Cladarisis nouvianae Watling, 2015, new species

Cladarisis nouvianae new species Figures 1–7 Material examined. Holotype : Collected off Rum Cay, Bahama Islands, 23 ° 38.0756 'N, 74 ° 57.2196 'W, depth 1117 m, 24 March 2009, specimen RUM 107 - 2, YPM IZ 0 70870. Other material : Off Cat Island, Bahama Islands, 24 °08.9927'N, 75 ° 1...

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Main Author:	Watling, Les
Format:	Text
Language:	unknown
Published:	Zenodo 2015
Subjects:	Biodiversity Taxonomy Animalia Cnidaria Anthozoa Alcyonacea Isididae Cladarisis Cladarisis nouvianae Lofoten Pacific Tromsø Christiania Holdfast The Needles Cat Island
Online Access:	https://dx.doi.org/10.5281/zenodo.6105703 https://zenodo.org/record/6105703

id	ftdatacite:10.5281/zenodo.6105703
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 Isididae Cladarisis Cladarisis nouvianae
spellingShingle	Biodiversity Taxonomy Animalia Cnidaria Anthozoa Alcyonacea Isididae Cladarisis Cladarisis nouvianae Watling, Les Cladarisis nouvianae Watling, 2015, new species
topic_facet	Biodiversity Taxonomy Animalia Cnidaria Anthozoa Alcyonacea Isididae Cladarisis Cladarisis nouvianae
description	Cladarisis nouvianae new species Figures 1–7 Material examined. Holotype : Collected off Rum Cay, Bahama Islands, 23 ° 38.0756 'N, 74 ° 57.2196 'W, depth 1117 m, 24 March 2009, specimen RUM 107 - 2, YPM IZ 0 70870. Other material : Off Cat Island, Bahama Islands, 24 °08.9927'N, 75 ° 12.0680 'W, depth 1243 m, 21 March 2009, specimen CAT 207 - 1 (most of the specimen deteriorated during storage, after sclerite examination and genetic analysis; small fragments exist in the lab of S.C. France at the University of Louisiana at Lafayette, USA). Diagnosis . With the characters of the genus. Description of Holotype . The colony is long and slender, sparsely branched, with branches emanating from nodes. The holdfast is very small, not much larger than the diameter of the axis (Fig. 1 A). From the holdfast to the first branch point is about 10 cm, subsequent branches are spaced about 9 to 14 cm apart, with one interbranch distance of 4.5 cm. The two main branches carry two or three subsequent branches, one of which is branched twice more, resulting in two third-order branches that are approximately 18 cm long. Total colony length is about 75 cm (as determined by measurements made on the in situ image in Fig. 1 A). Axial internodes are solid, except for those newly forming at the ends of the branches. The internode hollow center appears to be secondarily calcified (Fig. 2 C). Internodes (Fig. 2 A, B) range in length from 3.5 to 14.9 mm (mean= 9.76 mm, std. dev.= 2.36, n= 49), and in width from 0.33 to 0.93 mm (mean= 0.67 mm, std. dev.= 0.21, n= 12). Nodes are very short, about 1 mm in length and do not seem to be very heavily calcified resulting in a very flexible colony whose branch tips are often curved (e.g., Fig. 1 B, 2 B). Polyps are small, less than 3 mm tall when contracted, and are arranged in two irregular rows along the branches, often in alternate fashion (Fig. 2 A,B). Interpolyp distances in each row range from 5 to 18 mm, but are most frequently about 10 mm. No polyps are present on the distal-most 3 cm of the branches and polyps and tissue appears to be absent along part of the axis from the holdfast to the first branch-point. Because of the relative shortness of the internodes, each internode supports only one or two polyps; occasionally a polyp is located on a node. Polyps are short cylinders, being as wide as tall (Fig. 3 A-D). When contracted the tentacles are not visible and the top of the polyp is covered with a logjam of rod-shaped sclerites (Fig. 3 D). The outside of the polyp is festooned with curved rods that are loosely organized. The longer sclerites originate at the base of the polyp, often extending the width of the skeletal axis, and are oriented diagonally. The shorter sclerites are mostly located higher on the polyp and can be oriented either horizontally or longitudinally. None of the