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WoRMS name detailsFavia stelligera (Dana, 1846)
207441 (urn:lsid:marinespecies.org:taxname:207441)
unaccepted > superseded combination
Species
marine,
(of Astraea (Orbicella) stelligera Dana, 1846) Dana, J.D. (1846-1849). Zoophytes. United States Exploring Expedition during the years 1838-1842. <em>Lea and Blanchard, Philadelphia.</em> 7: 1-740, 61 pls. (1846: 1-120, 709-720; 1848: 121-708, 721-740; 1849: atlas pls. 1-61)., available online at http://www.sil.si.edu/digitalcollections/usexex/navigation/ScientificText/USExEx19_08select.cfm [details]
Type locality contained in Fijian Exclusive Economic Zone
type locality contained in Fijian Exclusive Economic Zone [details]
Unreviewed
Type locality Fiji (Veron, 1986). [details]
Description This is an easily distinguished Favia, because it forms the largest colonies and has the smallest corallites. Colonies can...
Description This is an easily distinguished Favia, because it forms the largest colonies and has the smallest corallites. Colonies can reach over three metres across and stand 2 metres high; large ones are composed of many upward growing cylinders 10 - 20 cm diameter, and may have a slightly club-head top. Living corallites are usually restricted to the top 20 cm or so of each club in these large colonies, though they may cover all the surface of much smaller colonies. Calices are only about 3 mm diameter which is considerably smaller than any other member of this genus, and they are very neatly formed, being perfectly round, except when budding. They are strongly plocoid, commonly being as tall as they are broad. Favia stelligera has a strong preference to very shallow water. It is rarely found deeper than about 6 m. The very large colonies are also limited to shallow water in sheltered sites such as protected fringing reefs. It is a common component of those coral communities found between shallow patch reefs where the substrate is a mixture of coarse sand and hard substrate (Sheppard, 1998). Colonies are spherical, columnar, hillocky or flat. Corallites are evenly distributed, with small calices. Colour: uniform brown or green. Abundance: seldom common but occurs in a wide range of habitats (Veron, 1986). Large domed colonies made up of numerous lobes or short columns (each 10-20 cm across), with the moderate-sized corallites (2-6 mm across) easily visible on the surface. Colour: usually a uniform pale yellow colour. Habitat: shallow reefs in clear water (Richmond, 1997). [details]
Hoeksema, B. W.; Cairns, S. (2024). World List of Scleractinia. Favia stelligera (Dana, 1846). Accessed through: World Register of Marine Species at: https://www.marinespecies.org/aphia.php?p=taxdetails&id=207441 on 2024-12-20
Date action by 2000-09-28 07:24:50Z changed Garcia, Maria
original description
(of Astraea (Orbicella) stelligera Dana, 1846) Dana, J.D. (1846-1849). Zoophytes. United States Exploring Expedition during the years 1838-1842. <em>Lea and Blanchard, Philadelphia.</em> 7: 1-740, 61 pls. (1846: 1-120, 709-720; 1848: 121-708, 721-740; 1849: atlas pls. 1-61)., available online at http://www.sil.si.edu/digitalcollections/usexex/navigation/ScientificText/USExEx19_08select.cfm [details]
context source (Hexacorallia) Fautin, Daphne G. (2013). Hexacorallians of the World. (look up in IMIS) [details] basis of record Veron JEN. (1986). Corals of Australia and the Indo-Pacific. <em>Angus & Robertson Publishers.</em> [details] additional source Sheppard CRC. (1987). Coral species of the Indian Ocean and adjacent seas: a synonymised compilation and some regional distribution patterns. <em>Atoll Research Bulletin.</em> 307: 1-32., available online at http:// https://doi.org/10.5479/si.00775630.307.1 [details] additional source Veron JEN, Pichon M, Wijsman-Best M. (1977). Scleractinia of Eastern Australia – Part II. Families Faviidae, Trachyphylliidae. <em>Australian Institute of Marine Science Monograph series.</em> 3: 1-233. [details] additional source Hoffmeister, J.E. (1925). Some corals from America Samoa and the Fiji Islands. <em>Papers from the Department of Marine Biology of the Carnegie Institution of Washington.