Skip to main content Skip to main navigation menu Skip to site footer
Type: Articles
Published: 2006-09-11
Page range: 1–24
Abstract views: 100
PDF downloaded: 2

Cliona minuscula, sp. nov. (Hadromerida : Clionaidae) and other bioeroding sponges that only contain tylostyles

Centre for Marine Studies, The University of Queensland, Brisbane, St. Lucia, QLD 4072, Australia; 2present address: Carl von Ossietzky Universität Oldenburg, Fakultät 5, Institut für Biologie und Umweltwissenschaften, Abteilung Zoomorphologie und Systematik, 26111 Oldenburg
Carl von Ossietzky Universität Oldenburg, Fakultät 5, Institut für Biologie und Umweltwissenschaften, Abteilung Zoomorphologie und Systematik, 26111 Oldenburg
Carl von Ossietzky Universität Oldenburg, Fakultät 5, Institut für Biologie und Umweltwissenschaften, Abteilung Zoomorphologie und Systematik, 26111 Oldenburg
Porifera Cliona minuscula new species description taxonomy faunistics

Abstract

A new bioeroding sponge belonging to the genus Cliona is described from the Australian Great Barrier Reef, Cliona minuscula, sp. nov. As the sponge lacked microscleres, comparison with existing clionaid species was difficult. We considered 15 other species of Cliona with only tylostyles: C. alderi, C. arenosa. C. caesia nov. comb., C. californiana, C. celata, C. delitrix, C. dissimilis, C. ecaudis, C. insidiosa, C. janitrix, C. kempi, C. laticavicola, C. macgeachii, C. millepunctata and C. peponaca. Characters of all species are presented in table-form to facilitate comparison during future studies. We listed additional species of Cliona that were not directly compared to the new species, because they were either invalid, insufficiently described, or they may not be obligate bioeroders. The form and dimensions of the megascleres of C. minuscula, sp. nov. indicated that it is distinct from all considered species. Its mean tylostyle dimensions were 225.3 µm length, 4.5 µm shaft width and 6.8 µm tyle width, which is comparatively small. Because other morphological features were small as well (erosion chambers, papillar diameter), this species was named C. minuscula. The species record for sponges of the genus Cliona reported from Australia is now 11.

References

  1. n Meeres. Wilhelm Engelmann, Leipzig, Germany, 88 pp.

    Schmidt, O. (1870) Grundzüge einer Spongien-Fauna des atlantischen Gebietes. Wilhelm Engelmann, Leipzig, Germany, 88 pp.

    Schönberg, C.H.L. (2000) Bioeroding sponges common to the Central Australian Great Barrier Reef: descriptions of three new species, two new records, and additions to two previously described species. Senckenbergiana maritima, 30, 162–163.

    Schönberg, C.H.L. (2001) Small-scale distribution of Great Barrier Reef bioeroding sponges in shallow water. Ophelia, 55, 39–54.

    Schönberg, C.H.L. (2002a) Substrate effects on the bioeroding demosponge Cliona orientalis. 1. Bioerosion rates. Pubblicazioni della Stazione Zoologica di Napoli: Marine Ecology, 23, 313–326.

    Schönberg, C.H.L. (2002b) Sponges of the ‘Cliona viridis complex ’—a key for species identification. Proceedings of the 9th International Coral Reef Conference, Bali, 1, 295–299.

    Schönberg, C.H.L. (2003) Substrate effects on the bioeroding demosponge Cliona orientalis. 2. Substrate colonisation and tissue growth. Pubblicazioni della Stazione Zoologica di Napoli: Marine Ecology, 24, 59–74.

    Schönberg, C.H.L. & Barthel, D. (1997) Inorganic skeleton of the demosponge Halichondria panicea. Seasonality in spicule production in the Baltic Sea. Marine Biology, 130, 133–140.

    Schönberg, C.H.L. & Barthel, D. (1998) Unreliability of demosponge skeletal characters: the example of Halichondria panicea. In: Watanabe Y. & Fusetani N. (Ed.), Sponge sciences. Multidisciplinary perspectives. Springer Verlag, Tokyo, Japan, 41–53.

    Scoffin, T.P., Stearn, C.W., Boucher, D., Frydl, P., Hawkins, C.M., Hunter, I.G. & MacGeachy, J.K. (1980) Calcium carbonate budget of a fringing reef on the west coast of Barbados. Bulletin of Marine Science, 30, 475–508.

    Sheppard, C.R.C., Spalding, M., Bradshaw, C. & Wilson, S. (2002) Erosion vs. recovery of coral reefs after 1998 El Niño: Chagos Reefs, Indian Ocean. Ambio, 31, 40–48.

    Sollas, W.J. (1878) On two new and remarkable species of Cliona. Annals and Magazine of Natural History series 5, 1, 54–67.

    Thiele, J. (1898) Studien über pazifische Spongien. 1. Japanische Demospongien. Zoologica. Original-Abhandlungen aus dem Gesammtgebiete der Zoologie, 24, 1–72, 8 pls, 1 woodcut.

    Thiele, J. (1900) Kieselschwämme von Ternate 1. Abhandlungen der Senckenbergischen naturforschenden Gesellschaft, 25, 19–80, pls 2–3.

    Topsent, E. (1888) Contribution à l’Étude des Clionides. Archives de Zoologie expérimentale et générale série 2, 5, 1–165, pls 1–7.

    Topsent, E. (1889) Cliona celata ou Cliona sulphurea? Bulletin de la Société de France, 14, 351–354.

    Topsent, E. (1891) Deuxième Contribution à l’Étude des Clionides. Archives Zoologiques Expérimentales de Géneva série 2, 9, 555–592, 1 pl.

    Topsent, E. (1898) Quelques spongiaires du Banc de Campêche et de la Pointe-a-Pître. Memoirs de la Société de Zoologie de la France, 2, 30–52.

    Topsent, E. (1900) Étude monographique des spongiaires de France. 3. Monaxonida (Hadromerina). Archives Zoologiques Expérimentales de Géneva série 3, 8, 1–331, pls. 1–8.

    Topsent, E. (1909) La coupe de Neptune, Cliona patera. Archives Zoologiques Expérimentales de Géneva série 4, 9, 69–72.

    Topsent, E. (1932) Notes sur les Clionides. Archives Zoologiques Expérimentales de Géneva, 74, 549–579.

    Uriz, M.J., Turon, X., Beccero, M. A. & Agell, G. (2003) Siliceous spicules and skeleton frameworks in sponges: origin, diversity, ultrastructural patterns, and biological functions. Microscopy Research and Technique, 62, 279–299.

    Wesche, S.J., Adlard, R.D. & Hooper, J.N.A. (1997) The first incidence of clionid sponges (Porifera) from the Sydney rock oyster Saccostrea commercialis (Iredale and Roughley, 1933). Aquaculture, 157, 173–180.