Abstract
A large collection of bioeroding sponges was obtained from the following reefs of the Central Great Barrier Reef (GBR), Australia: Myrmidon, John Brewer, Rib and Pandora Reefs, and Pelorus, Orpheus, Fantôme, Great Palm, Acheron and Magnetic Islands. As many descriptive characters as possible were used including skeleton and tissue characters, but also field observationsin situ and bioerosion traces. Bioerosion traces are very similar between species; nevertheless, they yield extra information on genus level. The following sponges are described in detail:Cliona tinctoria sp. nov.,Cliona orientalis, new record for the GBR,Pione caesia sp. nov., incertae sedis,Cliothosa hancocki, new record for the GBR,Zyzzya criceta sp. nov. Descriptions of selected characters of two previously described GBR bioeroding sponges,Cliona celata andAka mucosa, are amended.C. orientalis belongs into a species group previously named as “Cliona viridis complex”, species of which are difficult to discern from each other.C. orientalis can be recognized by its spiraster morphology, i.e. by their multisplit actines along the convex side of a spiraling spiraster shaft. Summarizing tables with descriptive characters for all described species and for species of the “Cliona viridis complex” are given.
Similar content being viewed by others
Abbreviations
- actine:
-
subordinate ray branching off the main axis of the spicule, usually in the form of spines
- α-form:
-
papillate first stage in a series of growth forms in bio-eroding sponges: most of the sponge tissue is hidden within the substrate; the sponge is visible on the surface with papillae only
- acantho:
-
with spines
- axial thread:
-
organic matrix around which demosponges deposit silica to form spicules
- β-form:
-
encrusting second stage in a series of growth forms in bioeroding sponges: the sponge tissue covers the substrate surface in a +/-contiguous veneer
- choanocyte:
-
collar-cell with microvilli and flagellum, feeding cell and smallest unit pumping water through the sponge
- choanosome:
-
internal tissue, which contains choanocytes
- diactine:
-
rod-like spicules with symmetrical ends, e.g. tylotes, oxeas, strongyles
- ectosome:
-
unicellular external surface layer
- fistule:
-
stalked in- or exhalant structure
- fusiform:
-
gradually tapering
- γ-form:
-
massive third stage in a series of growth forms in bioeroding sponges: the sponge has removed all of the calcareous substrate which it previously inhabited and has become free-living
- halichondroid:
-
criss-crossed, irregular spicule arrangement
- hastate:
-
abruptly tapering to a point
- hispid:
-
condition of spicules piercing the ectosome
- osculum:
-
exhalant opening
- ostium:
-
inhalant opening
- papilla:
-
localised area on the sponge surface with in- or exhalant openings; in a bioeroding sponge: roughly circular areas of tissue penetrating the substrate and connecting the sponge with the surrounding water
- sponge chips:
-
small lentil-shaped calcareous particles of 10–100 (xm in diameter, which bioeroding sponges remove from the substrate they live in; they are characterised by a smooth, rounded bottom and a faceted top pitted from previously removed chips
- spongin fibre:
-
threads of organic skeleton
References
Acker, K. L. &Risk, M. (1985): Substrate destruction and sediment production by the boring spongeCliona caribbaea on Grand Cayman Island. — J. sedim. Petrol.,55:705–711.
Alargaswami, K. &Chellam, A. (1976): On fouling and boring organisms and mortality of pearl oysters in the farm at Veppalodai, Gulf of Mannar. — Indian J. Fish.,23 (1–2): 10–22.
Barbieri, M. &Bavestrello, G. &Sarà, M. (1995): Morphological and ecological differences in two electrophoretically detected species ofCliona (Porifera: Demospongiae). — Biol. J. Linn. Soc.,54:193–200.
Bavestrello, G. &Calcinai, B. &Cerrano, C. &Pansini, M. &Sarà, M. (1996): The taxonomic status of some Mediterranean clionids (Porifera: Demospongiae) according to morphological and genetic characters. — Bull. Inst. roy. Sci. natur. Belgique,66, suppl.:185–195.
Bergman, K. M. (1983): The distribution and ecological significance of the boring spongeCliona viridis on the Great Barrier Reef, Australia. — Unpublished MSc thesis, McMaster University: 69 pp.
Bergquist, P. R. (1965): The sponges of Micronesia, part 1. The Palau Archipelago. — Pac. Sci.,19 (2): 123–204.
Bromley, R. G. (1994): The palaeoecology of bioerosion. — In:Donovan, S. K. [Ed.]: The paleobiology of trace fossils: 134–154; Chichester, New York, Brisbane, Toronto, Singapore (John Wiley & Sons).
