Taphonomic Feedback Ecological Consequences of Shell Accumulation

  • Susan M. Kidwell
  • David Jablonski
Part of the Topics in Geobiology book series (TGBI, volume 3)

Abstract

Sequential changes in benthic community composition have frequently been attributed by marine ecologists and paleontologists to autogenic ecologic succession in the classical sense: a biotically driven process leading to the establishment of a stable climax or mature community (Margalef, 1968; Odum, 1969). In recent years, however, the concepts of deterministic autogenic succession have been modified and supplemented by a greater recognition of the roles of stochastic colonization and of biogenic and physical disturbance in structuring ecological communities in time and space (Colinvaux, 1973; Drury and Nisbet, 1973; Sutherland, 1974, 1981; Horn, 1974, 1976; Connell and Slayter, 1977; Connell, 1978; Lubchenco, 1978; Sousa, 1979a, 1980; White, 1979; Paine and Levin, 1981). Paleontologists have also begun to adopt a more critical approach, recognizing the many processes, both biotic and abiotic, that serve as driving mechanisms for sequential faunal changes.

Keywords

Continental Shelf Benthic Community Trace Fossil Hermit Crab Faunal Change 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Abbott, B. M., 1976, Origin and evolution of bioherms in Wenlock Limestone (Silurian) of Shropshire, England, Am. Assoc. Petrol. Geol. Bull. 60: 2117–2127.Google Scholar
  2. Adams, J. E., Frenzel, H. N., Rhodes, M. L., and Johnson, D. P., 1951, Starved Pennsylvanian Midland Basin, Am. Assoc. Petrol. Geol. Bull 35: 2600–2607.Google Scholar
  3. Achituv, Y., and Klepal, W., 1982, Distribution and density of Ibla cumingi (Crustacea, Cirripedia) from the Gulf of Elat (Red Sea), Mar. Ecol. 2: 295–305.Google Scholar
  4. Addicott, W. O., 1963, An unusual occurrence of Tresus nuttalli (Conrad, 1937) (Mollusca: Pelecypoda), Veliger 5: 143–145.Google Scholar
  5. Aepler, R., 1974, Der Rhätsandstein von Tübingen—ein kondensiertes Delta, Neues Jahrb. Geol. Palaeontol. Abh. 147: 113–162.Google Scholar
  6. Aepler, R., and Reif, W.-E., 1971, Origin of bone beds, Abstr. VIII Int. Sedimentol. Congr. Heidelberg p. 1.Google Scholar
  7. Ager, D. V., 1961, The epifauna of a Devonian spiriferid, Q. J. Geol. Soc. London 117: 1–10.Google Scholar
  8. Ager, D. V., 1974, Storm deposits in the Jurassic of the Moroccan High Atlas, Palaeogeogr. Palaeoclimatol. Palaeoecol. 15: 83–93.Google Scholar
  9. Aigner, T., 1979, Schill-Tempestite im Oberen Muschelkalk (Trias, NW Germany), Neues Jahrb. Geol. Palaeontol. Abh. 157: 326–343.Google Scholar
  10. Aigner, T., 1980a, Biofacies and stratinomy of the lower Kimmeridge Clay (U. Jurassic, Dorset, England), Neues Jahrb. Geol. Palaeontol. Abh. 159: 324–338.Google Scholar
  11. Aigner, T., 1980b, Storm deposits as a tool in facies analysis. I. Calcareous tempestites, Int. Assoc. Sedimentol., 1st Eur. Meet. Mochum. 1980 pp. 44–46 (abstr.).Google Scholar
  12. Aigner, T., 1982a, Calcareous tempestites: Storm-dominated stratification in upper Muschelkalk limestones (Triassic, SW-Germany), in: Cyclic and Event Stratification ( G. Einsele and A. Seilacher, eds.), pp. 180–198, Springer-Verlag, Berlin.Google Scholar
  13. Aigner, T., 1982b, Event-stratification in nummulite accumulations and in shell beds from the Eocene of Egypt, in: Cyclic and Event Stratification ( G. Einsele and A. Seilacher, eds.), pp. 248–262, Springer-Verlag, Berlin.Google Scholar
  14. Aigner, T., and Reineck, H.-E., 1982, Proximality trends in modern storm sands from the Helgoland Bight (North Sea) and their implications for basin analysis, Senckenbergiana maritima 14: 183–215.Google Scholar
  15. Alberstadt, L. P., and Walker, K. R., 1976, A receptaculitid–echinoderm pioneer community in a Middle Ordovician reef, Lethaia 9: 261–272.Google Scholar
  16. Alberstadt, L. P., Walker, K. R., and Zurawski, R. P., 1974, Patch reefs in the Carters Limestone (Middle Ordovician) in Tennessee, and vertical zonation in Ordovician reefs, Geol. Soc. Am. Bull. 85: 1171–1182.Google Scholar
  17. Alexander, R. R., 1977, Growth, morphology, and ecology of Paleozoic and Mesozoic op- portunistic species of brachiopods from Idaho—Utah, J. Paleontol. 51: 1133–1149.Google Scholar
  18. Alexandersson, E. T., 1972, Micritization of carbonate particles: Processes of precipitation and dissolution in modern shallow-marine sediment, Bull. Geol. Inst. Univ. Uppsala N.S. 3: 201–136.Google Scholar
  19. Alexandersson, E. T., 1979, Marine maceration of skeletal carbonates in the Skagerrak, North Sea, Sedimentology 26: 845–852.Google Scholar
  20. Aller, R. C., 1982, Carbonate dissolution in nearshore terrigenous muds: The role of physical and biological reworking, J. Geol. 90: 79–95.Google Scholar
  21. Amio, M., 1963, A comparative embryology of marine gastropods, with ecological considerations, J. Shimonoseki Univ. Fish. 12: 229–358.Google Scholar
  22. Andrews, P. B., 1979, Notes on a sediment map for South Otago continental shelf, N.Z. J. Mar. Freshwater Res. 13: 309–313.Google Scholar
  23. Anstey, R. L., and Fowler, M. L., 1969, Lithostratigraphy and deposition environment of the Eden Shale (Ordovician) in the tri-state area of Indiana, Kentucky, and Ohio, J. Geol. 77: 668–682.Google Scholar
  24. Antia, D. D. J., 1979, Bone-beds: A review of their classification, occurrence, genesis, diagenesis, geochemistry, palaeoecology, weathering, and microbiotas, Mercian Geol. 7: 93–174.Google Scholar
  25. Arnaud, P. M., and Thomassin, B. A., 1976, First records and adaptive significance of boring into a free-living scleratinian coral (Heteropsammia michelini) by a date mussel (Lithophaga lessepsiana), Veliger 18: 367–374.Google Scholar
  26. Bahr, L. M., and Lanier, W. P., 1981, The ecology of intertidal oyster reefs of the South Atlantic coast: A community profile, U.S. Fish and Wildlife Service, FWS/OBS-81/15, Office of Biological Services, Washington, D.C.Google Scholar
  27. Baird, G. C., 1981, Submarine erosion on a gentle paleoslope: A study of two discontinuities in the New York Devonian, Lethaia 14: 105–122.Google Scholar
  28. Baird, G. C., and Brett, C. E., 1981, Submarine discontinuities and sedimentary condensation in the upper Hamilton Group (Middle Devonian): Examination of marine shelf and paleoslope deposits in the Cayuga Valley, in: Guidebook for Fieldtrips in South-Central New York (P. Enos, ed.), pp. 115–145, N.Y. State Geol. Assoc. 53rd Annu. Meet., Birmingham.Google Scholar
  29. Baird, R. H., 1966, Notes on an escallop (Pecten maximus) population in Holyhead Harbour, J. Mar. Biol. Assoc. U.K. 46: 33–47.Google Scholar
  30. Batuk, W., and Radwânski, A., 1977, Organic communities and facies development of the Korytnica Basin (Middle Miocene; Holy Cross Mountains, central Poland), Acta Geol. Pol. 27: 85–123.Google Scholar
