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Effects of late Cenozoic sea-level fluctuations on the bivalve faunas of tropical oceanic islands

Published online by Cambridge University Press:  08 April 2016

Gustav Paulay*
Affiliation:
Department of Paleobiology, National Museum of Natural History, Smithsonian Institution, Washington, DC 20560

Abstract

The frequent late Cenozoic glacial ages were accompanied by sea-level falls of 100–150 m amplitude. These falls stranded the complex inner-reef platforms and lagoons of tropical Pacific islands, while outer-reef-slope habitats persisted, although displaced downslope. The effects of glacial regressions on bivalves were studied by examining the zonation of species across reef systems and species composition on tectonically uplifted islands, islands with, effectively, local low sea stands. I show that qualitative habitat loss (the stranding of inner-reef habitats) was responsible for the local extinction of about one-third of the bivalve species that inhabit central Pacific islands during high sea stands, whereas quantitative loss of habitat area and climatic effects were inconsequential. Soft-sediment habitats, and consequently soft-bottom bivalves, were more drastically affected by sea-level fluctuations than were hard-bottom habitats and bivalves.

Although many bivalve species were extirpated in the central Pacific during low sea stands, they survived in the western Pacific, where the different geomorphology of many marine systems provided refugia for lagoonal species. Thus, a large proportion of Pacific bivalve species has very dynamic distributions, undergoing great range reductions and expansions with falls and rises of sea level, and much of the present central Pacific lagoonal fauna is of Holocene age. Several implications of these findings are discussed.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Literature Cited

Blanc, F. 1983. Éstimation du polymorphisme enzymatique dans trois populations naturelles de nacre (Pinctada margaritifera) en Polynésie française. Comptes Rendus des Scéances de l'Académie des Sciences, Série 3, Sciences de la Vie 297:199202.Google Scholar
Blanc, F., Durand, P., and Shinh-Milhaud, M. 1985. Variabilité genetique des populations de nacre noire perlière Pinctada margaritifera (mollusque, bivalve) de Polynésie. Proceedings of the 5th International Coral Reef Congress, Tahiti 4:113118.Google Scholar
Boucot, A. J. 1983. Does evolution take place in an ecological vacuum? Journal of Paleontology 57:130.Google Scholar
Briggs, J. C. 1974. Marine Zoogeography. McGraw-Hill; New York.Google Scholar
Chappell, J., and Shackleton, N. J. 1987. Oxygen isotopes and sea level. Nature 324:137140.Google Scholar
Chevalier, J.-P. 1977. Aperçu sur la faune corallienne récifale du Neogene. Proceedings of the 2nd International Symposium on Corals and Fossil Coral Reefs, pp. 359366.Google Scholar
Chevalier, J.-P. 1979. La faune corallienne (Scleractinaires et Hydrocoralliaires) de la Polynésie française. Cahiers de l'Indo-Pacifique 1:129151.Google Scholar
Chevalier, J.-P. 1981. Reef Scleractinia of French Polynesia. Proceedings of the Fourth International Coral Reef Symposium, Manila 2:177182.Google Scholar
CLIMAP Project Members. 1976. The surface of the ice age earth. Science 191:11311137.Google Scholar
Coope, G. R. 1979. Late Cenozoic fossil Coleoptera: evolution, biogeography, and ecology. Annual Reviews of Ecology and Systematics 10:247267.CrossRefGoogle Scholar
