Marine Bioerosion Bibliography




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Hyellomorpha microdendritica Vogel, Golubic and Brett im oberen Obermaastricht Millelpolens. Zeitschrift geologische Wissenschaft 20:109-124.


Schönberg, C.H.L., 2000. Bioeroding sponges common to the Central Great Barrier Reef: descriptions of three new species, two new records, and additions to two previously described species. Senckenbergiana maritima 30:161-221.


Schönberg, C.H.L., 2001. Estimating the extent of endolithic tissue of a clionid Great Barrier Reef sponge. Senckenbergiana maritima 31:29-39.


Schönberg, C.H.L., 2002. Substrate effects on the bioeroding demosponge Cliona orientalis. 1. Bioerosion rates. Marine Ecology 23:313-326.


Schönberg, C.H.L., 2002. Piona lampa, a bioeroding sponge in a worm reef. Hydrobiologia 482:49-68.


Schönberg, C.H.L., 2002. Sponges of the ‘Cliona viridis complex’ – a key for species identification. Proc. 9th International Coral Reef Symposium Bali 2000 1:295-299.


Schönberg, C.H.L., 2003. Substrate effects on the bioeroding Demosponge Cliona orientalis. 2. Substrate colonisation and tissue growth. Marine Ecology 24:59-74.


Schönberg, C.H.L., 2003. Errata. Marine Ecology 24:75-78.


Schönberg C.H.L., 2006. Growth and erosion of the zooxanthellate Australian bioeroding sponge Cliona orientalis Thiele, 1900. Proc. 10th International Coral Reef Symposium Okinawa, Japan, 168-174.


Schönberg, C.H.L., 2008. A history of sponge erosion: from past myths and hypotheses to recent approaches, p. 165-202. In: Wisshak, M. and Tapanila, L. (eds.), Current Developments in Bioerosion. Springer, Berlin, Heidelberg.


Schönberg, C.H.L., Grass, S. and Heiermann, A.T., 2006. Cliona minuscula sp. nov., a small addition to the list of Australian bioeroding sponges. Zootaxa 1312:1-24.


Schönberg, C.H.L. and Ortiz, J.-C., 2008. Is sponge bioerosion increasing? Proceedings of the 11th International Coral Reef Symposium, Ft. Lauderdale, Florida, 7-11 July 2008, Session number 16:520-523.


Schönberg, C.H.L. and Shields, G., 2008. Micro-computed tomography for studies on Entobia: transparent substrate versus modern technology, p. 147-164. In: Wisshak, M. and Tapanila, L. (eds.), Current Developments in Bioerosion. Springer, Berlin, Heidelberg.


Schönberg, C.H.L. and Tapanila, L., 2006. Bioerosion research before and after 1996 – a discussion of what has changed since the First International Bioerosion Workshop. Ichnos 13:99-102.


Schönberg, C.H.L. and Tapanila, L., 2006. The bioeroding sponge Aka paratypica, a modern tracemaking analogue for the Paleozoic ichnogenus Entobia devonica. Ichnos 13:147-157.


Schönberg, C.H.L. and Wilkinson, C.R., 2001. Induced colonization of corals by a clionid bioeroding sponge. Coral Reefs 20:69-76.


Schönberg, C.H.L., Wilkinson, C.R., Hoppe, K.N., 1997. Coral skeletal destruction - boring sponges on the Great Barrier Reef, p. 67-71. In: The Great Barrier Reef, science, use and management, a national conference, Proceedings 2.


Schopf, J.W., 1996. Cyanobacteria: Pioneers of the early Earth. Nova Hedwigia 112:13-32.


Schroeder, J.H., 1972. Calcified algal filaments of an endolithic alga in Recent Bermuda reefs. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte 1:16-33.


Schroeder, W.W., Dardeau, M.R., Dindo, J.J., Fleischer, P., Heck, K.L., Jr. and Shultz, A.W., 1988. Geological and biological aspects of hardbottom environments on the L'MAFLA shelf, northern Gulf of Mexico. Proceedings of the Oceans '88 Conference, Baltimore, p. 17-21.


Schuhmacher, H., 1977. A hermit crab, sessile on corals, exclusively feeds by feathered antennae. Oecologia 27:371-374.


Schuhmacher, H., 1987. The dwelling cavity of the coral crab Latopilumnus tubicolus (Crustacea, Pilumnidae) in Tubastraea micranthus (Scleractinia, Dendrophylliidae). Symbiosis 4:289-302.


Schuhmacher, H., 1993. Impact of some coralivorous snails on stony Corals in the Red Sea. Proceedings 7th International Coral Reef Symposium, Guam, 1992:2:840-846.


Schuhmacher, H., Loch, K., Loch, W. and See, W.R., 2005. The aftermath of coral bleaching on a Maldivian reef—a quantitative study. Facies 51: 80-92.


Scoffin, T., 1992. Taphonomy of coral reefs, a review. Coral Reefs 11:57-77.


Scoffin, T.P. and Bradshaw, C., 2000. The taphonomic significance of endoliths in dead–versus live– coral skeletons. Palaios 15:248-254.


Scoffin, T.P., Stearn, C.W., Boucher, D., Frydl, P., Hawkins, C.M., Hunter, I.G. and MacGeachy, J.K., 1980. Calcium carbonate budget of a fringing reef on the West coast of Barbados.Part II -- erosion, sediments and internal structure. Bulletin of Marine Science 30:475-508.


Scott, P.J.B., 1980. Associations between scleractinians and coral-boring molluscs in Hong Kong; p. 121-138. In: Morton, B. (ed.), The Malacofauna of Hong Kong and Southern China. Hong Kong University Press.


Scott, P.J.B., 1985. Aspects of living coral associates in Jamaica. Proceedings 5th International Coral Reef Congress, Tahiti, 5. 345-350.


Scott, P.J.B., 1986. A new species of Lithophaga (Bivalvia: Lithophaginae) boring corals in the Caribbean. Journal of Molluscan Studies 52:55-61.


Scott, P.J.B., 1987. Associations between corals and macro-infaunal invertebrates in Jamaica, with a list of Caribbean and Atlantic coral associates. Bulletin of Marine Science 40:271-286.


Scott, P.J.B., 1988. Initial settlement behaviour and survivorship of Lithophaga bisulcata (d’Origny) (Myrilidae: Lithophaginae). Journal of Molluscan Studies 54:97-108.


