Radicipes Stearns 1883

Genus Radicipes Stearns, 1883 Radicipes StearnS, 1883: 97.— KinoShita, 1913: 5.— JungerSen, 1915: 1183.— Kükenthal, 1919: 540 (in part: not R. squamiferus ).— Verrill, 1922: 41.— Kükenthal, 1924: 410.— Deichmann, 1936: 236. — MadSen, 1944: 44.— Bayer, 1956: F216, text-fig. 3.— Bayer & Muzik, 197...

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Main Author: Perez, Carlos D.
Format: Text
Language:unknown
Published: Zenodo 2017
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Online Access:https://dx.doi.org/10.5281/zenodo.3511328
https://zenodo.org/record/3511328
id ftdatacite:10.5281/zenodo.3511328
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
Anthozoa
Alcyonacea
Chrysogorgiidae
Radicipes
spellingShingle Biodiversity
Taxonomy
Animalia
Cnidaria
Anthozoa
Alcyonacea
Chrysogorgiidae
Radicipes
Perez, Carlos D.
Radicipes Stearns 1883
topic_facet Biodiversity
Taxonomy
Animalia
Cnidaria
Anthozoa
Alcyonacea
Chrysogorgiidae
Radicipes
description Genus Radicipes Stearns, 1883 Radicipes StearnS, 1883: 97.— KinoShita, 1913: 5.— JungerSen, 1915: 1183.— Kükenthal, 1919: 540 (in part: not R. squamiferus ).— Verrill, 1922: 41.— Kükenthal, 1924: 410.— Deichmann, 1936: 236. — MadSen, 1944: 44.— Bayer, 1956: F216, text-fig. 3.— Bayer & Muzik, 1976: 68 (key to genuS).— Bayer & Stefani, 1988: 258 (key to genuS).—WilliamS, 1992: 252. — Pante & France, 2010: 600 (key to genuS, molecular phylogeny).— Cordeiro et al. , 2015: 94. Lepidogorgia Verrill, 1884: 220 (type SpecieS: L. gracilis Verrill, 1884, by monotypy); 1885: 512.—VerSluyS. 1902: 5.— ThomSon & HenderSon, 1906: 26 –27 (tabular key to SpecieS).— Nutting, 1908: 587 –588 (in part: not L. gibbosa ).— ThomSon, 1927: 20. Strophogorgia Wright, 1885: 691 ( nom. nud .). Strophogorgia Studer, 1887: 41 ( nom. nud. ). Strophogorgia Wright & Studer, 1889: 2 (type SpecieS: Strophogorgia challengeri Wright & Studer, 1889, SubSequent deSignation). Type species. Radicipes pleurocristatus Stearns, 1883, by monotypy. Diagnosis. Unbranched (flagelliform) chrysogorgiids, brittle, sometimes elongate (up to 1 m long), and often loosely coiled, arising from a root-like calcareous holdfast. Polyps arranged uniserially along one side of aXis, delimiting a polypar and an abpolypar face, the former usually facing inner part of colony spiral. Coenenchyme usually quite thin. AXis slightly quadrangular to round in cross-section. Sclerites composed of irregularly shaped scales and rods. Discussion. Three genera were proposed almost simultaneously: Radicipes Stearns (1883), Lepidogorgia Verrill (1884) and Strophogorgia Wright (1885). Kinoshita (1913) was the first author to establish the synonymy among these three genera. The first publication in which the name Strophogorgia appears (Wright, 1885) has no descriptions or specimen designations. Along with the creation of the subfamily Strophogorginae, Studer (1887) provided the first description of Strophogorgia (by monotypy), but did not list any species. Descriptions associated with species were given only subsequently, by Wright & Studer (1889). Thus, Strophogorgia Wright, 1885 and Strophogorgia Studer, 1887 are considered herein as nomen nudum, and the neXt available publication date is Strophogorgia Wright & Studer, 1889. Its type-species is Strophogorgia challengeri Wright & Studer, 1889, in accordance with recommendation 69A of the International Code of Zoological Nomenclature (ICZN, 1999). Among the 15 genera previously assigned to Chrysogorgiidae, only five have unbranched colonies: Radicipes, Helicogorgia Verrill, 1883, Chalcogorgia Bayer, 1949, Distichogorgia Bayer, 1979 and Flagelligorgia Cairns & Cordeiro, 2017. Radicipes can be distinguished as being the only unbranched chrysogorgiid genus to have uniserially arranged polyps, the other three unbranched genera having bi- or multiserially arranged polyps. The monophyly of Radicipes implied by this morphological distinction is reinforced by molecular sequencing of both mitochondrial and nuclear genes (Pante et al. , 2012), its sister group suggested to be Chrysogorgia (Pante & France, 2010; Pante et al. , 2012). The low number of morphological characters, as well as the low number of samples for some species makes the systematics of this genus difficult. Intracolony variation is also a challenge. For instance, in a single colony, the basal coenenchymal sclerites may be quite different from those in the median region. Similarly, some species have the coenenchyme between polyps filled with the same sclerites as those seen in the body wall (Table 1). Sclerite densities in polyps may also vary according to age and position in a colony. Also, size, arrangement and shape of the sclerites from the polyp base can be drastically modified within a specimen, when it is fully developed or seXually mature (Figs. 1 E, 2H-I’). In the same way, mature polyps usually show an enlargement at the base and at the oral portion. The unbranched and usually coiled nature of the Radicipes colony (Figs. 1 A,D) make it similar to other deepwater unbranched Cnidaria, such as some species of octocorals of the genera listed as follows: Ainigmaptilon , Bathygorgia , Callozostron , Calyptrophora , Ellisella , Helicoprimnoa , Lepidisis , Narella , Narelloides , Onogorgia , Ophidiogorgia , Perissogorgia , Viminella and the antipatharian genera Cirripathes and Stichopathes . Thus in situ observations based on photographs must be made with care. Distribution. The genus Radicipes shows a broad distribution, latitudinal and bathymetric (Fig. 3 and Table 1: 241–3580 m), with most of the records (about 80%) for the genus belonging to two species, Radicipes gracilis (Verrill, 1884) and R. pleurocristatus . The least reported species is Radicipes spiralis (Nutting, 1908), recorded only at the occasion of its description. The records incorporated herein were given by Watling et al. (2011) and Pante et al. (2012). Another source of biogeographic information is the “Ocean Biogeographic Information System” (OBIS), which also provides environmental conditions to better understand the requirements for the occurrence of Radicipes populations (see: http://iobis.org/eXplore/#/taXon/502435). As most of the records of the genus given by Watling et al. (2011) were based on eXpedition and collections data (see Watling et al. , 2011: p.70, fig. 2.5), it is likely that their Antarctic record was based on one previously misidentified specimen (USNM 1019007—a clavulariid attached to a Primnoella sp. stem). Indo-Pacific specimens recorded by Pante et al. (2012) and Alderslade et al. (2014) and South African specimens noted by Williams (1992) were