Clytia gracilis

Clytia cf. gracilis (M. Sars, 1850) Figs. 7 H–K Laomedea gracilis M. Sars 1850: 138. Clytia cylindrica L. Agassiz 1862: 306, figs. 41–44.— Fraser 1938a: 30; Fraser 1948: 206. Campanularia attenuata Calkins 1899: 350, pl. 2, figs. 9, 9a, 9b, 9c, pl. 6, fig. 9d. Gonothyraea gracilis .— Fraser 1938a: 3...

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Main Authors: Mendoza-Becerril, María A., Estrada-González, Mariae C., Mazariegos-Villarreal, Alejandra, Restrepo-Avendaño, Luisa, Villar-Beltrán, Rogelio D., Agüero, José, Cunha, Amanda F.
Format: Text
Language:unknown
Published: Zenodo 2020
Subjects:
Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Campanulariidae
Clytia
Clytia gracilis
Baja
Lofoten
Greenland
Pacific
Norway
Tigre
Martínez
Marcos
Lopez
Dewey
Perez
Gomez
Morro
Partida
Gronland
Estrada
Luisa
Contreras
Navidad
Barrientos
Rocky Point
Agüero
Sur Bahía
Iceland
Online Access:https://dx.doi.org/10.5281/zenodo.6301351
https://zenodo.org/record/6301351
id ftdatacite:10.5281/zenodo.6301351
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
Cnidaria
Hydrozoa
Leptothecata
Campanulariidae
Clytia
Clytia gracilis
spellingShingle Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Campanulariidae
Clytia
Clytia gracilis
Mendoza-Becerril, María A.
Estrada-González, Mariae C.
Mazariegos-Villarreal, Alejandra
Restrepo-Avendaño, Luisa
Villar-Beltrán, Rogelio D.
Agüero, José
Cunha, Amanda F.
Clytia gracilis
topic_facet Biodiversity
Taxonomy
Animalia
Cnidaria
Hydrozoa
Leptothecata
Campanulariidae
Clytia
Clytia gracilis
description Clytia cf. gracilis (M. Sars, 1850) Figs. 7 H–K Laomedea gracilis M. Sars 1850: 138. Clytia cylindrica L. Agassiz 1862: 306, figs. 41–44.— Fraser 1938a: 30; Fraser 1948: 206. Campanularia attenuata Calkins 1899: 350, pl. 2, figs. 9, 9a, 9b, 9c, pl. 6, fig. 9d. Gonothyraea gracilis .— Fraser 1938a: 35; Fraser 1938b: 109; Fraser 1938c: 132; Fraser 1948: 212. Clytia attenuata .— Salcedo-Martínez et al . 1988: 13. Clytia gracilis .— Bastida-Zavala et al. 2013: 344.— Humara-Gil & Cruz-Gómez 2018: 458, fig. 4. Type locality. Norway: Lofoten (Calder 1991a; Schuchert 2001). Material examined. Polyp—PB7_28, sampling site 1 (1), immature, 27°C, on algae and ascidian. Description. Colonies stolonal. Polyps up to 2 mm high arising from creeping hydrorhiza at irregular intervals. Pedicels usually long (1082.1 μm), with 8–10 annulations at the base and 2–3 annulations below the hydrotheca, smooth in the middle. Hydrotheca cylindrical, 446.9 μm long, 232.3 μm wide at the margin, 98.4 μm wide at the diaphragm, with thin perisarc. Margin with 8–10 acute triangular cusps, slightly tilted. Hydrothecal diaphragm thin, transverse. More detailed description in Calder (1991a), Cornelius (1995), and Schuchert (2001). Taxonomic status. Accepted. AphiaID 117367. Remarks. Clytia gracilis (M. Sars, 1850) has a complicated taxonomic history, resulting from the few morphological characters available for diagnosis, and wide intraspecific variation (Cornelius 1995; Cunha et al. 2020). The polyp of the species is traditionally distinguished by its hydrotheca with pointed cusps and smooth gonotheca, in contrast with the rounded cusps and spirally grooved gonotheca usually distinctive of C. hemisphaerica (Linnaeus 1767) (see Calder 1991a; Cornelius 1995). However, recent molecular and life cycle studies have shown that some of the characters attributed to C. gracilis may be distinctive of different