Hostname: page-component-78c5997874-mlc7c Total loading time: 0 Render date: 2024-11-05T15:39:37.743Z Has data issue: false hasContentIssue false
  • English
  • Français

‘Absolute’ dating of Mesolithic human activity at Star Carr, Yorkshire: new palaeoecological studies and identification of the 9600 bp radiocarbon ‘plateau’

Published online by Cambridge University Press:  18 February 2014

S. P. Day  and
P. A. Mellars
S. P. Day
Affiliation:
McDonald Institute for Archaeological Research, University of Cambridge, Downing Street, Cambridge CB2 3ER
P. A. Mellars
Affiliation:
Department of Archaeology, University of Cambridge, Downing Street, Cambridge, CB2 3DZ
Get access Rights & Permissions [Opens in a new window]

Abstract

The existence of a ‘radiocarbon plateau’ at 9600 BP causes problems for early Mesolithic archaeology and palaeoecology, since events separated by up to 400 calendar years are not distinguished by radiocarbon dating. A new sequence of closely spaced radiocarbon accelerator dates from waterlogged deposits at the early Mesolithic site at Star Carr, Yorkshire, has enabled recognition of this plateau. It has been possible to ‘wiggle-match’ these Star Carr dates to the recently produced dendrochronological calibration curve for the early post-glacial period, providing an ‘absolute’ chronology for formation of the deposits. Associated high resolution palaeoecological analyses indicate two local phases of human activity, the lengths of which can be estimated from the calibrated time-scale. As far as we are aware, this is the first time that it has been possible to provide ‘absolute’ dates for human activity at an early Mesolithic site in Europe.

Type
Research Article
Information
Proceedings of the Prehistoric Society , Volume 60 , Issue 1 , 1994 , pp. 417 - 422
Copyright
Copyright © The Prehistoric Society 1994

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

BIBLIOGRAPHY

Ammann, B. & Lotter, A. F. 1989. Late-glacial radiocarbon and palynostratigraphy on the Swiss Plateau. Boreas 18, 109126.CrossRefGoogle Scholar
Andresen, J. M., Byrd, B. F., Elson, M. D., McGuire, R. H., Mendoza, R. G., Staski, E. & White, J. P. 1981. The deer hunters: Star Carr reconsidered. World Archaeology 13, 3146.CrossRefGoogle Scholar
Bard, E., Arnold, M., Fairbanks, R. G. & Hamelin, B. 1993. 230Th-234U and 14C ages obtained by mass spectrometry on corals. Radiocarbon 35, 191199.CrossRefGoogle Scholar
Becker, B. 1993. An 11,000-year German oak and pine dendrochronology for radiocarbon calibration. Radiocarbon 35, 201213.CrossRefGoogle Scholar
Becker, B. & Kromer, B. 1986. Extension of the Holocene dendrochronology by the Preboreal pine series, 8800 to 10,100BP. Radiocarbon 28 (2B), 961963.CrossRefGoogle Scholar
Becker, B. & Kromer, B. 1991. Dendrochronology and radiocarbon calibration of the early Holocene. In Barton, R. N. E., Roberts, A. J. & Roe, D. A. (eds), The Late Glacial in North-West Europe: Human Adaptation and Environmental Change at the End of the Pleistocene, 2224. London: Council for British Archaeology Research Report 77.Google Scholar
Becker, B., Kromer, B. & Trimborn, P. 1991. A stable-isotope tree-ring timescale of the Late Glacial/Holocene boundary. Nature 353, 647649.CrossRefGoogle Scholar
Bennett, K. D., Simonson, W. D. & Peglar, S. M. 1990. Fire and Man in Post-Glacial Woodlands of Eastern England. journal of Archaeological Science 17, 635642.CrossRefGoogle Scholar
Berglund, B. E. & Ralska-Jasiewiczowa, M. 1986. Pollen analysis and pollen diagrams. In Berglund, B. E. (ed.), Handbook of Holocene Palaeoecology and Palaeohydrology, 455484. Chichester: John Wiley & Sons.Google Scholar
Caulfield, S. 1978. Star Carr – an alternative view. Irish Archaeological Research Forum 5, 1522.Google Scholar
Clark, J. G. D. 1954. Excavations at Star Carr. Cambridge: University Press.Google Scholar
Cloutman, E. W. & Smith, A. G. 1988. Palaeoenvironments in the Vale of Pickering Part 3. Environmental History at Star Carr. Proceedings of the Prehistoric Society 54, 3758.CrossRefGoogle Scholar
Day, P. 1993. Preliminary Results of High-Resolution Palaeoecological Analyses at Star Carr, Yorkshire. Cambridge Archaeological Journal 3, 129133.CrossRefGoogle Scholar
Geel van, B. & Mook, W. G. 1989. High-resolution14C dating of organic deposits using natural atmospheric 14C variations. Radiocarbon 31, 151155.CrossRefGoogle Scholar
Hedges, R. E. M., Humm, M. J., Foreman, J., van Klinken, G. J. & Bronk, C. R. 1992. Developments in sample combustion to carbon dioxide and in the Oxford AMS carbon dioxide ion source system. Radiocarbon 34, 306311.CrossRefGoogle Scholar
Hedges, R. E. M., Law, I. A., Bronk, C. R. & Housley, R. A. 1989. The Oxford accelerator mass spectrometry facility: technical developments in routine dating. Archaeometry 31, 99113.CrossRefGoogle Scholar
Kromer, B. & Becker, B. 1993. German oak and pine14C calibration, 7200–9439 BC. Radiocarbon 35, 125135.CrossRefGoogle Scholar
Legge, A. J. & Rowley-Conwy, P. A. 1988. Star Carr Re-visited. London: Birkbeck College.Google Scholar
Mellars, P. 1990. A major ‘plateau’ in the radiocarbon timescale at c.9650 b.p.: the evidence from Star Carr (North Yorkshire). Antiquity 64, 836841.CrossRefGoogle Scholar
Middeldorp, A. A. 1982. Pollen concentration as a basis for indirect dating and quantifying net organic and fungal production in a peat bog ecosystem. Review of Palaeo-botany and Palynology 37, 225282.CrossRefGoogle Scholar
Pitts, M. 1979. Hide and antlers: a new look at the gatherer-hunter site at Star Carr, North Yorkshire, England. World Archaeology 11, 3242.CrossRefGoogle Scholar
Stuiver, M. & Braziunas, T. F. 1993. Sun, ocean, climate and atmospheric 14COZ: an evaluation of causal and spectral relationships. The Holocene 3, 289305.CrossRefGoogle Scholar
Zbinden, H., Andree, M., Oeschger, H., Ammann, B., Lotter, A., Bonani, G. & Wölfli, W. 1989. Atmospheric radiocarbon at the end of the last glacial: An estimate based on AMS radiocarbon dates on terrestrial macrofossils from lake sediments. Radiocarbon 31, 795804.CrossRefGoogle Scholar