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Type: Article
Published: 2019-08-08
Page range: 201–239
Abstract views: 103
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Re-description of type material of Xenia Lamarck, 1816 (Octocorallia: Xeniidae)

School of Zoology, George S. Wise Faculty of Life Sciences, Tel Aviv University, Ramat Aviv, Tel Aviv 69978, Israel.
Department of Biology, Harvey Mudd College, 1250 N. Dartmouth Ave., Claremont, CA 91711, USA.
Hawaii Institute of Marine Biology, University of Hawaii at Manoa, 46-007 Lilipuna Road, Kane’ohe, HI 96744, USA.
School of Zoology, George S. Wise Faculty of Life Sciences, Tel Aviv University, Ramat Aviv, Tel Aviv 69978, Israel.
Coelenterata Red Sea sclerite microstructure taxonomy phylogeny neotype synonymy

Abstract

In this study we examined the original types of 21 of the 56 morphospecies of Xenia currently listed in WoRMS. Unfortunately, our attempts to locate additional type material failed, and we conclude that they have been lost. The type localities of the material examined include the Red Sea, West and Central Indian Ocean, the South Pacific, Indonesia, The Philippines, and the Bismarck Sea, reflecting the extensive biogeographical distribution of this genus throughout the Indo-Pacific Ocean. A neotype was designated from the northern Red Sea for X. umbellata, and sequencing established its position in the phylogenetic tree in relation to other genera of the family Xeniidae. In addition, X. flexibilis n. sp. was described from The Philippines. The findings from the current study led to the synonymizing of X. actuosa with X. sansibariana and of X. plicata with X. blumi. Overall, the study has re-described the types of 17 species considered to be valid based on morphological characters. Validation of the morphological features of original type material along with species-diagnostic genetic characters are required in order to facilitate our ability to correctly employ Latin binomials, both in phylogenetic studies and in any other biological surveys.

 

References

  1. Aharonovich, D. & Benayahu, Y. (2011) Microstructure of octocoral sclerites for diagnosis of taxonomic features. Marine Biodiversity, 42, 173–177.

    https://doi.org/10.1007/s12526-011-0102-3

    Alderslade, P. (2001) Six new genera and six new species of soft corals, and some proposed familial and subfamilial changes within the Alcyonacea (Coelenterata: Octocorallia). Bulletin of the Biological Society of Washington, 10, 15–65.

    Alderslade, P. & McFadden, C.S. (2007) Pinnule-less polyps: a new genus and new species of Indo-Pacific Clavulariidae and validation of the soft coral genus Acrossota and the family Acrossotidae (Coelenterata: Octocorallia). Zootaxa, 1400 (1), 27–44.

    https://doi.org/10.11646/zootaxa.1400.1.2

    Ashworth, J.H. (1899) The structure of Xenia hicksoni nov. sp. with some observations on Heteroxenia elizabethae Kölliker. Quarterly Journal of Microscopical Sciences, New Series, 42, 245–304.

    Ashworth, J.H. (1900) Report on the Xeniidae collected by Dr. Willey. In: Zoological results based on material from New Britain, New Guinea, Loyalty Islands and elsewhere, collected by Dr. A. Willey during the years 1895–1897. Cambridge University Press, Cambridge, pp. 509–530.

    Benayahu, Y. (1990) Xeniidae (Cnidaria: Octocorallia) from the Red Sea with description of a new species. Zoologische Mededelingen Leiden, 64, 113–120.

    Benayahu, Y. (1993) Corals of the south-west Indian Ocean, 1. Alcyonacea from Sodwana Bay, South Africa. Oceanographic Research Institute, Durban (ORI) Investigational Report, 69, 1–15.

    Benayahu, Y. (2002) Soft corals (Octocorallia: Alcyonacea) of the southern Ryukyu Archipelago: The families Tubiporidae, Clavulariidae, Alcyoniidae and Briareidae. Galaxea JSRS, 4, 1–21.

    https://doi.org/10.3755/jcrs.2002.11

    Benayahu, Y. (2010) A new genus of a soft coral of the family Xeniidae (Cnidaria: Octocorallia) from Japan. Galaxea JSRS, 12, 53–64.

    https://doi.org/10.3755/galaxea.12.53

    Benayahu, Y., Tesfamariam, Y. & Schleyer, M.H. (2002) Soft corals (Octocorallia, Alcyonacea) of the southern Red Sea. Israel Journal of Zoology, 48, 273–283.

