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Late Quaternary sea-level changes and archaeology

Published online by Cambridge University Press:  02 January 2015

Tjeerd H. Van Andel*
Affiliation:
Godwin Laboratory for Quaternary Research and Department of Earth Sciences, University of Cambridge, Downing Street, Cambridge CB2 3EQ

Abstract

The oxygen-isotope curve, derived from the record of organisms stratified in the deep ocean ooze, has replaced the old pattern of four glaciations with a more complex record of cool and warm events. Since people live by their local sea-level, rather than an abstract world average, that global pattern is itself mediated by other geological forces, on several scales, before it directs the possibilities of human settlement. Here the effect of those forces is unravelled and illustrated.

Type
Papers
Copyright
Copyright © Antiquity Publications Ltd 1989

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References

Bailey, G.N. (ed.). 1983. Hunter-gatherer economy in prehistoric Europe: Cambridge: Cambridge University Press.Google Scholar
Bailey, G.N., Carter, P.L., Gamble, CS. & Higgs, H.P.. 1983. Epirus revisited: seasonality and inter-site variation in the Upper Palaeolithic of northwest Greece, in Bailey (ed.): 64֊78.Google Scholar
Bard, E., Fairbanks, R., Arnold, M., Maurice, P., Duprat, J., Moyes, J. & Duplessy, J.-C.. 1989. Sea-level estimates during the last déglaciation based on 8180 and accelerator mass spectrometry 14C ages measured in Giobigerina buiJoides, Quaternary Research 31: 38191.Google Scholar
Bednarjk, R.G. 1989. On the Pleistocene settlement of South America, Antiquity 63: 10111.CrossRefGoogle Scholar
Berger, W.H., Killingley, J.S. & Vincent, E.. 1985. Timing of deglaciation from an oxygen isotope curve for Atlantic deep-sea sediments, Nature 314: 1568.CrossRefGoogle Scholar
Birdseil, J.B. 1977. The recalibration of a paradigm for the first peopling of Greater Australia, in ), Allen, J., Golson, J. & Jones, R. (ed.), Sunda, and Sahuj, , prehistoric studies in Southeast Asia, Melanesia and Australia: 11367. London: Academic Press.Google Scholar
Biryukov, V.Y., Faustova, M.A., Kaplin, P.A., PAvlidis, Y.A., Romanova, E.A. & Velichko, A.A.. 1988. The paleogeography of the Arctic shelf and coastal zone of Eurasia at the time of the last glaciation (18,000 yr BP], Palaeogeography, Palaeoclimatology, Palaeoecology 68: 11725.CrossRefGoogle Scholar
Bloom, A.L. & Yonekura, N.. 1980. Coastal terraces generated by sea-level change and tectonic uplift, in Woldenberg, M.J. (ed.), Models in geomor-phology: 139-54. Winchester (MA): Allen, & Unwin Inc.Google Scholar
Bortolami, G.C., Fontes, J.C., Markgraf, V. & Saliege, J.F.. 1977. Land, sea and climate in the northern Adriatic region during the Late Pleistocene and Holocene, Palaeogeography, Palaeoclimatology, Palaeoecology 21: 13956.CrossRefGoogle Scholar
Bray, W. 1986. Finding the earliest Americans, Nature 321: 726.CrossRefGoogle Scholar
Bray, W. 1988. The palaeoindian debate, Nature 332: 107.CrossRefGoogle Scholar
Broecker, W.S., Andree, M., Wolfli, W., Oeschger, H., Bonani, G., Kennett, J. & Peteet, D.. 1988. The chronology of the last déglaciation: implications to the cause of the Younger Dryas event, Paleoceanography 3: 120.CrossRefGoogle Scholar