Carter, H.J. (1879): Contribution to our knowledge of the Spongida. — Ann. Mag. natur. Hist.,5 (3): 284–304, 343–360, 8 plates.
—— —— —— (1882): Some sponges of the West Indies and Acapulco in the Free Liverpool Museum described, with general and classificatory remarks. — Ann. Mag. natur. Hist.,9 (5): 266–301; 346–368, pls. 11–12.
Dendy, A. (1922): Report of the Sigmatotetraxonida collected by H.M.S.Sealark in the Indian Ocean. — In: Report of the Percy Sladen Trust Expedition to the Indian Ocean in 1905. Vol. 7. — Trans. Linn. Soc. Lond. Zool.,18: 1–164, pls. 1–18.
Edinger, E. N. &Risk, M. J. (1997): Sponge borehole size as a relative measure of bioerosion and paleoproductivity. — Lethaia,29(3): 275–286.
English, S. &Wilkinson, C. &Baker, V. (1997): Survey Manual for Tropical Marine Resources. — 2nd edn., Chapter 2.2: Manta tow survey: 14–33; Townsville (Publication of the Australian Institute of Marine Science).
Fromont, J. (1993): Descriptions of species of the Haplosclerida (Porifera: Demospongiae) occurring in tropical waters of the Great Barrier Reef. — The Beagle, Rec. Northern Territory Mus. Arts Sci.,10 (1): 7–40.
Grant, R. E. (1826): Notice of a new zoophyte (Cliona celata, Gr.) from the Firth of Forth. — Edinburgh new phil. J.,1: 78–81.
Gray, J. E. (1867): Notes on the arrangement of sponges, with the description of some new genera. — Proc. zool. Soc. London,1867: 492–558.
Hancock, A. (1849): On the excavating powers of certain sponges belonging to the genusCliona; with descriptions of several new species, and an allied generic form. — Ann. Mag. natur. Hist.,2 (3): 321–348.
Hentschel, E. (1923): Erste Unterabteilung der Metazoa: Parazoa. — In:Kükenthal, W. &Krumbach, T. [Eds.]: Handbuch der Zoologie,1: 307–418; Leipzig, Berlin (Walter de Gruyter).
Hoeksema, B. W. (1983): Excavation patterns and spicule dimensions of the boring spongeCliona celata from the SW Netherlands. — Senckenbergiana mark.,15: 55–85.
Hooper, J. N. A. &Krasochin, V. B. (1989): Redescription of the burrowing spongeZyzzya massalis (DENDY) from the Seychelles and Houtman-Abrolhos Islands. — The Beagle, Rec. Northern Territory Mus. Arts Sci.,6: 133–140.
Hooper, J. N. A. &Wiedenmayer, F. (1994): Porifera. — In:Walton, D.W. [Ed.]: Zoological Catalogue of Australia,12: 632 pp.; Canberra (Australian Government Printing Service).
Kelly-Borges, M. &Vacelet, J. (1998): Sponges of the New Caledonian Lagoon: Class Demospongiae, order Hadromerida. — In:Lévi: C. [Ed.]: Sponges of the New Caledonian Lagoon: 87–93; Paris (ORSTOM).
Laubenfels, M. W. de (1936): A discussion of the sponge fauna of the Dry Tortugas in particular, and the West Indies in general, with material for a revision of the families and orders of the Porifera. — Carnegie Inst. Washington Publ.,467, (Papers Tortugas Lab., 30): 1–225.
—— —— —— (1954): The sponges of the West-Central Pacific. — Scient. Invest. Micronesia,18: 1–306.
McGeachy, J. K. &Stearn, C. W. (1976): Boring by macro-organisms in the coralMontastrea annularis on Barbados reefs. — Int. Rev. ges. Hydrobiol.,61 (6): 715–745.
Pang, R. K. (1973): The systematics of some Jamaican excavating sponges (Porifera). — Postula Peabody Mus. Yale Univ.,161:1–75.
Ridley, S. O. (1881): Account of the Spongida collected during the survey of H.M.S. ‘Alert’ in the Straits of Magellan and on the coast of Patagonia. — Proc. zool. Soc. London,1881: 107–137, 140–141, pls. 10–11.
Rosell, D. &Uriz, M.-J. (1991):Cliona viridis (Schmidt, 1862) andCliona nigricans (Schmidt, 1826) (Porifera, Hadromerida): evidence which shows they are the same species. — Ophelia,33 (1): 45–53.