    https://doi.org/10.1560/HYC7-TUTH-EV77-BEUQ

    Benayahu, Y., van Ofwegen, L.P. & McFadden, C.S. (2018) Evaluating the genus Cespitularia Milne Edwards & Haime, 1850, with descriptions of new genera of the family Xeniidae (Octocorallia, Alcyonacea). ZooKeys, 754, 63–101.

    https://doi.org/10.3897/zookeys.754.23368

    Bourne, G.C. (1894) On the structure and affinities of Heliopora coerulea, Pallas. With some observations on the structure of Xenia and Heteroxenia. Philosophical Transactions of Royal Society (B), 186, 455–483.

    Darriba, D. Taboada, G.L., Doallo, R. & Posada, D. (2012) jModelTest 2: more models, new heuristics and parallel computing. Nature Methods, 9, 772.

    https://doi.org/10.1038/nmeth.2109

    Ehrenberg, C. (1828) Pars zoological II.Animalia evertebrata exclusis insectis. In: Hemprich, F. & Ehrenberg, C.G. (Eds.), Symbolae physicae, seu icones et descriptiones corporum naturalium novorum aut minus cognitorum quae ex itineribus per Libyam, Aegyptium, Nubiam, Dongalam, Syriam, Arabiam et Habessiniam. Ex Officina Academica, venditur a Mittlero, Berolini, 152 pp.

    Ehrenberg, G.C. (1834) Beitrage zur physiologischen Kenntniss der Corallenthiere im allgemeinen, und besonders des Rothen Meeres, Nebst einem Versuche zur physiologischen Systematik derselben. Abhandlungen der Königlichen Akademie der Wissenschaften zu Berlin, 1, 225–380.

    Fabricius, K.E. (1998) Reef invasions by soft corals: which taxa and which habitats? Proceedings of the Australian Coral Reef Society 75th Anniversary Conference, Heron Island, Great Barrier Reef, October 1997. School of Marine Science, The University of Queensland, Brisbane, pp. 77–90.

    Fabricius, K.E. & Alderslade, P. (2001) Soft Corals and Sea Fans: A Comprehensive Guide to the Tropical Shallow-Water Genera of the Central-West Pacific, the Indian Ocean and the Red Sea. Townsville, Australian Institute of Marine Science, pp. 264.

    Gohar, H.A.F. (1940) Studies on the Xeniidae of the Red Sea. Their ecology, physiology, taxonomy and phylogeny. Publications of the Marine Biological Station, Ghardaqa, Red Sea, 2, 27–118.

    Gravier, C. (1908) Recherches sur quelques Alcyonaires du Golfe de Tadjourah. Archives de zoologie expérimentale et générale, Series 4, 8 (2), 179–266, pls. 5–11.

    Halász, A., McFadden, C.S., Aharonovich, D., Toonen, R.J. & Benayahu, Y. (2014) A revision of the octocoral genus Ovabunda Alderslade, 2001 (Anthozoa, Octocorallia, Xeniidae). ZooKeys, 373, 1–41.

    https://doi.org/10.3897/zookeys.373.6511

    Halász, A., Reynolds, A.M., McFadden, C.S., Toonen, R.J. & Benayahu, Y. (2015) Could polyp pulsation be the key to species boundaries in the genus Ovabunda (Octocorallia: Alcyonacea: Xeniidae)? Hydrobiologia, 759, 95–107.

    https://doi.org/10.1007/s10750-014-2106-z

    Haverkort-Yeh, R.D., McFadden, C.S., Benayahu, Y., Berumen, M., Halász, A. & Toonen, R.J. (2013) A taxonomic survey of Saudi Arabian Red Sea octocorals (Cnidaria: Alcyonacea). Marine Biodiversity, 43, 279–291.

    https://doi.org/10.1007/s12526-013-0157-4

    Hickson, S.J. (1903) The Alcyonaria of the Maldives. The genera Xenia, Telesto, Spongodes, Nephthya, Paraspongodes, Chironephthya, Siphonogorgia, Solenocaulon, and Melithodes. In: The Fauna and Geography of the Maldives and Lacadive Archipelago, II (Part 1). pp. 473–502, pls. XXI and XXVII.

    Hickson, S.J. (1931a) The alcyonarian family Xeniidae, with a revision of the genera and species. Great Barrier Reef Expedition, 1931, 137–179.