Scott, P.J.B., 1988. Factors influencing the susceptibility of submarine calcareous substrates to attack by bioeroders, p. 681-691. In: Thompson, M.F., Sarojini, R. and Nagabhushanam, R. (eds.), Marine Biodeterioration: Advances - Techniques, Applicable to Indian Ocean; Oxford, IBH Publications, New Delhi.


Scott, P.J.B., 1988. Distribution, habitat and morphology of the Caribbean coral- and rock-boring bivalve, Lithophaga bisulcata (d’Orbigny) (Mytilidae: Lithophaginae). Journal of Molluscan Studies 54:83-95.


Scott, P.J.B., Moser, K.A., Risk, M.J., 1988. Bioerosion of concrete and limestone by marine organisms: a 13 year experiment from Jamaica. Marine Pollution Bulletin 19:219-222.


Scott, P.J.B., Reisweg, H.M., Marcotte, B.M., 1988. Ecology, functional morphology, behaviour, and feeding in coral- and sponge-boring species of Upogebia (Crustacea: Decapoda: Thalassinidea). Canadian Journal of Zoology 66:483-495.


Scott, P.J.B. and Risk, M.J., 1988. The effect of Lithophaga (Bivalvia: Mytilidae) boreholes on the strength of the coral Porites lobata. Coral Reefs 7:145-151.


Scott, P.J.B., Risk, M.J., Carriquiry, J.D., 1989. El Nino, bioerosion and the survival of East Pacific reefs. Proceedings 6th International Coral Reef Symposium, Australia 2:517-520.


Seeler, J-S. and Golubic, S., 1991. Iyengariella endolithica sp. nova, a carbonate boring stigonematalean cyanobacterium from a warm spring-fed lake: nature to culture. Algological Studies 64:399-410.


Seeling, J., 2004. Bioerosion of Late Cretaceous molluscs from Sergipe, Brazil. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte 2004:413-426.


Seesman, P.A., Colwell, R.R. and Zachary, A., 1977. Biodegradation of creosote/naphthalene-treated wood in the marine environment. Proceedings of the American Wood Preservers' Association 73:54-60.


Segars, M.T. and Liddell, W.D., 1988. Microhabitat analyses of Silurian stromatoporoids as substrata for epibionts. Palaios 3:391-403.


Seilacher, A., 1968. Swimming habits of belemnites - recorded by boring barnacles. Palaeogeography, Palaeoclimatology, Palaeoecology 4:279-285.


Seilacher, A., 1969. Palaeoecology of boring barnacles. American Zoologist 9:705-719.


Seilacher, A., 1984. Constructional morphology of bivalves: evolutionary pathways in primary versus secondary soft-bottom dwellers. Palaeontology 27:207-237.


Seilacher, A., 1995. Fossile Kunst: Albumblatter der Erdeschichte (first edition). Goldschneckverlag. 48 pp.


Seilacher, A., 1998. Mosasaur, limpets or diagenesis: how Placenticeras shells got punctured. Mitteilungen aus dem Museum für Naturkunde in Berlin, Geowissenschaftliche Reiche 1 (1998): 93-102.


Sellius, G., 1733. Historia naturalis teredinis seu xylophagi marini, tubulo-conchoidis speciatim Belgici cum tabulis ad vivum delineatis. Hermann Bessling, Utrecht, 353 pp.


Sengupta, S., 1999. Acrothoracican cirripeds (Crustacea) from Lower Oligocene, south-western Kutch, Gujarat, India. Indian Journal of Earth Sciences 26:70-72.


Sengupta, S. and Nielsen, J.K., 2009. Bioerosion in middle Eocene larger Foraminifera Nummulites obtusus (Sowerby) from Lakhpat, northwest Kutch, Gujarat, India. Indian Journal of Geosciences 63: 81-86.


Sequeiros, L. and Mayoral, E., 1980. Epizoos y perforantes sobre Plagiostoma gigantea (Sow.), Bivalvia (Jurásico inferior); un modelo de relaciones entre paleoecología y diagénesis. Revista del Instituto de Investigaciones Geológicas Diputación Provincial, Universidad de Barcelona 34:149-159.


Seymour Sewell, R.B., 1926. A study of Lithotrya nicobarica Reinhardt. Records of the Indian Museum, Calcutta 28:269-330.


Shafir, A. and Loya, Y., 1983. Consumption and assimilation of coral mucus by the burrowing mussel Lithophaga lessepsiana. Bulletin of the Institute for Oceanography and Fisheries 9:135-140.


Shanks, A.L. and Wright, W.G., 1986. Adding teeth to wave action: the destructive effects of wave-borne rocks on intertidal organisms. Oecologia (Berlin) 69:420-428.


Sharman, M., 1956. Note on Capulus ungaricus (L.). Journal of the Marine Biological Association, United Kingdom 35:445-450.


Shoup, J.B., 1968. Shell opening by crabs of the genus Calappa. Science 160:887-888.


Shashar, N. and Stambler, N., 1992. Endolithic algae within corals - life in an extreme environment. Journal of Experimental Marine Biology and Ecology 163:277-286.


Sheath, R.G. Hellebust, J.A. and Sawa, T., 1977. Changes in plastid structure, pigmentation and photosynthesis of the Conchocelis stage of Porphyra leucosticta (Rhodophyta, Bangiophyceae) in response to low light and darkness. Phycologia 16:265-276.


Sheppard, C.R., Spalding, M., Bradshaw, C., Wilson, S., 2002. Erosion vs. recovery of coral reefs after 1998 El Niño: Chagos Reefs, Indian Ocean. AMBIO: A Journal of the Human Environment 31:40-48.


Sheppard, T.H., 2007. Life’s a beach: lessons from the Earth’s rarest sedimentary rocks. Geology Today 23:108-113.


Shibata, K. and Haxo, F.T., 1969. Light transmission and spectral distribution through epi- and endozoic algal layers in the brain coral, Favia. The Biological Bulletin 136:461-468.


Shimada, K. and Hooks, G.E., III, 2004. Shark-bitten protostegid turtles from the Upper Cretaceous Mooreville Chalk, Alabama. Journal of Paleontology 78:205-210.


Sieg, J. and Zibrowius, H., 1988. Association of a tube inhabiting Tanaidacean, Bifidia scleractinicola gen. nov., sp. nov., with bathyal scleractinians off New Caledonia (Crustacea Tanaidacea – Cnidaria Scleractinia). Mésogée 48:189-199.


Sigerfoos, C.P., 1896. The Pholadidae, II. Note on the organization of the larva, and the post-larval development of ship-worms. Johns Hopkins University, Circulars 15:87-89.