lineages, contributing to the validation of former synonyms and the description of new species (Lindner et al. 2011; Zhou et al. 2013; He et al. 2015). Nonetheless, the traditional concept of C. gracilis is still known to comprise multiple cryptic lineages (Cunha et al. 2017), and the delimitation of the typical species is still unclear. As a result, this is a tentative identification, pending more detailed studies with molecular and life cycle data. We followed Calder (1991a) and Schuchert (2019) and considered the records of C. cylindrica from Fraser (1938a, 1948) as C. gracilis (M. Sars, 1850). Our specimens are also very similar to specimens of C. cf. gracilis recently described by Humara-Gil & Cruz-Gómez (2018) from the coast of Oaxaca, especially regarding the size of the hydrotheca and morphology of the cusps. As noticed by Humara-Gil & Cruz-Gómez (2018), specimens of C. cf. gracilis from the Pacific coast of Mexico have smaller hydrotheca than specimens described by Calder (1991a) and Schuchert (2001, 2003). Similarly, the hydrothecal cusps of our specimens are not as tilted as the ones described by Cornelius (1995) and Schuchert (2001, 2003). Nevertheless, these characters usually present wide intraspecific variation and may not be informative for the delimitation of the different lineages of C. gracilis (see Cunha et al. 2020). Distribution. In its traditional concept, C. gracilis is considered nearly cosmopolitan (Cornelius 1995; Schuchert 2001), but this assumption must be revisited considering that it is a species complex (see Cunha et al. 2017). In the Pacific coast of Mexico, it has been reported in Baja California (Isla Partida and Angel de la Guarda Islands) (Fraser 1948), Baja California Sur (Bahía Concepción, Dewey Channel, Natividad Island and San Marcos Island (Fraser 1938b; Fraser 1948), Sonora (Ensenada de San Francisco, Guaymas and Rocky Point) (Fraser 1948), Nayarit (Isabel Island) (Fraser 1938a), Jalisco (Navidad Head) (Fraser 1938a), Guerrero (Chololo, Godornia, Morro Tigre, White Friars) (Fraser 1938a; Salcedo-Martínez et al. 1988), and Oaxaca (Chacahua Bay and Tangola-Tangola Bay) (Fraser 1938a; Fraser 1938c; Humara-Gil & Cruz-Gómez 2018). : Published as part of Mendoza-Becerril, María A., Estrada-González, Mariae C., Mazariegos-Villarreal, Alejandra, Restrepo-Avendaño, Luisa, Villar-Beltrán, Rogelio D., Agüero, José & Cunha, Amanda F., 2020, Taxonomy and diversity of Hydrozoa (Cnidaria, Medusozoa) of La Paz Bay, Gulf of California, pp. 1-37 in Zootaxa 4808 (1) on pages 20-21, DOI: 10.11646/zootaxa.4808.1.1, http://zenodo.org/record/3927861 : {"references": ["Sars, M. (1850) Beretning om en i Sommeren 1849 foretagen zoologisk Reise i Lofoten og Finmarken. Nyt Magazin for Naturvidenskaberne, 6, 121 - 211.", "Agassiz, L. (1862) Contributions to the natural history of the United States of America. Vol. IV. Little, Brown, Boston, 380 pp.", "Fraser, C. M. (1938 a) Hydroids of the 1934 Allan Hancock Pacific Expedition. Allan Hancock Pacific Expeditions, 4, 1 - 105, pls. 1 - 15.", "Fraser, C. M. (1948) Hydroids of the Allan Hancock Pacific Expeditions since March, 1938. Allan Hancock Pacific Expeditions, 4, 179 - 343, pls. 22 - 42.", "Calkins, G. N. (1899) Some hydroids from Puget Sound. Proceedings of the Boston Society of Natural History, 28, 333 - 367.", "Fraser, C. M. (1938 b) Hydroids of the 1936 and 1937 Allan Hancock Pacific Expeditions. Allan Hancock Pacific Expeditions, 4, 107 - 127, pls. 16 - 18.", "Fraser, C. M. (1938 c) Hydroids of the 1932, 1933, 1935, and 1938 Allan Hancock Pacific Expeditions. Allan Hancock Pacific Expeditions, 4, 129 - 153, pls. 19 - 21.", "Salcedo-Martinez, S., Green, G., Gambo-Contreras, A. & Gomez, P. (1988) Inventario de macroalgas y macroinvertebrados benticos de areas rocosas de la region de Zihuatanejo, Guerrero, Mexico. Anales de Instituto de Ciencias del Mar y Limnologia, 15 (1), 73 - 95.", "Bastida-Zavala, J. R., Garcia-Madrigal, M. del S., Rosas-Alquicira, E. F., Lopez-Perez, R. A., Benitez-Villalobos, F., Meraz-Her- nando, J. F., Torres-Huerta, A. M., Montoya-Marquez, A. & Barrientos-Lujan, N. A. (2013) Marine and coastal biodiversity of Oaxaca, Mexico. Check List, 9, 329 - 390. https: // doi. org / 10.15560 / 9.2.329", "Humara-Gil, K. J. & Cruz-Gomez, C. (2018) New records of benthic hydroids (Cnidaria: Hydrozoa) from the coast of Oaxaca, Mexico. Zootaxa, 4455 (3), 454 - 470. https: // doi. org / 10.11646 / zootaxa. 4455.3.3", "Calder, D. R. (1991 a) Shallow-Water Hydroids of Bermuda: the thecatae, Exclusive of Plumularioidea. Life Science Contributions Royal Ontario Museum, 154, 1 - 140.", "Schuchert, P. (2001) Hydroids of Greenland and Iceland (Cnidaria, Hydrozoa). Meddelelser om GrOnland, Bioscience, 53, 1 - 184.", "Cornelius, P. F. S. (1995) North-west European thecate hydroids and their medusae. Part 2. Sertulariidae to Campanulariidae. Synopses of the British Fauna, New Series, 50, 1 - 386.", "Cunha, A. F., Collins, A. G. & Marques, A. C. (2020) When morphometry meets taxonomy: morphological variation and species boundaries in Proboscoida (Cnidaria: Hydrozoa). Zoological Journal of the Linnean Society, zlz 166. [published online] https: // doi. org / 10.1093 / zoolinnean / zlz 166", "Lindner, A., Govindarajan, A. F. & Migotto, A. E. (2011) Cryptic species, life cycles, and the phylogeny of Clytia (Cnidaria: Hydrozoa: Campanulariidae). Zootaxa, 2980 (1), 23 - 36. https: // doi. org / 10.11646 / zootaxa. 2980.1.2", "Zhou, K., Zheng, L., He, J., Lin, Y., Cao, W. & Zhang, W. (2013) Detection of a new Clytia species (Cnidaria: Hydrozoa: Campanulariidae) with DNA barcoding and life cycle analyses. Journal of the Marine Biological Association of the United Kingdom, 93, 2075 - 2088. https: // doi. org / 10.1017 / S 0025315413000969", "He, J., Zheng, L., Zhang, W., Lin, Y. & Cao, W. (2015) Morphology and molecular analyses of a new Clytia species (Cnidaria: Hydrozoa: Campanulariidae) from the East China Sea. Journal of the Marine Biological Association of the United Kingdom, 95, 289 - 300. https: // doi. org / 10.1017 / S 0025315414000836", "Cunha, A. F., Collins, A. G. & Marques, A. C. (2017) Phylogenetic relationships of Proboscoida Broch, 1910 (Cnidaria, Hydrozoa): Are traditional morphological diagnostic characters relevant for the delimitation of lineages at the species, genus, and family levels? Molecular Phylogenetics and Evolution, 106, 118 - 135. https: // doi. org / 10.1016 / j. ympev. 2016.09.012", "Schuchert, P. (2003) Hydroids (Cnidaria, Hydrozoa) of the Danish expedition to the Kei Islands. Steenstrupia, 27, 137 - 256."]}
format Text
author Mendoza-Becerril, María A.
Estrada-González, Mariae C.
Mazariegos-Villarreal, Alejandra
Restrepo-Avendaño, Luisa
Villar-Beltrán, Rogelio D.
Agüero, José
Cunha, Amanda F.
author_facet Mendoza-Becerril, María A.
Estrada-González, Mariae C.
Mazariegos-Villarreal, Alejandra
Restrepo-Avendaño, Luisa
Villar-Beltrán, Rogelio D.
