Mycale (Oxymycale) acerata Kirkpatrick 1907
Mycale ( Oxymycale ) acerata Kirkpatrick, 1907 (Figure 18) Synonomy: Mycale acerata Kirkpatrick, 1907; Mycale acerata var. minor Hentschel, 1914; Mycale acerata var. sphaerulosa Hentschel, 1914; Oxymycale acerata (Kirkpatrick, 1907). Specimens. BELUM. Mc 2015.552 Gøuvernoren Wreck, Enterprise Island...
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Zenodo
2019
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| Online Access: | https://dx.doi.org/10.5281/zenodo.5584978 https://zenodo.org/record/5584978 |
| Summary: | Mycale ( Oxymycale ) acerata Kirkpatrick, 1907 (Figure 18) Synonomy: Mycale acerata Kirkpatrick, 1907; Mycale acerata var. minor Hentschel, 1914; Mycale acerata var. sphaerulosa Hentschel, 1914; Oxymycale acerata (Kirkpatrick, 1907). Specimens. BELUM. Mc 2015.552 Gøuvernoren Wreck, Enterprise Island (64°32.407’S, 61° 59.884’W), depth 8–19 m; collected by C. Goodwin and E. Priestley, 12/02/2015; BELUM. Mc 2015.604 Grotto Island, Verdansky Base (Site 1) (65°14.615’S, 64° 15.019’W), depth 14–24 m; collected by C. Goodwin and E. Priestley, 16/02/2015; BELUM. Mc 2015.617 and BELUM. Mc 2015.631 Grotto Island, Verdansky Base (Site 2) (65°14.529’S, 64° 15.451’W), depth 6–18 m; collected by C. Goodwin and E. Priestley, 16/02/2015; BELUM. Mc 2015.649 Rocks near San Martin Islands (65°41.297’S, 65° 20.091’W), depth 6–21 m; collected by C. Goodwin and E. Priestley, 17/02/2015; BELUM. Mc 2015.655 The Minnows, Prospect Point (66°01.642’S, 65° 21.323’W), depth 6–18 m; collected by C. Goodwin and E. Priestley, 17/02/2015.; BELUM. Mc 2015.660 Detaille Island (Site 1) (66°52.373’S, 66° 46.967’W), depth 6–24 m; collected by C. Goodwin and E. Priestley, 18/02/2015; BELUM. Mc 2015.690 Rocks NW of Laktionov Island (65°45.536’S, 65° 47.319’W), depth 6–23 m; collected by C. Goodwin and E. Priestley, 22/02/2015; BELUM. Mc 2015.697 and BELUM. Mc 2015.710 Vieugue Island (65°38.758’S, 65° 12.540’W), depth 10–22 m; collected by C. Goodwin and E. Priestley, 23/02/2015; BELUM. Mc 2015.731 Port Charcot, Booth Island (65°03.853’S, 64° 01.868’W), depth 6–16 m; collected by C. Goodwin and E. Priestley, 23/02/2015; BELUM. Mc 2015.780 Under Spiggot Peak, Orne Harbour (64°37.755’S, 62° 33.018’W), depth 5–21 m; collected by C. Goodwin and E. Priestley, 25/02/2015; BELUM. Mc 2015.807 Neptune’s Bellows, Deception Island (62°59.607’S, 60° 33.601’W), depth 7–18 m; collected by C. Goodwin and E. Priestley, 26/02/2015; BELUM. Mc 2015.833 and BELUM. Mc 2015.836 Diomedea Island (62°12.185’S, 58° 56.760’W), depth 10–18 m; collected by C. Goodwin and E. Priestley, 01/03/2015. External morphology. In situ appearance (Figure 18A): Lemon yellow, massive, sponge, individuals can be very large - some of our specimens were over 60 cm in diameter. Large specimens are composed of a series of fused mounds, often these bear terminal oscules. The surface of the sponge is covered in small nodules ~ 5 mm in diameter, giving it a bumpy appearance (Figure 18B). Preserved appearance. Grey mass. Skeletal columns visible as distinct fibres ~ 0.5 mm across. Preserving alcohol coloured yellow. Skeleton : Choanosomal skeleton plumo-reticulate formed of columns of oxea 10–20 spicules thick (Figure 18C). Ectosome is composed of a mesh of fibres 4–8 spicules thick (Figure 18D). Microscleres are abundant, the larger chelae form rosettes. Spicules: Measurements from BELUM.Mc2015.780. Oxeas (Figure 18E): 629(679)748 by 16(22) 27 µm with abruptly pointed ends. Anisochelae 1 (Figure 18H): 69(79) 86 µm in rosettes. The lower alae bears a short, antenna-like, projection. Anisochelae 2 (Figure 18I): 33(45) 55 µm. The lower alae bears a single pointed tooth. Microxeas (Figure 18F) 30(84)111 by 1.6(2.1) 2.6 µm. Spindle shaped. Tiny