  31. Bannerjee, I., 1981, Storm lags and related facies of the bioclastic limestones of the Eze-Aku Formation (Turonian), Nigeria, Sediment. Geol. 30: 133–147.Google Scholar
  32. Barrell, J., 1917, Rhythms and the measurement of geologic time, Geol. Soc. Am. Bull. 28: 745–904.Google Scholar
  33. Basan, P. B., and Frey, R. W., 1977, Actual-palaeontology and neoichnology of salt marshes near Sapelo Island, Georgia, in: Trace Fossils 2 ( T. P. Crimes and J. C. Harper, eds.), pp. 41–70, Seel House Press, Liverpool.Google Scholar
  34. Berner, R. A., 1971, Principles of Chemical Sedimentology, McGraw-Hill, New York.Google Scholar
  35. Beu, A. G., 1978, Taxonomy and biostratigraphy of large New Zealand Pliocene Pectinidae (Phialopecten and Mesopeplum), N.Z. J. Geol. Geophys. 21: 243–269.Google Scholar
  36. Boekschoten, G. J., 1966, Shell borings of sessile epibiontic organisms as palaeoecological guides (with examples from the Dutch coast), Palaeogeogr. Palaeoclimatol. Palaeoecol. 2: 333–379.Google Scholar
  37. Bosence, D. W. J., 1979, Live and dead faunas from coralline algal gravels, Co. Galway, Palaeontology 22: 449–478.Google Scholar
  38. Bottjer, D. J., 1981, Periostracum of the gastropod Fusitriton oregonensis: Natural inhibitor of boring and encrusting organisms, Bull. Mar. Sci. 31: 916–921.Google Scholar
  39. Bottjer, D. J., 1982a, Morphology and function of projecting periostracal structures in the Gastropoda (Mollusca), Proc. 3rd North Am. Paleontol. Cony. 1: 51–56.Google Scholar
  40. Bottjer, D. J., 1982b, Paleoecology of epizoans and borings on some Upper Cretaceous chalk oysters from the Gulf Coast, Lethaia 15: 75–84.Google Scholar
  41. Bottjer, D. J., and Carter, J. G., 1980, Functional and phylogenetic significance of projecting periostracal structures in the Bivalvia (Mollusca), J. Paleontol. 54: 200–216.Google Scholar
  42. Boucot, A. J., 1975, Evolution and Extinction Rate Controls, Elsevier, Amsterdam.Google Scholar
  43. Brasier, M. D., and Brasier, C. J., 1978, Littoral and fluviatile facies in the “Kellaways Beds” on the Market Weighton Swell, Proc. Yorkshire Geol. Soc. 42: 1–20.Google Scholar
  44. Bray, R. G., 1972, The paleoecology of some Ludlowville brachiopod clusters (Middle Devonian), Erie County, New York, Proc. 24th Int. Geol.Google Scholar
  45. Brenchley, G. A., 1981a, Limiting resources and the limits to reproduction in the “mud” snail Ilyanassa obsoleta in Barnstable Harbor, Massachusetts, Biol. Bull. 161: 323 (abstr.).Google Scholar
  46. Brenchley, G. A., 1981b, Disturbance and community structure: An experimental study, J. Mar. Res. 39: 767–790.Google Scholar
  47. Brenchley, G. A., 1982, Mechanisms of spatial competition in marine soft-bottom communities, J. Exp. Mar. Biol. Ecol. 60: 17–33.Google Scholar
  48. Brenner, R. L., and Davies, D. K., 1973, Storm-generated coquinoid sandstone: Genesis of high-energy marine sediments from the Upper Jurassic of Wyoming and Montana, J. Sediment. Petrol. 84: 1685–1698.Google Scholar
  49. Bretsky, P. W., and Bretsky, S. S., 1975, Succession and repetition of Late Ordovician fossil assemblages from the Nicolet River Valley, Quebec, Paleobiology 1: 225–238.Google Scholar
  50. Bridges, P. H., 1975, The transgression of a hard substrate shelf: The Llandovery (Lower Silurian) of the Welsh Borderland, J. Sediment. Petrol. 45: 79–94.Google Scholar
  51. Bromley, R. G., 1970, Borings as trace fossils and Entobia cretacea Portlock, as an example, in: Trace Fossils ( T. P. Crimes and J. C. Harper, eds.), pp. 49–90, Seel House Press, Liverpool.Google Scholar
  52. Brun, E., 1968, Extreme population density of the starfish Asterias rubens L. on a bed of Iceland scallop, Chlamys islandica (O. F. Muller), Astarte 1 (32): 1–4.Google Scholar
  53. Buchanan, J. B., 1958, The bottom fauna communities across the continental shelf off Accra, Ghana (Gold Coast), Proc. Zool. Soc. London 130: 1–56.Google Scholar
  54. Buchanan, J. B., Sheader, M., and Kingston, P. F., 1978, Sources of variability in the benthic macrofauna off the south Northumberland coast, 1971–1976, J. Mar. Biol. Assoc. U.K. 58: 191–209.Google Scholar
  55. Buss, L. W., 1979, Habitat selection, directional growth and spatial refuges: Why colonial animals have more hiding places, in: Biology and Systematics of Colonial Organisms ( G. P. Larwood and B. R. Rosen, eds.), pp. 459–497, Academic Press, New York.Google Scholar
  56. Cabioch, L., 1968, Contributions à la conaissance des peuplements benthiques de la Manche occidentale, Cah. Biol. Mar. 9: 439–611.Google Scholar
  57. Cadée, G. C., 1968, Molluscan biocoenoses and thantocoenoses in the Ria de Arosa, Galicia, Spain, Zool. Verh. Rijksmus. Nat. Hist. Leiden 95: 1–121.Google Scholar
  58. Carey, A. G., Jr., 1972, Ecological observations on the benthic invertebrates from the central Oregon continental shelf, in: The Columbia River Estuary and Adjacent Waters ( A. T. Pruter and D. L. Alverson, eds.), pp. 422–443, University of Washington Press, Seattle.Google Scholar
  59. Carriker, M. R., Smith, E. H., and Wilce, R. T. (eds.), 1969, Penetration of calcium carbonate substrates by lower plants and invertebrates, Am. Zool. 9:629–1020.Google Scholar
  60. Carter, L., 1975, Sedimentation on the continental terrace around New Zealand: A review, Mar. Geol. 19: 209–237.Google Scholar
  61. Chave, K. E., 1964, Skeletal durability and preservation, in: Approaches to Paleoecology ( J. Imbrie and N. D. Newell, eds.), pp. 377–387, Wiley, New York.Google Scholar
  62. Clark, W. E., Shattuck, G. B., and Dall, W. H., 1904, The Miocene deposits of Maryland, Miocene Volume, Maryland Geological Survey, pp. xxi-clv.Google Scholar
  63. Clifton, H. E., and Boggs, S., Jr., 1970, Concave-up pelecypod (Psephidia) shells in shallow marine sand, Elk River Beds, southwestern Oregon, J. Sediment. Petrol. 40: 888–897.Google Scholar
  64. Coleman, J. M., and Gagliano, S. M., 1965, Sedimentary structures: Mississippi River deltaic plain, Soc. Econ. Paleontol. Mineral. Spec. Publ. 12: 133–148.Google Scholar
  65. Colinvaux, P. A., 1973, Introduction to Ecology, Wiley, New York.Google Scholar
  66. Connell, J. H., 1978, Diversity in tropical rain forests and coral reefs, Science 199: 1302–1310.PubMedGoogle Scholar
  67. Connell, J. H., and Slayter, R. O., 1977, Mechanisms of succession in natural communities and their role in community stability and organization, Am. Nat. 111: 1119–1144.Google Scholar
  68. Conolly, J. R., and Von der Borch, C. C., 1967, Sedimentation and physiography of the sea floor south of Australia, Sediment. Geol. 1: 181–220.Google Scholar
  69. Conover, M. R., 1975, Prevention of shell burial as a benefit hermit crabs provide to their symbionts (Decapoda, Pagurida), Crustaceans (Leiden) 29: 311–313.Google Scholar
  70. Conover, M. R., 1979, Effect of gastropod shell characteristics and hermit crabs on shell epifauna, J. Exp. Mar. Biol. Ecol. 40: 81–94.Google Scholar
