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Migration in the Bell Beaker period of central Europe

Published online by Cambridge University Press:  02 January 2015

T. Douglas Price
Affiliation:
Department of Anthropology, 1180 Observatory Drive, University of Wisconsin, Madison WI 53706-1393, USA. [email protected]
Peter Schröter
Affiliation:
Anthropologische Staatssammlung, Karolinenplatz 2a, D-80333 Munich, Germany

Abstract

Recent strontium isotope analysis of Beaker burials from Bavaria raises important new questions about prehistoric migrations in Europe.

Type
Notes
Copyright
Copyright © Antiquity Publications Ltd. 1998

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References

Adams, W.Y., Van Gerven, D.P. & Levy, R.S. 1978. The retreat from migrationism, Annual Review of Anthropology 7: 483532.Google Scholar
Anthony, D.W. 1990. Migration in archaeology: the baby and the bathwater, American Anthropologist 92(4): 2342.Google Scholar
Champion, T.C. 1992. Migration revived, Journal of Danish Archäeology 9: 21418.Google Scholar
Childe, V.G. 1950. Prehistoric migrations in Europe. Oslo: Institutet for Sammenlignende Kulturforskning.Google Scholar
Childe, V.G. 1957. The dawn of European civilization. London: Routledge & Kegan Paul.Google Scholar
Dasch, E.J. 1969. Strontium isotopes in weathering profiles, deep-sea sediments and sedimentary rocks, Geochimica et Cosmochimica Acta 33: 15212.CrossRefGoogle Scholar
Engelhard, B. 1991. Beitrage zur Kenntnis der Glocken-becherkultur in Niederbayern, in Schmotz, K. (ed.), Nieder-bayer Archaologentag: 6584. Deggendorf: Leidorf Verlag.Google Scholar
Ericson, J.E. 1985. Strontium isotope characterization in the study of prehistoric human ecology, Journal of Human Evolution 14: 50314.Google Scholar
Ericson, J.E. 1989. Some problems and potentials of strontium isotope analysis for human and animal ecology, in Rundel, P.W. Ehleringer, J.R. & Nagy, K.A. (ed.), Stable isotopes in ecological research: 2529. Berlin: Springer-Verlag.Google Scholar
Ezzo, J.A., Johnson, C.M. & Price, T.D. 1997. Analytical perspectives on prehistoric migration: a case study from eastcentral Arizona, Journal of Archaeological Science 24: 44760.CrossRefGoogle Scholar
Faure, G. 1986. Principles of isotope geology. New York (NY): John Wiley.Google Scholar
Faure, G. & Powell, T. 1972. Strontium isotope geology. New York (NY): Springer-Verlag.CrossRefGoogle Scholar
Gallay, A. 1979. Le phénoméne campaniforme: une nouvelle hypothese historique, Archives suisses d’Anthropologie generate 43: 23158.Google Scholar
Gerhardt, K. 1976. Anthropotypologie der Glockenbecherleute in ihren Ausschwärmelandschaften, in Lanting, & van dei Waals, (ed.): 147164.Google Scholar
Ericson, J.E. 1978. Palaoanthropologie der Glockenbecherleute, in Schwabedissen, H. (ed.), Die Anfänge des Neolithikums vom Orient bis Nordeuropa, Teil VIII: 265316. Cologne: Bohlau.Google Scholar
Graustein, W.C. 1989. 87Sr/86Sr ratios measure the sources and flow of strontium in terrestrial ecosystems, in Rundel, P.W. Ehleringer, J.R. & Nagy, K.A. (ed.), Stable isotopes in ecological research: 491512. New York (NY): Springer-Verlag.Google Scholar
Grupe, G. & Herrmann, B. (ed.). 1988. Trace elements in environmental history. Berlin: Springer-Verlag.Google Scholar
Grupe, G., Price, T.D. Schörter, P. Söllner, F. Johnson, C. & Beard, B. 1997. Mobility of Bell Beaker people revealed by stable strontium isotope ratios of teeth and bones. A study of southern Bavarian skeletal remains, Applied Geochemistry 12: 51725.Google Scholar
Guillaine, J. (ed.). 1984. L’Age du Cuivre Européen, les civilisations a vases campaniformes. Paris: CNRS.Google Scholar
Harrison, R. 1980. The Beaker Folk: copper age archaeology in Western Europe. London: Thames & Hudson.Google Scholar
Hurst, R.W. & Davis, T.E. 1981. Strontium isotopes as tracers of airborne fly ash from coal-fired plants, Environmental Geology 3: 36397.Google Scholar
Jowsey, J. & Gordon, G. 1971. Bone turnover and osteoporosis, in Bourne, G.H. (ed.), The biochemistry and physiology of bone 3: Development and growth: 20138. 2nd edition. New York (NY): Academic Press.Google Scholar
Kociumaka, C. & Dietrich, H. 1992. Ein Graberfeld der Glockenbecherkultur vom Sportgelände der Universität Augsburg, Schwaben, Das archäologische Jahr in Bayern 1991 12: 678.Google Scholar