Agüero, José
Cunha, Amanda F.
author_sort Mendoza-Becerril, María A.
title Clytia gracilis
title_short Clytia gracilis
title_full Clytia gracilis
title_fullStr Clytia gracilis
title_full_unstemmed Clytia gracilis
title_sort clytia gracilis
publisher Zenodo
publishDate 2020
url https://dx.doi.org/10.5281/zenodo.6301351
https://zenodo.org/record/6301351
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geographic Baja
Lofoten
Greenland
Pacific
Norway
Tigre
Martínez
Marcos
Lopez
Dewey
Perez
Gomez
Morro
Partida
Gronland
Estrada
Luisa
Contreras
Navidad
Barrientos
Rocky Point
Agüero
Sur Bahía
geographic_facet Baja
Lofoten
Greenland
Pacific
Norway
Tigre
Martínez
Marcos
Lopez
Dewey
Perez
Gomez
Morro
Partida
Gronland
Estrada
Luisa
Contreras
Navidad
Barrientos
Rocky Point
Agüero
Sur Bahía
genre Greenland
Iceland
Lofoten
genre_facet Greenland
Iceland
Lofoten
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spelling ftdatacite:10.5281/zenodo.6301351 2023-05-15T16:30:51+02:00 Clytia gracilis Mendoza-Becerril, María A. Estrada-González, Mariae C. Mazariegos-Villarreal, Alejandra Restrepo-Avendaño, Luisa Villar-Beltrán, Rogelio D. Agüero, José Cunha, Amanda F. 2020 https://dx.doi.org/10.5281/zenodo.6301351 https://zenodo.org/record/6301351 unknown Zenodo http://zenodo.org/record/3927861 http://publication.plazi.org/id/E6637853FFF16D7028743C3680055317 http://treatment.plazi.org/id/2A3D2545BF0FFFC18CDF099237B6FEC3 http://zoobank.org/64E656F6-FBD7-4BA2-B399-B10A97CBEF72 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4808.1.1 http://zenodo.org/record/3927861 http://publication.plazi.org/id/E6637853FFF16D7028743C3680055317 https://dx.doi.org/10.5281/zenodo.3927875 https://dx.doi.org/10.5281/zenodo.5951429 http://treatment.plazi.org/id/2A3D2545BF0FFFC18CDF099237B6FEC3 http://zoobank.org/64E656F6-FBD7-4BA2-B399-B10A97CBEF72 https://dx.doi.org/10.5281/zenodo.6301350 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 Cnidaria Hydrozoa Leptothecata Campanulariidae Clytia Clytia gracilis article-journal ScholarlyArticle Taxonomic treatment Text 2020 ftdatacite https://doi.org/10.5281/zenodo.6301351 https://doi.org/10.11646/zootaxa.4808.1.1 https://doi.org/10.5281/zenodo.3927875 https://doi.org/10.5281/zenodo.5951429 https://doi.org/10.5281/zenodo.6301350 2022-04-01T12:52:41Z Clytia cf. gracilis (M. Sars, 1850) Figs. 7 H–K Laomedea gracilis M. Sars 1850: 138. Clytia cylindrica L. Agassiz 1862: 306, figs. 41–44.— Fraser 1938a: 30; Fraser 1948: 206. Campanularia attenuata Calkins 1899: 350, pl. 2, figs. 9, 9a, 9b, 9c, pl. 6, fig. 9d. Gonothyraea gracilis .— Fraser 1938a: 35; Fraser 1938b: 109; Fraser 1938c: 132; Fraser 1948: 212. Clytia attenuata .— Salcedo-Martínez et al . 1988: 13. Clytia gracilis .— Bastida-Zavala et al. 2013: 344.— Humara-Gil & Cruz-Gómez 2018: 458, fig. 4. Type locality. Norway: Lofoten (Calder 1991a; Schuchert 2001). Material examined. Polyp—PB7_28, sampling site 1 (1), immature, 27°C, on algae and ascidian. Description. Colonies stolonal. Polyps up to 2 mm high arising from creeping hydrorhiza at irregular intervals. Pedicels usually long (1082.1 μm), with 8–10 annulations at the base and 2–3 annulations below the hydrotheca, smooth in the middle. Hydrotheca cylindrical, 446.9 μm long, 232.3 μm wide at the margin, 98.4 μm wide at the diaphragm, with thin perisarc. Margin with 8–10 acute triangular cusps, slightly tilted. Hydrothecal diaphragm thin, transverse. More detailed description in Calder (1991a), Cornelius (1995), and Schuchert (2001). Taxonomic status. Accepted. AphiaID 117367. Remarks. Clytia gracilis (M. Sars, 1850) has a complicated taxonomic history, resulting from the few