Rosell, D. &Uriz, M.-J. (1997): Phylogenetic relationships within the excavating Hadromerida (Porifera), with a systematic revision. — Cladistics,13: 349–366.
Rützler, K. (1973): Clionid sponges from the coast of Tunisia. — Bull. Inst. Océanogr. Pêche, Salammbô,2 (4): 623–636.
—— —— —— (1974): The burrowing sponges of Bermuda. — Smithsonian Contrib. Zool.,165: 1–32.
Sammarco, P. W (1996): Comments on coral reef regeneration, bioerosion, biogeography, and chemical ecology: future directions. — J. exp. mar. Biol. Ecol.,200: 135–168.
Sammarco, P. W. &Risk, M.J. &Rose, C. (1987): Effects of grazing and damselfish territoriality on internal bioerosion of dead corals: indirect effects. — J. exp. mar. Biol. Ecol.,112: 185–199.
Schmidt, O. (1862): Die Spongien des adriatischen Meeres. —88 pp., 7 pls.; Leipzig (W. Engelmann).
Schönberg, C. H. L. (1999): An improved method of tissue digestion for spicule mounts in sponge taxonomy. — Mem. Queensland Mus.,44: 526–533.
Schönberg, C. H. L. &Barthel, D. (1997): Inorganic skeleton of the demospongeHalkhondriapanicea. Seasonality in spicule production in the Baltic Sea. — Mar. Biol.,130: 133–140.
—— —— —— (1998): Unreliability of Demosponge skeletal characters: the example ofHalkhondria panicea. — In:Watanabe, Y. &Susetani, N. [Eds.]: Sponge Sciences. Multidisciplinary Perspectives: 41–53; Tokyo, Berlin, Heidelberg, New York (Springer).
Schönberg, C. H. L. &Wilkinson, C. R. (submitted): Induced infestation of Great Barrier Reef corals by a clionid bioeroding sponge.
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. — Bull. mar. Sci.,30 (2): 475–508.
Soest, R. W. M., van (1980): Marine sponges from Curaçao and other Caribbean localities. Part 2. Haplosclerida. — Studies of the fauna of Curaçao and other Caribbean Islands,191: 1–173.
Sullivan, B., Faulkner, D. J., Webb, L. (1983): Siphonodictine, a metabolite of the burrowing spongeSiphonodktyon sp. that inhibits coral growth. — Science,221: 1175–1176.
Thiele, J. (1898): Studien über pazifische Spongien. 1. Heft. — Zoologica,24 (1): 1–72, 8 pls.
—— —— —— (1900): Kieselschwämme von Ternate 1. — Abh. Senckenb. naturforsch. Ges.,25 (4): 19–80, pls. 2–3.
Thomas, P. A. (1969): Boring sponges of the reefs of Gulf of Mannar and Palk Bay. — Am. Zoologist,9: 333–362.
—— —— —— (1979): Boring sponges destructive to economically important molluscan beds and coral reefs in Indian seas. — Indian J. Fish.,26 (1–2): 163–200.
Topsent, E. (printed 1887, issued 1888): Contribution à l’étude des Clionides. — Archs. Zool. exp. gén., (5 suppl.): 1–166, pls. 1–7.
—— —— —— (1898): Sur les Hadromerina de l’Adriatique. — Bull. Soc. Sci. Med. l’Ouest,7: 117–130.
—— —— —— (1900): Étude monographique des spongiaires de France. III., Monaxonida (Hadromerida). — Archs. Zool. Exp. Gén.,3: 1–331, pls. 1–8.
—— —— —— (1905):Cliothosa seurati, clionide nouvelle des Iles Gambier. — Bull. Mus. nat. Hist, natur.,2: 94–96.
—— —— —— (1928): Nouvelle étude sur lesCliothosa. — Bull. Inst. océanogr. Monaco,525: 1–7.
—— —— —— (1932): Notes sur les Clionides. — Archs. Zool. exp. gén.,74: 549–579.
Wesche, S. J. &Adlard, R. D. &Hooper, J. N. A. (1997): The first incidence of clionid sponges (Porifera) from the Sydney rock oysterSaccostrea commercialh (Iredale and Roughley, 1933). — Aquaculture,157: 173–180.
Volz, P. (1939): Die Bohrschwämme (Clioniden) der Adria. —Thalassia,3 (2): 1–64, 5 plates.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Schönberg, C.H.L. 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, 161–221 (2000). https://doi.org/10.1007/BF03042965
Received:
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF03042965