identified only to genus level. Buhl-Mortensen et al. (2010: 43, fig. 42) show Radicipes sp. at around 700 m in Norwegian waters. Other records include the mid-Atlantic Ridge (Mortensen et al. , 2008), off Norway (Gonzalez-Mirelis & Buhl-Mortensen, 2015), the Gulf of Vizcaya (France) (Altuna, 2010), and the Gulf of Cádiz (Spain) (Rueda et al. , 2012) (Fig. 3). : Published as part of Perez, Carlos D., 2017, A revision of the genus Radicipes Stearns, 1883 (Anthozoa: Octocorallia: Chrysogorgiidae), pp. 1-26 in Zootaxa 4319 (1) on pages 2-3, DOI: 10.11646/zootaxa.4319.1.1, http://zenodo.org/record/893037 : {"references": ["KinoShita, K. (1913) Studien uber einige ChrySogorgiiden JapanS. Journal of the College of Science, University of Tokyo, 33 (2), 1 - 47.", "JungerSen, H. F. E. (1915) Alcyonaria, Antipatharia og Madreporaria. ConSpectuS Faunae Groenlandicae. Meddelelser Gronland, 23, 1156 - 1212.", "Kukenthal, W. (1919) Gorgonaria. Wissenschaftliche Ergebnisse der Tiefsee-Expedition Valdivia, 13 (2), 1 - 946.", "Verrill, A. E. (1922) Alcyonaria and Actinaria. Report of the Canadian Arctic Expedition, 8 (G), 1 - 164.", "Kukenthal, W. (1924) Gorgonaria. Das Tierreich, 47, 1 - 478.", "Deichmann, E. (1936) The Alcyonaria of the WeStern part of the Atlantic Ocean. Memoirs of the Museum of Comparative Zoology, 53, 253 - 308.", "MadSen, F. J. (1944) Octocorallia. Danish Ingolf-Expedition, 5 (13), 1 - 65.", "Bayer, F. M. (1956) Octocorallia. In: Moore, R. C. (Ed.), Treatise on Invertebrate Paleontology, Part F. Coelenterata. Geological Society of America and UniverSity of KanSaS PreSS, LaWrence, KanSaS, pp. 163 - 231. [F 163 - F 231]", "Bayer, F. M. & Muzik, K. M. (1976) NeW genera and SpecieS of the holaxonian family ChrySogorgiidae (Octocorallia: Gorgonacea). Zoologische Mededelingen, 50 (5), 65 - 90.", "Bayer, F. M. & Stefani, J. (1988) A neW SpecieS of ChrySogorgia (Octocorallia: Gorgonacea) from NeW Caledonia, With deScriptionS of Some other SpecieS from the WeStern Pacific. Proceedings of the Biological Society of Washington, 101 (2), 257 - 279.", "Pante, E. & France, S. C. (2010) Pseudochrysogorgia bellona n. gen., n. Sp.: a neW genuS and SpecieS of chrySogorgiid octocoral (Coelenterata, Anthozoa) from the Coral Sea. Zoosystema, 32 (4), 595 - 612.", "Cordeiro, R. T. S., CaStro, C. B. & Perez, C. D. (2015) Deep-Water octocoralS (Cnidaria: Octocorallia) from Brazil: Family ChrySogorgiidae Verrill, 1883. Zootaxa, 4058 (1), 081 - 100.", "Verrill, A. E. (1884) Notice of the remarkable marine fauna occupying the outer bankS off the Southern coaSt of NeW England, No. 9. Brief contributionS to zoology from the MuSeum of Yale College. No. 55. American Journal of Science, 28 (3), 213 - 220.", "ThomSon, J. A. & HenderSon, W. D. (1906) An account of the AlcyonarianS collected by the Royal Indian Survey Ship InveStigator in the Indian Ocean. Part 1. The Alcyonarians of the Deep Sea. Indian MuSeum, Calcutta, 132 pp.", "Nutting, C. C. (1908) DeScriptionS of the Alcyonaria collected by the U. S. Bureau of FiSherieS Steamer Albatross in the vicinity of the HaWaiian ISlandS in 1902. Proceedings of the United States National Museum, 34, 543 - 601. httpS: // doi. org / 10.5479 / Si. 00963801.34 - 1624.543", "ThomSon, J. A. (1927) AlcyonaireS provenant deS campagneS ScientifiqueS du Prince Albert