Sigerfoos, C.P., 1908. Natural history, organization, and late development of the Teredinidae, or ship-worms. United States, Department of Commerce and Labor, Bureau of Fisheries, Bulletin 27:191-231.


Siggerud, E.I.H., Steel, R.J. and Pollard, J.E., 2000. Bored pebbles and ravinement surface clusters in a transgressive systems tract, Sant Llorenç del Munt fan-delta complex, SE Ebro Basin, Spain. Sedimentary Geology 138:161-177.


Signor, P.W. and Brett, C.E., 1984. The mid-Paleozoic precursor to the Mesozoic marine revolution. Paleobiology 10:229-245.


Silén, L., 1946. On two new groups of Bryozoa living in shells of molluscs. Arkiv för Zoologi 38B, 1-7.


Silén, L., 1947. On the anatomy and biology of Penetrantiidae and Immergentiidae (Bryozoa). Arkiv för Zoologi 40A:1-48.


Silén, L., 1951. Researches in Phoronidea of the Gullmar Fiord area (West coast of Sweden). Arkiv för Zoologi 4:95-140.


Silén, L., 1956. On shell-burrowing Bryozoa and Phoronis from New Zealand. Transactions of the Royal Society of New Zealand 84:83.


Silina, A.V., 2003. Long-term variation of polychaete bioerosion of the scallop Mizuhopecten yessoensis from the northwest part of the Sea of Japan. Russian Journal of Marine Biology 29:390-394.


Silva, C.M. da, Cachao, M., Martinell, J. and Domènech, R., 1995. Estruturas Bioerosivas como indicadores de Paleolitorais rochosos. O exemplo do Miocenico da Foz da Fonte (Sesimbra, Portugal). Dados preliminares. Memórias do Museu e Laboratório Mineralógico e Geológico da FCUP 4:133-137.


Silva, C.M. da, Cachao, M., Martinell, J. and Domènech, R., 1999. Bioerosional evidence of rocky palaeoshores in the Neogene of Portugal: environmental and stratigraphical significance. Bulletin of the Geological Society of Denmark 45:156-160.


Simms, M.J., 1990. Phytokarst and photokarren in Ireland. Cave Science 17:131-133.


Simoes, M.G., Rodrigues, S.C. and Kowalewski, M., 2007. Comparative analysis of drilling frequencies in Recent brachiopod-mollusk associations from the southern Brazilian shelf. Palaios 22:143-154.


Simonsen, A.H. and Cuffey, R.J., 1980. Fenestrate, pinnate and ctenostome bryozoans and associated barnacle borings in the Wreford Megacyclothem (Lower Permian) of Kansas, Oklahoma and Nebraska. University of Kansas Paleont. Contrib. Paper 101:11-38.


Simunovic, A. and Grubelic, I., 1992. Biological and ecological studies of the dateshell (Lithophaga lithophaga L.) from the eastern Adriatic Sea. Periodicum Biologorum 94:187-192.


Simunovic, A., Grubelic, I., Tudor, M. and Hrs Brenko, M., 1990. Sexual cycle and biometry of date shell Lithophaga lithophaga Linnaeus (Mytilidae). Acta Adriatica 31:139-151.


Singh, H. and Rana, R.S., 2011. Ichnospecies Teredolites longissimus and teredinid body fossils from the Early Eocene of India -- taphonomic and palaeoenvironmental implications. Ichnos 18: 57-71.


Singh, H.R. and Sasekumar, A., 1996. Wooden panel deterioration by tropical marine wood borers. Estuarine, Coastal and Shelf Science 42:755-769.


Sipe, A.R., Wilbur, A.E. and Cary, S.C., 2000. Bacterial symbiont transmission in the wood-boring shipworm Bankia setacea (Bivalvia: Teredinidae). Applied and Environmental Microbiology 66:1685-1691.


Skupin, K., 1970. Feinstratigraphische un mikrofazielle untersuchungen im Unteren Hauptmuschelkalk (Trochitenkalk) des Nekar-Jagst-Kocher-Gebietes. Neue Folge 63:34-39.


Sleeter, T.D., Boyle, P.J., Cundell, A.M. and Mitchell, R., 1978. Relationships between marine microorganisms and the wood boring isopod Limnoria tripunctata. Marine Biology 43:329-336.


Smith, A.M., 1993 Bioerosion of bivalve shells in Hauraki Gulf, North Island, New Zealand, p. 175-181. In: Battershill, C.N., Schiel, D.R., Jones, G.P., Creese, R.G. and MacDiarmid, A.B. (eds), Proceedings of 2nd International Temperate Reef Symposium, 7-10 January 1992; Auckland, New Zealand. NIWA Marine, Wellington.


Smith, A.M. and Nelson, C.S., 2003. Effects of early sea-floor processes on the taphonomy of temperate shelf skeletal carbonate deposits. Earth-Science Reviews 63:1-31.


Smith, E.H., 1969. Functional morphology of Penitella conradi, relative to shell-penetration. American Zoologist 10:869-880.


Smith, S.A., Thayer, C.W. and Brett, C.E., 1985. Predation in the Paleozoic: gastropod-like drillholes in Devonian brachiopods. Science 230:1033-1035.


Smith, S.V. and Haderlie, E.C., 1969. Growth and longevity of some calcareous fouling organisms, Monterey Bay, California. Pacific Science 24:447-451.


Smyth, M.J., 1986. Cryptophialus coronophorus, new species (Cirripedia: Acrothoracica), a boring barnacle from Guam, Mariana Islands, with new insights into cryptophialid ultrastructure. Journal of Crustacean Biology 6:143-157.


Smyth, M.J., 1988. Penetrantia clionoides, sp. Nov. (Bryozoa), a boring bryozoan in gastropod shells from Guam. Biological Bulletin 174:276-286.


Smyth, M.J., 1988. The foraminifer Cymbaloporella tabellaeformis (Brady) bores into gastropod shells. Journal of Foraminiferal Research 18:277-285.


Smyth, M.J., 1989. Bioerosion of gastropod shells: with emphasis on effects of coralline algal cover and shell microstructure. Coral Reefs 8:119-125.


Smyth, M.J., 1990. Incidence of boring organisms in gastropod shells on reefs around Guam. Bulletin of Marine Science 46:432-449.


Snow, R.K., 1988. Attack by Lithophaga and Cliona on marine concrete structures: some prevention and control measures, p. 703-713. In: Thompson, M.-F., Sarojini, R. and Nagabhushanam, R. (eds.), Marine biodeterioration. Advanced techniques applicable to the Indian Ocean. A.A. Balkema, Rotterdam.