    Hickson, S.J. (1931b) Three species of Alcyonaria from the Gulf of Manaar. Bulletin of the Madras Government Museum. Natural History, 1, 79–89.

    Imahara, Y. (1996). Previously recorded octocorals from Japan and adjacent seas. Precious Corals & Octocoral Research, 4, 17–44.

    Janes, M.P. (2008) A study of the Xeniidae (Octocorallia, Alcyonacea) collected on the "Tyro" expedition to the Seychelles with a description of a new genus and species. Zoologische Mededelingen Leiden, 82, 599–626.

    Janes, M.P. (2013) Distribution and diversity of the soft coral family Xeniidae (Coelenterata: Octocorallia) in Lembeh Strait, Indonesia. Galaxea JCRS, 15 (Supplement), 195–200.

    https://doi.org/10.3755/galaxea.15.195

    Janes, M.P., McFadden, C.S. & Chanmethakul, T. (2014) A new species of Ovabunda (Octocorallia, Xeniidae) from the Andaman Sea, Thailand with notes on the biogeography of this genus. Zookeys, 431, 1–17.

    https://doi.org/10.3897/zookeys.431.7751

    Kahng, S.E, Benayahu, Y. & Lasker H.R. (2011) Sexual reproduction in octocorals. Marine Ecology Progress Series, 443, 265–283.

    https://doi.org/10.3354/meps09414

    Klunzinger, C.B. (1877) Die Korallthiere des Rothen Meeres. 1: Die Alcyonarien und Malacodermen. Gutmann, Berlin, 98 pp.

    Kölliker, A. (1874) Die Pennatulide Umbellula und zwei neue Typen der Alcyonarien. Festschrift zur Feier des 25-Jährigen Bestehens der Physikalisch-Medicinischen Gesellschaft. Stahl, Würzburg, 23 pp. [pp. 5–23]

    Kozlov, A. (2018) amkozlov/raxml-ng: RAxML-NG v0.6.0 BETA (Version 0.6.0). Zenodo, Genève. [program]

    https://doi.org/10.5281/zenodo.1291478

    Kremien, M., Shavit, U., Mass, T., Genin, A. (2013) Benefit of pulsation in soft corals. Proceedings of the National Academy of Sciences, 110, 8978–8983.

    https://doi.org/10.1073/pnas.1301826110

    Kükenthal, W. (1902) Versuch einer Revision der Alcyonarien: I. Die Familie der Xeniiden. Zoologisches Jahrbuch, Abteilung für systematic, Geographie und Biologie der Tiere, 15, 635–662.

    https://doi.org/10.5962/bhl.part.19040

    Kükenthal, W. (1909) Diagnosen neuer Alcyonarien. Zoologischen Anzeiger, Bd XXXV, 1–816.

    Kükenthal, W. (1911) Alcyonarien von den Aru- und Kei-Inseln nach den sammlungen von Dr H. Merton.—Abhandlungen Senckenbergische Naturforschende Gesellschaft. Senckenb. Frankfurt, 33, 307–346, figs. 1–83, pls. 19–23.

    Kükenthal, W. (1913) Alcyonaria des Roten Meeres. In: Expeditionen S.M. Schiff “pola” in das Rote Meer. Zoologische Ergebnisse, 29, pp. 1–33.

    Lamarck, M.C. (1816) Les Caracteres Generaux et Particuliers de ces Animaux, leur Distribution, leur Classes, leurs Familles, leurs Genres, et la Citation des Principales Especes qui s'y Rapportent." Histoire Naturelle des Animaux sans Vertebres, 2, 388–421.

    Lamouroux, J.V.F. (1812) Memoires sur la montee et sur une nouvelle classification des polypiers coralligenes non entierement pierreux. Nouveau Bulletin Society Philomath, Paris, 1812, 181–188.

    Mantellato, M.C., Silva, A.G., Louzada, T.S., McFadden, C.S. & Creed, J.C. (2018) Invasion of aquarium origin soft corals on a tropical rocky reef in the southwest Atlantic, Brazil. Marine Pollution Bulletin, 130, 84–94.

    https://doi.org/10.1016/j.marpolbul.2018.03.014

    May, W. (1898) Osafrikanischen Alcyoneen des Hamburger Museum. Mittheilungen aus dem Naturhistorischen Musem, 15, 1–38.

    May, W. (1899) Beiträge zur Systematik und Chorologie der Alcyonaceen. Jenaische Zeitsch. Naturwiss, 33 (Neue Folge 26), 1–180.