Ier de Monaco. Resultats des Campagnes Scientifiques Albert I, 73, 1 - 77.", "Wright, E. P. (1885) The Alcyonaria. In: Report on the Scientific Results of H. M. S. Challenger. Narrative, 1 (2), 689 - 693.", "Studer, T. (1887) VeSuch eineS SyStemeS der Alcyonaria. Archiv fur Naturgeschichte, 53 (1), 1 - 74.", "Wright, E. P. & Studer, T. (1889) Report on the Alcyonaria collected by H. M. S. Challenger during the yearS 1873 - 1876. Report on the Scientific Results of H. M. S. Challenger during the years 1873 - 76, Zoology, 31 (64), 1 - 314.", "ICZN (1999) International Code of Zoological Nomenclature (online). The International TruSt for Zoological Nomenclature, The Natural HiStory MuSeum, CromWell Road, London. Available from: http: // WWW. iczn. org / code (acceSSed 4 AuguSt 2017)", "Verrill, A. E. (1883) Report on the Anthozoa, and on Some additional SpecieS dredged by the \" Blake \" in 1877 - 1879, and by the U. S. FiSh CommiSSion Steamer \" Fish Hawk \" in 1880 - 82. Bulletin of the Museum of Comparative Zoology, 11, 1 - 72.", "Bayer, F. M. (1949) Chalcogorgiinae, a neW Subfamily of ChrySogorgiidae (Coelenterata: Alcyonaria), and a deScription of Chalcogorgia pellucida, neW genuS and neW SpecieS, from the StraitS of Florida. Journal of the Washington Academy of Sciences, 39 (7), 237 - 240.", "Bayer, F. M. (1979) Distichogorgia sconsa, a neW genuS and neW SpecieS of chrySogorgiid octocoral (Coelenterata: Anthozoa) from the Blake Plateau off northern Florida. Proceedings of the Biological Society of Washington, 92 (4), 876 - 882.", "Pante, E., France, S., Couloux, A., Cruaud, C., McFadden, C. S., Samadi, S. & Watling, L. (2012) Deep-Sea origin and in-Situ diverSification of chrySogorgiid octocoralS. PLoS ONE, 7 (6), e 38357.", "Watling, L., France, S., Pante, E. & SimpSon, A. (2011) Biology of deep-Water octocoralS. In: LeSSer, M. (Ed.), Advances in Marine Biology. ElSevier Academic preSS, London, pp. 41 - 122.", "Rueda, J. L., Urra, J., GofaS, S., Lopez-Gonzalez, N., Fernandez-SalaS, L. M. & Diaz-del-Rio, V. (2012) NeW recordS of recently deScribed chemoSymbiotic bivalveS for mud volcanoeS Within the European WaterS (Gulf of Cadiz). Mediterranean Marine Science, 13 (2), 262 - 267."]}
format Text
author Perez, Carlos D.
author_facet Perez, Carlos D.
author_sort Perez, Carlos D.
title Radicipes Stearns 1883
title_short Radicipes Stearns 1883
title_full Radicipes Stearns 1883
title_fullStr Radicipes Stearns 1883
title_full_unstemmed Radicipes Stearns 1883
title_sort radicipes stearns 1883
publisher Zenodo
publishDate 2017
url https://dx.doi.org/10.5281/zenodo.3511328
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long_lat ENVELOPE(-58.250,-58.250,-63.917,-63.917)
ENVELOPE(-63.567,-63.567,-64.850,-64.850)
ENVELOPE(-62.233,-62.233,-63.250,-63.250)
ENVELOPE(-69.117,-69.117,-68.517,-68.517)
ENVELOPE(162.817,162.817,-78.317,-78.317)
ENVELOPE(-60.667,-60.667,-63.783,-63.783)
ENVELOPE(-58.417,-58.417,-63.550,-63.550)
ENVELOPE(70.203,70.203,-49.626,-49.626)
ENVELOPE(-66.590,-66.590,-66.803,-66.803)
geographic Arctic
Antarctic
Pacific
Norway
Indian
Mid-Atlantic Ridge
Gonzalez
Lopez
Fernandez
Perez
Stearns
Diaz
Salas
Gronland
Holdfast
geographic_facet Arctic
Antarctic
Pacific
Norway
Indian
Mid-Atlantic Ridge
Gonzalez
Lopez
Fernandez
Perez
Stearns
Diaz
Salas
Gronland
Holdfast