</em> 22: 1-90, pls. 1-23. page(s): 11, 12, 23 [details] additional source Cairns, S.D., B.W. Hoeksema & J. van der Land. (1999). Appendix: List of extant stony corals. <em>Atoll Research Bulletin.</em> 459: 13-46. page(s): 29 [details] additional source Randall RH. (2003). An annotated checklist of hydrozoan and scleractinian corals collected from Guam and other Mariana Islands. <em>Micronesica.</em> 35-36: 121-137. page(s): 133 [details] additional source Robertson R. (1970). Review of the predators and parasites of stony Corals, with special reference to symbiotic Prosobranch Gastropods. <i>Pacific Science 24 (1)</i>: 43-54 page(s): 48 [details] additional source Cairns, S.D., B.W. Hoeksema & J. van der Land. (2007). as a contribution to UNESCO-IOC Register of Marine Organisms. (look up in IMIS) [details] additional source Liu, J.Y. [Ruiyu] (ed.). (2008). Checklist of marine biota of China seas. <em>China Science Press.</em> 1267 pp. (look up in IMIS) [details] Available for editors  [request]additional source Veron JEN. (2000). Corals of the World. Vol. 1–3. <em>Australian Institute of Marine Science and CRR, Queensland, Australia.</em> [details] additional source Wells JW. (1955). Recent and subfossil corals of Moreton Bay, Queensland. <em>Queensland. University of Queensland Papers, Department of Geology.</em> 4 (10): 1-18, pls. 1-3. page(s): 3, 5, 12, 18, Plate 1, Fig. 3 [details] additional source Scheer G, Pillai CSG. (1974). Report on Scleractinia from the Nicobar Islands. <em>Zoologica, Stuttgart.</em> 42(122): 1-75. page(s): 9, 44-45, 74 [details] additional source Umbgrove JHF. (1940). Madreporaria from the Togian Reefs (Gulf of Tomini, North-Celebes. <em>Zoologische Mededelingen, Leiden.</em> 22: 265-310. [details] additional source Umbgrove JHF. (1939). Madreporaria from the Bay of Batavia. <em>Zoologische Mededelingen, Leiden.</em> 22: 1-64. page(s): 17, 28 [details] additional source Yabe H, Sugiyama T, Eguchi M. (1936). Recent reef-building corals from Japan and the South Sea Islands under the Japanese mandate. I. <em>The Science reports of the Tôhoku Imperial University, Sendai, 2nd Series (Geologie).</em> Special Volume 1: 1-66, pls. 1-59. page(s): 2, 29, Pl. XXVI [details] additional source Yabe H, Sugiyama T. (1935). Revised list of the reef-corals from the Japanese seas and of the fossil reef corals of the raised reefs and the Ryukyu limestone of Japan. <em>Journal of the Geological Society of Japan.</em> 42: 379-403. page(s): 394 [details] additional source Hodgson G, Ross MA. (1982). Unreported scleractinian corals from the Philippines. <em>Proceedings of the Fourth International Coral Reef Symposium, Manila, 1981.</em> 2: 171-175. page(s): 171 [details] additional source Pillai CSG, Scheer G (1976) Report on the stony corals from the Maldive Archipelago. Results of the Xarifa Expedition 1957/58. Zoologica, Stuttgart 43 (126): 1-83, pls. 1-32. [details] additional source Crossland C (1952) Madreporaria, Hydrocorallinae, Heliopora and Tubipora. Scientific Report Great Barrier Reef Expedition 1928-29 VI(3): 85-257. page(s): 91, 96 [details] additional source Chevalier JP (1971) Les Scléractiniaires de la Mélanésie Française (Nouvelle-Caledonie, Iles Chesterfield, Iles Loyauté, Nouvelles Hébrides). I. Expedition Française sur les Récifs Coralliens Nouv.-Calédonie 5: 1-307, pls. 1-38. Paris. [details] additional source Wijsman-Best M (1972) Systematics and ecology of New Caledonian Faviinae (Coelenterata–Scleractinia). Bijdragen tot de Dierkunde 42: 3-90. [details] additional source Pichon, M.; Benzoni, F. (2007). Taxonomic re-appraisal of zooxanthellate Scleractinian Corals in the Maldive Archipelago. <em>Zootaxa.</em> 1441: 21–33. page(s): 31 [details] additional source Scheer G (1967). Korallen von den Sarso-Inseln im Roten Meer. Senckenbergiana Biologica 48: 421-436. [details] additional source Huang D, Benzoni F, Fukami H, Knowlton N, Smith ND, Budd AF (2014) Taxonomic classification of the reef coral families Merulinidae, Montastraeidae, and Diploastraeidae (Cnidaria: Anthozoa: Scleractinia). Zoological Journal of the Linnean Society 171: 277–355. [details] additional source Kitahara, M.V., J. Stolarski, S.D. Cairns, F. Benzoni, J.L. Stake & D.J. Miller. (2012). The first modern solitary Agariciidae (Anthozoa, Scleractinia) revealed by molecular and microstructural analysis. <em>Invertebrate Systematics.