  71. Cope, J. C. W., 1968, Epizoic oysters on Kimmeridgian ammonites, Palaeontology 11: 19–20.Google Scholar
  72. Copper, P., and Grawbarger, D. J., 1978, Paleoecological succession leading to a Late Ordovician biostrome on Manitoulin Island, Ontario, Can. J. Earth Sci. 15: 1987–2005.Google Scholar
  73. Crame, J. A., 1980, Succession and diversity in the Pleistocene coral reefs of the Kenya coast, Palaeontology 23: 1–37.Google Scholar
  74. Crame, J. A., 1981, Ecological stratification in the Pleistocene coral reefs of the Kenya coast, Palaeontology 24: 609–646.Google Scholar
  75. Crisp, D. J., 1976, Settlement responses in marine organisms, in: Adaptations to Environment: Essays on the Physiology of Marine Animals ( R. C. Newell, ed.), pp. 83–124, Butter-worths, London.Google Scholar
  76. Crowley, D. J., 1973, Middle Silurian patch reefs in Gasport Member (Lockport Formation), New York, Am. Assoc. Petrol. Geol. Bull. 57: 283–300.Google Scholar
  77. Dame, R. F., 1979, The abundance, diversity and biomass of macrobenthos on North Inlet, South Carolina, intertidal oyster reefs, Proc. Natl. Shellfish. Assoc. 69: 6–10.Google Scholar
  78. Dauer, D. M., Tourtellotte, G. H., and Ewing, R. M., 1982, Oyster shells and artificial worm tubes: The role of refuges in structuring benthic communities of the Lower Chesapeake Bay, Int. Revue ges. Hydrobiol. 67: 661–677.Google Scholar
  79. Davies, P. J., 1979, Marine geology of the continental shelf off southeast Australia, Bur. Min. Res. Aust. Bull. 195.Google Scholar
  80. Dayton, P. K., and Oliver, J. S., 1980, An evaluation of experimental analyses of population and community patterns in benthic marine environments, in: Marine Benthic Dynamics ( K. R. Tenore and B. C. Coull, eds.), pp. 93–120, University of South Carolina Press, Columbia.Google Scholar
  81. Dean, T. A., 1981, Structural aspects of sessile invertebrates as organizing forces in an estuarine fouling community, J. Exp. Mar. Biol. Ecol. 53: 163–180.Google Scholar
  82. Dickie, L. M., and Medcof, J. C., 1963, Causes of mass mortalities of scallops (Placopecten magellanicus) in the southwestern Gulf of St. Lawrence, J. Fish. Res. Board Can. 20: 45 1482.Google Scholar
  83. Doering, P. H., 1982, Reduction of sea star predation by the burrowing response of the hard clam Mercenaria mercenaria (Mollusca: Bivalvia), Estuaries 5: 310–315.Google Scholar
  84. Dörjes, J., 1972, Georgia coastal region, Sapelo Island, U.S.A.: Sedimentology and biology. VII. Distribution and zonation of macrobenthic animals, Senckenbergiana Marit. 4: 183–216.Google Scholar
  85. Dörjes, J., 1977, Marine macrobenthic communities of the Sapelo Island, Georgia region, in: Ecology of Marine Benthos ( B. C. Coull, ed.), pp. 399–421, University of South Carolina Press, Columbia.Google Scholar
  86. Driscoll, E. G., 1967, Attached epifauna—substrate relations, Limnol. Oceanogr. 12: 633–641.Google Scholar
  87. Driscoll, E. G., 1970, Selective bivalve destruction in marine environments, a field study, J. Sediment. Petrol. 40: 898–905.Google Scholar
  88. Driscoll, E. G., and Brandon, D. E., 1973, Mollusc—sediment relationships in northwestern Buzzards Bay, Massachusetts, U.S.A., Malacologia 12: 13–46.Google Scholar
  89. Driscoll, E. G., and Weltin, T. P., 1973, Sedimentary parameters as factors in abrasive shell reduction, Palaeogeogr. Palaeoclimatol. Palaeoecol. 13: 275–288.Google Scholar
  90. Drury, W. B., and Nisbet, I. C. T., 1973, Succession, J. Arnold Arbor. Harvard Univ. 54: 331–368.Google Scholar
  91. Dzulynski, S., and Kubicz, A., 1975, Storm accumulations of brachiopod shells and sedimentary environment of the Terebratula Beds in the Muschelkalk of Upper Silesia (southern Poland), Ann. Soc. Geol. Pol. 45: 157–169.Google Scholar
  92. Eggleston, D., 1972, Factors influencing the distribution of sublittoral ectoprocts off the south of the Isle of Man (Irish Sea), J. Nat. Hist. 6: 247–260.Google Scholar
  93. Einsele, G., Elouard, P., Herm, D., Kogler, F. C., and Schwarz, H. U., 1977, Source and biofacies of Late Quaternary sediments in relation to sea level on the shelf off Mauritania, West Africa, “Meteor” Forschungsergeb. Reihe C 26: 1–43.Google Scholar
  94. Eisma, D., 1966, The distribution of benthic marine molluscs off the main Dutch coast, Neth. J. Sea Res. 3: 107–163.Google Scholar
  95. Emery, K. O., 1968, Relict sediments on continental shelves of world, Am. Assoc. Petrol. Geol. Bull. 52: 445–464.Google Scholar
  96. Emson, R. H., and Faller-Fritsch, R. J., 1976, An experimental investigation into the effect of crevice availability on abundance and size-structure in a population of Littorine rudis (Maton): Gastropoda: Prosobranchia, J. Exp. Mar. Biol. Ecol. 23: 285–298.Google Scholar
  97. Farrow, G. E., 1974, On the ecology and sedimentation of the Cardium shell sands and transgressive shellbanks of Traigh Mhor, Island of Barra, Outer Hebrides, Trans. R. Soc. Edinburgh 69: 203–230.Google Scholar
  98. Farrow, G. E., and Clokie, J., 1979, Molluscan grazing of sublittoral algal-bored shells and the production of carbonate mud in the Firth of Clyde, Scotland, Trans. R. Soc. Edinburgh 70: 139–148.Google Scholar
  99. Farrow, G. E., Cucci, M., and Scoffin, T. P., 1978, Calcareous sediments on the nearshore continental shelf of western Scotland, Proc. R. Soc. Edinburgh 76B: 55–76.Google Scholar
  100. Flessa, K. W., and Bray, R. G., 1977, On the measurement of size-independent morphological variability: An example using successive populations of a Devonian spiriferid brachiopod, Paleobiology 3: 350–359.Google Scholar
  101. Flint, R. W., and Rabalais, N. N. (eds.), 1981, Environmental Studies of a Marine Ecosystem: South Texas Outer Continental Shelf, University of Texas Press, Austin.Google Scholar
  102. Flügel, E., 1981, Paleoecology and facies of Upper Triassic reefs in the Northern Calcareous Alps, Soc. Econ. Paleontol. Mineral. Spec. Publ. 30: 291–359.Google Scholar
  103. Fretter, V., and Graham, A., 1962, British Prosobranch Molluscs, The Ray Society, London. Frey, R. W., and Basan, P. B., 1981, Taphonomy of relict Holocene salt marsh deposits, Cabretta Island, Georgia, Senckenbergiana Merit. 13: 111–155.Google Scholar
  104. Frey, R. W., and Pinet, P. R., 1978, Calcium-carbonate content of surficial sands seaward of Altamaha and Doboy sounds. Georgia, J. Sediment. Petrol. 48: 1249–1256.Google Scholar
  105. Frey, R. W., and Seilacher, A., 1980, Uniformity in marine invertebrate ichnology, Lethaia 13: 183–207.Google Scholar
  106. Frey, R. W., Voorhies, M. R., and Howard, J. D., 1975, Estuaries of the Georgia coast, U.S.A.: Sedimentology and biology. VIII. Fossil and Recent skeletal remains in Georgia estuaries, Senckenbergiana Merit. 7: 257–295.Google Scholar
  107. Frost, S. H., 1977, Ecological controls of Caribbean and Mediterranean Oligocene reef coral communities, Proc. 3rd Int. Coral Reef Symp. 2: 367–373.Google Scholar