genre Antarc*
Antarctic
Arctic
genre_facet Antarc*
Antarctic
Arctic
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spelling ftdatacite:10.5281/zenodo.3511328 2023-05-15T13:32:16+02:00 Radicipes Stearns 1883 Perez, Carlos D. 2017 https://dx.doi.org/10.5281/zenodo.3511328 https://zenodo.org/record/3511328 unknown Zenodo http://zenodo.org/record/893037 http://publication.plazi.org/id/722F5417FFC6FF979951FFB1FF982974 http://treatment.plazi.org/id/038887EF9C0CFF911F84FF5CB319FE85 http://zoobank.org/Fc97523C-3Fe9-4Bd1-9A3B-174E0969E78A https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.4319.1.1 http://zenodo.org/record/893037 http://publication.plazi.org/id/722F5417FFC6FF979951FFB1FF982974 https://dx.doi.org/10.5281/zenodo.893039 https://dx.doi.org/10.5281/zenodo.893043 https://dx.doi.org/10.5281/zenodo.3500372 http://treatment.plazi.org/id/038887EF9C0CFF911F84FF5CB319FE85 http://zoobank.org/Fc97523C-3Fe9-4Bd1-9A3B-174E0969E78A https://dx.doi.org/10.5281/zenodo.3511329 https://zenodo.org/communities/biosyslit Open Access info:eu-repo/semantics/openAccess Biodiversity Taxonomy Animalia Cnidaria Anthozoa Alcyonacea Chrysogorgiidae Radicipes Taxonomic treatment article-journal Text ScholarlyArticle 2017 ftdatacite https://doi.org/10.5281/zenodo.3511328 https://doi.org/10.11646/zootaxa.4319.1.1 https://doi.org/10.5281/zenodo.893039 https://doi.org/10.5281/zenodo.893043 https://doi.org/10.5281/zenodo.3500372 https://doi.org/10.5281/zenodo.3511329 2022-02-08T12:40:44Z Genus Radicipes Stearns, 1883 Radicipes StearnS, 1883: 97.— KinoShita, 1913: 5.— JungerSen, 1915: 1183.— Kükenthal, 1919: 540 (in part: not R. squamiferus ).— Verrill, 1922: 41.— Kükenthal, 1924: 410.— Deichmann, 1936: 236. — MadSen, 1944: 44.— Bayer, 1956: F216, text-fig. 3.— Bayer & Muzik, 1976: 68 (key to genuS).— Bayer & Stefani, 1988: 258 (key to genuS).—WilliamS, 1992: 252. — Pante & France, 2010: 600 (key to genuS, molecular phylogeny).— Cordeiro et al. , 2015: 94. Lepidogorgia Verrill, 1884: 220 (type SpecieS: L. gracilis Verrill, 1884, by monotypy); 1885: 512.—VerSluyS. 1902: 5.— ThomSon & HenderSon, 1906: 26 –27 (tabular key to SpecieS).— Nutting, 1908: 587 –588 (in part: not L. gibbosa ).— ThomSon, 1927: 20. Strophogorgia Wright, 1885: 691 ( nom. nud .). Strophogorgia Studer, 1887: 41 ( nom. nud. ). Strophogorgia Wright & Studer, 1889: 2 (type SpecieS: Strophogorgia challengeri Wright & Studer, 1889, SubSequent deSignation). Type species. Radicipes pleurocristatus Stearns, 1883, by monotypy. Diagnosis. Unbranched (flagelliform) chrysogorgiids, brittle, sometimes elongate (up to 1 m long), and often loosely coiled, arising from a root-like calcareous holdfast. Polyps arranged uniserially along one side of aXis, delimiting a polypar and an abpolypar face, the former usually facing inner part of colony spiral. Coenenchyme usually quite thin. AXis slightly quadrangular to round in cross-section. Sclerites composed of irregularly shaped scales and rods. Discussion. Three genera were proposed almost simultaneously: Radicipes Stearns (1883), Lepidogorgia Verrill (1884) and Strophogorgia Wright (1885). Kinoshita (1913) was the first author to establish the synonymy among these three genera. The first publication in which the name Strophogorgia appears (Wright, 1885) has no descriptions or specimen