sclerites appear to be aligned directly with the mesenterial insertions on the polyp body wall (Fig. 3 B). All sclerites on the polyp body are robust rods with blunt or rounded tips (Fig. 4). Each is ornamented with small regularly spaced tubercles (Fig. 2 D, E). Most of the rods are curved or have irregular outlines. Only those at the base of the tentacles are more or less straight (Fig. 5 D). Rods are oriented longitudinally along the aboral side of the tentacles, becoming progressively smaller toward the tentacle tip. Flat rods (Fig. 5 C) are common in the pinnules and along the oral surface of the tentacles. Polyp body sclerites range in length from 1.0 to 2.5 mm, the rods along the aboral side of the tentacles are 0.4 to 0.9 mm long, and tentacle flat rods are 0.06 to 0.15 mm (Fig. 6). The pharyngeal sclerites are 0.07 to 0.14 mm in length. The tentacles contract completely into the oral cavity of the polyp (Fig. 3 D, 7 A). The “mouth” is funnelshaped, demarcated from the pharynx by a flat ring (R, Fig 7 A). The pharynx (as determined by the presence of pharyngeal sclerites) continues the structure ventrally, terminating in a hypopharynx (H, Fig 7 A, 7 C) uniting the eight septa. The sclerites of the pharynx region consist of two distinct types, those that are flat rods with tooth-like protuberances (Fig. 5 B) being found at the junction with the oral funnel, while the more typical short and wide toothed rods (Fig. 5 A, 7 D) occupy the lower part of the pharynx. Variation. The only other specimen collected, CAT 207 - 1, was about 30 cm in length and branched twice. The polyps of the latter specimen were examined in detail and differed from those of the holotype only in having slightly smaller sclerites on the polyp body. The largest sclerites were 2.4 mm in length whereas on the larger holotype the largest body sclerites are about 2.5 mm in length (Fig. 6). But the smaller CAT 207 - 1 had a much larger array of smaller rods on the polyp body and the rods in the tentacles were much smaller than on the holotype. Etymology . This species is named in honor of Claire Nouvian, founder of the organization Bloom Association, in recognition of her tireless efforts working to reduce the destruction of deep-sea habitats by bottom trawls. Remarks . Within the Keratoisidinae, the genera Lepidisis , Jasonisis , Acanella , and Isidella were known to branch at the nodes if they branched at all (France 2007, Alderslade and McFadden 2012). Cladarisis branches at the nodes once the colony reaches sufficient size to begin branching. Among this group, the pattern of branching of Cladarisis is most similar to that seen in Isidella (sparse and lateral, not in whorls), and in fact, the specimens collected were provisionally assigned to that genus as samples were sorted on board the ship. The genus Isidella currently comprises the species I. elongata Esper, 1788 (type species), I. lofotensis Sars, 1868, I. trichotoma Bayer, 1990, I. longiflora (Verrill, 1883), and I. tentaculum Etnoyer, 2008. Only the first three are likely to remain in the genus. Isidella longiflora was originally described and placed in the genus Lepidisis by Verrill, but since that genus came to be thought of as unbranched, Grasshoff (1986; Grasshoff and Zibrowius 1983) moved longiflora to Isidella on the basis of dichotomous branching from the nodes. The exact placement of this species remains to be determined since the existing museum material is not in very good condition. Further, Verrill (1883) noted that branches arising at the nodes could arise singly, or two at a time. In a manuscript that was unfortunately not published before his death, Verrill suggested that L. longiflora should be moved to a new genus “ Acanellides ” (this manuscript is in the collection of the Yale Peabody Museum and photocopies of the pages can be obtained from this author). Isidella tentaculum differs from all the others in having sclerites in the form of rods, the mesenterially placed sclerites are rods rather than needles, and the