Broecker, W.S., Oppo, D., Peng, T.H., Curry, W., Andree, M., Wolfli, W. & Bonani, G.. 1988. Radiocarbon-based chronology for the last déglaciation, Paleoceanography 3: 50915.CrossRefGoogle Scholar
Butzer, K.W. 1988. A ‘marginality’ model to explain major spatial and temporal gaps in the Old and New World Pleistocene settlement records, Geo-archaeology 3: 193203.Google Scholar
Chappell, J. 1974. Geology of coral terraces, Huon Peninsula, New Guinea: a study of Quaternary tectonic movements and sea level changes, Geological Society of America Bulletin 85: 55370.2.0.CO;2>CrossRefGoogle Scholar
Chappell, J. & Polach., H.A. 1976. Holocene sea-level change and coral reef growth at Huon Peninsula, New Guinea, Geological Society of America Bulletin 87: 235340.Google Scholar
Chappell, J., Rhodes, E.G., Thom, B.G. & Wallensky, E.. 1982. Hydro-isostasy and the sealevel isobase of 5500 BP in North Queensland, Australia, Marine Geology 49: 8190.CrossRefGoogle Scholar
Chappell, J. & Shackleton, N.J.. 1986. Oxygen isotopes and sea level, Nature 324: 13740.CrossRefGoogle Scholar
Clague, J.J. 1975. Late Quaternary sea level fluctuations, Pacific coast of Canada and adjacent areas, Geological Survey of Canada, Paper 75-lC: 1721.Google Scholar
Clark, J.A., Farrell, W.E. & Peltier, W.R.. 1978. Global change in post-glacial sea-level: a numerical calculation, Quaternary Research 9: 26587.Google Scholar
Cohen, M.R. 1985. Prehistoric hunter-gatherers: the meaning of social complexity, in Price, T.D. & Brown, J. A. (ed.), Prehistoric hunter-gatherers: the emergence of cultural complexity: 99119. New York: Academic Press.Google Scholar
Conchon, O. 1976. The human settlement of Corsica: palaeogeographic and tectonic considerations, Journal of Human Evolution 5: 2418.CrossRefGoogle Scholar
Curray, J.R. 1965. Late Quaternary history, continental shelves of the United States, in Wright, H.E. Jr. & Frey, D.G. (ed.), The Quaternary of the United States: 72335. Princeton: Princeton University Press. Vllth Congress of the INQUA.Google Scholar
Deacon, H.J. (In press). Late Pleistocene palaeoecology and archaeology in the southern Cape, South Africa, in Mellars & Stringer (in press).Google Scholar
Deacon, H.J., Geleijnse, V.B., Thackeray, A.I., Thackeray, J.F. & Tusenius, M.L.. 1986. Late Pleistocene cave deposits in the southern Cape: current research at Klasies River, Palaeoecology of Africa 17: 318.Google Scholar
Deacon, H.J., Talma, A.S. & Vogel, J.C.. 1988. Biological and cultural development of Pleistocene people in an Old World southern continent, in Prescott, J.R. (ed.), Early man in the southern hemisphere: S23-S31, supplement to Archaeometry: Australasian Studies 1988. Adelaide: Department of Physics & Mathematical Physics, University of Adelaide.Google Scholar
Dillehay, T.D. & Collins., M.B. 1988. Early cultural evidence from Monte Verde in Chile, Nature 332: 1502.CrossRefGoogle Scholar
Duplessy, J.C, Delibrias, G., Turon, J.L. & Duprat, J.. 1981. Deglacial warming of the northeastern Atlantic Ocean: correlation with the palaeocli-matic evolution of the European continent, Palaeogeography, Palaeoclimatology, Palaeoecology 35: 12144.CrossRefGoogle Scholar
Edwards, P.C. 1989. Revising the Broad Spectrum Revolution: and its róle in the origins of Southwest Asian food production, Antiquity 63: 22546.CrossRefGoogle Scholar
