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Type: Articles
Published: 2006-09-04
Page range: 31–47
Abstract views: 119
PDF downloaded: 5

Phyllodesmium rudmani (Mollusca: Nudibranchia: Aeolidoidea), a new solar powered species from the Indo-West Pacific with data on its symbiosis with zooxanthellae

Spezielle Zoologie, Ruhr-Universität Bochum, Universitätsstr. 150, D-44780 Bochum, Germany
Department of Invertebrate Zoology and Geology, California Academy of Sciences, 875 Howard Street, San Francisco, CA 94103, U.S.A.
Mollusca Phyllodesmium symbiosis solar powered zooxanthellae Symbiodinium Xenia photosynthesis Diving-PAM

Abstract

A new Phyllodesmium species, P. rudmani sp. nov., is described from North Sulawesi, Indonesia and from Luzon Island, the Philippines. The new species is associated with the octocoral Xenia sp. Its external morphology is similar to other Xenia associated Phyllodesmium species, except the unique morphology of the cerata, that mimic closed polyps of Xenia. The digestive glandular branching system within the cerata is similar to that of P. jakobsenae Burghardt & Wägele, 2004, a species that was found associated with the same species of Xenia and at the same locality in Indonesia as P. rudmani. The masticatory border of the jaw with a few large denticles is similar to several other species of Phyllodemium that feed on Xenia, as are the radular teeth with numerous small denticles. The lobate receptaculum seminis is similar to that described for P. magnum Rudman, 1991, whereas the remaining species have a smooth pyriform receptaculum. Behavioural notes of the new species are given and active photosynthesis due to zooxanthellae (Dinophyceae of the genus Symbiodinium) in the digestive gland was measured in situ with a Diving-PAM (Pulse Amplitude Modulated Fluorometer). Experiments with P. rudmani indicate a symbiotic relationship with zooxanthellae, at least for three weeks. These results are compared to the ones of P. jakobsenae. Histological investigation of the cerata of P. rudmani suggests relatively high efficiency of the symbiosis for the new species because of the high grade of branching of the digestive gland.

References

  1. Avila, C., Ballesteros, M., Slattery, M. & Paul, V.J. (1998) Phyllodesmium guamensis (Nudibranchia, Aeolidoidea), a new species from Guam (Micronesia). Journal of Molluscan Studies, 64, 147–160.

    Baba, K. (1949) Opisthobranchia of Sagami Bay. Iwanami Shoten, Tokyo, 194 pp.

    Baba, K. (1991) Taxonomical study on some species of the genus Phyllodesmium from Cape Muroto-misaki, Shikoku and Okinawa Province, Southern Japan (Nudibranchia: Facelinidae). Venus, 50, 109–123.

    Bergh, L.S.R. (1896) Eolidiens d’Amboine. Voyage de MM. M Bedot et C. Pictet dans l’Archipel Malais. Revue Suisse de Zoologie, 4, 385–395.

    Bergh, L.S.R. (1905) Die Opisthobranchiata. Siboga Expeditie Report, 50, 1–248.

    Burghardt, I. & Wägele, H. (2004) A new solar powered species of the genus Phyllodesmium Ehrenberg, 1831 (Mollusca: Nudibranchia: Aeolidoidea) from Indonesia with analysis of its photosynthetic activity and notes on biology. Zootaxa, 596, 1–18.

    Burghardt, I., Carvalho-Schrödl, R., Eheberg, D., Gerung, G., Kaligis, F., Mamangkey, G., Schrödl, M., Schwabe, E., Vonnemann, V. & Wägele, H. (in press) Molluscan diversity at Bunaken National Park, Sulawesi. Journal of the Zoological society Wallaceana.

    Burghardt, I., Evertsen, J., Johnsen, G. & Wägele, H. (2005) Solar powered seaslugs - Mutualistic symbiosis of aeolid Nudibranchia (Mollusca, Gastropoda, Opisthobranchia) with Symbiodinium. Symbiosis, 38, 227–250.

    Burghardt, I. & Wägele, H. (in press) Interspecific differences in the efficiency and photosynthetic characteristics of the symbiosis of “solarpowered” Nudibranchia (Mollusca: Gastropoda) with zooxanthellae. Records of the Western Australian Museum, World Mollusc Congress, Opisthobranch Symposium, Special Issue.

    Burn, R. (1962) Descriptions of Victorian nudibranchiate mollusca, with a comprehensive review of the Eolidacea. Memoirs of the National Museum, Victoria, 25, 95–128.

    Edmunds, M. (1966) Protective mechanisms in the Eolidacea (Mollusca, Nudibranchia). Journal of the Linnean Society of London, Zoology, 46, 27–71.

    Gosliner, T.M., Behrens, D.W. & Williams, G.C. (1996) Coral Reef Animals of the Indo-Pacific, Animal life from Africa to Hawai'i exclusive of the vertebrates. Sea Challengers, Monterey, 315 pp.

    Macnae, W. (1954) On some eolidacean nudibranchiate molluscs from South Africa. Annals of the Natal Museum, 13, 1–50.

    Ortiz, D.M. & Gosliner, T.M. (2003) A new species of Phyllodesmium Ehrenberg, 1831 (Mollusca, Nudibranchia) from the Tropical Indo-Pacific. Proceedings of the California Academy of Sciences, 54, 161–168.

    Risbec, J. (1928) Contribution a l’etude des nudibranches Neo-Caledoniens. Faune des Colonies Francaises, 2, 1–328.

    Rudman, W.B. (1981) The anatomy and biology of alcyonarian-feeding on aeolid opisthobranch molluscs and their development of a symbiosis with zooxanthellae. Zoological Journal of the Linnean Society, London, 72, 219–262.

    Rudman, W.B. (1991) Further studies on the taxonomy and biology of the octocoral-feeding genus Phyllodesmium Ehrenberg, 1831 (Nudibranchia, Aeolidacea). Journal of Molluscan Studies, 57, 167–203.

    Rudman, W.B. (2006) Seaslugforum. Australian Museum Sydney. Available from: http://www.seaslugforum.net/factsheet.cfm?base=phyllodsp (accessed 19 April 2006)

    Wägele, H. & Johnsen, G. (2001) Observations on the histology and photosynthetic performance of “solar-powered“ opisthobranchs (Mollusca, Gastropoda, Opisthobranchia) containing symbiotic chloroplasts or zooxanthellae. Organisms, Diversity & Evolution, 1, 193–210.