oxeas/raphides (Figure 18G): 6.6(7.1) 7.8 µm. Remarks. The spicule sizes reported for the type are oxeas 850 by 16 µm, chelae 105 and 47 µm, and trichodragmata 62 µm, although the tiny oxeas are not mentioned—these were not obvious in all of our specimens. Specimens produced a lot of slime on collection. Mycale acerata was very abundant, present at most of our sampling sites, often in large quantities. It is one of the dominant species on the Antarctic Peninsula (Kowalke 1998). Mycale acerata is faster growing than many other Antarctic sponges and has been demonstrated to increase 43–67% in terms of wet weight in a year, because of this, it is thought to be able to compete successfully against many slower growing benthic species and may become spatially dominant in some benthic environments (Dayton et al. 1974). Populations seem to be regulated by predation, particularly that of the asteroids Perknaster fuscus Sladen, 1889 and Acodontaster conspicuus (Koehler, 1920). Distribution. Mycale acerata is common along the Antarctic Peninsula, and widespread around the Antarctic and sub-Antarctic (records from Wilheim II Coast, Wilkes Land, South Shetland Islands, Princess Ragnhild Coast, Lars Christensen Coast, Kerguelen, Macquarie Island, Bouvet Island, South Orkneys, South Georgia), as well as being recorded from the Falkland Islands, Chile and Argentina (Koltun 1964; Brueggeman 1998; Rios et al. 2004; Hajdu et al. 2016). It has been recorded from 10–761 m + depth (Brueggeman 1998). : Published as part of Goodwin, Claire E., Berman, Jade & Hendry, Katharine R., 2019, Demosponges from the sublittoral and shallow-circalittoral (<24 m depth) Antarctic Peninsula with a description of four new species and notes on in situ identification characteristics, pp. 461-508 in Zootaxa 4658 (3) on pages 492-493, DOI: 10.11646/zootaxa.4658.3.3, http://zenodo.org/record/3376028 : {"references": ["Kirkpatrick, R. (1907) Preliminary Report on the Monaxonellida of the National Antarctic Expedition. Annals and Magazine of Natural History, Series 7, 20 (117), 271 - 291. https: // doi. org / 10.1080 / 00222930709487333", "Hentschel, E. (1914) Monaxone Kieselschwamme und Hornschwamme der Deutschen Sudpolar-Expedition 1901 - 1903. Deutsche Sudpolar-Expedition, 1901 - 03, 15, 35 - 141.", "Kowalke, J. (1998) Energieumsatze benthischer Filtrierer der Potter Cove (King George Island, Antarktis), Berichte zur Polarforschung. Alfred Wegener Institute for Polar and Marine Research, Bremerhaven, 147 pp. [in German]", "Dayton, P. K., Robilliard, G. A., Paine, R. T. & Dayton, L. B. (1974) Biological accommodation in the benthic community at Mc- Murdo Sound, Antarctica. Ecological Monographs, 44, 105 - 128. https: // doi. org / 10.2307 / 1942321", "Koltun, V. M. (1964) Sponges of the Antarctic I. Tetraxonida and Cornacuspongida. In: Pavilovskii, E. P., Andriyashev, A. P. & Ushakov, P. V. (Eds.), Biological reports of the Soviet Antarctic expedition (1955 - 1958). Vol. 2. Akademya Nauk SSSR, Moscow, Leningrad, pp. 6 - 133.", "Brueggeman, P. (1998) Porifera-Demospongiae: demosponges. In: Brueggeman, P. (Ed.), Underwater Field Guide to Ross Island & McMurdo Sound, Antarctica. Available from: http: // peterbrueggeman. com / nsf / fguide / index. html (accessed 12 December 2018)", "Rios, P., Cristobo, F. & Urgorri, V. (2004) Poecilosclerida (Porifera, Demospongiae) collected by the Spanish Antarctic expedition BENTART- 94. Cahiers de Biologie Marine, 45, 97 - 119.", "Hajdu, E., Fonseca, C., Schories, D. & Kohlberg, G. (2016) Sponges, Porifera. In: Schories, D. & Kohlberg, G. (Eds.), Marine Wildlife, King George Island, Antarctica: Identification guide. Dirk Schories publications, Rostock, pp. 56 - 78."]} |
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