branches, while originating at the nodes form more of a candelabra shape. In addition, the axis internodes are thick and heavy, rather than thin and moderately delicate. Unpublished genetic sequence data suggests that I. tentaculum belongs to a clade different from that in which the other three Isidella species (including the type) reside (Scott C. France, personal communication). Thus, for this discussion, the genus Isidella will be considered to consist only of the first three species noted above. The species Isidella elongata , I. lofotensis , and I. trichotoma have moderately long to very long, thin hollow internodes, polyps armed with sclerites predominantly in the form of needles, with larger needles in groups of 2-3 placed at the mesenterial insertions on the body wall (Bayer 1990) and usually projecting between the tentacle bases. Branching at the nodes has been termed dichotomous (Bayer 1990), but should be lateral according to Alderslade (1998), and sparse. The tentacles, when contracted, fold over the mouth but remain exposed. Isidella lofotensis needs redescription (in preparation); however, colonies recently studied in the collection of the Tromsø Museum are bushy, branching at the nodes in all planes, and the sclerites arranged along the mesenterial insertions are large pointed rods rather than thin needles. A very small colony collected in 1872 at the type locality by G.O. Sars, from the collection of the Copenhagen Museum, has a similar arrangement of polyp body sclerites, but all are needles rather than rods (inviting the supposition that as the colony grows and ages the needles either become thicker or are replaced). Both colonies have solid internodes. The tentacles contract but stay exposed. The genus Cladarisis resembles these three species of Isidella in the form of the colony, the long and thin branches, branching sparse and lateral, and with branches originating at the nodes. Cladarisis differs, however, in several ways. The internodes are generally shorter (mean length, 9 mm). Measurements made on photos of specimens of I. elongata and pieces of a specimen of I. lofotensis , show that internode length in those two species range from 13 to 17 mm and 9 to 15 mm, respectively. Internode lengths in I. trichotoma reach 85 mm (Bayer 1990). The polyp body of Cladarisis possesses sclerites that are exclusively rods, and the sclerites are organized haphazardly such that none are aligned with the mesenteries. Indeed, the rods are arranged almost randomly along the outside of the polyp, with some on the distal part of the polyp oblique to horizontal, and with longitudinally oriented smaller rods only along the aboral surface of the tentacles. The pharyngeal sclerites of Cladarisis also differ significantly from those of I. trichotoma (details for the other two species are missing). In the latter, the sclerites are elongate, slightly toothed rods, verging on being flat rods, whereas in Cladarisis one group of pharyngeal sclerites are short, wide, and thick, with protuberances on all sides. : Published as part of Watling, Les, 2015, A new genus of bamboo coral (Octocorallia: Isididae) from the Bahamas, pp. 239-249 in Zootaxa 3918 (2) on pages 240-244, DOI: 10.11646/zootaxa.3918.2.5, http://zenodo.org/record/238077 : {"references": ["France, S. C. (2007) Genetic analysis of bamboo corals (Cnidaria: Octocorallia: Isididae): does lack of colony branching distinguish Lepidisis from Keratoisis? Bulletin of Marine Science, 81, 323 - 333.", "Alderslade, P. & McFadden, C. S. (2012) A new genus and species of the family Isididae (Coelenterata: Octocorallia) from a CMAR Biodiversity study, and a discussion on the subfamilial placement of some nominal isidid genera. Zootaxa, 3154, 21 - 39.", "Esper, E. J. C. (1788) Die Pflanzenthiere in Abbildung nach der Natur mit Farben erleuchtet nebst Beschreibungen. Lieferung, 1, 1 - 96.", "Sars, M. (1868) Om nogle Echinodermer og Coelenterater fra Lofoten. Oversigt over det Kongelige Videnskabernes Selskabs Forhandlinger, Christiania, pp. 