Celleporella hyalina Linnaeus 1767

Celleporella hyalina (Linnaeus, 1767) (Figs 12–14) Hippothoa hyalina : Okada 1929: 17, pl. 1, fig. 4, pl. 4, fig. 3; Androsova 1958: 130, fig. 48; Kubanin 1976: 33; Gontar 1978: 14. Celleporella hyalina : Soule et al . 1995: 183, pl. 66 ( cum syn .); Liu et al . 2001: 536, pl. 36, figs 1–2. Cellepor...

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Bibliographic Details
Main Authors: Min, Bum Sik, Seo, Ji Eun, Grischenko, Andrei V., Gordon, Dennis P.
Format: Text
Language:unknown
Published: Zenodo 2017
Subjects:
Biodiversity
Taxonomy
Animalia
Bryozoa
Gymnolaemata
Cheilostomatida
Hippothoidae
Celleporella
Celleporella hyalina
Arctic
Arctic Ocean
Okhotsk
Pacific
New Zealand
Franz Josef Land
Alvarez
Hayward
Gomez
Ketchikan
Kodiak
Sakhalin
Alaska
Online Access:https://dx.doi.org/10.5281/zenodo.5220974
https://zenodo.org/record/5220974
Description
Summary:Celleporella hyalina (Linnaeus, 1767) (Figs 12–14) Hippothoa hyalina : Okada 1929: 17, pl. 1, fig. 4, pl. 4, fig. 3; Androsova 1958: 130, fig. 48; Kubanin 1976: 33; Gontar 1978: 14. Celleporella hyalina : Soule et al . 1995: 183, pl. 66 ( cum syn .); Liu et al . 2001: 536, pl. 36, figs 1–2. Celleporella hyalina species complex: Dick et al . 2005: 3724, fig. 9; Grischenko et al . 2007: 1097, fig. 19. Material examined. NIBRIV0000325933, Jinchon-ri, Baengnyeong Island. Other material: Woosuk University collection—Baengnyeong Island: Hwadong (11 colonies), Junghwadong (3 colonies), Dumujin (24 colonies), Jinchon-ri (51 colonies), Yeonhwa-ri (21 colonies); mostly on rocky substrata, plus shell and crustose coralline algae ( Clathromorphum ). East Sea: Namae port (1 colony), on the basal side of a bryozoan. Description. Colony encrusting, initially unilaminar, up to 15 mm in diameter, developing additional autozooids and reproductive zooids at a later stage, which increases the thickness of the crust; these frontally budded zooids are orientated irregularly. Autozooids more or less elongate-oval, the gymnocystal frontal shield highly convex, highest suborally where there may be an umbo, typically with weaker transverse ridges across other parts of the shield. Orifice evenly rounded, the near-circular shape interrupted by a stout, slightly upturned pair of condyles that mark the entrance to the sinus; distal rim of orifice somewhat cowl-like, rising up behind the operculum, which is more or less flat; sinus occupying c. 60% of the proximal rim at the level of the condyles regardless of variability in orifice width. Typically 1–3 holes in the interzooidal furrows between zooids, these representing the frontal expressions of pore-chambers from which additional zooids, mainly reproductive, will be budded. Male zooids produced adventitiously, shorter and narrower than autozooids; orifice about half the width of autozooidal orifices but otherwise similar. Female zooids also budded adventitiously, these short, more or less triangular, the frontal shield rising to the suboral region; orifice mostly concealed by ooecium, but much wider than in autozooids, with a broad shallow poster; ectooecium more or less smoothly calcified, with 13–19 funnel-like pseudopores, sometimes ringed. Ancestrula oval, smooth, with a sinusoid orifice; early astogeny asymmetrical, with a daughter zooid arising on one side distolaterally, in turn giving rise to a daughter from a proximolateral position. Measurements. ZL, 357–442 (392) µm; ZW, 195–241 (215) µm; OrL, 93–109 (99) µm; OrW 84–106, (93) µm; ♂ OrL, 49–76 (62) µm; ♂ OrW, 52–66 (58) µm; OoL, 130–157 (141) µm; OoW, 202–234 (216) µm; AnL, 280 µm; AnW, 220 µm; AnOrL, 87 µm; AnOrW, 77 µm. Remarks. The synonymy given above is restricted to the North Pacific and is not exhaustive. Dick et al . (2005) and Grischenko et al . (2007) have suggested that C. hyalina in the North Pacific may both be a species complex inasmuch as there is some morphological variation (see Morris 1976, 1980). The ancestrula and early astogeny in the present material match what Cancino & Hughes (1988) have described for C. hyalina from Britain, which is generally consistently unilateral (although occasional deviations may occur from the standard pattern at the same locality). This concordance in early astogeny between the material from Britain and Korea could support conspecificity inasmuch as early astogeny of multiserial hippothoids has been regarded as species-specific (e.g. Ryland & Gordon 1977); as noted above, however, molecular evidence points to a complex of cryptic species (see also Gómez et al . 2007). Distribution. The nominal species was first described from Western European seas (Linnaeus 1767) and has subsequently been accorded a near-cosmopolitan distribution. In the northeastern Pacific, material attributed to C. hyalina has been recorded from Alaska to California (Soule et al . 