Flannery, K. 1965. The ecology of early food production in Mesopotamia, Science 147: 124756.Google Scholar
Flannery, K. 1969. Origins and ecological effects of early domestication in Iran and the Near East, in Ucko, P.J. & Dimbleby, G. (ed.), Man, settlement and urbanism: 2353. London: Duckworth.Google Scholar
Gamble, C. 1983. Culture and society in the Upper Palaeolithic of Europe, in Bailey (ed.): 20211.Google Scholar
Geyh, M.A., Kudrass, H.R. & Streiff, H.. 1979. Sea level changes during the late Pleistocene and Holocene in the Straits of Malacca, Nature 278: 4413.CrossRefGoogle Scholar
Guidon, N. & Delibrias, G.. 1986. Carbon-14 dates point to man in the Americas 32,000 years ago, Nature 321: 76971.CrossRefGoogle Scholar
Hallam, S.J. 1977. The relevance of Old World archaeology to the first entry of man into the New World1, Quaternary Research 8: 12448.CrossRefGoogle Scholar
Hopkins, D.M. 1973. Sea level history in Beringia during the past 250,000 years, Quaternary Research 3:52040.CrossRefGoogle Scholar
Hopkins, D.M. 1979. Landscape and climate of Beringia during Late Pleistocene and Holocene time, in Laughlin, W.S. & Harper, A.B..), The first Americans: origins, affinities, and adaptations: 1541. New York: Gustav Fischer.Google Scholar
Imbrie, J., Hays, J.D., Martinson, D.G., Mcintyre, A., Mix, A.C., Morley, J.J., Pisias, N.G., Prell, W.L., & Shackleton, N.J.. 1984. The orbital theory of Pleistocene climate: support from a revised chronology of the marine 8’80 record, in Berger, A.L., Imbrie, J., Hays, J.D., Kukls, G. & Saltz-man, B. (ed.), Milankovitch and climate: 269306.Dordrecht: Reidel.Google Scholar
Jones, G.A. & Keigwin., L.D. 1988. Evidence from Fram Strait (78°N) for early déglaciation, Nature 336: 569.CrossRefGoogle Scholar
Jones, R. 1977. The fifth continent: problems concerning the human colonization of Australia, Annual Review of Anthropology 8: 44566.CrossRefGoogle Scholar
Jones, R. 1977 In press. East of Wallace’s line: issues and problems in the colonisation of the Australian continent, in Mellars & Stringer (in press).Google Scholar
Jongsma, D. 1970. Eustatic sea level changes in the Arafura Sea, Nature 228: 15051.CrossRefGoogle ScholarPubMed
Kawadias, G. 1984. Palaiolithiki Kephalonia: O Politismos tou Phiskardhou. Athens.Google Scholar
Klein, R.G. 1974. Environment and subsistence of prehistoric man in the southern Cape Province, South Africa, World Archaeology 5: 24983.Google Scholar
Klein, R.G. 1977. The ecology of early man in southern Africa, Science 197: 11526.CrossRefGoogle ScholarPubMed
Kutzbach, J.E. 1983. Monsoon rains of the late Pleistocene and early Holocene: patterns, intensity and possible causes of changes, in Street-Perrott, A., Brean, M. & Ratcliffe, R. (ed.), Variations in the global water budget: 37189. Dordrecht: Reidel.CrossRefGoogle Scholar
Kutzbach, J.E. & Guetter., P.J. 1986. The influence of changing orbital parameters and surface boundary conditions on climate simulations for the past 18,000 years, Journal of the Atmospheric Sciences 43: 172659.2.0.CO;2>CrossRefGoogle Scholar
Mgmanus, D.A. & Creager., J.S. 1984. Sea level data for parts of the Bering-Chuckchi shelves of Beringia from 19,000 to 10,000 14C yrs BP, Quaternary Research 21: 31725.CrossRefGoogle Scholar