1 - 7. [1867]", "Bayer, F. M. (1990) A new isidid octocoral (Anthozoa: Gorgonacea) from New Caledonia, with descriptions of other new species from elsewhere in the Pacific Ocean. Proceedings of the Biological Society of Washington, 103 (1), 205 - 228.", "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 at Harvard College, 11, 1 - 72.", "Etnoyer, P. J. (2008) A new species of Isidella bamboo coral (Octocorallia: Alcyonacea: Isididae) from northeast Pacific seamounts. Proceedings of the Biological Society of Washington, 121, 541 - 553. http: // dx. doi. org / 10.2988 / 08 - 16.1", "Grasshoff, M. (1986) Die Gorgonaria der Expedition von \" Travailleur \" 1880 - 1882 und \" Talisman \" 1883 (Cnidaria, Anthozoa). Bulletin Museum National d'Histoire Naturelle 4 th, series 8, 9 - 38.", "Grasshoff, M. & Zibrowius, H. (1983) Kalkkrusten auf Achsen von Hornkorallen, resent und fossil (Cnidaria, Anthozoa, Gorgonaria). Senkenbergiana maritime, 15, 111 - 145.", "Alderslade, P. (1998) Revisionary systematics in the gorgonian family Isididae, with descriptions of numerous new taxa (Coelenterata: Octocorallia). Records of the Western Australian Museum, Supplement 55, 1 - 359."]}
format	Text
author	Watling, Les
author_facet	Watling, Les
author_sort	Watling, Les
title	Cladarisis nouvianae Watling, 2015, new species
title_short	Cladarisis nouvianae Watling, 2015, new species
title_full	Cladarisis nouvianae Watling, 2015, new species
title_fullStr	Cladarisis nouvianae Watling, 2015, new species
title_full_unstemmed	Cladarisis nouvianae Watling, 2015, new species
title_sort	cladarisis nouvianae watling, 2015, new species
publisher	Zenodo
publishDate	2015
url	https://dx.doi.org/10.5281/zenodo.6105703 https://zenodo.org/record/6105703
long_lat	ENVELOPE(-61.458,-61.458,-63.974,-63.974) ENVELOPE(-66.590,-66.590,-66.803,-66.803) ENVELOPE(-70.967,-70.967,-68.950,-68.950) ENVELOPE(70.092,70.092,-49.471,-49.471)
geographic	Lofoten Pacific Tromsø Christiania Holdfast The Needles Cat Island
geographic_facet	Lofoten Pacific Tromsø Christiania Holdfast The Needles Cat Island
genre	Lofoten Tromsø
genre_facet	Lofoten Tromsø
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spelling	ftdatacite:10.5281/zenodo.6105703 2023-05-15T17:08:20+02:00 Cladarisis nouvianae Watling, 2015, new species Watling, Les 2015 https://dx.doi.org/10.5281/zenodo.6105703 https://zenodo.org/record/6105703 unknown Zenodo http://zenodo.org/record/238077 http://publication.plazi.org/id/EE62D2435757A5603553FFB4AE432D68 http://zoobank.org/62DBC231-6F24-4A18-A88B-05612C55AC88 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.11646/zootaxa.3918.2.5 http://zenodo.org/record/238077 http://publication.plazi.org/id/EE62D2435757A5603553FFB4AE432D68 https://dx.doi.org/10.5281/zenodo.238078 https://dx.doi.org/10.5281/zenodo.238079 https://dx.doi.org/10.5281/zenodo.238080 https://dx.doi.org/10.5281/zenodo.238081 https://dx.doi.org/10.5281/zenodo.238082 https://dx.doi.org/10.5281/zenodo.238083 https://dx.doi.org/10.5281/zenodo.238084 http://zoobank.org/62DBC231-6F24-4A18-A88B-05612C55AC88 https://dx.doi.org/10.5281/zenodo.6105704 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 Anthozoa Alcyonacea Isididae Cladarisis Cladarisis nouvianae article-journal ScholarlyArticle Taxonomic treatment Text 2015 ftdatacite https://doi.org/10.5281/zenodo.6105703 https://doi.org/10.11646/zootaxa.3918.2.5 https://doi.org/10.5281/zenodo.238078 https://doi.org/10.5281/zenodo.238079 https://doi.org/10.5281/zenodo.238080 https://doi.org/10.5281/zenodo.238081 https://do 2022-04-01T10:40:26Z Cladarisis nouvianae new species Figures 1–7 Material examined. Holotype : Collected off Rum Cay, Bahama Islands, 23 ° 38.0756 'N, 74 ° 57.2196 'W, depth 1117 m, 24 March 2009, specimen RUM 107 - 2, YPM IZ 0 70870. Other material : Off Cat Island, Bahama Islands, 24 °08.9927'N, 75 ° 12.0680 'W, depth 1243 m, 21 March 2009, specimen CAT 207 - 1 (most of the specimen deteriorated during storage, after sclerite examination and genetic analysis; small