    McCormack, J.E., Tsai, W.L.E. & Faircloth, B.C. (2016) Sequence capture of ultraconserved elements from bird museum specimens. Molecular Ecology Resources, 16, 1189–1203.

    https://doi.org/10.1111/1755-0998.12466

    McFadden, C.S., Benayahu, Y., Pante, E., Thoma, J.N., Nevarez, P.A. & France, S.C. (2011) Limitations of mitochondrial gene barcoding in Octocorallia. Molecular Ecology Resources, 11, 19–31.

    https://doi.org/10.1111/j.1755-0998.2010.02875.x

    McFadden, C.S., Reynolds, A.M. & Janes, M.P. (2014a) DNA barcoding of xeniid soft corals (Octocorallia: Alcyonacea: Xeniidae) from Indonesia: species richness and phylogenetic relationships. Systematics and Biodiversity, 12, 247–257.

    https://doi.org/10.1080/14772000.2014.902866

    McFadden, C.S., Brown, A.S., Brayton, C., Hunt, C.B. & van Ofwegen, L.P. (2014b) Application of DNA barcoding in biodiversity studies of shallow-water octocorals: molecular proxies agree with morphological estimates of species richness in Palau. Coral Reefs, 33, 275–286.

    https://doi.org/10.1007/s00338-013-1123-0

    McFadden, C.S., Haverkort-Yeh, R, Reynolds, A.M., Halász, A., Quattrini, A.M., Forsman, Z.H., Benayahu, Y. & Toonen, R.J. (2017) Species boundaries in the absence of morphological, ecological or geographical differentiation in the Red Sea octocoral genus Ovabunda (Alcyonacea: Xeniidae). Molecular Phylogenetics and Evolution, 112, 174–184.

    https://doi.org/10.1016/j.ympev.2017.04.025

    McFadden, C.S., Gonzalez, A., Imada, R., Shi, S.S., Hong, P., Ekins, M. & Benayahu, Y. (2019) Molecular operational taxonomic units reveal restricted geographic ranges and regional endemism in the Indo-Pacific soft coral family Xeniidae. Journal of Biogeography, 46, 992–1006.

    https://doi.org/10.1111/jbi.13543

    Milne Edwards, H. & Haime, J. (1850) A monograph of the British fossil corals – Part I: Introduction, corals from the Tertiary and Cretaceous formation. Palaeontographical Society, London, 71 pp.

    Reinicke, G.B. (1995) Xeniidae des Roten Meeres (Octocorallia, Alcyonacea). Beiträge zur Systematik und Ökologie. Essener Ökologische Schriften, 6, 1–168.

    Reinicke, G.B. (1997) Xeniidae (Coelenterata: Octocorallia) of the Red Sea, with descriptions of six new species of Xenia. Fauna of Saudi Arabia, 16, 5–62.

    Ronquist, F., Teslenko, M., van der Mark, P., Ayres, D., Darling, A., Höhna, S., Larget, B., Liu, L., Suchard, M.A. & Huelsenbeck, J.P. (2012) MrBayes 3.2: Efficient Bayesian phylogenetic inference and model choice across a large model space. Systematic Biology, 61, 539–542.

    https://doi.org/10.1093/sysbio/sys029

    Roxas, H.A. (1933) Philippine Alcyonaria, the Families Cornulariidae and Xeniidae. The Philippine Journal of Science, 50, 49–108.

    Ruiz Allais, J.P., Halász, A., McFadden, C.S., Amaro, M.E. & Benayahu, Y. (2014) The first incidence of an alien soft coral of the family Xeniidae in the Caribbean, an invasion in eastern Venezuelan coral communities. Coral Reefs, 33, 287.

    https://doi.org/10.1007/s00338-013-1122-1

    Savigny, J.C. (1817) Déscription de l'Égypte ou recueil des observations et des recherches qui ont été faites en Égypte pendant l'expédition de l'Armée Française. Atlas. Histoire naturelle, Paris, 244 pls.

    Schenk, A. (1896) Clavulariiden, Xeniiden und Alcyoniiden von Ternate. Abhandlungen der Senkenbergischen Naturforschenden Gesellschaft, 23, 40–80.