  108. Frost, S. H., 1981, Oligocene reef coral biofacies of the Vicentin, northeast Italy, Soc. Econ. Paleontol. Mineral. Spec. Publ. 30: 483–539.Google Scholar
  109. Fürsich, F. T., 1978, The influence of faunal condensation and mixing on the preservation of fossil benthic communities, Lethaia 11: 243–250.Google Scholar
  110. Fütterer, E., 1978, Studien uber die Einregelung, Anlagerung and Einbttung biogener Hartteile im Strömungskanal, Neues Jahrb. Geol. Palaeontol. Abh. 156: 87–131.Google Scholar
  111. Fütterer, D., and Paul, J., 1976, Recent and Pleistocene sediments off the Istrian coast (northern Adriatic, Yugoslavia), Senckenbergiana Marit. 8: 1–21.Google Scholar
  112. Gardner, J., 1957, Little Stave Creek, Alabama—Paleoecologic study, Geol. Soc. Am. Mem. 67 (2): 573–588.Google Scholar
  113. Gernant, R. E., 1970, Paleoecology of the Choptank Formation (Miocene) of Maryland and Virginia, Md. Geol. Surv. Rep. Invest. 12.Google Scholar
  114. Gernant, R. E., 1971, Invertebrate biofacies and paleoenvironments, in Environmental history of Maryland Miocene, Md. Geol. Surv. Guidebook 3: 19–30.Google Scholar
  115. Golubic, S., Perkins, R. D., and Lukas, K. J., 1975, Boring microorganisms and microborings in carbonate substrates, in: The Study of Trace Fossils ( R. W. Frey, ed.), pp. 229–259, Springer-Verlag, Berlin.Google Scholar
  116. Gray, J. S., 1981, The Ecology of Marine Sediments: An Introduction to the Structure and Function of Benthic Communities, Cambridge University Press, London.Google Scholar
  117. Grosberg, R. K., 1981, Competitive ability influences habitat choice in marine invertebrates, Nature (London) 290: 700–702.Google Scholar
  118. Gundrum, L. E., 1979, Demosponges as substrates: An example from the Pennsylvanian of North America, Lethaia 12: 105–119.Google Scholar
  119. Gunter, G., 1947, Catastrophism in the sea and its paleontological significance, with special reference to the Gulf of Mexico, Am. J. Sci. 245: 669–676.Google Scholar
  120. Hagdorn, H., 1978, Muschel/Krinoiden-Bioherme im Oberen Muschelkalk (mol, Anis) von Crailsheim and Schwabisch Hall (Sudwestdeutschland), Neues Jahrb. Geol. Palaeontol. Abh. 156: 31–86.Google Scholar
  121. Harland, T. L., 1981, Middle Ordovician reefs of Norway, Lethaia 14: 169–188.Google Scholar
  122. Harris, F. W., and Martin, W. D., 1979, Benthic community development in limestone beds of the Waynesville (upper Dillsboro) Formation (Cincinnatian Series, Upper Ordovician) of southeastern Indiana, J. Sediment. Petrol. 49: 1295–1305.Google Scholar
  123. Hattin, D. E., 1983, Regional aspects of Late Cretaceous carbonate substrates and benthonic faunas, U.S. Western Interior, in: The Cretaceous of the North Temperate Realm (E. G. Kauffman and D. E. Hattin, eds.), Hutchinson Ross, Stroudsburg, Pa., in press.Google Scholar
  124. Heim, A., 1924, Über submarine denudation and chemische sedimente, Geol. Rundsch. 15: 147.Google Scholar
  125. Heim, A., 1958, Oceanic sedimentation and submarine discontinuities, Eclogae Geol. Heiv. 51: 642–649.Google Scholar
  126. Heliasz, Z., and Racki, G., 1980, Ecology of the Upper Jurassic brachiopod bed from Julianka, Polish Jura Chain, Acta Geol. Pol. 30: 175–197.Google Scholar
  127. Hickey, D. R., and Younker, J. L., 1981, Structure and composition of a Paleozoic benthic community, J. Paleontol. 55: 1–12.Google Scholar
  128. Highsmith, R. C., 1982, Reproduction by fragmentation in corals, Mar. Ecol. Prog. Ser. 7: 207226.Google Scholar
  129. Highsmith, R. C., Riggs, A. C., and D’Antonio, C. M., 1980, Survival of hurricane-generated coral fragments and a disturbance model of reef calcification growth rates, Oecologia 46: 322–329.Google Scholar
  130. Hoffman, A., and Narkiewicz, M., 1977, Developmental pattern of Lower to Middle Paleozoic banks and reefs, Neues Jahrb. Geol. Palaeontol. Monatsh. 1977: 272–283.Google Scholar
  131. Holme, N. A., 1961, The bottom fauna of the English Channel, J. Mar. Biol. Assoc. U.K. 41: 397–461.Google Scholar
  132. Holme, N. A., 1966, The bottom fauna of the English Channel, Part II, J. Mar. Biol. Assoc. U.K. 46: 401–493.Google Scholar
  133. Horn, H. S., 1974, The ecology of secondary succession, Annu. Rev. Ecol. Syst. 5: 25–37.Google Scholar
  134. Horn, H. S., 1976, Succession, in: Theoretical Ecology: Principles and Applications ( R. M. May, ed.), pp. 187–204, Saunders, Philadelphia.Google Scholar
  135. Hoskins, C. W., 1967, Hydrodynamic significance of mollusks in Pliocene turbidites near Ventura, California, Am. Assoc. Petrol. Geol. Bull. 51: 470 (abstr.).Google Scholar
  136. Isaacson, P. E., and Curran, H. A., 1981, Anatomy of an Early Devonian carbonate buildup, central New York, J. Paleontol. 55: 1225–1236.Google Scholar
  137. Jackson, J. B. C., 1972, The ecology of the molluscs of Thalassic communities, Jamaica, West Indies. II. Molluscan population variability along an environmental stress gradient, Mar. Biol. 14: 304–337.Google Scholar
  138. Jackson, J. B. C., 1973, The ecology of molluscs of Thalassia communities, Jamaica, West Indies. I. Distribution, environmental physiology and ecology of common shallow-water species, Bull. Mar. Sci. 23: 313–350.Google Scholar
  139. Jackson, J. B. C., 1977a, Habitat area, colonization, and development of epibenthic community structure, in: Biology of Benthic Organisms ( B. F. Keegan, P. O’Ceidigh, and P. J. S. Boaden, eds.), pp. 349–358, Pergamon Press, Elmsford, N.Y.Google Scholar
  140. Jackson, J. B. C., 19776, Competition on marine hard substrata: The adaptive significance of solitary and colonial strategies, Am. Nat. 111: 743–767.Google Scholar
  141. Jarvis, I., 1980, Palaeobiology of Upper Cretaceous belemnites from the phosphatic chalk of the Anglo-Paris basin, Palaeontology 23: 889–914.Google Scholar
  142. Jenkyns, H. C., 1971, The genesis of condensed sequences in the Tethyan Jurassic, Lethaia 4: 327–352.Google Scholar
  143. Jervey, M. T., 1974, Transportation and dispersal of biogenic material in the nearshore marine environment, unpublished Ph.D. dissertation, Lousiana State University.Google Scholar
  144. Johnson, G. H., n.d. (1968), Guidebook to the geology of the York—James Peninsula and south bank of the James River, Dept. Geol. College of William and Mary Guidebook 1 (prepared for 10th Annu. Field Conf., Atlantic Coastal Plain Geol. Soc.).Google Scholar
  145. Johnson, J. H., and Foster, H. L., 1951, Recent molluscan association with paleontologic and stratigraphic implications, Am. Assoc. Petrol. Geol. Bull. 35: 2430–2431.Google Scholar
  146. Johnson, M. E., 1977, Succession and replacement in the development of Silurian brachiopod populations, Lethaia 10: 83–93.Google Scholar
  147. Johnson, R. G., 1957, Experiments on the burial of shells, J. Geol. 65: 527–535.Google Scholar
