A Neolithic revolution? New evidence of diet in the British Neolithic | Antiquity | Cambridge Core (original) (raw)

Abstract

Were marine foods still a significant part of the diet in the Early and Middle Neolithic in Britain? This paper presents new evidence, from δ13C measurements of 78 radiocarbon-dated humans from 27 coastal and inland sites in England and Wales, for an apparent abandonment of the use of marine foods in the British Early and Middle Neolithic.

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References

Ambrose, S.H. 1993. Isotopic analysis of paleodiets: methodological and interpretive considerations, in Sandford, M.K. (ed.), Investigations of ancient human tissue: chemical analyses in anthropology. 59–130. Langhome (PA): Gordon & Breach Science Publishers.Google Scholar

Barker, G. 1985. Prehistoric farming in Europe. Cambridge: Cambridge University Press.Google Scholar

Dennell, R.W. 1983. European economic prehistory. London: Academic Press.Google Scholar

Gonzalez, S. & Turner, A.. In preparation. Prehistoric human and ungulate remains from Preston Dock, Lancashire: problems of river finds.Google Scholar

Green, F.L. 1996. Mesolithic or later houses at Bowmans Farm, Romsey Extra, Hampshire, England?, in Darvill, T. & Thomas, J. (ed.), Neolithic houses in northwest Europe and beyond: 113–22. Oxford: Oxbow. Monograph 57.Google Scholar

Hedges, R.E.M., Law, L.A. Bronk, C.R. & Housley, R.A.. 1989. The Oxford accelerator mass spectrometry facility: Technical developments in routine dating, Archaeometry 31(2): 99–113.CrossRef Google Scholar

Hedges, R.E.M., Housley, R.A. Bronk-Ramsey, C. & Van Klinken, G.J.. 1994. Radiocarbon dates from the Oxford AMS system: Datelist 18, Archaeometry 36(2): 337–74.CrossRef Google Scholar

Liden, K. 1995. Prehistoric diet transitions. Stockholm: University of Stockholm.Google Scholar

Lijbell, D., Jackes, M. Schwarcz, H. Knyf, M. & Meiklejohn, C.. 1994. The Mesolithic-Neolithic transition in Portugal: Isotopic and dental evidence of diet, Journal of Archaeological Science 21: 201–16.Google Scholar

Pitts, M.W. & Jacobi, R.M.. 1979. Some aspects of change in flaked stone industries of the Mesolithic and Neolithic in Southern Britain, Journal of Archaeological Science 6:163–77.CrossRef Google Scholar

Price, T.D. 1997. The first farmers of southern Scandinavia, in Harris, D. (ed.), The origins and spread of agriculture and pastoralism in Eurasia: 346–62. London: UCL Press.Google Scholar

Richards, M.P. 1998. Palaeodietary studies of European human populations using bone stable isotopes. Unpublished D.Phil, thesis, University of Oxford.Google Scholar

Richards, M.P. & Mellars, P.. 1998. Stable isotopes and the seasonality of the Oronsay middens, Antiquity 72: 178–84.CrossRef Google Scholar

Schoeninger, M., Deniro, M. & Tauber, H.. 1983. Stable nitrogen isotope ratios of bone collagen reflect marine and terrestrial components of prehistoric human diet, Science 220:1381–1383.CrossRef Google Scholar PubMed

Schulting, R.J. In press. New AMS dates from the Lambourn long barow and the earliest Neolithic in southern Britain: repacking the Neolithic package?, Oxford Journal of Archaeology.Google Scholar

Schwarcz, H. & Schoeninger, M.. 1991. Stable isotope analyses in human nutritional ecology, Yearbook of Physical Anthropology 34: 283–321.CrossRef Google Scholar

Whittle, A.W.R. 1996. Europe in the Neolithic: The creation of New Worlds. Cambridge: Cambridge University Press.Google Scholar

Williams, E. 1989. Dating the introduction of food production into Britain and Ireland, Antiquity 63: 510–21.CrossRef Google Scholar

Zvelebil, M. & Rowley-Conwy, P.A.. 1986. Foragers and farmers in Atlantic Europe, in Zvelebil, M. (ed.), Hunters in transition: Mesolithic societies of temperate Eurasia and their transition to farming: 67–94. Cambridge: Cambridge University Press.Google Scholar