Mcmanus, D.A., Creager, J.S., Echols, R.J. & Holmes, M.L.. 1983. The Holocene transgression on the Arctic flank of Beringia, in Masters, P.M. & Flemming, N.C. (ed.), Quaternary coastlines and marine archaeology: 36588. New York: Academic Press.Google Scholar
Martinson, D., Pisias, N.G., Hays, J.D., Imbrie, Nau J., Moore, T.C. JR. & Shackleton, N.J.. 1987. Age dating and the orbital theory of the Ice Ages: development of a high-resolution 0-300,000 year chronostratigraphy, Quaternary Research 27: 129.CrossRefGoogle Scholar
Mellars, P. & Stringer, C.B. (ed.). In press. The human revolution: behavioural and biological perspectives on the origins of modern humans. Edinburgh: Edinburgh University Press.Google Scholar
Milliman, J.D. & Emery, K.O.. 1968. Sea levels during the past 35,000 years, Science 162: 11213.CrossRefGoogle ScholarPubMed
Mix, A.C. & Ruddiman, W.F.. 1984. Oxygen-isotope analyses and Pleistocene ice volumes, Quaternary Research 21: 120.CrossRefGoogle Scholar
Molengraaff, G.A.F. 1922. De Zeeën van Nederland-sch Oost-Indië. Leiden: Brill.Google Scholar
Moore, W.S. 1982. Late Pleistocene sea level history, in Ivanovich, M. & Harmon, R.S. (ed.), Uranium series disequilibrium: applications to environmental problems: 48196. Oxford: Clarendon Press.Google Scholar
Moseley, M.F. 1983. The good old days were better: agrarian collapse and tectonics, American Anthropologist 85: 77399.CrossRefGoogle Scholar
Nakada, M. & Lambeck., K. 1988. The melting history of the late Pleistocene Antarctic ice sheet, Nature 333: 3640.CrossRefGoogle Scholar
Nakiboglu, S.M., Lambeck, K. & Aharon, P.. 1983. Postglacial sealevels in the Pacific: implications with respect to déglaciation regime and local tectonics, Tectonophysics 91: 33558.CrossRefGoogle Scholar
Overpeck, J.T., Peterson, L.C., Kipp, N., Imbrie, J. & Rind, D.. 1989. Climate change in the circum-North Atlantic during the last déglaciation, Nature 338: 5537.CrossRefGoogle Scholar
Peltier, W.R. 1987. Mechanism of relative sea-level change and the geophysical responses to ice-water loading, in Devoy, R.J.N. (ed.), Sea surface studies: a global view: 5794. London: Croom Helm.CrossRefGoogle Scholar
Perles, C. 1979. Des navigateurs méditerranéens il y a 10,000 ans, La Recherche 96: 823.Google Scholar
Rightmire, G.P. 1984. The fossil evidence for hominid evolution, in Klein, R.J. (ed.), Southern African prehistory and palaeoenvironments: 14768. Rotterdam: Balkema.Google Scholar
Ruddiman, W.F. 1987. Synthesis: The oceanic/ice sheet record, in Ruddiman, W.F. & Wright, H.E. ]r. (ed.), North America and adjacent oceans during the last déglaciation: 46378. Boulder (CO): Geological Society of America.Google Scholar
Ruddiman, W.F. & Duplessy, J.-C.. 1985. Conference on the last déglaciation: timing and mechanism, Quaternary Research 23: 117.Google Scholar
Runnels, C.N. & Van Andel, T.H.. 1987. The evolution of settlement in the southern Argolid, Greece: an economic explanation, Hesperia 56: 30434.Google Scholar
Shackleton, N.J. 1977. The oxygen isotope record of the Late Pleistocene, Philosophical Transactions of the Royal Society of London (series B) 280: 16982.Google Scholar
Shackleton, N.J. 1987. Oxygen isotopes, ice volume and sea level, Quaternary Science Reviews 6: 18390.CrossRefGoogle Scholar
Shackleton, J.C. & Van Andel, T.H.. 1986. Prehistoric shore environments, shellfish availability, and shellfish gathering at Franchthi, Greece, Geoarchaeo/ogy: an International Journal 1: 12743.Google Scholar