</em> 26 (3): 303-315., available online at https://doi.org/10.1071/is11053 page(s): 305, 307 [details] Available for editors [request]additional source Veron JEN, Marsh LM. (1988). Hermatypic corals of Western Australia : records and annotated species list. <em>Records Western Australian Museum Supplement.</em> 29: 1-136., available online at https://doi.org/10.5962/bhl.title.60555 page(s): 28, 98 [details] additional source Wijsman-Best M. (1974). Biological results of the Snellius expedition: XXV. Faviidae collected by the Snellius Expedition. I. The genus Favia. <em>Zoologische Mededelingen, Leiden.</em> 48: 249-261, pls. 1-4. [details] additional source Pillai CSG. (1972). Stony corals of the seas around India. <em>Proceedings of the First International Symposium on Corals and Coral Reefs, 1969. Marine Biological Association of India Symposium.</em> 5: 191-216. page(s): 205 [details] additional source Boshoff, P.H. (1981). An annotated checklist of Southern Africa Scleractinia. <em>Oceanographic Research Institute Investigational Report, Durban.</em> 49: 1-45. page(s): 29 [details] additional source Randall RH, Myers RF. (1983). The corals. Guide to the Coastal Resources of Guam: Vol. 2. <em>University of Guam Press, Guam, pp. 128.</em> [details] additional source Veron, J. E. N. (2000). Corals of the World, Volume III: Families Mussidae, Faviidae, Trachyphylliidae, Poritidae. Australian Institute of Marine Science. Townsville., volume 3, pp. 490. page(s): 102-103 [details] additional source Maragos, J. E.; Molina, M.; Kenyon, J. (2004). Palmyra Atoll coral data compiled from Townsend Cromwell 2000-2002, U.S. Fish and Wildlife Service 2000-2001, and Sette 2004 surveys [Table 8]. UNPUBLISHED, UNPUBLISHED [details] additional source Maragos, J. E.; Schmerfeld, J. (2004). Coral survey from Howland Island National Wildlife Refuge, 1998-2004 [Table 3]. UNPUBLISHED, Unpublished page(s): 1 [details] additional source Maragos, J. E.; Kenyon, J. (2004). Rose Atoll coral data compiled from US Fish and Wildlife Service 1994, Townsend Cromwell 2002, and Sette 2004 surveys [Table 10]. UNPUBLISHED, Unpublished page(s): 1 [details] additional source Maragos, J. E. (2004). Baker Island coral data [Table unnumbered]. UNPUBLISHED, Unpublished page(s): 1 [details] additional source Maragos, J. E. (1977). Order Scleractinia, Stony Corals. Dennis M. Devaney and Lucius G. Eldredge (eds.). Bishop Museum Press. Honolulu, Hawaii, pp. 84 page(s): 163 [details] additional source Wells JW. (1954). Recent corals of the Marshall Islands: Bikini and nearby atolls, part 2, oceanography (biologic). <em>U.S. Geological Survey Professional Paper.</em> 260(I): 385-486. page(s): 393, 396, 397, 399, 457, 460, Pl. 173 [details] additional source Pillai CSG. (1983). Structure and generic diversity of recent Scleractinia of India. <em>Journal of the Marine Biological Association of India.</em> 25, 1-2, 78-90. page(s): 83, 86 [details] additional source Sheppard, C. R. C. (1985). Fringing reefs in the southern region, Jeddah to Jizan. Fauna of Saudi Arabia, 7, 37-58 page(s): 45 [details] additional source Kühlmann, D. H. H. (2006). Die Steinkorallensammlung im Naturhistorischen Museum in Rudolstadt (Thüringen) nebst ökologischen Bemerkungen. Rudolstädter Naturhistorische Schriften, 13, 37-113 page(s): 63, 91, 113 [details] additional source Wallace, C. C.; Fellegara, I.; Muir, P. R.; Harrison, P. L. (2009). The scleractinian corals of Moreton Bay, eastern Australia: high latitude, marginal assemblages with increasing species richness. Memoirs of the Queensland Museum, 54, 2 page(s): 10, 81 [details] new combination reference Vaughan TW. (1918). Some shallow-water corals from Murray Island (Australia), Cocos-Keeling Island, and Fanning Island. <em>Papers from the Department of Marine Biology of the Carnegie Institution of Washington.</em> 9 (213): 49-234, pls. 20-93. [details]  Present Present in aphia/obis/gbif/idigbio Inaccurate Introduced: alien Containing type locality