1995), while in the northwestern Pacific the species has been accorded a distribution from the Arctic (Kluge 1962; Androsova 1977), Sea of Okhotsk (Kubanin 1976), Kurile Islands (Gontar 1978), Sakhalin and the Japan Sea (Androsova 1958). More recently, with the integration of micromorphological (SEM) and molecular characters, additional species have been recognized from different parts of the Northern Hemisphere that were (or would have been) once attributed to C. hyalina , e.g. Celleporella angusta Álvarez, 1991, Celleporella reflexa Dick & Ross, 1988 and Celleporella osiani Hughes & Wright, 2014. Grischenko et al . (2007) noted differences in the numbers of ooecial pseudopores in populations in Akkeshi Bay, Hokkaido. Further studies are needed on northern Pacific populations to determine the extent and geographical distribution of morphological variation. Published depth ranges are from 0–55 m (e.g. Hayward & Ryland 1999). Korea: Baengnyeong Island. : Published as part of Min, Bum Sik, Seo, Ji Eun, Grischenko, Andrei V. & Gordon, Dennis P., 2017, Intertidal Bryozoa from Korea — new additions to the fauna and a new genus of Bitectiporidae (Cheilostomata) from Baengnyeong Island, Yellow Sea, pp. 451-470 in Zootaxa 4226 (4) on pages 457-459, DOI: 10.11646/zootaxa.4226.4.1, http://zenodo.org/record/265060 : {"references": ["Linnaeus, C. (1767) Systemae Naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Regnum Animale. Edition XII. Holmiae, Laurentii Salvii, 1327 pp.", "Okada, Y. (1929) Report of the Biological Survey of Mutsu Bay. 12. Cheilostomatous Bryozoa of Mutsu Bay. Science Reports of the Tohoku Imperial University, 4, 11 - 35, 5 pls.", "Androsova, E. I. (1958) Bryozoa of the order Cheilostomata of the northern part of the Sea of Japan. Issledovaniya dal'nevostochnikh Morei SSSR, 5, 90 - 204. [in Russian]", "Kubanin, A. (1976) Bryozoa of Zav'yalov Island. Biologiya Morya, 1, 30 - 35. [in Russian]", "Gontar, V. I. (1978) On the fauna of bryozoans of the coastal waters of Iturup Island (southern Kurile Islands). Biologiya Morya, 1, 10 - 16. [in Russian]", "Soule, D. F., Soule, J. D. & Chaney, H. W. (1995) Taxonomic atlas of the benthic fauna of the Santa Maria Basin and western Santa Barbara Channel. Irene McCulloch Foundation Monograph Series, 2, 1 - 344.", "Liu, X., Yin, X. & Ma, J. (2001) Biology of Marine-Fouling Bryozoans in the Coastal Waters of China. Science Press, Beijing, 860 pp.", "Dick, M. H., Grischenko, A. V. & Mawatari, S. F. (2005) Intertidal Bryozoa (Cheilostomata) of Ketchikan, Alaska. Journal of Natural History, 39, 3687 - 3784.", "Grischenko, A. V., Dick, M. H. & Mawatari, S. F. (2007) Diversity and taxonomy of intertidal Bryozoa (Cheilostomata) at Akkeshi Bay, Hokkaido, Japan. Journal of Natural History, 41, 1047 - 1161.", "Morris, P. A. (1976) Middle Pliocene temperature implications based on the bryozoa Hippothoa. Journal of Paleontology, 50, 1143 - 1149.", "Morris, P. A. (1980) The bryozoan family Hippothoidae (Cheilostomata-Ascophora) with emphasis on the genus Hippothoa. Allan Hancock Monographs in Marine Biology, 10, 1 - 115.", "Cancino, J. M. & Hughes, R. H. (1988) The zooidal polymorphism and astogeny of Celleporella hyalina (Bryozoa: Cheilostomata). Journal of Zoology, 215, 167 - 181.", "Ryland, J. S. & Gordon, D. P. (1977) Some British and New Zealand species of Hippothoa (Bryozoa: Cheilostomata). Journal of the Royal Society of New Zealand, 7, 17 - 49.", "Gomez, A., Wright, P. J., Lunt, D. H., Cancino, J. M., Carvalho, G. R. & Hughes, R. N. (2007) Mating trials validate the use of DNA barcoding to reveal cryptic speciation of a marine bryozoan taxon. Proceedings of the Royal Society, B, 274, 199 - 207.", "Kluge, G. A. (1962) Bryozoa of the northern seas of the USSR. Opredeliteli po Faune SSSR, Izdavaemye Zoologischeskim Muzeem Akademii Nauk, 76, 1 - 584. [In Russian]", "Androsova, E. I. (1977) Bryozoa in biocenoses of the Arctic Ocean (Franz Josef Land region). Akademiya Nauk SSSR, Zoologicheskii Institut, Issledovaniya Fauny Morei, 14, 194 - 204. [in Russian]", "Alvarez, J. A. (1991) La Coleccion de Briozoos del Museo Nacional de Ciencias Naturales. Museo Nacional de Ciencias Naturales, Madrid, 188 pp.", "Dick, M. H. & Ross, J. P. (1988) Intertidal Bryozoa (Cheilostomata) of the Kodiak vicinity, Alaska. Center for Pacific Northwest Studies, Western Washington University Occasional Paper, 23, 1 - 133.", "Hughes, R. N. & Wright, P. J. (2014) Self-fertilisation in the Celleporella angusta clade and a description of Celleporella osiani sp. nov. Studi Trenti di Scienze Naturali, 94, 119 - 124.", "Hayward, P. J. & Ryland, J. S. (1999) Cheilostomatous Bryozoa. Part 2. Hippothooidea - Celleporoidea. Synopses of the British Fauna, New Series, 14, 1 - 416."]}

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