  148. Jumars, P. A., Self, R. F. L., and Nowell, A. R. M., 1982, Mechanics of particle selection by tentaculate deposit-feeders, J. Exp. Mar. Biol. Ecol. 64: 47–70.Google Scholar
  149. Johnson, R. G., 1965, Pelecypod death assemblages in Tomales Bay, California, J. Paleontol. 39: 80–85.Google Scholar
  150. Kauffman, E. G., 1974, Cretaceous assemblages, communities, and associations: Western Interior United States and Caribbean Islands, in: Principles of Benthic Community Analysis (by A. M. Ziegler, K. R. Walker, E. J. Anderson, E. G. Kauffman, R. N. Ginsburg, and N. P. James), Univ. Miami Comp. Sediment. Lab. Sedimenta 4: 121–1227.Google Scholar
  151. Kauffman, E. G., 1981, Ecological reappraisal of the German Posidonienschiefer (Toarcian) and the stagnant basin model, in: Communities of the Past ( J. Gray, A. J. Boucot, and W. B. N. Berry, eds.), pp. 311–381, Hutchinson Ross, Stroudsburg, Pa.Google Scholar
  152. Kauffman, E. G., and Sohl, N. F., 1974, Structure and evolution of Antillean Cretaceous rudist frameworks, Verhondl. Naturforsch. Ges. Basel 84: 399–467.Google Scholar
  153. Keary, R., and Keegan, B. F., 1975, Stratification by infauna debris: A structure, a mechanism, and a comment, J. Sediment. Petrol. 45: 128–131.Google Scholar
  154. Keegan, B., 1974, The marine fauna of maerl substrates on the west coast of Ireland, Cah. Biol. Mar. 15: 513–530.Google Scholar
  155. Kelling, G., and Mullin, P. R., 1975, Graded limestones and limestone—quartzite couplets: Possible storm deposits from the Moroccan Carboniferous, Sediment. Geol. 13: 161–190.Google Scholar
  156. Kenyon, N. H., 1970, Sand ribbons of European tidal seas, Mar. Geol. 9: 25–39.Google Scholar
  157. Kidwell, S. M., 1979, Stratigraphic condensation and the formation of major complex shell bed in the Miocene Chesapeake Group, Geol. Soc. Am. Abstr. 11: 457.Google Scholar
  158. Kidwell, S. M., 1982a, Time scales of fossil accumulation: Patterns from Miocene benthic assemblages, Proc. 3rd North Am. Paleontol. Cony. 1: 295–300.Google Scholar
  159. Kidwell, S. M., 19826, Stratigraphy, invertebrate taphonomy, and depositional history of the Miocene Calvert and Choptank formations, Atlantic Coastal Plain, unpublished Ph.D. dissertation, Yale University.Google Scholar
  160. Kidwell, S. M., 1983, Basin margin unconformities in the lower Chesapeake Group (Middle Miocene), Atlantic Coastal Plain, Am. Assoc. Petrol. Geol. Clem., in press.Google Scholar
  161. Kobluk, D. R., and Kahle, C. F., 1978, Geologic significance of boring and cavity-dwelling marine algae, Bull. Can. Pet. Geol. 26: 362–379.Google Scholar
  162. Kreisa, R. D., 1981, Storm-generated sedimentary structures in subtidal marine facies with examples from the Middle and Upper Ordovician of southwestern Virginia, J. Sediment. Petrol. 51: 823–848.Google Scholar
  163. Kumar, N., and Sanders, J. E., 1976, Characteristics of shoreface storm deposits: Modern and ancient examples, J. Sediment. Petrol. 46: 145–162.Google Scholar
  164. Lane, N. G., 1981, A nearshore spicule mat from the Pennsylvanian of west-central Indiana, J. Sediment. Petrol. 51: 197–202.Google Scholar
  165. Levinton, J. S., 1970, The paleoecological significance of opportunistic species, Lethaia 3: 69–78.Google Scholar
  166. Levinton, J. S., 1977, Ecology of shallow water deposit-feeding communities, Quisset Harbor, Massachusetts, in: Ecology of Marine Benthos ( B. C. Coull, ed.), pp. 191–227, University of South Carolina Press, Columbia.Google Scholar
  167. Levinton, J. S., 1979a, Deposit-feeders, their resources, and the study of resource limitation, in: Ecological Processes in Coastal and Marine Systems ( R. J. Livingston, ed.), pp. 117–141, Plenum Press, New York.Google Scholar
  168. Levinton, J. S., 19796, The effect of density upon deposit-feeding populations: Movement, feeding and floating of Hydrobia ventrosa Montagu (Gastropoda: Prosobranchia), Oecologia (Berlin) 43: 27–39.Google Scholar
  169. Levinton, J. S., and Bambach, R. K., 1975, A comparative study of Silurian and Recent deposit-feeding bivalve communities, Paleobiology 1: 97–124.Google Scholar
  170. Lewy, Z., 1975, Early diagenesis of calcareous skeletons in the Baltic Sea, western Germany, Meyniana 27: 29–33.Google Scholar
  171. Lewy, Z., 1981, Maceration of calcareous skeletons, Sedimentology 28: 893–895.Google Scholar
  172. Liddell, W. D., and Brett, C. E., 1982, Skeletal overgrowths among epizoans from the Silurian (Wenlockian) Waldron Shale, Paleobiology 8: 67–78.Google Scholar
  173. Lubchenco, J., 1978, Plant species diversity in a marine intertidal community: Importance of herbivore food preference and algal competitive abilities, Am. Nat. 112: 23–39.Google Scholar
  174. MacDonald, K. B., 1976, Paleocommunities: Toward some confidence limits, in: Structure and Classification of Paleocommunities ( R. W. Scott and R. R. West, eds.), pp. 87–106, Dowden, Hutchinson and Ross, Stroudsburg, Pa.Google Scholar
  175. McCarthy, B., 1977, Selective preservation of molluscan shells in a Permian beach environment, Sydney Basin, Australia, Neues Jahrb. Geol. Palaeontol. Monatsh. 1977: 466–474.Google Scholar
  176. McKnight, D. G., 1969, A recent, possible catastrophic burial q marine molluscan com- munity, N.Z. J. Mar. Freshwater Res. 3: 177–179.Google Scholar
  177. McMaster, R. L., Milliman, J. D., and Ashraf, A., 1971, Continental shelf and upper slope sediments off Portuguese Guinea, Guinea, and Sierra Leone, west Africa, J. Sediment. Petrol. 41: 150–158.Google Scholar
  178. Margalef, R., 1968, Perspectives in Ecological Theory, University of Chicago Press, Chicago, 111 P.Google Scholar
  179. Marshall, J. F., and Davies, P. J., 1979, Skeletal carbonate variation on the continental shelf of eastern Australia, Bur. Min. Res. J. Aust. Geol. Geophys. 3: 85–92.Google Scholar
  180. Meyer, D. L., 1981, Biostratinomy and paleoecology of echinoderm lagerstatten from the Cincinnatian Series, in: GSA Cincinnati ‘81 Field Trip Guidebooks, Vol. I, Stratigraphy, Sedimentology ( T. G. Roberts, ed.), pp. 58–62, American Geological Institute, Falls Church, Va.Google Scholar
  181. Milliman, J. D., 1977, Effects of arid climate and upwelling upon the sedimentary regime off southern Spanish Sahara, Deep-Sea Res. 24: 99–103.Google Scholar
  182. Milliman, J. D., and Summerhayes, C. P. (eds.), 1975, Upper Continental Margin Sedimentation off Brazil, Contrib. Sedimental. 4.Google Scholar
  183. Milliman, J. D., Pilkey, O. H., and Ross, D. A., 1972, Sediments of the continental margin off the eastern United States, Geol. Soc. Am. Bull. 83: 1315–1334.Google Scholar
  184. Morris, K. A., 1979, A classification of Jurassic marine shale sequences: An example from the Toarcian (Lower Jurassic) of Great Britain, Palaeogeogr. Palaeoclimatol. Palaeoecol. 26: 117–126.Google Scholar
  185. Morton, R. A., and Winkler, C. D., 1979, Distribution and significance of coarse biogenic and clastic deposits on the Texas inner shelf, Trans. Gulf Coast Assoc. Geol. Soc. 29: 306–320.Google Scholar