Sohl, N.F., 1969. The fossil record of shell boring by snails. American Zoologist 9:725-734.


Soliman, G.N., 1969. Ecological aspects of some coral-boring gastropods and bivalves of the northwestern Red Sea. American Zoologist 9:887-894.


Solle, G., 1938. Die ersten Bohr-Spongien im europäischen Devon und einige andere Spuren. Senckenbergiana lethaea 20:154-178.


Somme, O.M., 1940. A study of the life history of the gribble Limnoria lignorum (Rathke) in Norway. NYTT Magasin fòr Naturuidenskapene 21:145-205.


Sørensen, A.M. and Surlyk, F., 2008. A brachiopod boring (Podichnus) in a Late Cretaceous oyster from a mangrove-like environment, Skåne, Sweden. Lethaia 41:295-298.


Sorauf, J.E. and Harries, P.J., 2009. Rotatory colonies of the corals Siderastrea radians and Solenastraea ssp. (Cnidaria, Scleractinia), from the Pleistocene Bermont Formation, south Florida, USA. Palaeontology 52:111-126.


Soule, J.D. and Soule, D.F., 1969. Systematics and biogeography of burrowing bryozoans. American Zoologist 9:791-802.


Southgate, P.N., 1986. Middle Cambrian phosphatic hardgrounds, phoscrete profiles and stromatolites and their implications for phosphogenesis, p. 327-351. In: Cook, P.J. and Shergold, J.H. (eds.), Phosphate Deposits of the World, vol. 1, Proterozoic and Cambrian Phosphorites. Cambridge University Press, Cambridge.


Southwell, C.R. and Bultman, J.D., 1971. Marine borer resistance of untreated woods over long periods of immerison in tropical waters: Biotropica 3:81-107.


Sowerby, G.B., II., 1875-1876. Monograph of the genus Teredo. In: Reeve, L.A. (ed.), Conchologia iconica 20 or illustrations of the shells of molluscous animals. London.


Sowerby, G.B. II., 1876. Monograph of the genus Gastrochaena. In: Reeve, L.A. (ed.), Conchologia iconica 20 or illustrations of the shells of molluscous animals. London.


Sowerby, G.B., II., 1884. Monograph of the genera Teredo and Kuphus, p. 121-125. In: Sowerby, G.B. II (ed.), Thesaurus conchyliorum or monographs of genera of shells 5.


Sparrow, F.K., 1960. Aquatic phycomycetes. 2nd ed., Univ. Michigan Press, Ann Arbor, 1187 pages.


Sparrow, F.K., 1968. On the occurrence of the Thraustochytriaceae. Veroffentlichungen des Instituts für Meeresforschungin Bremerhaven 11:89-92.


Spears, T., Abele, L.G. and Applegate, M.A., 1994. Phylogenic study of cirripedes and selected relatives (Thecostraca) based on 18S RDNA sequence analysis. Journal of Crustacean Biology 14:641-656.


Spencer, T., 1985. Marine erosion rates and coastal morphology of reef limestones on Grand Cayman Island, West Indies. Coral Reefs 4:59-70.


Spencer, T., 1988. Limestone coastal morphology: the biological contribution. Progress in Physical Geography 12:66-101.


Spencer, T. and Viles, H.A., 2002. Bioconstruction, bioerosion and disturbance on tropical coasts; coral reefs and rocky limestone shores. Geomorphology 48:23-50.


Spengler, L., 1783. Beskrivelse over en nye Slaegt af toskallede Muskeler, som kan kaldes Gastrochaena, i tre foranderlige Arter, hvoraf hver boer i et forskielligt Ormehuus. Nova Acta Danica 2:174-183.


Spengler, L., 1792. Betragtninger og anmaerkninger ved den Linneiske slaegt Pholas blant de mangeskallede muskeler, med dens hidindtil bekiendte gamle og nye arter, samt den dermed i forbindelse staaende slaegt Teredo Linn. Kiobenhavn, Naturhistorie-Selskabet, Skrivter 2:72-106.


Spicer J.I. and Strömberg, J-O., 2003. Metabolic responses to low salinity of the shipworm Teredo navalis (L.). Sarsia: North Atlantic Marine Science 88:302-305.


Spivey, H.R., 1979. First records of Trypetesa and Megalasma (Crustacea: Cirripedia) in the Gulf of Mexico. Bulletin of Marine Science 29:497-508.


Sprechmann, P., Verde, M., Martínez, S.Y. and Gaucher, C., 1998. Paleoecología y ambientes de sedimentación de bioestromos y “patch reefs” de ostreidos, sus endolitos y epibiontes (Formación Camacho, Mioceno Medio-Superior; Uruguay). Actas del II Congreso Uruguayo de Geología, 205-209.


Stachowitsch, M., 1980. The epibiotic and endolithic species associated with the gastropod shells inhabited by the hermit crabs. Paguristes oculatus and Pagurus cuanensis. P.S.Z.N. I: Marine Ecology 1:73-101.


Stanier, R.Y. and Cohen-Bazire, G., 1977. Phototrophic prokaryotes: the cyanobacteria. Annual Review of Microbiology 31:225-274.


Staudigel, H., Furnes, H., McLoughlin, N., Banerjee, N.R., Connell, L.B. and Templeton, A., 2008. 3.5 billion years of glass bioalteration: Volcanic rocks as a basis for microbial life? Earth-Science Reviews 89:156-176.


Stearley, R.F., 1987. Intertidal bioerosion by macroinvertebrates near Puerto Penasco, northern Gulf of California, p. 113-127. In: Flessa, K.W. (ed.), Paleoecology and taphonomy of Recent to Pleistocene intertidal deposits, Gulf of California. The Paleontological Society Special Publication number 2.


Stearley, R.F. and Ekdale, A.A., 1989. Modern marine bioerosion by macroinvertebrates, northern Gulf of California. Palaios 4:453-467.


Stel, J.H., 1976. The Paleozoic hard substrate trace fossils Helicosalpinx, Chaetosalpinx and Torquaysalpinx. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte 1976:726-744.


Stel, J.H. and Stoep, E., 1982. Interspecificke relaties en boringen im emige Silurische stromatoporen. Grondboor en Hamer 1:11-23.


Steneck, R.S., 1983. Escalating herbivory and resulting adaptive trends in calcareous algal crusts. Paleobiology 9:44-61.


Steneck, R.S., Hacker, S.D. and Dethier, M.N., 1991. Mechanisms of competitive dominance between crustose coralline algae: an herbivore-mediated competitive reversal. Ecology 72:938-950.