morphological characters available for diagnosis, and wide intraspecific variation (Cornelius 1995; Cunha et al. 2020). The polyp of the species is traditionally distinguished by its hydrotheca with pointed cusps and smooth gonotheca, in contrast with the rounded cusps and spirally grooved gonotheca usually distinctive of C. hemisphaerica (Linnaeus 1767) (see Calder 1991a; Cornelius 1995). However, recent molecular and life cycle studies have shown that some of the characters attributed to C. gracilis may be distinctive of different lineages, contributing to the validation of former synonyms and the description of new species (Lindner et al. 2011; Zhou et al. 2013; He et al. 2015). Nonetheless, the traditional concept of C. gracilis is still known to comprise multiple cryptic lineages (Cunha et al. 2017), and the delimitation of the typical species is still unclear. As a result, this is a tentative identification, pending more detailed studies with molecular and life cycle data. We followed Calder (1991a) and Schuchert (2019) and considered the records of C. cylindrica from Fraser (1938a, 1948) as C. gracilis (M. Sars, 1850). Our specimens are also very similar to specimens of C. cf. gracilis recently described by Humara-Gil & Cruz-Gómez (2018) from the coast of Oaxaca, especially regarding the size of the hydrotheca and morphology of the cusps. As noticed by Humara-Gil & Cruz-Gómez (2018), specimens of C. cf. gracilis from the Pacific coast of Mexico have smaller hydrotheca than specimens described by Calder (1991a) and Schuchert (2001, 2003). Similarly, the hydrothecal cusps of our specimens are not as tilted as the ones described by Cornelius (1995) and Schuchert (2001, 2003). Nevertheless, these characters usually present wide intraspecific variation and may not be informative for the delimitation of the different lineages of C. gracilis (see Cunha et al. 2020). Distribution. In its traditional concept, C. gracilis is considered nearly cosmopolitan (Cornelius 1995; Schuchert 2001), but this assumption must be revisited considering that it is a species complex (see Cunha et al. 2017). In the Pacific coast of Mexico, it has been reported in Baja California (Isla Partida and Angel de la Guarda Islands) (Fraser 1948), Baja California Sur (Bahía Concepción, Dewey Channel, Natividad Island and San Marcos Island (Fraser 1938b; Fraser 1948), Sonora (Ensenada de San Francisco, Guaymas and Rocky Point) (Fraser 1948), Nayarit (Isabel Island) (Fraser 1938a), Jalisco (Navidad Head) (Fraser 1938a), Guerrero (Chololo, Godornia, Morro Tigre, White Friars) (Fraser 1938a; Salcedo-Martínez et al. 1988), and Oaxaca (Chacahua Bay and Tangola-Tangola Bay) (Fraser 1938a; Fraser 1938c; Humara-Gil & Cruz-Gómez 2018). : Published as part of Mendoza-Becerril, María A., Estrada-González, Mariae C., Mazariegos-Villarreal, Alejandra, Restrepo-Avendaño, Luisa, Villar-Beltrán, Rogelio D., Agüero, José & Cunha, Amanda F., 2020, Taxonomy and diversity of Hydrozoa (Cnidaria, Medusozoa) of La Paz Bay, Gulf of California, pp. 1-37 in Zootaxa 4808 (1) on pages 20-21, DOI: 10.11646/zootaxa.4808.1.1, http://zenodo.org/record/3927861 : {"references": ["Sars, M. (1850) Beretning om en i Sommeren 1849 foretagen zoologisk Reise i Lofoten og Finmarken. Nyt Magazin for Naturvidenskaberne, 6, 121 - 211.", "Agassiz, L. (1862) Contributions to the natural history of the United States of America. Vol. IV. Little, Brown, Boston, 380 pp.", "Fraser, C. M. (1938 a) Hydroids of the 1934 Allan Hancock Pacific Expedition. Allan Hancock Pacific Expeditions, 4, 1 - 105, pls. 1 - 15.", "Fraser, C. M. (1948) Hydroids of the Allan Hancock Pacific Expeditions since