Nontype HLD X2: 151-21, geounit Indian Exclusive Economic Zone [details]
Nontype HLD X2: 154-18, geounit Indian Exclusive Economic Zone [details]
Nontype HLD X2: 156-7, geounit Indian Exclusive Economic Zone [details]
Nontype IGPS 48677, geounit Marshall Islands Exclusive Economic Zone [details]
Nontype IGPS 50764, geounit Micronesian Exclusive Economic Zone [details]
Nontype IGPS 50790, geounit Palau Exclusive Economic Zone [details]
Nontype IGPS 51010, geounit Micronesian Exclusive Economic Zone [details]
Nontype IGPS 53214, geounit Japanese Exclusive Economic Zone [details]
Nontype IGPS 53237, geounit Palau Exclusive Economic Zone [details]
Nontype IGPS 55819, geounit Japanese Exclusive Economic Zone [details]
Nontype IGPS 56678, geounit Palau Exclusive Economic Zone [details]
Nontype NMSR 8626, geounit Yemeni Exclusive Economic Zone [details]
Nontype NMSR I/452/E3 [details]
Nontype WAM 113-74, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 114-74, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 115-74, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 199-77, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 200-77, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 201-77, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 206-81, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 216-73, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 223-74, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 327-85, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 328-85, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 575-81, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 605-81, geounit Australian Exclusive Economic Zone [details]
Nontype WAM 734-86, geounit Ashmore-Cartier Is. [details]
Nontype WAM 848-85, geounit Australian Exclusive Economic Zone [details]
From editor or global species database
Biology zooxanthellate [details]Unreviewed
Description This is an easily distinguished Favia, because it forms the largest colonies and has the smallest corallites. Colonies can reach over three metres across and stand 2 metres high; large ones are composed of many upward growing cylinders 10 - 20 cm diameter, and may have a slightly club-head top. Living corallites are usually restricted to the top 20 cm or so of each club in these large colonies, though they may cover all the surface of much smaller colonies. Calices are only about 3 mm diameter which is considerably smaller than any other member of this genus, and they are very neatly formed, being perfectly round, except when budding. They are strongly plocoid, commonly being as tall as they are broad. Favia stelligera has a strong preference to very shallow water. It is rarely found deeper than about 6 m. The very large colonies are also limited to shallow water in sheltered sites such as protected fringing reefs. It is a common component of those coral communities found between shallow patch reefs where the substrate is a mixture of coarse sand and hard substrate (Sheppard, 1998).Colonies are spherical, columnar, hillocky or flat. Corallites are evenly distributed, with small calices. Colour: uniform brown or green. Abundance: seldom common but occurs in a wide range of habitats (Veron, 1986). Large domed colonies made up of numerous lobes or short columns (each 10-20 cm across), with the moderate-sized corallites (2-6 mm across) easily visible on the surface. Colour: usually a uniform pale yellow colour. Habitat: shallow reefs in clear water (Richmond, 1997). [details] Type locality Fiji (Veron, 1986). [details]
To Barcode of Life (2 barcodes)
To Biodiversity Heritage Library (24 publications) To Biological Information System for Marine Life (BISMaL) To GenBank (44 nucleotides; 31 proteins) To MNHN Fossil collection (Favia stelligera (DANA, 1846); Figuré; F.A30271) To USNM Invertebrate Zoology Cnidaria Collection (5 records) To ITIS |