Stevenson, L.W., 1952. Larger invertebrate fossils of the Woodbine Formation of Texas. U.S. Geological Survey Professional Paper 242:50-55.


Stiller, F., 2005. An Early Jurassic Talpina-dominated assemblage of borings in bivalve shells from southern Hunan, China, with remarks on the ichnogenus Talpina Hagenow, 1840. Acta Palaeontologica Sinica 44:396-411.


Stinchcomb, B.L. and Darrough, G., 1995. Some molluscan Problematica from the Upper Cambrian – Lower Ordovician of the Ozark Uplift. Journal of Paleontology 69:52-65.


Stirrup, M., 1872. Fungous growth in shells. American Naturalist 6:776-777.


Streelman, J.T., Alfaro, M., Westneat, M.W., Bellwood, D.R. and Karl, S.A., 2002. Evolutionary history of the parrotfishes: biogeography, ecomorphology, and comparative diversity. Evolution 56:961–971.


Stromberg, H., 2000. Studies of bioerosion on coral reefs of Tanzania, p. 176-179. In: Linden, O. and Obura, D. (eds.), Coral reef degradation in the Indian Ocean. CORDIO 2000, Stockholm.


Strunk, S.W., 1959. The formation of intracellular crystals in the midgut diverticula of Limnoria lignorum, p. 108-119. In: Ray, D.L. (ed.), Marine fouling and boring organisms. University of Washington Press, Seattle.


Stubblefield, S.P. and Taylor, T.N., 1988. Tansley Review No. 12: Recent advances in palaeomycology. New Phytol. 108:3-25.


Suchy, D.R., West, R.R., 1988. A Pennsylvanian cryptic community associated with laminar chaetetid colonies. Palaios 3:404-412.


Sundberg, F.A., 1981. Cretaceous Lithophaga (Mollusca: Bivalvia) from the west coast of North America. Journal of Paleontology 55:901-902.


Suric, M., 2005. Submerged karst; dead or alive? Examples from the eastern Adriatic Coast (Croatia). Geoadria 10:5-19.


Surlyk, F. and Christensen, W.K., 1974. Epifaunal zonation on an Upper Cretaceous rocky coast. Geology 2:529-534.


Sutherland, J.I., 2003. Miocene petrified wood and associated borings and termite faecal pellets from Hukatere Peninsula, Kaipara Harbour, north Auckland, New Zealand. Journal of the Royal Society of New Zealand 33:395-414.


Suto, S. Maruyama, T. and Umebayasbi, O., 1954. On the shedding of spores from “Conchocelis-phase” of Porphyra tenera cultured in shells of bivalves. Bulletin of the Japanese Society of Scientific Fisheries 20:490.


Suzuki, A. and Hikida, Y., 2005. Boring organisms and hard substrate ichnofacies: examples of rock-boring trace fossils in Hokkaido. Journal of Fossil Research 38:8-11.


Suzuki, A. and Hiranaka, N., 2008. Bioerosive structures formed by Miocene rock-boring bivalves in Hokkaido, Japan. Bulletin of the Geological Survey of Japan 59:385-395.


Suzuki, R., 2005. Sediment production by Echinometra mathaei in the shallow littoral zone of coral reefs, Ishigaki Island, Ryukyus, Japan. Chigaku Zasshi = Journal of Geography 114:41-57.


Suzuki, R. and Kan, H., 2004. Zonal trend of reef topography and bioerosion process by sea urchins in a fringing reef, Ishigaki Island, the Ryukyus, Japan. Chikei = Transactions - Japanese Geomorphological Union 25:115-137.


Swinchatt, J.P., 1969. Algal boring: a possible depth indicator in carbonate rocks and sediments. Bulletin of the Geological Society of America 80:1391-1396.


Szabó, J., 1992. Parasite traces on a Bajocian gastropod. Fragmenta Mineralogica et Palaeontologica 15:105-114.


Szulc, J., 1990. Diagenesis, p. 26-35. In: Szulc, J. et al. (eds), International Workshop – Field Seminar: the Muschelkalk – Sedimentary Environments, Facies and Diagenesis; Cracow-Opole 9-12 May, 1990. International Association of Sedimentologists, Institute of Geological Sciences, Jagiellonian University.


Taddei Ruggiero, E., 1989. Evidenze di predazione e parassitismo su gusci di brachiopodi. Atti III Simposio Ecologia e Paleoecologia delle Comunità Bentoniche. Tipografia dell’Università di Catania, 615-631.


Taddei Ruggiero, E., 1991. A study of damage evidence in brachiopod shells, p. 203-210. In: MacKinnon, D.I., Lee, D.E. and Campbell, J.D. (eds.), Brachiopods through time. Balkema, Rotterdam.


Taddei Ruggiero, E., 1999. Bioerosive processes affecting a population of brachiopods (Upper Pliocene, Apulia). Bulletin of the Geological Society of Denmark 45:169-172.


Taddei Ruggiero E., 2001. Bioerosive processes in the Isca Marine Cave (Sorrento Peninsula). Biologia Marina Mediterranea 8:287-289.


Taddei Ruggiero, E. and Annunziata, G., 2007. Bioerosion on brachiopod shells – a Cenozoic perspective. Earth and Environmental Science Transactions of the Royal Society of Edinburgh 98:1-10.


Taddei Ruggiero, E. and Bitner, M.A., 2002. Bioerosion on a Terebratula scillae population from the Lower Pleistocene of Lecce area (southern Italy). Acta Geologica Hispanica 37:43-51.


Taddei Ruggiero, E., Buono, G. and Raia, P., 2006. Bioerosion on brachiopod shells of a thanatocoenosis of Alboràn Sea (Spain). Ichnos 13:175-184.


Taddei Ruggiero, E. and Raia, P., 2010. Bioerosion structures and their distribution on shells of the Lower Pleistocene terebratulid brachiopod Gryphus minor. Palaeogeography, Palaeoclimatology, Palaeoecology 293:157-166.


Tan, T.K., Leong, W.F. and Jones, E.B.G., 1989. Succession of fungi on wood of Avicennia alba and A. lanata in Singapore. Canadian Journal of Botany 67:2686-2691.


Tapanila, L., 2002. A new endosymbiont in Late Ordovician tabulate corals from Anticosto Island, Eastern Canada. Ichnos 9:109-116.


Tapanila, L., 2006. Devonian Entobia borings from Nevada, with a revision of Topsentopsis. Journal of Paleontology 80:760-767.