Crame, J. A. 1986. Late Pleistocene molluscan assemblages from the coral reefs of the Kenya coast. Coral Reefs 4:183196.Google Scholar
Daly, R. A. 1910. Pleistocene glaciation and the coral reef problem. American Journal of Science, Series 4 30:297308.CrossRefGoogle Scholar
Davis, M. B. 1976. Pleistocene biogeography of temperate deciduous forests. Geoscience and Man 13:1326.Google Scholar
Davis, M. B. 1981. Quaternary history and the stability of forest communities. Pp. 132153. In West, D. D., Shugart, H. H., and Botkin, D. B. (eds.), Forest Succession: Concepts and Applications. Springer-Verlag; New York.Google Scholar
Dubois, J., Launay, J., and Recy, J. 1975. Some new evidence on lithospheric bulges close to island arcs. Tectonophysics 26:189196.Google Scholar
Flessa, K., and Sepkoski, J. J. Jr. 1978. On the relationship between Phanerozoic diversity and changes in habitable area. Paleobiology 4:359366.Google Scholar
Frazier, J., Margaritoulis, D., Muldoon, K., Potter, C. W., Rosewater, J., Ruckdeschel, C., and Salas, S. 1985. Epizoan communities on marine turtles I. Bivalve and gastropod mollusks. Marine Ecology 6:127140.Google Scholar
Frost, S. H. 1977. Miocene to Holocene evolution of Caribbean province reef-building corals. Proceedings of the Third International Coral Reef Symposium 2:353359.Google Scholar
Gibbons, J. R. H., and Clunie, F. G. A. U. 1986. Sea level changes and Pacific prehistory. The Journal of Pacific History 21:5882.CrossRefGoogle Scholar
Grigg, R. W. 1988. Paleoceanography of coral reefs in the Hawaiian-Emperor chain. Science 240:17371743.CrossRefGoogle ScholarPubMed
Hallam, A. 1984. Pre-Quaternary sea-level changes. Annual Review of Earth and Planetary Sciences 12:205243.CrossRefGoogle Scholar
Hallam, A. 1989. The case for sea-level change as a dominant causal factor in mass extinction of marine invertebrates. Philosophical Transactions of the Royal Society of London B, Biological Sciences 325:437455.Google Scholar
Haq, B. U., Hardenbol, J., and Vail, P. R. 1987. Chronology of fluctuating sea levels since the Triassic. Science 235:11561167.Google Scholar
Heckel, P. H. 1974. Carbonate buildups in the geological record: a review. Society of Economic Paleontologists and Mineralogists, Special Publications 18:90154.Google Scholar
Highsmith, R. C. 1985. Floating and algal rafting as potential dispersal mechanisms in brooding invertebrates. Marine Ecology Progress Series 25:169179.Google Scholar
Hopley, D. 1982. The Geomorphology of the Great Barrier Reef: Quaternary Development of Coral Reefs. John Wiley and Sons; New York.Google Scholar
Jablonski, D. 1980. Apparent versus real biotic effects of transgressions and regressions. Paleobiology 6:398407.Google Scholar
Jablonski, D. 1985. Marine regressions and mass extinctions: a test using the modern biota. Pp. 335354. In Valentine, J. W. (ed.), Phanerozoic Diversity Patterns: Profiles in Macroevolution. Princeton University Press; Princeton, New Jersey.Google Scholar
Jablonski, D. 1986. Causes and consequences of mass extinctions: a comparative approach. Pp. 183229. In Elliott, D. K. (ed.), Dynamics of Extinction. John Wiley and Sons; New York.Google Scholar
Jablonski, D., and Flessa, K. W. 1985. The taxonomic structure of shallow-water marine faunas: implications for Phanerozoic extinctions. Malacologia 27:4366.Google Scholar
Jokiel, P. L. 1984. Long distance dispersal of reef corals by rafting. Coral Reefs 3:113116.CrossRefGoogle Scholar