designations. Along with the creation of the subfamily Strophogorginae, Studer (1887) provided the first description of Strophogorgia (by monotypy), but did not list any species. Descriptions associated with species were given only subsequently, by Wright & Studer (1889). Thus, Strophogorgia Wright, 1885 and Strophogorgia Studer, 1887 are considered herein as nomen nudum, and the neXt available publication date is Strophogorgia Wright & Studer, 1889. Its type-species is Strophogorgia challengeri Wright & Studer, 1889, in accordance with recommendation 69A of the International Code of Zoological Nomenclature (ICZN, 1999). Among the 15 genera previously assigned to Chrysogorgiidae, only five have unbranched colonies: Radicipes, Helicogorgia Verrill, 1883, Chalcogorgia Bayer, 1949, Distichogorgia Bayer, 1979 and Flagelligorgia Cairns & Cordeiro, 2017. Radicipes can be distinguished as being the only unbranched chrysogorgiid genus to have uniserially arranged polyps, the other three unbranched genera having bi- or multiserially arranged polyps. The monophyly of Radicipes implied by this morphological distinction is reinforced by molecular sequencing of both mitochondrial and nuclear genes (Pante et al. , 2012), its sister group suggested to be Chrysogorgia (Pante & France, 2010; Pante et al. , 2012). The low number of morphological characters, as well as the low number of samples for some species makes the systematics of this genus difficult. Intracolony variation is also a challenge. For instance, in a single colony, the basal coenenchymal sclerites may be quite different from those in the median region. Similarly, some species have the coenenchyme between polyps filled with the same sclerites as those seen in the body wall (Table 1). Sclerite densities in polyps may also vary according to age and position in a colony. Also, size, arrangement and shape of the sclerites from the polyp base can be drastically modified within a specimen, when it is fully developed or seXually mature (Figs. 1 E, 2H-I’). In the same way, mature polyps usually show an enlargement at the base and at the oral portion. The unbranched and usually coiled nature of the Radicipes colony (Figs. 1 A,D) make it similar to other deepwater unbranched Cnidaria, such as some species of octocorals of the genera listed as follows: Ainigmaptilon , Bathygorgia , Callozostron , Calyptrophora , Ellisella , Helicoprimnoa , Lepidisis , Narella , Narelloides , Onogorgia , Ophidiogorgia , Perissogorgia , Viminella and the antipatharian genera Cirripathes and Stichopathes . Thus in situ observations based on photographs must be made with care. Distribution. The genus Radicipes shows a broad distribution, latitudinal and bathymetric (Fig. 3 and Table 1: 241–3580 m), with most of the records (about 80%) for the genus belonging to two species, Radicipes gracilis (Verrill, 1884) and R. pleurocristatus . The least reported species is Radicipes spiralis (Nutting, 1908), recorded only at the occasion of its description. The records incorporated herein were given by Watling et al. (2011) and Pante et al. (2012). Another source of biogeographic information is the “Ocean Biogeographic Information System” (OBIS), which also provides environmental conditions to better understand the requirements for the occurrence of Radicipes populations (see: http://iobis.org/eXplore/#/taXon/502435). As most of the records of the genus given by Watling et al. (2011) were based on eXpedition and collections data (see Watling et al. , 2011: p.70, fig. 2.5), it is likely that their Antarctic record was based on one previously misidentified specimen (USNM 1019007—a clavulariid attached to a Primnoella sp. stem). Indo-Pacific specimens recorded by Pante et al. (2012) and Alderslade et al. (2014) and South African specimens noted by Williams (1992) were identified only to genus level. Buhl-Mortensen et al. (2010: 43, fig. 42) show Radicipes sp. at around 700 m in Norwegian waters. Other records include the mid-Atlantic Ridge (Mortensen et al. , 2008), off Norway (Gonzalez-Mirelis & Buhl-Mortensen, 2015), the Gulf of Vizcaya (France) (Altuna, 2010), and the Gulf of Cádiz (Spain) (Rueda et al. , 2012) (Fig. 3). : Published as part of Perez, Carlos D., 2017, A revision of the genus Radicipes Stearns, 1883 (Anthozoa: Octocorallia: Chrysogorgiidae), pp. 1-26 in Zootaxa 4319 (1) on pages 2-3, DOI: 10.11646/zootaxa.4319.1.1, http://zenodo.org/record/893037 : {"references": ["KinoShita, K. (1913) Studien uber einige ChrySogorgiiden JapanS. Journal of the College of Science, University of Tokyo, 33 (2), 1 - 47.", "JungerSen, H. F. E. (1915) Alcyonaria, Antipatharia og Madreporaria. ConSpectuS Faunae Groenlandicae. Meddelelser Gronland, 23, 1156 - 1212.", "Kukenthal, W. (1919) Gorgonaria. Wissenschaftliche Ergebnisse der Tiefsee-Expedition Valdivia, 13 (2), 1 - 946.", "Verrill, A. E. (1922) Alcyonaria and Actinaria. Report of the Canadian Arctic Expedition, 8 (G), 1 - 164.", "Kukenthal, W. (1924) Gorgonaria. Das Tierreich, 47, 1 - 478.", "Deichmann, E. (1936) The Alcyonaria of the WeStern part of the Atlantic Ocean. Memoirs of the Museum of Comparative Zoology, 53, 253 - 308.", "MadSen, F. J. (1944) Octocorallia. Danish Ingolf-Expedition, 5 (13), 1 - 65.", "Bayer, F. M. (1956) Octocorallia. In: Moore, R. C. (Ed.), Treatise on Invertebrate Paleontology, Part F. Coelenterata. Geological Society of America and UniverSity of KanSaS PreSS, LaWrence, KanSaS, pp. 163 - 231. [F 163 - F 231]", "Bayer, F. M. & Muzik, K. M. (1976) NeW genera and SpecieS of the holaxonian family ChrySogorgiidae (Octocorallia: Gorgonacea). Zoologische Mededelingen, 50 (5), 65 - 90.", "Bayer, F. M. & Stefani, J. (1988) A neW SpecieS of ChrySogorgia (Octocorallia: Gorgonacea) from NeW Caledonia, With deScriptionS of Some other SpecieS from the WeStern Pacific. Proceedings of the Biological Society of Washington, 101 (2), 257 - 279.", "Pante, E. & France, S. C. (2010) Pseudochrysogorgia bellona n. gen., n. Sp.: a neW genuS and SpecieS of chrySogorgiid octocoral (Coelenterata, Anthozoa) from the Coral Sea. Zoosystema, 32 (4), 595 - 612.", "Cordeiro, R. T. S., CaStro, C. B. & Perez, C. D. (2015) Deep-Water octocoralS (Cnidaria: Octocorallia) from Brazil: Family ChrySogorgiidae Verrill, 1883. Zootaxa, 4058 (1), 081 - 100.", "Verrill, A. E. (1884) Notice of the remarkable marine fauna occupying the outer bankS off the Southern coaSt of NeW England, No. 9. Brief contributionS to zoology from the MuSeum of Yale College. No. 55. American Journal of Science, 28 (3), 213 - 220.", "ThomSon, J. A. & HenderSon, W. D. (1906) An account of the AlcyonarianS collected by the Royal Indian