Tapanila, L., 2006. Macroborings and bioclaustrations in a Late Devonian reef above the Alamo Impact Breccia, Nevada, USA. Ichnos 13:129-134.


Tapanila, L., 2008. The endolithic guild: an ecological framework for residential cavities in hard substrates, p. 3-20. In: Wisshak, M. and Tapanila, L. (eds.), Current Developments in Bioerosion. Springer, Berlin, Heidelberg.


Tapanila, L., 2008. The medium is the message: imaging a complex microboring (Pyrodendrina cupra igen. n., isp. n.) from the early Paleozoic of Anticosti Island, Canada, p. 123-146. In: Wisshak, M. and Tapanila, L. (eds.), Current Developments in Bioerosion. Springer, Berlin, Heidelberg.


Tapanila, L. and Copper, P., 2002. Endolithic trace fossils in Ordovician-Silurian corals and stromatoporoids, Anticosti Island, eastern Canada. Acta Geologica Hispanica 37:15-20.


Tapanila, L., Copper, P. and Edinger, E., 2004. Environmental and substrate controls on Paleozoic bioerosion in corals and stromatoporoids, Anticosti Island, eastern Canada. Palaios 19:292-306.


Tapanila, L. and Holmer, L.E., 2006. Endosymbiosis in Ordovician-Silurian corals and stromatoporoids: A new lingulid and its trace from eastern Canada. Journal of Paleontology 80:750-759.


Tapanila, L., Roberts, E.M., Bouaré, M.L., Sissoko, F. and O’Leary, M.A., 2004. Bivalve borings in phosphatic coprolites and bone, Cretaceous-Paleogene, northeastern Mali. Palaios 19:565-573.


Tapanila, L., Bouare, M.L., O'Leary, M.A., Roberts, E. M. and Sissoko, F., 2008. Phosphate taphonomy of bone and coprolite conglomerates: A case study from the Eocene of Mali, NW Africa. Palaios 23:139-152.


Taton, A. and Hoffmann, L., 1999. Distribution patterns of blue-green algal endoliths in the intertidal and supratidal zones of Papua New Guinea. Algological Studies 94:353-363.


Tavernier, A., Campbell, S.E. and Golubic, S., 1992. A complex marine shallow-water boring trace: Dendrorete balani n. ichnogen. et ichnospec. Lethaia 25:303-310.


Tavernier, A. and Golubic, S., 1993. Pliocene microboring assemblages in shells of the Purisima Formation (Capitola, California), p. 405-414. In: Bartolo, F., De Castro, P. and Parente, M. (eds.), Studies on Fossil Benthic Algae. Boll. Soc. Paleont. Ital. Spec. 1.


Taylor, B.J., 1965. Aptian cirripedes from Alexander Island. British Antarctic Survey Bulletin, 37-42.


Taylor, B.J., 1971. Thallophyte borings in phosphatic fossils from the Lower Cretaceous of southeast Alexander Island, Antarctica. Palaeontology 14:294-302.


Taylor, D.L., 1983. The black band disease of Atlantic reef corals. II. Isolation, cultivation and growth of Phormidium corollyticum. Marine Ecology 4:321-328.


Taylor, J.D., 1971. Reef associated molluscan assemblages in the western Indian Ocean. Symp. Zoological Society of London 28:501-534.


Taylor, J.D., Cleevely, R.J. and Morris, N.J., 1983. Predatory gastropods and their activities in the Blackdown Greensand (Albian) of England. Palaeontology 26:521-553.


Taylor, J.D. and Way, K., 1976. Erosive activities of chitons at Aldabra Atoll. Journal of Sedimentary Petrology 46:974-977.


Taylor, P.D., 1993. Bryozoa, p. 465-489. In: Benton, M.J. (ed), The Fossil Record 2. Chapman and Hall, London.


Taylor, P.D. and Palmer, T.J., 1994. Submarine caves in a Jurassic reef (La Rochelle, France) and the evolution of cave biotas. Naturwissenschaften 81:357-360.


Taylor, P.D. and Wilson, M.A., 2002. A new terminology for marine organisms inhabiting hard substrates. Palaios 17:522-525.


Taylor, P.D. and Wilson. M.A., 2003. Palaeoecology and evolution of marine hard substrate communities. Earth-Science Reviews 62:1-103.


Taylor, P.D., Wilson, M.A. and Bromley, R.G., 1999. Leptichnus, a new ichnogenus for etchings made by cheilostome bryozoans into calcareous substrates. Palaeontology 42:595-604.


Tazaki, K. et al., 2009. Life inhabits rocks; clues to rock erosion from electron microscopy of pisolite at a UNESCO heritage site in Brazil. Geologische Rundschau = International Journal of Earth Sciences 98:227-238.


Teichert, C., 1945. Parasitic worms in Permian brachiopod and pelecypod shells in western Australia. American Journal of Science 243:197-209.


Terquem, O.S., 1855., Paléontologie de l’etage inférieur de la Formation Liassique de la Province de Luxembourg, Gran-Duché (Hollande), et de Hettange, du Départment de la Moselle. Mémoires de la Société Géologique de France, series 2, 9:1-175.


Terquem, O.S. and Piette, E., 1865. Le Lias inferiour de l’East de la France. Mémoires de la Société Géologique de France, series 2, 18:1-167.


Thies, D., 1985. Bißspuren an Seeigel-Gehäusen der Gattung Echinocorys Leske, 1778 aus dem Maastrichtium von Hemmoor (NW-Deutschland). Mitteilungen der Geologisch-Paläontologisches Institut der Universität Hamburg 59:71-82.


Thity, F., 1945. A perforating species of Ectochaete (Huber) Wille from the Galapagos Islands. Pap. Mich. Acad. Sci. 30:149-156.


Thomas, A.O., 1911. A fossil burrowing sponge from the Iowa Devonian. Bulletin of the Laboratory of Natural History, State University of Iowa 6:165-166.


Thomas, M.L.H., 1996. Origin and community structure of the Harrington Sound notch, Bermuda. Bulletin of Marine Science 58:753-763.


Thomas, M. and Day, R.W., 1995. Site selection by a small drilling predator: Why does the gastropod Houstrum baileyanum drill over muscle tissue of the abalone Haliotis rubra? Marine Freshwater Research 46:647-655.


Thomas, P.A., 1972. Boring sponges of the reefs of Gulf of Mannar and Palk Bay. Proceedings, Symposium on Corals and Coral Reefs. Marine Biological Association of India, 333-362.