Jokiel, P. L. 1989. Rafting of reef corals and other organisms at Kwajalein Atoll. Marine Biology 101:483493.Google Scholar
Jokiel, P. L., and Maragos, J. E. 1978. Reef corals of Canton Atoll: II. Local distribution. Atoll Research Bulletin 221:7397.Google Scholar
Kauffman, E. G. 1973. Cretaceous Bivalvia. Pp. 353383. In Hallam, A. (ed.), Atlas of Paleobiogeography. Elsevier; Amsterdam.Google Scholar
Kauffman, E. G. 1979. The biogeography of the Cretaceous-Tertiary extinction event. In Christensen, W. K., and Birkelund, T. (eds.), Cretaceous-Tertiary Boundary Event Symposium. University of Copenhagen 2:2937.Google Scholar
Kay, E. A. 1967. The composition and relationships of marine molluscan fauna of the Hawaiian Islands. Venus 25:94104.Google Scholar
Kay, E. A. 1976. The status of faunistic studies of Pacific reef mollusks: 1974. Micronesica 12:187191.Google Scholar
Kay, E. A. 1980. Little worlds of the Pacific. An essay on Pacific basin biogeography. University of Hawaii, Lyon Arboretum Lecture No. 9.Google Scholar
Kay, E. A. 1983. Patterns of speciation in the Indo-West Pacific. In Radovsky, F. J., Raven, P. H., and Sohmer, S. H. (eds.), Biogeography of the tropical Pacific. Bishop Museum Special Publication 72:1531.Google Scholar
Kohn, A. J. 1983a. Marine biogeography and evolution in the tropical Pacific: zoological perspectives. Bulletin of Marine Science 33:528535.Google Scholar
Kohn, A. J. 1983b. Microhabitat factors affecting abundance and distribution of Conus on coral reefs. Oecologia 60:293301.Google Scholar
Kuhlmann, D. H. H., and Chevalier, J.-P. 1986. Les coraux (scleractiniaires et hydrocoralliaires) de l'atoll de Takapoto, îles Tuamotu: aspects écologiques. Marine Ecology 7:75104.Google Scholar
Kukla, G. J. 1977. Pleistocene land-sea correlations I. Europe. Earth-Science Reviews 13:307374.Google Scholar
Ladd, H. S. 1960. Origin of the Pacific Island molluscan fauna. American Journal of Science 258-A:137150.Google Scholar
Legendre, L., Demers, S., Delesalle, B., and Harnois, C. 1988. Biomass and photosynthetic activity of phototrophic picoplankton in coral reef waters (Moorea Island, French Polynesia). Marine Ecology Progress Series 47:153160.Google Scholar
MacArthur, R. H., and Wilson, E. O. 1967. The Theory of Island Biogeography. Princeton University Press; Princeton, New Jersey.Google Scholar
Maragos, J. E., and Jokiel, P. L. 1986. Reef corals of Johnston Atoll: one of the world's most isolated reefs. Coral Reefs 4:141150.Google Scholar
Marsh, L. M., and Marshall, J. I. 1983. Some aspects of the zoogeography of northwestern Australian echinoderms (other than holothurians). Bulletin of Marine Science 33:671687.Google Scholar
Marshall, J. F., and Davies, P. J. 1982. Internal structure and Holocene evolution of One Tree Reef, Southern Great Barrier Reef. Coral Reefs 1:2128.Google Scholar
Marshall, J. F., and Jacobson, G. 1985. Holocene growth of a mid-Pacific atoll: Tarawa, Kiribati. Coral Reefs 4:1117.Google Scholar
Martinson, D. G., Pisias, N. G., Hays, J. D., Imbrie, J., Moore, T. C. Jr., and Shackleton, N. J. 1987. Age dating and the orbital theory of the ice ages: development of a high-resolution 0 to 300,000-year chronostratigraphy. Quaternary Research 27:129.Google Scholar
McManus, J. W. 1985. Marine speciation, tectonics and sea-level changes in Southeast Asia. Proceedings of the Fifth International Coral Reef Congress, Tahiti 4:133138.Google Scholar