March, 1938. Allan Hancock Pacific Expeditions, 4, 179 - 343, pls. 22 - 42.", "Calkins, G. N. (1899) Some hydroids from Puget Sound. Proceedings of the Boston Society of Natural History, 28, 333 - 367.", "Fraser, C. M. (1938 b) Hydroids of the 1936 and 1937 Allan Hancock Pacific Expeditions. Allan Hancock Pacific Expeditions, 4, 107 - 127, pls. 16 - 18.", "Fraser, C. M. (1938 c) Hydroids of the 1932, 1933, 1935, and 1938 Allan Hancock Pacific Expeditions. Allan Hancock Pacific Expeditions, 4, 129 - 153, pls. 19 - 21.", "Salcedo-Martinez, S., Green, G., Gambo-Contreras, A. & Gomez, P. (1988) Inventario de macroalgas y macroinvertebrados benticos de areas rocosas de la region de Zihuatanejo, Guerrero, Mexico. Anales de Instituto de Ciencias del Mar y Limnologia, 15 (1), 73 - 95.", "Bastida-Zavala, J. R., Garcia-Madrigal, M. del S., Rosas-Alquicira, E. F., Lopez-Perez, R. A., Benitez-Villalobos, F., Meraz-Her- nando, J. F., Torres-Huerta, A. M., Montoya-Marquez, A. & Barrientos-Lujan, N. A. (2013) Marine and coastal biodiversity of Oaxaca, Mexico. Check List, 9, 329 - 390. https: // doi. org / 10.15560 / 9.2.329", "Humara-Gil, K. J. & Cruz-Gomez, C. (2018) New records of benthic hydroids (Cnidaria: Hydrozoa) from the coast of Oaxaca, Mexico. Zootaxa, 4455 (3), 454 - 470. https: // doi. org / 10.11646 / zootaxa. 4455.3.3", "Calder, D. R. (1991 a) Shallow-Water Hydroids of Bermuda: the thecatae, Exclusive of Plumularioidea. Life Science Contributions Royal Ontario Museum, 154, 1 - 140.", "Schuchert, P. (2001) Hydroids of Greenland and Iceland (Cnidaria, Hydrozoa). Meddelelser om GrOnland, Bioscience, 53, 1 - 184.", "Cornelius, P. F. S. (1995) North-west European thecate hydroids and their medusae. Part 2. Sertulariidae to Campanulariidae. Synopses of the British Fauna, New Series, 50, 1 - 386.", "Cunha, A. F., Collins, A. G. & Marques, A. C. (2020) When morphometry meets taxonomy: morphological variation and species boundaries in Proboscoida (Cnidaria: Hydrozoa). Zoological Journal of the Linnean Society, zlz 166. [published online] https: // doi. org / 10.1093 / zoolinnean / zlz 166", "Lindner, A., Govindarajan, A. F. & Migotto, A. E. (2011) Cryptic species, life cycles, and the phylogeny of Clytia (Cnidaria: Hydrozoa: Campanulariidae). Zootaxa, 2980 (1), 23 - 36. https: // doi. org / 10.11646 / zootaxa. 2980.1.2", "Zhou, K., Zheng, L., He, J., Lin, Y., Cao, W. & Zhang, W. 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(2003) Hydroids (Cnidaria, Hydrozoa) of the Danish expedition to the Kei Islands. Steenstrupia, 27, 137 - 256."]} Text Greenland Iceland Lofoten DataCite Metadata Store (German National Library of Science and Technology) Baja Lofoten Greenland Pacific Norway Tigre ENVELOPE(-67.700,-67.700,-67.183,-67.183) Martínez ENVELOPE(-62.183,-62.183,-64.650,-64.650) Marcos ENVELOPE(-61.833,-61.833,-64.500,-64.500) Lopez ENVELOPE(-63.567,-63.567,-64.850,-64.850) Dewey ENVELOPE(-64.320,-64.320,-65.907,-65.907) Perez ENVELOPE(-69.117,-69.117,-68.517,-68.517) Gomez ENVELOPE(-58.795,-58.795,-62.196,-62.196) Morro ENVELOPE(-57.500,-57.500,-63.833,-63.833) Partida ENVELOPE(-61.216,-61.216,-62.589,-62.589) Gronland ENVELOPE(70.203,70.203,-49.626,-49.626) Estrada ENVELOPE(-61.100,-61.100,-66.000,-66.000) Luisa ENVELOPE(-62.376,-62.376,-64.605,-64.605) Contreras ENVELOPE(-63.050,-63.050,-64.883,-64.883) Navidad ENVELOPE(-62.100,-62.100,-64.583,-64.583) Barrientos ENVELOPE(-59.733,-59.733,-62.400,-62.400) Rocky Point ENVELOPE(-36.700,-36.700,-54.183,-54.183) Agüero ENVELOPE(-60.683,-60.683,-62.533,-62.533) Sur Bahía ENVELOPE(-60.400,-60.400,-62.667,-62.667)

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