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spelling ftdatacite:10.5281/zenodo.4701452 2023-05-15T17:37:41+02:00 Ophidiaster guildingi Gray 1840 Cunha, Rosana Martins, Luciana Menegola, Carla Souto, Camilla 2021 https://dx.doi.org/10.5281/zenodo.4701452 https://zenodo.org/record/4701452 unknown Zenodo http://zenodo.org/record/4691078 http://publication.plazi.org/id/0350FF96FFADFFD4FFC347147C72FFF5 http://treatment.plazi.org/id/AA3E8794FFE6FA14A9B0FCCEFC355208 http://treatment.plazi.org/id/03AE8786FF98D566FF402631FCC75974 http://zoobank.org/E800A72A-C56A-492C-9EE6-FA4F8277DE31 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4955.1.1 http://zenodo.org/record/4691078 http://publication.plazi.org/id/0350FF96FFADFFD4FFC347147C72FFF5 https://dx.doi.org/10.5281/zenodo.4691140 https://dx.doi.org/10.5281/zenodo.4691142 https://dx.doi.org/10.5281/zenodo.3681179 http://treatment.plazi.org/id/AA3E8794FFE6FA14A9B0FCCEFC355208 https://dx.doi.org/10.5281/zenodo.3803706 http://treatment.plazi.org/id/03AE8786FF98D566FF402631FCC75974 http://zoobank.org/E800A72A-C56A-492C-9EE6-FA4F8277DE31 https://dx.doi.org/10.5281/zenodo.4701451 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Echinodermata Asteroidea Valvatida Ophidiasteridae Ophidiaster Ophidiaster guildingi Text Taxonomic treatment article-journal ScholarlyArticle 2021 ftdatacite https://doi.org/10.5281/zenodo.4701452 https://doi.org/10.11646/zootaxa.4955.1.1 https://doi.org/10.5281/zenodo.4691140 https://doi.org/10.5281/zenodo.4691142 https://doi.org/10.5281/zenodo.3681179 https://doi.org/10.5281/zenodo.3803706 https: 2021-11-05T12:55:41Z Ophidiaster guildingi Gray, 1840 Figures 26–27 Ophidiaster guildingii Gray, 1840: 284. Ophidiaster guildingii — Tommasi & Aron 1988: 3; Hendler et al. 1995: 79, fig. 22; Madeira et al . 2019: 93–94. Ophidiaster guildingi — Clark & Downey 1992: 281, fig. 44c, d, pl. 69A, B; Benavides-Serrato et al . 2011: 176; Sandino et al. 2017: S294; Borrero-Peìrez et al . 2019: 5; Cunha et al. 2020: 41, fig. 6; Mah 2020b: 238, fig. 18A–D. Material examined (3 specs, 7–22 mm R). BRAZIL. Bahia, Abrolhos, Minerva Seamount (17°03’S, 37°37’W)— 69 m, 18.viii.2012, 3 specs, R 7–22 mm (MZUSP 2102). Comparative material. BRAZIL. Espírito Santo: Trindade Island (20°29’– 20°32’S; 29°19’– 29°20’W)— Enseada dos Portugueses, 12 m, 15.vii.2013, 1 spec, R 9 mm (MZUSP 1563); Enseada do Príncipe, Pedra da Garoupa, 10.4 m, 16.vii.2013, 1 spec, R 25 mm (MZUSP 1576); Enseada das Orelhas, 8.9 m, 8.i.2015, 1 spec, R 62 mm (MZUSP 1570). Description of largest specimens (R 17–22 mm). Disc small; average R/r 4.9 (Fig. 26A–B). Five long, cylindrical, constricted at base. Madreporite subcircular (Fig. 26D), evident in interradial area. Anus conspicuous in center of disc, surrounded by 10 spines. Terminal plate round, smaller than arm diameter, with about 8 tubercles (Fig. 26G). Abactinal plates (Fig. 26C) cruciform, imbricated, covered by flattened granules, and arranged in seven regular rows. Papular areas forming regular rows parallel to abactinal plates; with 4–8 pores proximally (Fig. 26C) and 3–5 pores distally. Marginal plates similar to abactinal plates. One row of imbricate actinal plates; actinal papular areas with 4–6 papular pores (Fig. 26H). Each inferomarginal plate connected to two adjacent actinal plates via a rod-like plate. One row of adambulacral spines, two subequal spines