Moore, T. C. Jr., Burckle, L. H., Gettzenauer, K., Luz, B., Molina-Cruz, A., Robertson, J. H., Sachs, H., Sancetta, C., Thiede, J., Thompson, P., and Wenkam, C. 1980. The reconstruction of sea surface temperatures in the Pacific Ocean of 18,000 B.P. Marine Micropaleontology 5:215247.Google Scholar
Newell, N. D. 1967. Revolutions in the history of life. Geological Society of America, Special Papers 89:6391.Google Scholar
Newell, N. D. 1971. An outline history of tropical organic reefs. American Museum Novitates 2465.Google Scholar
Newman, W. A. 1986. Origin of the Hawaiian marine fauna: dispersal and vicariance as indicated by barnacles and other organisms. Pp. 2149. In Gore, R. H., and Heck, K. L. (eds.), Crustacean Biogeography. Balkema; Boston.Google Scholar
Newman, W. A., and Foster, B. A. 1983. The Rapanuian faunal district (Easter and Sala y Gomez): in search of ancient archipelagoes. Bulletin of Marine Science 33:633644.Google Scholar
Newman, W. A., and Foster, B. A. 1987. Southern hemisphere endemism among the barnacles: explained in part by extinction of northern members of amphitropical taxa? Bulletin of Marine Science 33:361377.Google Scholar
Olafsson, E. B. 1986. Density dependence in suspension-feeding and deposit-feeding populations of the bivalve Macoma balthica: a field experiment. Journal of Animal Ecology 55:517526.Google Scholar
Paulay, G. 1985. The biogeography of the Cook Islands' coral fauna. Proceedings of the 5th International Coral Reef Congress, Tahiti 4:8994.Google Scholar
Paulay, G. 1987. Biology of Cook Islands' bivalves. Part I: Heterodont families. Atoll Research Bulletin 298:131.Google Scholar
Paulay, G. 1988. The effects of glacioeustatic sea level fluctuations and local tectonics on the marine fauna of Central Pacific islands. Unpublished Ph.D. dissertation, University of Washington; Seattle, Washington.Google Scholar
Paulay, G. 1989. Effects of glacio-eustatic sea level fluctuations on insular coral faunas. American Zoologist 29:90A.Google Scholar
Paulay, G.in press. Late Cenozoic sea level fluctuations and the diversity and species composition of insular shallow water faunas. Proceedings of the Fourth International Congress of Systematics and Evolutionary Biology.Google Scholar
Paulay, G., and McEdward, L. R. 1990. A simulation model of island reef morphology: the effects of sea level fluctuations, growth, subsidence, and erosion. Coral Reefs 9:5162.Google Scholar
Paulay, G., and Spencer, T. 1989. Geomorphology, palaeoenvironments, and faunal turnover, Henderson Island, S.E. Polynesia. Proceedings of the 6th International Coral Reef Symposium 3:461466.Google Scholar
Pianka, E. R. 1988. Evolutionary Ecology. Fourth Edition. Harper and Row Publishers; New York.Google Scholar
Pirazzoli, P. A., and Montaggioni, L. F. 1988. Holocene sea-level changes in French Polynesia. Palaeogeography, Palaeoclimatology, Palaeoecology 68:153175.Google Scholar
Pohlo, R. 1969. Confusion concerning deposit feeding in the Tellinacea. Proceedings of the Malacological Society of London 38:361364.Google Scholar
Pohlo, R. 1982. Evolution of the Tellinacea. Journal of Molluscan Studies 48:245256.Google Scholar
Potts, D. C. 1983. Evolutionary disequilibrium among Indo-Pacific corals. Bulletin of Marine Science 33:619632.Google Scholar
Potts, D. C. 1984. Generation times and Quaternary evolution of reef-building corals. Paleobiology 10:4858.Google Scholar
Potts, D. C. 1985. Sea-level fluctuations and speciation in Scleractinia. Proceedings of the Fifth Coral Reef Congress, Tahiti 4:127132.Google Scholar