Thomas, P.A., Appukuttan, K.K., Ramadoss, K. and Vincent, S.G., 1983. Calcibiocavitological investigations. Marine Fisheries Information Service - Technical and Extension Series 49:1-13.


Thomas, R.D.K., 1976. Gastropod predation on sympatric Neogene species of Glycymeris (Bivalvia) from the eastern United States. Journal of Paleontology 50:488-499.


Thompson, W.G., Curran, H.A., Wilson, M.A. and White, B., 2011. Sea-level oscillations during the Last Interglacial highstand recorded by Bahamas corals. Nature Geoscience 4:684–687.


Tiffney, B.H. and Barghoorn, E.S., 1974. The fossil record of the fungi. Occasional Papers of the Farlow Herbarium of Cryptogamic Botany 7:1-42.


Titschack, J., Bromley, R.G. and Freiwald, A., 2005. Plio-Pleistocene cliff-bound, wedge-shaped, warm-temperate carbonate deposits from Rhodes (Greece): Sedimentology and facies. Sedimentary Geology 180:29-56.


Titschack, J. and Freiwald, A., 2005. Growth, deposition, and facies of Pleistocene bathyal coral communities from Rhodes, Greece, p. 41-59. In: Freiwald A. and Roberts J.M. (eds.), Cold-Water Corals and Ecosystems. Springer-Verlag, Berlin.


Todd, J.A., 2000. The central role of ctenostomes in bryozoan phylogeny. Proceedings of the 11th International Bryozoology Association Conference, 104-135.


Todd, J.A. and Palmer, T.J., 2002. The Jurassic bivalve genus Placunopsis: new evidence on anatomy and affinities. Palaeontology 45:487-510.


Todd, J.A. and Palmer, T.J., 2002. Pattern versus process or informative versus uninformative ichnotaxonomy: Comments on Nielsen and Nielsen, 2001. Ichnos 9:81-82.


Todd, R., 1965. A new Rosalina (Foraminifera) parasitic on a bivalve. Deep-Sea Research 12:831-837.


Tomašových, A., 2004. Effect of extrinsic factors on biofabric and brachiopod alteration in a shallow intraplatform carbonate setting (Upper Triassic, west Carpathians). Palaios 19:349-371.


Tomašových, A., 2004. Microfacies and depositional environment of an Upper Triassic intra-platform carbonate basin: the Fatric Unit of the West Carpathians (Slovakia). Facies 50:77-105.


Tomašových, A. and Rothfus, T.A., 2005. Differential taphonomy of modern brachiopods (San Juan Islands, Washington State): effect of intrinsic factors on damage and community-level abundance. Lethaia 38:271-292.


Tomašových, A. and Zuschin, M., 2009. Variation in brachiopod preservation along a carbonate shelf-basin transect (Red Sea and Gulf of Aden): Environmental sensitivity of taphofacies. Palaios 24:697-716.


Tomlinson, J.T., 1953. A burrowing barnacle of the genus Trypetesa (Order Acrothoracica). Journal of the Washington Academy of Science 43:373-381.


Tomlinson, J.T., 1955. The morphology of an acrothoracican barnacle, Trypetesa lateralis. Journal of Morphology 96:97-122.


Tomlinson, J.T., 1963. Lithoglyptes hirsutus (Cirripedia: Acrothoracica), a new burrowing barnacle from Hawaii. Pacific Science 17:299-301.


Tomlinson, J.T., 1963. Acrothoracican barnacles in Paleozoic myalinids. Journal of Paleontology 37:164-166.


Tomlinson, J.T., 1969. The burrowing barnacles (Cirripedia: Order Acrothoracica). Bulletin of the US National Museum 296:1-162.


Tomlinson, J.T., 1969. Shell-burrowing barnacles. American Zoologist 9:837-840.


Tomlinson, J.T., 1973. Distribution and structure of some burrowing barnacles, with four new species (Cirripedia: Acrothoracica). Wasmann Journal of Biology 31:263-288.


Tomlinson, J.T., 1987. The burrowing barnacles, p. 63-71. In: Southward, A.J. (ed.), Crustacean Issues 5: Barnacle Biology. Balkema, Rotterdam.


Toomey, D.F., Mitchell, R.W. and Lowenstein, T.K., 1988. "Algal biscuits" from the Lower Permian Herington/Krider limestones of southern Kansas-northern Oklahoma; paleoecology and paleodepositional setting. Palaios 3:285-297.


Topsent, E., 1887. Notes on the boring marine thallophytes. Mémoires de la Société Linnéenne de Normandie 10:292-297.


Topsent, E., 1888. Contribution à l’étude des Clionides. Archives de Zoologie Expérimentale et Générale 5:1-166.


Topsent, E., 1891. Deuxième contribution à l'étude des Clionides. Archives de Zoologie Expérimentale et Générale 9:555-592.


Topsent, E., 1932. Notes sur les Clionides. Archives de Zoologie Expérimentale et Générale 74:549-579.


Torunski, H., 1979. Biological erosion and its significance for the morphogenesis of limestone coasts and for nearshore sedimentation (northern Adriatic). Senckenbergiana Maritima 11:193-265.


Toscano, F. and Raspini, A., 2005. Epilithozoan fauna associated with ferromanganese crustgrounds on the continental slope segment between Capri and Li Galli Islands (Bay of Salerno, Northern Tyrrhenian Sea, Italy). Facies 50: 427-441.


Townsley, P.M. and Richy, R.A., 1965. Marine borer aldehyde oxidase. Canadian Journal of Zoology 43:1011-1019.


Townsley, P.M., Richy, R.A. and Trussell, P.C., 1966. The laboratory rearing of the shipworm, Bankia setacea (Tryon). National Shellfisheries Association, Proceedings 56:49-52.


Tracey, S., 1992. A review of the Early Eocene molluscs of Bognor Regis (Hampshire Basin), England. Tertiary Research 13:155-175.


Tracey, S., Todd, J.A. and Erwin, D.H., 1993. Mollusca: Gastropoda, p. 131-167. In: Benton, M.J. (ed), The Fossil Record 2. Chapman and Hall, London.


Travis, D.F. and Gonsalves, M., 1969. Comparative ultrastructure and organization of the prismatic region of two bivalves and its possible relation to the chemical mechanism of boring. American Zoologist 9:635-661.


Treeck, P., van, Schuhmacher, H. and Paster, M., 1996. Grazing and bioerosion by herbivorous fishes - key process structuring coral reef communities, p. 133-137. In: Reitner, J., Neuweiler, F. and Gunkel, F. (eds.), Global and regional controls on biogenic sedimentation. I. Reef evolution. Research reports. Göttinger Arbeiten für Geologie und Paläontologie, Research Reports, Sb2.