per plate (Fig. 26F). One subambulacral spine per plate; spine flattened, tapering, twice as large as adambulacral spine. Space between adambulacral and subambulacral spines (Fig. 26E). Oral spines (Fig. 26E) similar to adambulacral spines. Tube feet in two rows, sucking disc with perforated plates. Pedicellariae absent. Ontogenetic variation (R 7 mm). Average R/r 2.3. The specimen has short and wide arms, not constricted at the base (Fig. 27A–B), and a relatively large terminal plate forming the tip of the arm (Fig. 27G). The number of spines, tubercles, and papular areas are reduced in some areas, the anus is surrounded by 7–9 spines, terminal plates have 4–5 tubercles, papular areas have 1–3 pores in the abactinal region, and 1–2 pores in the actinal region. Also, abactinal plates are round and not imbricated (Fig. 27C), and adambulacral spines equal (Fig. 27E). Coloration. No record of coloration of in vivo specimens from this region, but specimens from Trindade Island are dark brown (Cunha et al . 2020). Juveniles from the Caribbean are purple (Hendler et al . 1995). Specimens in ethanol are pale brown. Distribution. Eastern Atlantic: Cape Verde, Gulf of Guinea, Ascension Island. Western Atlantic: U.S.A. (FL, GA, TX), Bermuda, The Bahamas, Mexico, Cuba, Belize, Turks and Caicos, Anguilla, Dominican Republic, Puerto Rico, Virgin Islands, Trinidad and Tobago, Antilles, Nicaragua, Panama, Colombia (Pawson 1978; Clark & Downey 1992; Entrambasaguas 2003; Sandino et al . 2017; Borrero-Peìrez et al . 2019; Mah 2020b). BRAZIL: Bahia, Trindade Island, Rio Grande do Sul (Tommasi 1970; Carrera-Rodriguez & Tommasi 1977; Tommasi & Aron 1988; Cunha et al . 2020). Depth. 0–445 m (Mah 2020b). Biological notes. In Bahia, this species is found in rubble and coral reef ecosystems, calcareous rocks and gravel (Tommasi & Aron 1988). Although O. guildingi is not widely distributed, it is generally abundant locally. Ophidiaster guildingi is a slow-moving species (Hendler et al . 1995) and can reproduce asexually and regenerate a new individual from a single arm (Haeckel 1878). The specimens from Bahia did not show signs of asexual reproduction. Holotype. The type specimen of O. guildingi has not been found (Clark & Downey 1992). Type locality. St Thomas, Virgin Islands (Clark & Downey 1992). Remarks. This species is generally small, growing only up to R 62 mm; according to H.L. Clark (1933), O. guildingi reaches maturity at R 45 mm. As noted above, the number of pores per papular area varies with ontogeny. Specimens from Trindade Island with R 9 mm have 1–2 pores, with R 25 mm have 3–6 pores and with R 62 mm have 5–12 pores. At R 33 mm, specimens have 5–12 pores (Downey 1973), and the maximum number of pores is 15 (Clark & Downey 1992). Clark & Downey (1992) also noted the rare occurrence of pedicellariae in large specimens, but Cunha et al . (2020) did not find pedicellariae in the specimens from Trindade Island. Ophidiaster guildingi differs from O . alexandri , O . bullisi and O . reyssi by having only one row of actinal plates (vs. 3–5 rows in O . alexandri two rows in O . bullisi and four rows in O . reyssi ); from O . bayeri by having only one row of subambulacral spines (vs. two rows); from O . ophidianus by having up to 15 pores per papular area (vs. more than 20 pores) and flat and tapering spines subambulacral spines (vs. cylindrical and blunt) (Clark 1921; Clark & Downey 1992; Madeira et al . 