Marine Bioerosion Bibliography

НазваниеMarine 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.

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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.

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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.

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

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

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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.

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

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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.

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

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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.

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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.

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Turner, R.D., 1969. Superfamily
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