Purdy, E. G. 1974. Reef configurations: cause and effect. In Laporte, L. F. (ed.), Reefs in time and space. Society of Economic Paleontologists and Mineralogists, Special Publication 18:976.Google Scholar
Raffi, S., Stanley, S. M., and Marasti, R. 1985. Biogeographic patterns and Plio-Pleistocene extinction of Bivalvia in the Mediterranean and southern North Sea. Paleobiology 11:368388.Google Scholar
Ricard, M. 1976. Production primaire planctonique de trois lagons de l'archipel de la Société (Polynésie française). Cahiers du Pacifique 19:383396.Google Scholar
Ricard, M. 1977. Phytoplankton contribution to primary productivity in two coral reef areas of Fiji Islands and French Polynesia. Proceedings of the Third International Coral Reef Symposium 1:343348.Google Scholar
Salvat, B. 1967. Importance de la faune malacologique dans les atolls polynésiennes. Cahiers du Pacifique 11:749.Google Scholar
Salvat, B. 1971. Biogéographie malacologique de la Polynésie à la lumière des récentes recherches sur l'histoire géologique des îles hautes et des atolls de cette région. Atti Societa Italiana di Scienze Naturali, e Museo Civico di Storia Naturale, Milano 112:330334.Google Scholar
Salvat, B. 1972. La faune benthique du lagon de l'atoll de Reao. Cahiers du Pacifique 16:30109.Google Scholar
Scheltema, R. S., and Williams, I. P. 1983. Long-distance dispersal of planktonic larvae and the biogeography and evolution of some Polynesian and Western Pacific mollusks. Bulletin of Marine Science 33:545565.Google Scholar
Schopf, T. J. M. 1974. Permo-Triassic extinction: relation to sea-floor spreading. Journal of Geology 82:129143.Google Scholar
Sepkoski, J. J. Jr. 1976. Species diversity in the Phanerozoic: species-area effects. Paleobiology 2:298303.Google Scholar
Sepkoski, J. J. Jr. 1982. Mass extinctions in the Phanerozoic ocean: a review. Geological Society of America, Special Papers 190:283289.CrossRefGoogle Scholar
Sheppard, C. R. C. 1982. Coral populations on reef slopes and their major controls. Marine Ecology Progress Series 7:83115.Google Scholar
Simberloff, D. S. 1974. Permo-Triassic extinctions: effects of area on biotic equilibrium. Journal of Geology 82:267274.Google Scholar
Sournia, A., and Ricard, M. 1976a. Données sur l'hydrologie et la productivité du lagon d'un atoll fermé (Takapoto, Iles Tuamotu). Vie et Milieu 26:243279.Google Scholar
Sournia, A., and Ricard, M. 1976b. Phytoplankton and its contribution to primary productivity in two coral reef areas of French Polynesia. Journal of Experimental Marine Biology and Ecology 21:129140.Google Scholar
Spencer, T., Stoddart, D. R., and Woodroffe, C. D. 1987. Island uplift and lithospheric flexure: observations and cautions from the South Pacific. Zeitschrift für Geomorphologie Supplement-Band 63:87102.Google Scholar
Stanley, S. M. 1984a. Temperature and biotic crises in the marine realm. Geology 12:205208.Google Scholar
Stanley, S. M. 1984b. Marine mass extinctions: a dominant role for temperature. Pp. 69117. In Nitecki, M. H. (ed.), Extinctions. University of Chicago Press; Chicago.Google Scholar
Stanley, S. M. 1986a. Anatomy of a regional mass extinction: Plio-Pleistocene decimation of the Western Atlantic bivalve fauna. Palaios 1:1736.Google Scholar
Stanley, S. M. 1986b. Population size, extinction, and speciation: the fission effect in Neogene Bivalvia. Paleobiology 12:89110.Google Scholar