fragments exist in the lab of S.C. France at the University of Louisiana at Lafayette, USA). Diagnosis . With the characters of the genus. Description of Holotype . The colony is long and slender, sparsely branched, with branches emanating from nodes. The holdfast is very small, not much larger than the diameter of the axis (Fig. 1 A). From the holdfast to the first branch point is about 10 cm, subsequent branches are spaced about 9 to 14 cm apart, with one interbranch distance of 4.5 cm. The two main branches carry two or three subsequent branches, one of which is branched twice more, resulting in two third-order branches that are approximately 18 cm long. Total colony length is about 75 cm (as determined by measurements made on the in situ image in Fig. 1 A). Axial internodes are solid, except for those newly forming at the ends of the branches. The internode hollow center appears to be secondarily calcified (Fig. 2 C). Internodes (Fig. 2 A, B) range in length from 3.5 to 14.9 mm (mean= 9.76 mm, std. dev.= 2.36, n= 49), and in width from 0.33 to 0.93 mm (mean= 0.67 mm, std. dev.= 0.21, n= 12). Nodes are very short, about 1 mm in length and do not seem to be very heavily calcified resulting in a very flexible colony whose branch tips are often curved (e.g., Fig. 1 B, 2 B). Polyps are small, less than 3 mm tall when contracted, and are arranged in two irregular rows along the branches, often in alternate fashion (Fig. 2 A,B). Interpolyp distances in each row range from 5 to 18 mm, but are most frequently about 10 mm. No polyps are present on the distal-most 3 cm of the branches and polyps and tissue appears to be absent along part of the axis from the holdfast to the first branch-point. Because of the relative shortness of the internodes, each internode supports only one or two polyps; occasionally a polyp is located on a node. Polyps are short cylinders, being as wide as tall (Fig. 3 A-D). When contracted the tentacles are not visible and the top of the polyp is covered with a logjam of rod-shaped sclerites (Fig. 3 D). The outside of the polyp is festooned with curved rods that are loosely organized. The longer sclerites originate at the base of the polyp, often extending the width of the skeletal axis, and are oriented diagonally. The shorter sclerites are mostly located higher on the polyp and can be oriented either horizontally or longitudinally. None of the sclerites appear to be aligned directly with the mesenterial insertions on the polyp body wall (Fig. 3 B). All sclerites on the polyp body are robust rods with blunt or rounded tips (Fig. 4). Each is ornamented with small regularly spaced tubercles (Fig. 2 D, E). Most of the rods are curved or have irregular outlines. Only those at the base of the tentacles are more or less straight (Fig. 5 D). Rods are oriented longitudinally along the aboral side of the tentacles, becoming progressively smaller toward the tentacle tip. Flat rods (Fig. 5 C) are common in the pinnules and along the oral surface of the tentacles. Polyp body sclerites range in length from 1.0 to 2.5 mm, the rods along the aboral side of the tentacles are 0.4 to 0.9 mm long, and tentacle flat rods are 0.06 to 0.15 mm (Fig. 6). The pharyngeal sclerites are 0.07 to 0.14 mm in length. The tentacles contract completely into the oral cavity of the polyp (Fig. 3 D, 7 A). The “mouth” is funnelshaped, demarcated from the pharynx by a flat ring (R, Fig 7 A). The pharynx (as determined by the presence of pharyngeal sclerites) continues the structure ventrally, terminating in a hypopharynx (H, Fig 7 A, 7 C) uniting the eight septa. The sclerites of the pharynx region consist of two distinct types, those that are flat rods with tooth-like protuberances (Fig. 5 B) being found at the junction with the oral funnel, while the more typical short and wide toothed rods (Fig. 5 A, 7 D) occupy the lower part of the pharynx. Variation. The only other specimen collected, CAT 207 - 1, was about 30 cm in length and branched twice. The polyps of the latter specimen were