Skip to main content Skip to main navigation menu Skip to site footer
Type: Articles
Published: 2011-08-31
Page range: 58–68
Abstract views: 34
PDF downloaded: 2

Phylogenetic position and systematics of the bryozoan Tennysonia: further evidence for convergence and plasticity in skeletal morphology among cyclostome bryozoans

Paul D Taylor, Department of Palaeontology, Natural History Museum, London SW7 5BD
Andrea Waeschenbach, Department of Zoology, Natural History Museum, London SW7 5BD
Wayne K Florence, Natural History Department, Iziko South African Museum, PO Box 61, Cape Town, 8000 South Africa
Bryozoa Cyclostomata taxonomy molecular phylogeny convergent evolution suspension feeding

Abstract

Cyclostomes are an ancient order of marine bryozoans with a fossil record extending back over 450 million years into the Ordovician. The current taxonomy of both fossil and modern cyclostomes is based almost entirely on skeletal characters but newly available sequence data are beginning to reveal rampant convergence of some of them. An unusual combination of skeletal characters in the South African cyclostome Tennysonia stellata Busk, 1867 has made this genus difficult to classify. After revising the taxonomy of Tennysonia, we use almost complete small and large ribosomal subunits (ssrDNA and lsrDNA) to demonstrate its close phylogenetic affinity with the tubuliporine genus Idmidronea (family Tubuliporidae) with which it shares a similar colony form, despite the presence of skeletally open kenozooids between the autozooids, reminiscent of cerioporine cyclostomes such as Favosipora. The spaces between the transverse rows of autozooidal apertures, occupied by exterior autozooidal frontal walls in Idmidronea, are occupied by kenozooids in Tennysonia, thereby maintaining the spacing between lophophores necessary for efficient suspension feeding. Sympatric colonies of T. stellata with narrow and broad branches are identical or almost identical on the basis of ssrDNA and lsrDNA sequences, respectively, suggesting within-species ecophenotypic plasticity in this aspect of colony form.

References

  1. Borg, F. (1926) Studies on Recent cyclostomatous Bryozoa. Zoologiska Bidrag fran Uppsala, 10, 181–507.

    Busk, G. (1852) An account of the Polyzoa, and sertularian zoophytes, collected in the voyage of the Rattlesnake, on the coasts of Australia and the Louisiade Archipelago, &c. In: MacGillivray, J. (ed.), Narrative of the Voyage of H.M.S. Rattlesnake, commanded by the late Captain Owen Stanley ... 1846–1850; including discoveries and surveys in New Guinea, the Louisiade Archipelago, etc., to which is added the account of Mr E. B. Kennedy's expedition for the exploration of the Cape York Peninsula [including Mr W. Carron's narrative] Volume 1. W. Boone, London. Pp. 343–402, pl. 1.

    Busk, G. (1859) A Monograph of the Fossil Polyzoa of the Crag. The Palaeontographical Society, London. 136 p., 22 pls.

    Busk, G. (1867) Zoophytology. Quarterly Journal of Microscopical Science, 7, 241–243.

    Busk, G. (1875) Catalogue of the Marine Polyzoa in the Collection of the British Museum. Part III. Cyclostomata. Trustees of the British Museum, London. 41 p., 34 pls.

    Cook, P.L. (1977) Colony-wide water currents in living Bryozoa, Cahiers de Biologie Marine, 18, 31–47.

    Gómez, A., Wright, P.J., Lunt, D.H., Cancino, J.M., Carvalho, G.R. & Hughes, R.N. (2007) Mating trials validate the use of DNA barcoding to reveal cryptic speciation of a marine bryozoan taxon. Proceedings of the Royal Society, Series B, 274, 199–207.

    Harmelin, J.-G. (1973) Morphological variations and ecology of the Recent cyclostome bryozoan "Idmonea" atlantica from the Mediterranean. In Larwood, G.P. (ed.), Living and Fossil Bryozoa. Academic Press, London. Pp. 95–106.

    Hinds, R.W. (1975) Growth mode and homeomorphism in cyclostome Bryozoa. Journal of Paleontology, 49, 875–910.

    Jackson, J.B.C. & Cheetham, A.H. (1990) Evolutionary significance of morphospecies: a test with cheilostome Bryozoa. Science, 248, 579–583.

    Jackson, J.B.C. & Cheetham, A.H. (1994) Phylogeny reconstruction and the tempo of speciation in cheilostome Bryozoa. Paleobiology, 20, 407–423.

    Johnston, G. (1838) A history of the British Zoophytes. W.H.Lizars, Edinburgh, London & Dublin. 341 p.

    McKinney, F.K. (1990) Feeding and associated colonial morphology in marine bryozoans. Reviews in Aquatic Sciences, 2, 255–280.

    McKinney, F.K. (1991) Colonial feeding currents of Exidmonea atlantica (Cyclostomata). Bulletin de la Société des Sciences Naturelles de l'Ouest de la France, Mémoire, HS1, 263–270.

    Milne Edwards, H. (1838) Mémoire sur les Crisies, les Hornères et plusieurs autres Polypes. Annales des Sciences Naturelles, 9, 193–238.

    Nielsen, C. & Pedersen, K.J. (1979) Cystid structure and protrusion of the polypide in Crisia (Bryozoa, Cyclostomata). Acta Zoologica (Stockholm), 60, 65–88.

    Ortmann, A.E. (1900) Synopsis of the collections of invertebrate fossils made by the Princeton Expedition to Southern Patagonia. American Journal of Science, ser. 4, 10, 368–381.

    Ostrovsky, A.N. & Taylor, P.D. (1996) Systematics of some Antarctic Idmidronea and Exidmonea (Bryozoa, Cyclostomata). Journal of Natural History, 30, 1549–1575.

    Taylor, P.D. (2000) Cyclostome systematics: phylogeny, suborders and the problem of skeletal organization. In: A. Herrera Cubilla, A. & J.B.C. Jackson (eds), Proceedings of the 11th International Bryozoology Association Conference. Smithsonian Tropical Research Institute, Balboa Republic of Panama. Pp. 87–103.

    Taylor, P.D., Schembri, P.J. & Cook, P.L. (1989) Symbiotic associations between hermit crabs and bryozoans from the Otago region, southeastern New Zealand. Journal of Natural History, 23, 1059–1085.

    Taylor, P.D. & Voigt, E. (1993) Taxonomic status of the cyclostome bryozoan genus Exidmonea, with a redescription of E. dorsata (von Hagenow) from the Upper Cretaceous. Verhandlungen des Naturwissenschaftlichen Vereins in Hamburg, 33 [for 1992], 12–130.

    Taylor, P.D. & Weedon, M.J. (2000) Skeletal ultrastructure and phylogeny of cyclostome bryozoans. Zoological Journal of the Linnean Society, 128, 337–399.

    Taylor, P.D., Kuklinski, P. & Gordon, D.P. (2007) Branch diameter and depositional depth in cyclostome bryozoans: testing a potential paleobathymetric tool. Palaios, 22, 220–224.

    Viskova, L.A. (2004) Idmoneiform Tubuliporina (Bryozoa, Stenolaemata): morphological features, problems in systematics, and new taxa. Paleontological Journal, 38, 45–59.

    Waeschenbach, A., Cox, C.C., Littlewood, D.T.J., Porter, J.S. & Taylor, P.D. (2009) First molecular estimate of cyclostome bryozoan phylogeny confirms extensive homoplasy among skeletal characters used in traditional taxonomy. Molecular Phylogenetics and Evolution, 52, 241–251.