Stanley, S. M., and Campbell, L. D. 1981. Neogene mass extinction of Western Atlantic molluscs. Nature (London) 293:457459.Google Scholar
Stanley, S. M., Addicott, W. O., and Chinzei, K. 1980. Lyellian curves in paleontology: possibilities and limitations. Geology 8:422426.Google Scholar
Steers, J. A., and Stoddart, D. R. 1977. The origin of fringing reefs, barrier reefs and atolls. Pp. 2157. In Jones, O. A., and Endean, R. (eds.), Biology and Geology of Coral Reefs, Volume 4. Academic Press; New York.Google Scholar
Stehli, F. G., McAlester, A. L., and Helsley, C. E. 1967. Taxonomic diversity in Recent bivalves and some implications for geology. Geological Society of America, Bulletin 78:455466.Google Scholar
Stehli, F. G., and Wells, J. W. 1971. Diversity and age patterns in hermatypic corals. Systematic Zoology 20:115126.Google Scholar
Stoddart, D. R. 1973. Coral reefs: the last two million years. Geography 58:313323.Google Scholar
Stoddart, D. R. 1976. Continuity and crisis in the reef community. Micronesica 12:19.Google Scholar
Stoddart, D. R., and Gibbs, P. E. (eds.). 1975. Almost-atoll of Aitutaki: reef studies in the Cook Islands, South Pacific. Atoll Research Bulletin 190.Google Scholar
Stoddart, D. R., and Pillai, C.S.G. 1973. Coral reefs and reef corals in the Cook Islands, South Pacific. Pp. 475483. In Fraser, R. (ed.), Oceanography of the South Pacific 1972. New Zealand National Commission for UNESCO; Wellington.Google Scholar
Stoddart, D. R., Spencer, T., and Scoffin, T. P. 1985. Reef growth and karst erosion on Mangaia, Cook Islands: a reinterpretation. Zeitschrift für Geomorphologie Supplement-Band 57:121140.Google Scholar
Tappan, H., and Loeblich, A. R. Jr. 1971. Geobiological implications of fossil phytoplankton evolution and time-space distribution. Geological Society of America, Special Paper 127:247340.Google Scholar
Tappan, H., and Loeblich, A. R. Jr. 1973. Evolution of the oceanic plankton. Earth Science Reviews 9:207240.Google Scholar
Taylor, J. D. 1978. Faunal response to the instability of reef habitats: Pleistocene molluscan assemblages of Aldabra atoll. Palaeontology 21:130.Google Scholar
Valentine, J. W. 1973. Evolutionary Paleoecology of the Marine Biosphere. Prentice-Hall; Englewood Cliffs, New Jersey.Google Scholar
Vermeij, G. J. 1987a. The dispersal barrier in the tropical Pacific: implications for molluscan speciation and extinction. Evolution 41:10461058.Google Scholar
Vermeij, G. J. 1987b. Evolution and Escalation: An Ecological History of Life. Princeton University Press; Princeton, New Jersey.Google Scholar
Vermeij, G. J. 1989. Interoceanic differences in adaptation: effects of history and productivity. Marine Ecology Progress Series 57:293305.Google Scholar
Vermeij, G. J., and Petuch, E. J. 1986. Differential extinction in tropical American molluscs: endemism, architecture, and the Panama land bridge. Malacologia 27:2941.Google Scholar
Wilson, E. O. 1969. The species equilibrium. Brookhaven Symposia in Biology 22:3847.Google Scholar
Wise, K. P., and Schopf, T.J.M. 1981. Was marine faunal diversity in the Pleistocene affected by changes in sea level? Paleobiology 7:394399.Google Scholar
Yonekura, N., Ishii, T., Saito, Y., Matsumoto, E., and Kayanne, H. 1986. Geologic and geomorphic development of Holocene fringing reefs of Mangaia Island, the South Cooks. Pp. 4469. In Sea-level changes in the Middle Pacific: Report of the HIPAC project in 1984 and 1985 (Second Research). Department of Earth Sciences, Kobe University; Kobe, Japan.Google Scholar