identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
038787C0243D6E0AFF03FAE3182C9BA7.text	038787C0243D6E0AFF03FAE3182C9BA7.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Barbozia Dendy 1922	<div><p>Subgenus Barbozia Dendy, 1922</p> <p>Type species. Barbozia primitiva Dendy, 1922: 132, pl. 8, fig. 9; pl. 18, figs 1a–e (by monotypy).</p> <p>Diagnosis. Hemispherical with erect fistules; confused, compact choanosomal skeleton of large, scattered or bundled strongylote to fusiform oxeas and smaller biangulate oxeas; ectosomal skeleton a thick crust of smaller biangulate oxeas and/ or styles; microscleres are palmate anisochelae with basal spurs, large plesiaster-like microxeas, and small spined, amphiaster-like rhabds (modified from Van Soest &amp; Hajdu 2002).</p> <p>Remarks. Dendy (1922: 134) described a variety of the type species, B. primitiva var. digitata Dendy, 1922, from 183 m depth off Mauritius, considering it be similar to the Seychelles holotype in all ways except the digitate morphology and the “somewhat more slender character of the megascleres”. Today, World Porifera Database recognises the variety as a junior synonym of P. (B.) primitiva (Van Soest et al. 2021b).</p> </div>	http://treatment.plazi.org/id/038787C0243D6E0AFF03FAE3182C9BA7	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		MagnoliaPress via Plazi	Kelly, Michelle	Kelly, Michelle (2021): First record of genus Phlyctaenopora in South Pacific waters. Zootaxa 4990 (3): 596-600, DOI: https://doi.org/10.11646/zootaxa.4990.3.13
038787C0243D6E0AFF03FBBB18859811.text	038787C0243D6E0AFF03FBBB18859811.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Phlyctaenopora Topsent 1904	<div><p>Genus Phlyctaenopora Topsent, 1904</p> <p>Phlyctaenopora Topsent, 1904: 199.</p> <p>Barbozia Dendy, 1922: 131.</p> <p>Type species. P. bitorquis Topsent, 1904: 199; pl. 2, fig. 4c (by monotypy).</p> <p>Diagnosis. Massive, hemispherical, crustose, smooth with erect fistules; confused, compact choanosomal skeleton of ill-defined tracts of strongyles or oxeas; ectosomal skeleton a crust of oxeas and/or styles; microscleres include palmate anisochelae which may be basally spurred, sigmas, large plesiaster-like microxeas, and spined, amphiaster-like rhabds, the latter three may be absent (modified from Van Soest &amp; Hajdu 2002).</p></div> 	http://treatment.plazi.org/id/038787C0243D6E0AFF03FBBB18859811	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		MagnoliaPress via Plazi	Kelly, Michelle	Kelly, Michelle (2021): First record of genus Phlyctaenopora in South Pacific waters. Zootaxa 4990 (3): 596-600, DOI: https://doi.org/10.11646/zootaxa.4990.3.13
038787C0243D6E09FF03F8B81F279B3D.text	038787C0243D6E09FF03F8B81F279B3D.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Phlyctaenopora (Barbozia) spina Kelly 2021	<div><p>Phlyctaenopora (Barbozia) spina sp. nov.</p> <p>urn:lsid:zoobank.org:act: 429A66C0-04B7-496B-873B-19B935BAB894</p> <p>Fig. 1, Table 1</p> <p>Material examined. Holotype NIWA 99630, NIWA Stn TAN1312/D26-d45, Wanganella North (International Waters) 32.805° S, 167.467° E, 600–850 m, 9 Nov 2013.</p> <p>Type location &amp; distribution. Wanganella North (International Waters), West Norfolk Ridge, 600–850 m.</p> <p>Description. Holotype (Fig. 1A), hemispherical with a slightly conical apex: 30 mm high, 45 mm wide at base. A broad, compound oscule with ragged margins is situated on the apex and surrounded by numerous fistules, 8–10 mm apart, arising from a glassy smooth surface: fistules 3–7 mm long, 2–4 mm thick. Texture firm, barely compressible; fistules fragile, frequently broken. Colour in preservative, cream (Fig. 1A).