Shackleton, J.C., Van Andel, T.H. & Runnels, C.N.. 1984. Coastal paleogeography of the central and western Mediterranean during the last 125,000 years and its archeological implications, Journal of Field Archeology 11: 30714.Google Scholar
Singer, R. & Wymer, J.. 1982. The Middle Stone Age at Klasies River Mouth in South Africa. Chicago: University of Chicago Press.Google Scholar
Smart, J. 1977. Late Quaternary sea level changes, Gulf of Carpenteria, Geology 5: 7559.2.0.CO;2>CrossRefGoogle Scholar
Stringer, C.B. 1984. Human evolution and biological adaptation in the Pleistocene, in Foley, R. (ed.), Hominid evolution and community ecology: prehistoric human adaptation in a biological perspective: 5583. London: Academic Press.Google Scholar
Thorne, A. 1980. The longest link: human evolution in southeast Asia and the settlement of Australia, in J.J.Fox, , Garnaut, G., McCawley, P.T. & Macki, J.A.C.e (ed.), Indonesia: Australian perspectives: 3543. Canberra: Research School of Pacific Studies, Australian National University.Google Scholar
Tjia, H.D. 1970. Quaternary shorelines of the Sunda land, southeast Asia, Geologie en Mijnbouw 49: 13544.Google Scholar
Torgersen, J., Luly, J., Deckker, P.De, Jones, M.R., SEARLE, D.E., Chivas, A.R. & Ullman, W.J.. 1988. Late Quaternary environments of the Carpentaria basin, Australia, Palaeogeography, Palaeocli-matology, Palaeoecology 67: 24561.Google Scholar
van Andel, T.H. 1989. Late Pleistocene sea levels and the human exploitation of the shore and shelf of southern South Africa, Journal of Field Archaeology 16: 13355.Google Scholar
Van Andel, T.H., Heath, G.R., Moore, T.C. JR. & MCGEARY, D.F.R. 1967. Late Quaternary history, climate, and oceanography of the Timor Sea, northwestern Australia, American Journal of Science 265: 73758.CrossRefGoogle Scholar
van Andel, T.H. & Lianos, N.. 1983. Prehistoric and historic shorelines of the southern Argolid peninsula: a subbottom profiler study, International Journal of Nautical Archaeology and Underwater Exploration 12: 30324.CrossRefGoogle Scholar
van Andel, T.H. 1984. High resolution seismic reflection profiles for the reconstruction of post-glacial transgressive shorelines: an example from Greece, Quaternary Research 22: 3145.CrossRefGoogle Scholar
van Andel, T.H. & Shackleton, J.C.. 1982. Late Paleolithic and Neolithic coastlines of Greece and the Aegean, Journal of Field Archaeology 9: 44554.Google Scholar
van Andel, T.H. & Veevers, J.J.. 1967. Morphology and sediments of the Timor Sea. Canberra: Bureau of Mineral Resources, Geology and Geophysics, Commonwealth of Australia. Bulletin 83: 1173.Google Scholar
Van Bemmelen, R.W. 1949. The geology of Indonesia, vol. 1A. The Hague: Martinus Nijhoff.Google Scholar
Voigt, E.A. 1982. The molluscan fauna, in Singer & Wymer (1982): 15586.Google Scholar
Volman, T.P. 1978. Early archeological evidence for shellfish collecting, Science 201: 91113.Google ScholarPubMed
Wells, L.E. 1988. Holocene fluvial and shoreline history as a function of human and geologic factors in arid Northern Peru, Ph.D. dissertation, Stanford University, Stanford, California. Ann Arbor (MI): University Microfilms.Google Scholar
Yesner, D.R. 1980. Maritime hunter-gatherers: ecology and prehistory, Current Anthropology 216: 72750.CrossRefGoogle Scholar