  186. Mullins, H. T., Newton, C. R.. Heath, K., and Van Buren, H. M., 1981, Modern deep-water coral mounds north of Little Bahama Bank: Criteria for recognition of deep-water coral bioherms in the rock record, J. Sediment. Petrol. 51: 999–1013.Google Scholar
  187. Mundlos, R., 1975, Okologie, Biostratinomie und Diagenese brachyurer krebse aus dem Alt-Tertiär von Helmstedt (Niedersachen, BRD), Neues Jahrb. Geol. Palaeontol. Abh. 148: 252–271.Google Scholar
  188. Myrick, A. C., Jr., 1979, Variation, tphonomy, and adaptation of the Rhabdosteidae (=Eurhinodelphidae) (Odontoceti, Mammalia) from the Calvert Formation of Maryland and Virginia, unpublished Ph.D. dissertation, University of California, Los Angeles.Google Scholar
  189. Nelson, C. S., 1978a, Temperate shelf carbonate sediments in the Cenozoic of New Zealand, Sedimentology 25: 737–771.Google Scholar
  190. Nelson, C. S., 1978b, Stratigraphy and paleontology of the Oligocene Te Kuiti Group, Wai- tomo County, South Auckland, New Zealand, N.Z. J. Geol. Geophys. 21: 553–594.Google Scholar
  191. Nelson, C. S., Hancock, G. E., and Kamp, P. J. J., 1982, Shelf to basin, temperate skeletal carbonate sediments, Three Kings Plateau, New Zealand, J. Sed. Pet. 52: 717–732.Google Scholar
  192. Neumann, A. C., Kofoed, J. W., and Keller, G. H., 1977, Lithoherms in the Straits of Florida, Geology 5: 4–10.Google Scholar
  193. Nichols, J., and Rowe, G. T., 1977, Infaunal macrobenthos off Cap Blanc, Spanish Sahara, J. Mar. Res. 35: 525–536.Google Scholar
  194. Norris, R. M., 1972, Shell and gravel layers, western continental shelf, New Zealand, N.Z. J. Geol. Geophys. 15: 572–589.Google Scholar
  195. Odum, E. P., 1969, The strategy of ecosystem development, Science 164: 262–270.PubMedGoogle Scholar
  196. Osman, R. W., 1977, The establishment and development of a marine epifaunal community, Ecol. Monogr. 47: 37–63.Google Scholar
  197. Paine, R. T., and Levin, S. A., 1981, Intertidal landscapes: Disturbance and the dynamics of pattern, Ecol. Monogr. 51: 145–178.Google Scholar
  198. Perkins, R. D., and Halsey, S. D., 1971, Geologic significance of microboring fungi and algae in Carolina shelf sediments, J. Sediment. Petrol. 41: 843–853.Google Scholar
  199. Peterson, C. H., 1979, Predation, competitive exclusion, and diversity in the soft-sediment benthic communities of estuaries and lagoons, in: Ecological Processes in Coastal and Marine Systems ( R. J. Livingston, ed.), pp. 233–264, Plenum Press, New York.Google Scholar
  200. Peterson, C. H., 1980, Approaches to the study of competition in benthic communities, in: Estuarine Perspectives ( V. S. Kennedy, ed.), pp. 291–302, Academic Press, New York.Google Scholar
  201. Peterson, C. H., 1982, Clam predation by whelks (Busycon spp.): Experimental tests of the importance of prey size, prey density, and seagrass cover, Mar. Biol. 66: 159–170.Google Scholar
  202. Peterson, C. H., and Andre, S. V., 1980, An experimental analysis of interspecific competition among marine filter-feeders in a soft-sediment environment, Ecology 61: 129–139.Google Scholar
  203. Pilkey, O. H., Blackwelder, B. W., Knebel, H. J., and Ayers, M. W., 1981, The Georgia Embayment continental shelf: Stratigraphy of a submergence, Geol. Soc. Am. Bull. 92: 52–63.Google Scholar
  204. Piller, W. E., 1981, The Steinplatte reef complex, part of an Upper Triassic carbonate platform near Salzburg, Austria, Soc. Econ. Paleontol. Mineral. Spec. Publ. 30: 261–290.Google Scholar
  205. Pitman, W. C., III, 1978, Relationships between eustacy and stratigraphic sequences of passive margins, Geol. Soc. Am. Bull. 89: 1389–1403.Google Scholar
  206. Pohowsky, R. A., 1978, The boring ctenostomate Bryozoa: Taxonomy and paleobiology based on cavities in calcareous substrata, Bull. Am. Paleontol. 73 (301).Google Scholar
  207. Porter, M. J., and Wolfe, D. A., 1971, Mollusca from the North Carolina commercial fishing grounds for the calico scallop Argopecten gibbus (Linne), J. Conchyliol. 109: 91–109.Google Scholar
  208. Probert, P. K., Batham, E. J., and Wilson, J. B., 1979, Epibenthic macrofauna off southeastern New Zealand and mid-shelf bryozoan dominance, N.Z. J. Mar. Freshwater Res. 13: 379–392.Google Scholar
  209. Pugaczewska, H., 1965, Les organismes sédentaires sur les rostres des belemnites du Crétacé supérieur, Acta Palaeontol. Pol. 10: 73–109.Google Scholar
  210. Raffaelli, D. G., 1978, Factors affecting the population structure of Littorina neglecta Bean, J. Molluscan Stud. 44: 223–230.Google Scholar
  211. Rafffaelli, D. G., and Hughes, R. N., 1978, The effects of crevice size and availability on populations of Littorine rudis and Littorina neritoides, J. Anim. Ecol. 47: 71–83.Google Scholar
  212. Rees, E. I. S., Nicholaidos, A., and Laskaridou, P., 1977, The effects of storms on the dynamics of shallow water benthic associations, in: Biology of Benthic Organisms ( B. F. Keegan, P. O’Ceidigh, and P. J. S. Boaden, eds.), pp. 465–474, Pergamon Press, Elmsford, N.Y.Google Scholar
  213. Reif, W.-E., 1971, Zur Genese des Muschelkalk-Keuper-Grenz bonebeds in Sudwestdeutschland, Neues Jahrb. Geol. Palaeontol. Abh. 139: 369–404.Google Scholar
  214. Reif, W.-E., 1982, Muschelkalk/Keuper bone beds (Middle Triassic, SW-Germany)—storm condensation in a regressive cycle, in: Cyclic and Event Stratification (G. Einsele and A. Seilacher, eds.) Berlin, pp. 299–325, Springer-Verlag, Berlin.Google Scholar
  215. Reimer, A. A., 1976, Succession of invertebrates in vacant tests of Tetraclita stalactifera panamensis, Mar. Biol. 35: 239–251.Google Scholar
  216. Rhoads, D. C., 1974, Organism–sediment relations on the muddy sea floor, Annu. Rev. Oceanogr. Mar. Biol. 12: 263–300.Google Scholar
  217. Richards, R. P., 1972, Autecology of Richmondian brachiopods (Upper Ordovician of Indiana and Ohio), J. Paleontol. 46: 386–405.Google Scholar
  218. Riding, R., 1981, Composition, structure and environmental setting of Silurian bioherms and biostromes in northern Europe, Soc. Econ. Paleontol. Mineral. Spec. Publ. 30: 41–83.Google Scholar
  219. Rodriguez, J., and Gutschick, R. C., 1977, Barnacle borings in live and dead hosts from the Louisiana Limestone (Famennian) of Missouri, J. Paleontol. 51: 718–724.Google Scholar
  220. Rosenkranz, D., 1971, Zur Sedimentologie und Okologie von Echinodermen-Lagerstätten, Neues Jahrb. Geol. Palaeontol. Abh. 138: 221–258.Google Scholar
  221. Russ, G. R., 1980, Effects of predation by fishes, competition, and structural complexity of the substratum on the establishment of a marine epifaunal community, J. Exp. Mar. Biol. Ecol. 42: 55–69.Google Scholar
  222. Ryer, T. A., 1977, Patterns of Cretaceous shallow-marine sedimentation, Coalville and Rockport areas, Utah, Geol. Soc. Am. Bull. 88: 177–188.Google Scholar