    Shoham, E & Benayahu, Y. (2017) Higher species richness of octocorals in the upper mesophotic zone in Eilat (Gulf of Aqaba) compared to shallower reef zones. Coral Reefs, 36, 71–81.

    https://doi.org/10.1007/s00338-016-1528-7

    Tilot, V., Leujak, W., Ormond, R.F.G., Ashworth, J.A. & Mab-Rouk, A. (2008) Monitoring of South Sinai coral reefs: influence of natural and anthropogenic factors. Aquatic Conservation: Marine and Freshwater Ecosystems, 18, 1109–1126.

    https://doi.org/10.1002/aqc.942

    Tixier-Durivault, A. (1966) Octocoralliaires. Faune de Madagascar, 21, 1–456.

    Thomson, J.A. & Henderson, W.D. (1905) Report on the Alcyonaria collected by Professor Herdman at Ceylon, in 1902. Ceylon Pearl Oyster Fisheries supplementary reports, 20, 269–328.

    Thomson, J.A. & Henderson, W.D. (1906) Alcyonacean from Zanzibar, the Marine Fauna of Zanzibar and British East Africa from Collections made by Cyril Crossland in the years 1901-1902. Alcyonaria. Proceedings of the Zoological Society of London, 393–44.

    Thomson, M.A. & McQueen, J.M. (1907) Report on the Marine Biology of the Sudanese Red Sea.—VIII. The Alcyonarians. Journal of The Linnaean Society of London, 35, 48–74.

    Thomson, J.A. & Dean, L.M.I. (1931) The Alcyonacea of the Siboga expedition: with an addendum to the Gorgonacea. Siboga Expedition Monograph, 13d, 1–227, 28 pls.

    Utinomi, H. (1950) Some Xeniid Alcyonarians from Japan and Adjacent Localities. Publications of the Seto Marine Biological Laboratory, 1, 7–17.

    https://doi.org/10.5134/174440

    Utinomi, H. (1955) Two new species of Xenia from Kusimoto (Coelenterata, Alcyonaria). Publications of the Seto Marine Biological Laboratory, 4, 263–267.

    https://doi.org/10.5134/174522

    Utinomi, H. (1977) Shallow-water octocorals of the Ryukyu Archipelago (Part II). Sesoko Marine Science Laboratory Technical Report, 5, 1—11.

    Verseveldt, J. (1971) Octocorallia from North-Western Madagascar (Part II). Zoologische Verhandelingen, Leiden, 117, 1–73.

    Verseveldt, J. & Tursch, A. (1979) Octocorallia from the Bismarck Sea, Part 1. Zoologische Mededelingen Leiden, 11, 1–25.

    Verseveldt, J. & Cohen, J. (1971) Some new species of Octocorallia from the Gulf of Eilat (Red Sea). Israel Journal of Zoology, 20, 53–-67.

    Verseveldt, J. & Tursch, A. (1979) Octocorallia from the Bismarck Sea, Part 1. Zoologische Mededelingen Leiden, 11, 1–25.

    Verseveldt, J. (1960) Biological results of the Snellius-Expedition XX. Octocorallia from the Malay Archipelago (Part 1). Temminckia, 10, 209–251.

    Verseveldt, J. (1965) Report on the Octocorallia (Stolonifera and Alcyonacea) of the Israel South Red Sea Expedition 1962, with notes on other collections from the Red Sea. Fishery Research Station Haifa Bulletin, 40, 28–48.

    Verseveldt, J. (1970) Reports of some Octocorallia (Alcyonacea) from the northern Red Sea. Israel Journal of Zoology, 19, 209–229.

    Verseveldt, J. (1971) Octocorallia from North-Western Madagascar (Part II). Zoologische Verhandelingen Leiden, 11, 1–73.

    Verseveldt, J. (1974a) Alcyonacea (Octocorallia) from the Red Sea, with a discussion of a new Sinularia species from Ceylon. Israel Journal of Zoology, 23, 1–37.

    Verseveldt, J. (1974b) Octocorallia from New Caledonia. Zoologische Mededelingen Leiden, 48, 96–122.

    Wild, C. & Naumann, M.S. (2013) Effect of active water movement on energy and nutrient acquisition in coral reef-associated benthic organisms. Proceedings of the National Academy of Sciences, 110, 8767–8768.

    https://doi.org/10.1073/pnas.1306839110

    Wood, E. & Dipper, F. (2008) What is the future for extensive areas of reefs impacted by fish blasting and coral bleaching and now dominated by soft corals: a case study from Malaysia. Proceeding of the 11th International Coral Reef Symposium, Fort Lauderdale, Florida, 7–11 July 2008 (Session number 12.24), 403–407.