examined in detail and differed from those of the holotype only in having slightly smaller sclerites on the polyp body. The largest sclerites were 2.4 mm in length whereas on the larger holotype the largest body sclerites are about 2.5 mm in length (Fig. 6). But the smaller CAT 207 - 1 had a much larger array of smaller rods on the polyp body and the rods in the tentacles were much smaller than on the holotype. Etymology . This species is named in honor of Claire Nouvian, founder of the organization Bloom Association, in recognition of her tireless efforts working to reduce the destruction of deep-sea habitats by bottom trawls. Remarks . Within the Keratoisidinae, the genera Lepidisis , Jasonisis , Acanella , and Isidella were known to branch at the nodes if they branched at all (France 2007, Alderslade and McFadden 2012). Cladarisis branches at the nodes once the colony reaches sufficient size to begin branching. Among this group, the pattern of branching of Cladarisis is most similar to that seen in Isidella (sparse and lateral, not in whorls), and in fact, the specimens collected were provisionally assigned to that genus as samples were sorted on board the ship. The genus Isidella currently comprises the species I. elongata Esper, 1788 (type species), I. lofotensis Sars, 1868, I. trichotoma Bayer, 1990, I. longiflora (Verrill, 1883), and I. tentaculum Etnoyer, 2008. Only the first three are likely to remain in the genus. Isidella longiflora was originally described and placed in the genus Lepidisis by Verrill, but since that genus came to be thought of as unbranched, Grasshoff (1986; Grasshoff and Zibrowius 1983) moved longiflora to Isidella on the basis of dichotomous branching from the nodes. The exact placement of this species remains to be determined since the existing museum material is not in very good condition. Further, Verrill (1883) noted that branches arising at the nodes could arise singly, or two at a time. In a manuscript that was unfortunately not published before his death, Verrill suggested that L. longiflora should be moved to a new genus “ Acanellides ” (this manuscript is in the collection of the Yale Peabody Museum and photocopies of the pages can be obtained from this author). Isidella tentaculum differs from all the others in having sclerites in the form of rods, the mesenterially placed sclerites are rods rather than needles, and the branches, while originating at the nodes form more of a candelabra shape. In addition, the axis internodes are thick and heavy, rather than thin and moderately delicate. Unpublished genetic sequence data suggests that I. tentaculum belongs to a clade different from that in which the other three Isidella species (including the type) reside (Scott C. France, personal communication). Thus, for this discussion, the genus Isidella will be considered to consist only of the first three species noted above. The species Isidella elongata , I. lofotensis , and I. trichotoma have moderately long to very long, thin hollow internodes, polyps armed with sclerites predominantly in the form of needles, with larger needles in groups of 2-3 placed at the mesenterial insertions on the body wall (Bayer 1990) and usually projecting between the tentacle bases. Branching at the nodes has been termed dichotomous (Bayer 1990), but should be lateral according to Alderslade (1998), and sparse. The tentacles, when contracted, fold over the mouth but remain exposed. Isidella lofotensis needs redescription (in preparation); however, colonies recently studied in the collection of the Tromsø Museum are bushy, branching at the nodes in all planes, and the sclerites arranged along the mesenterial insertions are large pointed rods rather than thin needles. A very small colony collected in 1872 at the type locality by G.O. Sars, from the collection of the Copenhagen Museum, has a similar arrangement of polyp body sclerites, but all are needles rather than rods (inviting the supposition that as the colony grows and ages the needles either become