</p> <p>Skeleton. Ectosomal skeleton a thick mass of smaller oxeas, orientated paratangentially in the outer ectosome and criss-crossed in the lower ectosome, interspersed with large oxeas; about 300 µm deep (Fig. 1B). Anisochelae, abundant in outer ectosome. Larger oxeas are more-or-less perpendicular to the surface in the outer ectosome and choanosome, randomly disposed in deeper regions. Smaller oxeas abundant interstitially. Large, plesiasters-like microxeas, amphiasterlike rhabds, and anisochelae are scattered throughout the choanosome (Fig. 1B).</p> <p>Spicules. Megascleres (Fig. 1D–F; Table 1) are large, thick, oxeas, smoothly curved or more commonly biangulate, with fusiform to strongylote tips; 1392 (1068–1920) µm long, 49 (35–64) µm wide, n = 20 (Fig. 1D); smaller, thinner oxeas, smoothly curved to biangulate, with fusiform to strongylote tips, the latter sometimes slightly enlarged; 453 (291–662) µm long, 12 (8–17) µm wide, n = 25 (Fig. 1E); large, thorned, plesiaster-like microxeas, highly modified with irregular length oxeote rays, 223 (120–360) µm long, n = 20 (Fig. 1F); spicules in each category can be modified with extra rays, lumpy or spined protrusions.</p> <p>Microscleres (Fig. 1C, G; Table 1) are palmate anisochelae with a basal spur; 28 (23–32) µm long, n = 20 (Fig. 1C); amphiaster-like rhabds with smooth, sharp oxeote rays; 70 (35–109) µm long, n = 20 (Fig. 1G), also frequently modified.</p> <p>Substrate, depth range and ecology. Dredged from rock substrate, 600–850 m.</p> <p>Etymology. Named for the thorn-like form of the unique plesiaster-like microxeas (spina, thorn; Latin).</p> <p>Remarks. Phlyctaenopora (Barbozia) spina sp. nov. is differentiated from the holotype of the New Caledonian species, P. (B.) bocagei, on 1) the much larger size and form of the choanosomal oxeas [P. (B.) spina: 1425–1625 µm, mostly fusiform; P. (B.) bocagei: 1000–1250 µm, mostly strongylote]; 2) the larger size and form of the interstitial oxeas [P. (B.) spina: 453 (291–662) µm, strongylote &amp; fusiform; P. (B.) bocagei: 300–550 µm, fusiform]; 3) the possession of larger anisochelae [P. (B.) spina: 28 (23–32) µm; P. (B.) bocagei: 18–20 µm]; 4) the possession of much larger amphiaster-like rhabds [P. (B.) spina: 70 (35–109) µm; P. (B.) bocagei: 25–45 µm]; 5) possession of a unique category of large, thorned, plesiaster-like microxeas, absent in P. (B.) bocagei; and 6) lack of ectosomal styles present in the ectosome of P. (B.) bocagei (Table 1).</p> <p>In 1993, Lévi (1993) described two specimens identified as P. (B.) bocagei (MNHN DCL 3619 &amp; 3620 in Table 1), that had the same general spiculation as the type specimen, but which had much larger, highly sinuous choanosomal and ectosomal strongylote oxeas, and amphiaster-like microxeas that approach the size of those in the New Zealand species. Although the ectosomal styles were not mentioned, the larger category of plesiaster-like microxeas, present in P. (B.) spina sp. nov., were absent in Levi’s 1993 specimens, justifying their retention in P. (B.) bocagei and confirming the integrity of P. (B.) spina sp. nov.</p> <p>Dendy (1922) described the strongyle-like megascleres of P. (B.) primitiva as “strongylotes, usually slightly curved or bent, equi-ended, narrowing somewhat at the two ends, which are broadly rounded off.” The ends of the megascleres in P. (B.) primitiva are very similar to those of the oxeas in the New Zealand species, ranging from fusiform to strongylote, suggesting that Dendy’s ‘strongylote’ megascleres in P. (B.) primitiva are rather, a form of oxea. The similarity in morphology (hemispherical with fistules), skeletal architecture (tangential ectosome and confused choanosome), with highly modified oxea in all three species, confirms the overall integrity of subgenus Barbozia.</p></div> 	http://treatment.plazi.org/id/038787C0243D6E09FF03F8B81F279B3D	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		MagnoliaPress via Plazi	Kelly, Michelle	Kelly, Michelle (2021): First record of genus Phlyctaenopora in South Pacific waters. Zootaxa 4990 (3): 596-600, DOI: https://doi.org/10.11646/zootaxa.4990.3.13