2019). : Published as part of Cunha, Rosana, Martins, Luciana, Menegola, Carla & Souto, Camilla, 2021, Taxonomy of the sea stars (Echinodermata: Asteroidea) from Bahia State, including ontogenetic variation and an illustrated key to the Brazilian species, pp. 1-78 in Zootaxa 4955 (1) on pages 48-51, DOI: 10.11646/zootaxa.4955.1.1, http://zenodo.org/record/4691078 : {"references": ["Gray, J. E. (1840) A synopsis of the genera and species of the class Hypostoma (Asterias Linnaeus). Annals of the Magazine of Natural History, Series 1, 6 (37), 175 - 184 + 275 - 290. https: // doi. org / 10.1080 / 03745484009443296", "Tommasi, L. R. & Aron, M. A. (1988) Equinodermos da plataforma continental do sudeste do estado da Bahia. Relatos do Instituto Oceanografico da Universidade de Sao Paulo, 19, 1 - 6.", "Hendler, G., Muller, J. E., Pawson, D. L. & Kier, P. M. (1995) Sea Stars, Sea Urchins and Allies: Echinoderms of Florida and the Caribbean. Smithsonian Institution Press, Washington, 390 pp.", "Madeira, P., Kroh, A., Cordeiro, R., Frias, D. E., Martins, A. M. & Avila, S. P. (2019) The Echinoderm Fauna of the Azores (NE Atlantic Ocean). Zootaxa, 4639 (1), 1 - 231. https: // doi. org / 10.11646 / zootaxa. 4639.1", "Clark, A. M. & Downey, M. E. (1992) Starfishes of the Atlantic. Chapman and Hall, London, 794 pp. https: // doi. org / 10.5860 / choice. 30 - 2659", "Benavides-Serrato, M., Borrero-Perez, G. & Diaz-Sanchez, C. (2011) Equinodermos del caribe colombiano: Crinodea, Asteroidea y Ophiuroidea. Vol. 1. Marquillas, Santa Marta, 384 pp.", "Sandino, O. B., Solis-Marin, F. A., Caballero-Ochoa, A. A., Conejeros-Vargas, C. A., Marquez-Borras, F., Ayala-Aguilera, A. P. & Laguarda-Figueras, A. (2017) Equinodermos de Nicaragua: nuevos registros del Pacifico y Caribe Sur. Revista de Biologia Tropical, 65, 288 - 298. https: // doi. org / 10.15517 / rbt. v 65 i 1 - 1.31696", "Cunha, R., Tavares, M. & Mendonca, J. B. (2020) Asteroidea (Echinodermata) from shallow-waters of the remote oceanic archipelago Trindade and Martin Vaz, southeastern Atlantic, with taxonomic and zoogeographical notes. Zootaxa, 4742 (1), 31 - 56. https: // doi. org / 10.11646 / zootaxa. 4742.1.2", "Mah, C. L. (2020 b) New species, occurrence records and observations of predation by deep-sea Asteroidea (Echinodermata) from the North Atlantic by NOAA ship Okeanos Explorer. 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Carnegie Institution of Washington Publication, 10, 1 - 223. https: // doi. org / 10.5962 / bhl. title. 14613"]} Text North Atlantic South Atlantic Ocean DataCite Metadata Store (German National Library of Science and Technology) Indian Trinidad ENVELOPE(-60.734,-60.734,-63.816,-63.816) Rodriguez ENVELOPE(-56.720,-56.720,-63.529,-63.529) Sudeste ENVELOPE(-60.516,-60.516,-62.988,-62.988) Perez ENVELOPE(-69.117,-69.117,-68.517,-68.517) Carrera ENVELOPE(-67.817,-67.817,-67.550,-67.550) Diaz ENVELOPE(-60.667,-60.667,-63.783,-63.783) Caballero ENVELOPE(-61.581,-61.581,-62.824,-62.824) Ayala ENVELOPE(-66.950,-66.950,-68.200,-68.200) Pawson ENVELOPE(-61.070,-61.070,-73.198,-73.198) Benavides ENVELOPE(-58.267,-58.267,-63.933,-63.933) Aguilera ENVELOPE(-58.483,-58.483,-62.083,-62.083) Besnard ENVELOPE(-63.483,-63.483,-64.826,-64.826) Borras ENVELOPE(23.645,23.645,69.924,69.924)

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