Survey Ship InveStigator in the Indian Ocean. Part 1. The Alcyonarians of the Deep Sea. Indian MuSeum, Calcutta, 132 pp.", "Nutting, C. C. (1908) DeScriptionS of the Alcyonaria collected by the U. S. Bureau of FiSherieS Steamer Albatross in the vicinity of the HaWaiian ISlandS in 1902. Proceedings of the United States National Museum, 34, 543 - 601. httpS: // doi. org / 10.5479 / Si. 00963801.34 - 1624.543", "ThomSon, J. A. (1927) AlcyonaireS provenant deS campagneS ScientifiqueS du Prince Albert Ier de Monaco. Resultats des Campagnes Scientifiques Albert I, 73, 1 - 77.", "Wright, E. P. (1885) The Alcyonaria. In: Report on the Scientific Results of H. M. S. Challenger. Narrative, 1 (2), 689 - 693.", "Studer, T. (1887) VeSuch eineS SyStemeS der Alcyonaria. Archiv fur Naturgeschichte, 53 (1), 1 - 74.", "Wright, E. P. & Studer, T. (1889) Report on the Alcyonaria collected by H. M. S. Challenger during the yearS 1873 - 1876. Report on the Scientific Results of H. M. S. Challenger during the years 1873 - 76, Zoology, 31 (64), 1 - 314.", "ICZN (1999) International Code of Zoological Nomenclature (online). The International TruSt for Zoological Nomenclature, The Natural HiStory MuSeum, CromWell Road, London. Available from: http: // WWW. iczn. org / code (acceSSed 4 AuguSt 2017)", "Verrill, A. E. (1883) Report on the Anthozoa, and on Some additional SpecieS dredged by the \" Blake \" in 1877 - 1879, and by the U. S. FiSh CommiSSion Steamer \" Fish Hawk \" in 1880 - 82. Bulletin of the Museum of Comparative Zoology, 11, 1 - 72.", "Bayer, F. M. (1949) Chalcogorgiinae, a neW Subfamily of ChrySogorgiidae (Coelenterata: Alcyonaria), and a deScription of Chalcogorgia pellucida, neW genuS and neW SpecieS, from the StraitS of Florida. Journal of the Washington Academy of Sciences, 39 (7), 237 - 240.", "Bayer, F. M. (1979) Distichogorgia sconsa, a neW genuS and neW SpecieS of chrySogorgiid octocoral (Coelenterata: Anthozoa) from the Blake Plateau off northern Florida. Proceedings of the Biological Society of Washington, 92 (4), 876 - 882.", "Pante, E., France, S., Couloux, A., Cruaud, C., McFadden, C. S., Samadi, S. & Watling, L. (2012) Deep-Sea origin and in-Situ diverSification of chrySogorgiid octocoralS. PLoS ONE, 7 (6), e 38357.", "Watling, L., France, S., Pante, E. & SimpSon, A. (2011) Biology of deep-Water octocoralS. In: LeSSer, M. (Ed.), Advances in Marine Biology. ElSevier Academic preSS, London, pp. 41 - 122.", "Rueda, J. L., Urra, J., GofaS, S., Lopez-Gonzalez, N., Fernandez-SalaS, L. M. & Diaz-del-Rio, V. (2012) NeW recordS of recently deScribed chemoSymbiotic bivalveS for mud volcanoeS Within the European WaterS (Gulf of Cadiz). Mediterranean Marine Science, 13 (2), 262 - 267."]} Text Antarc* Antarctic Arctic DataCite Metadata Store (German National Library of Science and Technology) Arctic Antarctic Pacific Norway Indian Mid-Atlantic Ridge Gonzalez ENVELOPE(-58.250,-58.250,-63.917,-63.917) Lopez ENVELOPE(-63.567,-63.567,-64.850,-64.850) Fernandez ENVELOPE(-62.233,-62.233,-63.250,-63.250) Perez ENVELOPE(-69.117,-69.117,-68.517,-68.517) Stearns ENVELOPE(162.817,162.817,-78.317,-78.317) Diaz ENVELOPE(-60.667,-60.667,-63.783,-63.783) Salas ENVELOPE(-58.417,-58.417,-63.550,-63.550) Gronland ENVELOPE(70.203,70.203,-49.626,-49.626) Holdfast ENVELOPE(-66.590,-66.590,-66.803,-66.803)