thicker or are replaced). Both colonies have solid internodes. The tentacles contract but stay exposed. The genus Cladarisis resembles these three species of Isidella in the form of the colony, the long and thin branches, branching sparse and lateral, and with branches originating at the nodes. Cladarisis differs, however, in several ways. The internodes are generally shorter (mean length, 9 mm). Measurements made on photos of specimens of I. elongata and pieces of a specimen of I. lofotensis , show that internode length in those two species range from 13 to 17 mm and 9 to 15 mm, respectively. Internode lengths in I. trichotoma reach 85 mm (Bayer 1990). The polyp body of Cladarisis possesses sclerites that are exclusively rods, and the sclerites are organized haphazardly such that none are aligned with the mesenteries. Indeed, the rods are arranged almost randomly along the outside of the polyp, with some on the distal part of the polyp oblique to horizontal, and with longitudinally oriented smaller rods only along the aboral surface of the tentacles. The pharyngeal sclerites of Cladarisis also differ significantly from those of I. trichotoma (details for the other two species are missing). In the latter, the sclerites are elongate, slightly toothed rods, verging on being flat rods, whereas in Cladarisis one group of pharyngeal sclerites are short, wide, and thick, with protuberances on all sides. : Published as part of Watling, Les, 2015, A new genus of bamboo coral (Octocorallia: Isididae) from the Bahamas, pp. 239-249 in Zootaxa 3918 (2) on pages 240-244, DOI: 10.11646/zootaxa.3918.2.5, http://zenodo.org/record/238077 : {"references": ["France, S. C. (2007) Genetic analysis of bamboo corals (Cnidaria: Octocorallia: Isididae): does lack of colony branching distinguish Lepidisis from Keratoisis? Bulletin of Marine Science, 81, 323 - 333.", "Alderslade, P. & McFadden, C. S. (2012) A new genus and species of the family Isididae (Coelenterata: Octocorallia) from a CMAR Biodiversity study, and a discussion on the subfamilial placement of some nominal isidid genera. Zootaxa, 3154, 21 - 39.", "Esper, E. J. C. (1788) Die Pflanzenthiere in Abbildung nach der Natur mit Farben erleuchtet nebst Beschreibungen. Lieferung, 1, 1 - 96.", "Sars, M. (1868) Om nogle Echinodermer og Coelenterater fra Lofoten. Oversigt over det Kongelige Videnskabernes Selskabs Forhandlinger, Christiania, pp. 1 - 7. [1867]", "Bayer, F. M. (1990) A new isidid octocoral (Anthozoa: Gorgonacea) from New Caledonia, with descriptions of other new species from elsewhere in the Pacific Ocean. Proceedings of the Biological Society of Washington, 103 (1), 205 - 228.", "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 at Harvard College, 11, 1 - 72.", "Etnoyer, P. J. (2008) A new species of Isidella bamboo coral (Octocorallia: Alcyonacea: Isididae) from northeast Pacific seamounts. Proceedings of the Biological Society of Washington, 121, 541 - 553. http: // dx. doi. org / 10.2988 / 08 - 16.1", "Grasshoff, M. (1986) Die Gorgonaria der Expedition von \" Travailleur \" 1880 - 1882 und \" Talisman \" 1883 (Cnidaria, Anthozoa). Bulletin Museum National d'Histoire Naturelle 4 th, series 8, 9 - 38.", "Grasshoff, M. & Zibrowius, H. (1983) Kalkkrusten auf Achsen von Hornkorallen, resent und fossil (Cnidaria, Anthozoa, Gorgonaria). Senkenbergiana maritime, 15, 111 - 145.", "Alderslade, P. (1998) Revisionary systematics in the gorgonian family Isididae, with descriptions of numerous new taxa (Coelenterata: Octocorallia). Records of the Western Australian Museum, Supplement 55, 1 - 359."]} Text Lofoten Tromsø DataCite Metadata Store (German National Library of Science and Technology) Lofoten Pacific Tromsø Christiania ENVELOPE(-61.458,-61.458,-63.974,-63.974) Holdfast ENVELOPE(-66.590,-66.590,-66.803,-66.803) The Needles ENVELOPE(-70.967,-70.967,-68.950,-68.950) Cat Island ENVELOPE(70.092,70.092,-49.471,-49.471)

Cladarisis nouvianae Watling, 2015, new species

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