Tribollet A., 2008a. The endolithic micro-organisms on dead corals - high carbonate dissolution rates in Great Barrier Reef oligotrophic waters. Microbial Ecology. [doi: 10.1007/s00248-007-9302-6]


Tribollet A., 2008b. Dissolution of dead corals by euendolithic microorganisms across the northern Great Barrier Reef (Australia). Microbial Ecology 55:569-580.


Tribollet, A., 2008c. The boring microflora in modern coral reef ecosystems: a review of its roles, p. 67-94. In: Wisshak, M. and Tapanila, L. (eds.), Current Developments in Bioerosion. Springer, Berlin, Heidelberg.


Tribollet A., Atkinson M. and Langdon C., 2006. Effects of elevated pCO2 on epilithic and endolithic metabolism of reef carbonates. Global Change Biology 12:1-9.


Tribollet, A., Decherf, G., Hutchings, P.A. and Peyrot-Clausade, M., 2002. Large-scale spatial variability in bioerosion of experimental coral substrates on the Great Barrier Reef (Australia): importance of microborers. Coral Reefs 21:424-432.


Tribollet, A., Godinot, C., Atkinson, M. and Langdon, C., 2009. Effects of elevated pCO2 on dissolution of coral carbonates by microbial euendoliths. Global Biogeochemical Cycles 23, GB3008, doi:10.1029/2008GB003286.


Tribollet, A. and Golubic, S., 2005. Cross-shelf differences in the pattern and pace of bioerosion of experimental carbonate substrates exposed for 3 years on the northern Great Barrier Reef, Australia. Coral Reefs 24:422-434.


Tribollet, A. and Golubic, S., 2011. Reef bioerosion: agents and processes, p. 435-449. In: Dubinsky Z. and Stambler N. (eds.), Coral Reefs: An Ecosystem in Transition. Springer, Berlin.


Tribollet, A., Golubic, S., Radtke, G. and Reitner, J., 2011. On microbiocorrosion, p. 265-276. In: Dubinsky Z. and Stambler N. (eds.), Coral Reefs: An Ecosystem in Transition. Springer, Berlin.


Tribollet, A., Langdon, C., Golubic, S. and Atkinson, M., 2006. Endolithic microflora are major primary producers in dead carbonate substrates of Hawaiian coral reefs. Journal of Phycology 42:292-303.


Tribollet, A. and Payri, C., 2001. Bioerosion of the coralline alga Hydrolithon onkodes by microborers in the coral reefs of Moorea, French Polynesia. Oceanologica Acta 24:329-342.


Trudgill, S.T., 1976. The marine erosion of limestones on Aldabara Atoll, Indian Ocean. Z. Geomorphol. Supp. 26:164-200.


Trudgill, S.T., 1983. Measurements of rates of erosion of reefs and reef limestones, p. 256-262. In: Barnes, D.J. (ed.), Perspectives on Coral Reefs. Australian Institute of Marine Science, Contribution 20, Townsville, Australia.


Trudgill, S.T., 1987. Bioerosion of intertidal limestone, Co. Clare, Eire -3: Zonation, process and form. Marine Geology 74:111-121.


Trudgill, S.T. and Crabtree, R.W., 1987. Bioerosion of intertidal limestone, Co. Clare, Eire -2: Hiatella arctica. Marine Geology 74:99-109.


Trudgill, S.T., P.L. Smart, H. Friederich and R.W. Crabtree., 1987. Bioerosion of intertidal limestone, Co. Clare, Eire -1: Paracentrotus lividus. Marine Geology 74:99-109.


Trueman, C.N. and Martill, D.M., 2002. The long-term survival of bone: the role of bioerosion. Archaeometry 44:371-382.


Tryon, G.W., Jr., 1863. Monograph of the family Teredidae. Academy of Natural Sciences of Philadelphia, Proceedings 14 [for 1862]:453-480.


Tsizhon-Likanina, E.A. and Lukasheva, T.A., 1975. Pitanie korabel'nogo chervia Teredo navalis. [Nutrition of the shipworm Teredo navalis], p. 140-142. In: Likharev, I.M. (ed.), Molliuski, ikh sistema, eroprirode, Avtoreferaty dolkadov [Mollusks, their classification and significance in nature, Abstracts of communications]. Akademiia Nauk SSSR, Zoologicheskii Institut, Piatoe Vsesoiuznoe Soveshchanie po Izucheniiu Molliuskov [Fifth Soviet Conference on Molluscan Studies]. 242 p.


Tsujita, C.J. and Westermann, G.E.G., 2001. Were limpets or mosasaurs responsible for the perforations in the ammonite Placenticeras? Palaeogeography, Palaeoclimatology, Palaeoecology 169:245-270.


Tudhope, A.W. and Risk, M.J., 1985. Rate of dissolution of carbonate sediments of microboring organisms, Davies Reef, Australia. Journal of Sedimentary Petrology 55:440-447.


Tudor, M., 1987. Biochemical composition of date shell, Lithophaga lithophaga L. Institut Za Oceanografiju i Ribarstvo Split Biljeske 66:1-5.


Tuente U., Piepenburg D. and Spindler, M., 2002. Occurrence and settlement of the common shipworm Teredo navalis (Bivalvia: Teredinidae) in Bremerhaven harbours, northern Germany. Helgoland Marine Research 56:87-94.


Tull, D.S. and Böhning-Gaese, K., 1993. Patterns of drilling predation on gastropods of the family Turritellidae in the Gulf of California. Paleobiology 19:476-486.


Tunnicliffe, V., 1979. The role of boring sponges in coral fracture. In: Lévi, C. and Boury-Esnault, N. (eds.), Biologie des spongiaires. Colloq. Int. C. N. R. S., Paris, 291:309-315.


Turner, H.J. and Hanks, J.E., 1959. Infestation of Pecten irradians by Polydora. The Nautilus 72:109-111.


Turner, R.D., 1964. Anatomical relationships in the Teredinidae. American Malacological Union, Annual Reports for 1964:16-17.


Turner, R.D., 1966. A survey and illustrated catalogue of the Teredinidae. Museum of Comparative Zoology, Harvard University, 265 p.


Turner, R.D., 1966. Implications of recent research in the Teredinidae: Holz und Oragnismen, Internationales symposium Berlin-Dahlem 1965, Dunker and Humbolt, Berlin, p. 437-446.


Turner, R.D., 1969. Superfamily
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