Koch, P.L., Halliday, A.N. Walter, L.M. Stearley, R.F. Huston, T.J. & Smith, G.R. 1992. Sr isotopic composition oi hydroxyapatite from recent and fossil salmon: the record of lifetime migration and diagenesis, Earth and Planetary Science Letters 108: 27787.Google Scholar
Lanting, J. & Van Der Waals, D. 1976a. Beaker culture relations in the Lower Rhine Basin, in Lanting, & van der Waals, (1976b): 180.Google Scholar
Lanting, J. & Van Der Waals, D. (Ed.) 1976b. Glockenbechersymposion Oberriedl974. Bussum-Haarlem: Unieboek n.v.Google Scholar
Luning, J. 1994. Central Europe during the Neolithic, in De Laet, S.J. (ed.), History of humanity 1: Prehistory and the beginning of civilization: 54056. New York (NY): UNESCO.Google Scholar
Menk, R. 1979. Le phènoméne campaniforme: structures biologiques et integration historique, Archives suisses l’Anthropologie génerale 43: 25984.Google Scholar
Molleson, T. 1988. Trace elements in human teeth, in Grupe, & Herrmann, (ed.): 6782.Google Scholar
Parfitt, A.M. 1983. The physiologic and clinical significance of bone data, in Recker, R.R. (ed.), Bone histomorphometry: techniques and interpretation: 143223. Boca Raton (FL): CRC Press.Google Scholar
Price, T.D., Blitz, J. Burton, J.H. & Ezzo, J. 1992. Diagenesis in prehistoric bone: problems and solutions, Journal of Archaeological Science 19: 51329.Google Scholar
Price, T D., Grupe, G. & SchröTer, P. 1994a. Reconstruction of migration patterns in the Bell Beaker Period by stable strontium isotope analysis, Applied Geochemistry 9: 41317.Google Scholar
Price, T.D., Johnson, C.M. Ezzo, J.A. Burton, J.H. & Ericson, J.E. 1994b. Residential mobility in the prehistoric southwest: a preliminary study using strontium isotope analysis, Journal of Archaeological Science 21: 31530.Google Scholar
Rehman, F., Robinson, V.J. & Shennan, S.J. 1992. A neutron activation analysis of Bell Beakers and associated pottery from Czechoslovakia and Hungary, Pamatky Archeologicke 83: 197211.Google Scholar
Rouse, I. 1986. Migrations in prehistory. Inferring population movement from cultural remains. New Haven (CT): Yale University Press.Google Scholar
Sangmeister, E. 1972. Sozial-ökonomische Aspekte der Glockenbecherkultur, Homo 23: 188203.Google Scholar
Schmitz, B., Õberg, G. Werdelin, L. Forey, P. & Bendixalmgreen, S.E. 1991. 87Sr/86Sr, Na, F, Sr, and La in skeletal fish debris as a measure of the paleosalinity of fossil-fish habitats, Geological Society of America Bulletin 103: 78694.Google Scholar
Sealy, J.C. 1989. Reconstruction of Later Stone Age diets in the southwestern Cape, South Africa: evaluation and application of five isotopic and trace element techniques. Ph.D dissertation, University of Cape Town.Google Scholar
Sealy, J. Van Der Merwe, C.N. Sillen, A. Krucer, F.J. & Krueger, H.W. 1991. 87Sr/86Sr as a dietary indicator in modern and archaeological bone, Journal of Archaeological Science 18: 399419.Google Scholar
Sealy, J. Armstrong, C.R. & Schrire, C. 1995. Beyond lifetime averages: tracing life histories through isotopic analysis of different calcified tissues from archaeological human skeletons, Antiquity 69: 290300.Google Scholar
Shennan, S. 1986. Central Europe in the 3rd millennium BC: an evolutionary trajectory for the beginning of the European Bronze Age, Journal of Anthropological Archaeology 5: 11546.Google Scholar
Sherratt, A. 1994. The emergence of elites: earlier Bronze Age Europe, 2500–1300 BC, in Cunliffe, B. (ed.), The Oxford illustrated prehistory of Europe: 24476. Oxford: Oxford University Press.Google Scholar
Sillen, A. 1989. Diagenesis of the inorganic phase of cortical bone, in Price, T.D. (ed.), The chemistry of prehistoric bone: 21129. Cambridge: Cambridge University Press.Google Scholar
Staudigel, H., Doyle, P. & Zindler, A. 1985. Sr and Nd isotope systematics in fish teeth, Earth and Planetary Science Letters 76: 4556.Google Scholar
Steele, D.G. & Bramblett, C.A. 1988. The anatomy and biology of the human skeleton. College Station (TX): Texas A&M University Press.Google Scholar
Strahm, C 1997a. Le Campaniforme: phenomene et culture, Archeologia 9 (Dec): 613.Google Scholar
Strahm, C 1997b. Die Anfange der Metallurgie in Mitteleuropa, Helvetica Archaeologica 25: 240.Google Scholar
Vernois, V., Ung Bao, M. & Deschamps, N. . 1988. Chemical analysis of human dental enamel from archaeological sites, in Grupe, & Herrmann, (ed.): 8390.Google Scholar
Weinig, J 1992. Ein neues Graberfeld der Kupfer- und Früh-bronzezeit bei Weichering, Landkreis Neuburg-Schrobenhausen, Oberbayern, Das archäologische Jahr in Bayern 1991 12: 647.’Google Scholar