  223. Savazzi, E., 1982, Commensalism between a boring mytilid bivalve and a soft bottom coral in the Upper Eocene of northern Italy, Paläont. Z. 56: 165–175.Google Scholar
  224. Schäfer, K. A., 1973, Zur Fazies and Paläogeographie der Spiriferina-Bank (Hauptmuschelkalk im nördlichen Baden-Württemburg), Neues Jahrb. Geol. Palaeontol. Abh. 143: 56–110.Google Scholar
  225. Schäfer, P., and Senowbari-Daryan, B., 1981, Facies development and paleoecologic zonation of four Upper Triassic patch-reefs, Northern Calcareous Alps near Salzburg, Austria, Soc. Econ. Paleontol. Mineral. Spec. Publ. 30: 241–259.Google Scholar
  226. Schäfer, W., 1972, Ecology and Palaeoecology of Marine Environments, University of Chicago Press, Chicago.Google Scholar
  227. Schwarz, H. U., 1975, Sedimentary structures and facies analysis of shallow marine carbonates (Lower Muschelkalk, Middle Triassic, southwestern Germany), Contrib. Sedimentol. 3.Google Scholar
  228. Scoffin, T. P., 1971, The conditions of growth of the Wenlock reefs of Shropshire (England), Sedimentology 17: 173–219.Google Scholar
  229. Scoffin, T. P., Alexandersson, E. T., Bowes, G. E., Clokie, J. J., Farrow, G. E., and Milliman, J. D., 1980, Recent, temperate, sub-photic, carbonate sedimentation: Rockall Bank, northeast Atlantic, J. Sediment. Petrol. 50: 331–355.Google Scholar
  230. Scott, R. W., 1981, Biotic relations in Early Cretaceous coral–algal–rudist reefs, Arizona, J. Paleontol. 55: 463–478.Google Scholar
  231. Scott, R. W., and Brenckle, P. L., 1977, Biotic zonation of a Lower Cretaceous coral–algalrudist reef, Arizona, Proc. 3rd Int. Coral Reef Symp. 2: 183–189.Google Scholar
  232. Sears, J. R., and Wilce, R. T., 1975, Sublittoral, benthic marine algae of southern Cape Cod and adjacent islands: Seasonal periodicity, associations, diversity, and floristic composition, Ecol. Monogr. 45: 337–365.Google Scholar
  233. Seilacher, A., 1982, Ammonite shells as habits in bituminous shales—Floats or benthic islands, Neues Jahrb. Geol. Palaeontol. Monatsh. 1982: 98–114.Google Scholar
  234. Sepkoski, J. J., 1979, Taphonomic factors influencing the lithologic occurrence of fossils in Dresbachian (Upper Cambrian) shaley facies, Geol. Soc. Am. Abstr. 10: 490.Google Scholar
  235. Sheppard, C. R. C., 1981, Reef and soft-substrate coral fauna of Chagos, Indian Ocean, J. Nat. Hist. 15: 607–621.Google Scholar
  236. Sheppard, C. R. C., 1982, Coral populations on reef slopes and their major controls, Mar. Ecol. Progr. Ser. 7: 83–115.Google Scholar
  237. Smith, D. B., 1981a, The Magnesian Limestone (Upper Permian) reef complex of northeastern England, Soc. Econ. Paleontol. Mineral. Spec. Publ. 30: 161–186.Google Scholar
  238. Smith, D. B., 1981b, Bryozoan–algal patch-reefs in the Upper Permian lower Magnesian Limestone of Yorkshire, northeast England, Soc. Econ. Paleontol. Mineral. Spec. Publ. 30: 187–202.Google Scholar
  239. Snyder, E. M., 1980, Bryozoan assemblages and inferred ecologic succession in the Warsaw Formation (Middle Valmeyeran), western Illinois Basin, Geol. Soc. Am. Abstr. 12: 256.Google Scholar
  240. Sousa, W. P., 1979a, Experimental investigations of disturbance and ecological succession in a rocky intertidal algal community, Ecol. Monogr. 49: 227–254.Google Scholar
  241. Sousa, W. P., 19796, Disturbance in marine intertidal boulder fields: The nonequilibrium maintenance of species diversity, Ecology 60: 1225–1239.Google Scholar
  242. Sousa, W. P., 1980, The response of a community to disturbance: The importance of successional age and species’ life histories, Oecologia (Berlin) 45: 72–81.Google Scholar
  243. Sparks, D. K., Hoare, R. D., and Kesling, R. V., 1980, Epizoans on the brachiopod Paraspirifer bownockeri (Stewart) from the Middle Devonian of Ohio, Univ. Mich. Mus. Paleontol. Pap. Paleontol. 23.Google Scholar
  244. Squires, D. F., 1964, Fossil coral thickets in Wairarpa, New Zealand, J. Paleontol. 38: 904–915.Google Scholar
  245. Stachowitsch, M., 1977, The hermit crab microbiocoenosis—The role of mobile secondary hard bottom elements in a north Adriatic benthic community, in: The Biology of Benthic Organisms ( B. F. Keegan, P. O’Ceidigh, and P. J. S. Boaden, eds.), pp. 549–558, Pergamon Press, Elmsford, N.Y.Google Scholar
  246. Stachowitsch, M., 1979, Movement, activity pattern, and role of a hermit crab population in a sublittoral epifaunal community, J. Exp. Mar. Biol. Ecol. 39: 135–150.Google Scholar
  247. Stanley, G. D., Jr., 1979, Paleoecology, structure, and distribution of Triassic coral buildups in western North America, Univ. Kans. Paleontol. Contrib. Artic. 65.Google Scholar
  248. Stanley, S. M., 1970, Relation of shell form to life habits of the Bivalvia (Mollusca), Geol. Soc. Am. Mem. 125.Google Scholar
  249. Steimle, F. W., and Sindermann, C. J., 1978, Review of oxygen depletion and associated mass mortalities of shellfish in the Middle Atlantic Blight in 1976, Mar. Fish. Rev. 40 (12): 17–26.Google Scholar
  250. Suchanek, T. H., 1978, The ecology of Mytilus edulis L. in exposed rocky intertidal communities, J. Exp. Mar. Biol. Ecol. 31: 105–120.Google Scholar
  251. Sutherland, J. P., 1974, Multiple stable points in natural communities, Am. Nat. 108: 859–873.Google Scholar
  252. Sutherland, J. P., 1981, The fouling community of Beaufort, North Carolina: A study in stability, Am. Nat. 118: 499–519.Google Scholar
  253. Swift, D. J. P., 1974, Continental shelf sedimentation, in: The Geology of Continental Margins ( C. A. Burk and C. L. Drake, eds.), pp. 117–135, Springer-Verlag, Berlin.Google Scholar
  254. Swift, D. J. P., 1976, Continental shelf sedimentation, in: Marine Sediment Transport and Environmental Management ( D. J. Stanley and D. J. P. Swift, eds.), pp. 311–350, Wiley, New York.Google Scholar
  255. Swift, D. J. P., and Heron, S. D., Jr., 1969, Stratigraphy of the Carolina Cretaceous, Southeast. Geol. 10: 201–245.Google Scholar
  256. Swift, D. J. P., Kofoed, J. W., Saulsbury, F. P., and Sears, P., 1972, Holocene evolution of the shelf surface, central and southern Atlantic coast of North America, in: Shelf Sediment Transport: Process and Pattern ( D. J. P. Swift, D. B. Duane, and O. H. Pilkey, eds.), pp. 499–574, Dowden, Hutchinson and Ross, Stroudsburg, Pa.Google Scholar
  257. Taghon, G. L., 1982, Optimal foraging by deposit-feeding invertebrates: Role of particle size and organic coating, Oecologia 52: 295–304.Google Scholar
  258. Taylor, P. D., 1979, Paleoecology of the encrusting epifauna of some British Jurassic bivalves, Palaeogeogr. Palaeoclimatol. Palaeoecol. 28: 241–262.Google Scholar
  259. Thayer, C. W., 1974, Substrate specificity of Devonian epizoa, J. Paleontol. 48: 881–894.Google Scholar
  260. Thayer, C. W., 1979, Biological bulldozers and the evolution of marine benthic communities, Science 203: 458–461.PubMedGoogle Scholar
  261. Thomas, R. D. K., 1975, Functional morphology, ecology, and evolutionary conservatism in the Glycymerididae (Bivalvia), Palaeontology 18: 217–254.Google Scholar
  262. Thompson, J. K., 1982, Population structure of Gemma gemma (Bivalvia: Veneridae) in south San Francisco Bay, with a comparison to some northeastern United States estuarine populations, Veliger 24: 281–290.Google Scholar
  263. Tucker, M. E., 1969, Crinoidal turbidites from the Devonian of Cornwall and their paleo-geographic significance, Sedimentology 13: 281–290.Google Scholar
  264. Vail, G. B., 1980, Sedimentary environment of Devonian pelagic limestones in the Southern Alps, Lethaia 13: 79–91.Google Scholar
  265. Vail, P. R., and Todd, R. G., 1981, Northern North Sea Jurassic unconformities, chronostratigraphy and sea-level changes from seismic stratigraphy, in: Petroleum Geology of the Continental Shelf of Northwest Europe ( V. Illing and G. D. Hobson, eds.), pp. 216–235, Heyden, London.Google Scholar
  266. Vail, P. R., Mitchum, R. M., Jr., Todd, R. G., Widmier, J. M., Thompson, S., III, Sangree, J. B., Bubb, J. N., and Hatlelid, W. G., 1977, Seismic stratigraphy and global changes of sea-level, Am. Assoc. Petrol. Geol. Mem. 16: 49–212.Google Scholar
  267. Vance, R. R., 1978, A mutualistic interaction between a sessile marine clam and its epibionts, Ecology 59: 679–685.Google Scholar
  268. van Staalduinen, C. J., van Adrichem Boogaert, H. A., Bless, M. J. M., Doppert, J. W. C., Harsvelt, H. M. H., van Montfrans, H. M., Oele, E., Wermuth, G. A., and Zagwijn, W. H., 1979, The geology of the Netherlands, Meded. Rijks Geol. Dienst 31.Google Scholar
  269. Van Straaten, L. M. J. U., 1956, Composition of shell beds formed in tidal flat environment in the Netherlands and in the Bay of Arcahon (France), Geol. Mijnbouw 18: 209–226.Google Scholar
  270. Van Straaten, L. M. J. U., 1967, Turbidites, ash layers and shell beds in the bathyal zone of the southeastern Adriatric Sea, Rev. Geogr. Phys. Geol. Dyn. 9: 219–240.Google Scholar
  271. Vermeij, G. J., 1978, Biogeography and Adaptation: Patterns of Marine Life, Harvard University Press, Cambridge, Mass.Google Scholar
  272. Voigt, E., 1975, Tunnelbaue rezenter und fossiler Phoronida, Palaeontol. Z. 49: 135–167.Google Scholar
  273. Waage, K. M., 1964, Origin of repeated fossiliferous concretion layers in the Fox Hills Formation, Kans. Geol. Surv. Bull. 169 (2): 541–563.Google Scholar
  274. Waddington, J. B., 1980, A soft substrate community with edrioasteroids, from the Verulam Formation (Middle Ordovician) at Gamebridge, Ontario, Can. J. Earth Sci. 17: 674–679.Google Scholar
  275. Walker, K. R., and Alberstadt, L. P., 1975, Ecological succession as an aspect of structure in fossil communities, Paleobiology 1: 238–257.Google Scholar
  276. Walker, K. R., and Parker, W. C., 1976, Population structure of a pioneer and a later stage species in an Ordovician ecological succession, Paleobiology 2: 191–201.Google Scholar
  277. Walsh, J. J., 1981, Shelf-sea ecosystems, in: Analysis of Marine Ecosystems ( A. R. Longhurst, ed.), pp. 159–196, London, Academic Press.Google Scholar
  278. Ward, L. B., and Blackwelder, B. W., 1980, Stratigraphic revision of Upper Miocene and Lower Pliocene beds of the Chesapeake Group, middle Atlantic Coastal Plain, U.S. Geol. Surv. Bull. 1482-D.Google Scholar
  279. Warme, J. E., 1975, Borings as trace fossils, and the process of marine bioerosion, in: The Study of Trace Fossils ( R. W. Frey, ed.), pp. 181–227, Springer-Verlag, Berlin.Google Scholar
  280. Warner, G. F., 1979, Aggregation in echinoderms, in: Biology and Systematics of Colonial Organisms ( G. P. Larwood and R. B. Rosen, eds.), pp. 375–396, Academic Press, New York.Google Scholar
  281. Warwick, R. M., 1980, Population dynamics and secondary production of benthos, in: Marine Benthic Dynamics ( K. R. Tenore and B. C. Coull, eds.), pp. 1–24, University of South Carolina Press, Columbia.Google Scholar
  282. Wass, R. E., Conolly, J. R., and Maclntyre, R. J., 1970, Bryozoan carbonate sand continuous along southern Australia, Mar. Geol. 9: 63–73.Google Scholar
  283. Wells, H. W., 1957, Abundance of the hard clam, Mercenaria mercenaria, in relation to environmental factors, Ecology 38: 123–128.Google Scholar
  284. Wells, H. W., 1961, The fauna of oyster beds, with special reference to the salinity factor, Ecol. Monogr. 31: 239–266.Google Scholar
  285. Wharton, J., and Miller, M., 1968, The New Zealand Seashore, Collins, Glasgow.Google Scholar
  286. Wheeler, H. E., 1964, Baselevel transit cycle, Kans. Geol. Surv. Bull. 169: 623–630.Google Scholar
  287. White, P. S., 1979, Pattern, process and natural disturbance in vegetation, Bot. Rev. 45: 229–299.Google Scholar
  288. Whitlatch, R. B., 1980, Patterns of resource utilization and coexistence in marine intertidal deposit-feeding communities, J. Mar. Res. 38: 743–765.Google Scholar
  289. Whitmore, F. C., Jr., 1971, Vertebrate biofacies and paleoenvironments, Md. Geol. Surv. Guidebook 3: 31–36.Google Scholar
  290. Wigley, R. L., and Theroux, R. B.. 1981, Atlantic continental shelf and slope of the United States—Macrobenthic invertebrate fauna of the Middle Atlantic Bight region—Faunal composition and quantitative distribution, U.S. Geol. Surv. Prof. Pap. 529-N.Google Scholar
  291. Willan, R. C., 1981, Soft-bottom assemblages of Paterson Inlet, Stewart Island, N.Z. J. Zool. 9: 229–248.Google Scholar
  292. Williams, L. A., 1980, Community succession in a Devonian patch reef (Onondaga Formation, New York)—Physical and biotic controls, J. Sediment. Petrol. 50: 1169–1185.Google Scholar
  293. Wilson, J. B., 1979, “Patch” development of the deep-water coral Lophelia pertusa (L.) on Rockall Bank, J. Mar. Biol. Assoc. U.K. 59:164–177.Google Scholar
  294. Wilson, M. A., 1982, Origin of brachiopod–bryozoan assemblages in an Upper Carboniferous limestone: Importance of physical and ecological controls, Lethaia 15: 263–273.Google Scholar
  295. Woodin, S. A., and Jackson, J. B. C., 1979, Interphyletic competition among marine benthos, Am. Zool. 19: 1029–1043.Google Scholar
  296. Wright, T., and Kornicker, L. S., 1962, Inland transport of marine shells by birds on Perez Island, Alacran Reef, Campeche Bank, Mexico, J. Geol. 70: 616–618.Google Scholar
  297. Zach, R., 1978, Selection and dropping of whelks by Northwestern crows, Behaviour 67: 134–148.Google Scholar
  298. Zagwijn, W. H., and Doppert, J. W. C., 1978, Upper Cenozoic of the southern North Sea Basin: Palaeoclimatic and palaeogeographic evolution, Geol. Mijnbouw 57: 577–588.Google Scholar

Copyright information

© Springer Science+Business Media New York 1983

Authors and Affiliations

  • Susan M. Kidwell
    • 1
  • David Jablonski
    • 2
  1. 1.Department of GeosciencesUniversity of ArizonaTucsonUSA
  2. 2.Department of Ecology and Evolutionary BiologyUniversity of ArizonaTucsonUSA

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