Hostname: page-component-8448b6f56d-sxzjt Total loading time: 0 Render date: 2024-04-23T21:06:32.507Z Has data issue: false hasContentIssue false
  • English
  • Français

Problems of dating human bones from the Iron Gates

Published online by Cambridge University Press:  02 January 2015

G.T. Cook ,
C. Bonsall ,
R.E.M. Hedges ,
K. McSweeney ,
V. Boroneant ,
L. Bartosiewicz  and
P.B. Pettitt
G.T. Cook
Affiliation:
Scottish Universities Environmental Research Centre, East Kilbride G75 0QF, Scotland.
C. Bonsall
Affiliation:
Department of Archaeology, University of Edinburgh, Edinburgh EH1 1LT, Scotland.
R.E.M. Hedges
Affiliation:
Radiocarbon Accelerator Unit, Research Laboratory for Archaeology & the History of Art, Oxford OX1 3QJ, England.
K. McSweeney
Affiliation:
Department of Archaeology, University of Edinburgh, Edinburgh EH1 1LT, Scotland.
V. Boroneant
Affiliation:
Municipal Museum of History and Art, Bucharest, Romania.
L. Bartosiewicz
Affiliation:
Institute of Archaeological Sciences, Loránd Eötvös University, Budapest, Hungary.
P.B. Pettitt
Affiliation:
Radiocarbon Accelerator Unit, Research Laboratory for Archaeology & the History of Art, Oxford OX1 3QJ, England.
Get access Rights & Permissions [Opens in a new window]

Extract

It is widely recognized that when marine resources form a significant proportion of the human diet, this results in radiocarbon ages for human remains that are significantly older than the contemporary atmosphere. While there has been widespread assessment of marine 14C reservoir ages, there has been little study of the freshwater equivalent. However, recent analyses of human bone from archaeological sites in the Danube Valley have confirmed the existence of a large freshwater 14C reservoir effect.

Keywords

radiocarbon datingreservoir effecthuman bonesIron Gatesdietstable isotopesMesolithicLepenski VirSchela CladoveiVlasac
Type
Papers
Information
Antiquity , Volume 76 , Issue 291 , March 2002 , pp. 77 - 85
Copyright
Copyright © Antiquity Publications Ltd. 2002

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

Ambrose, S. H. & Norr, L.. 1993. Experimental evidence for the relationship of the carbon isotope ratios of whole diet and dietary protein to those of bone collagen and carbonate, in Lambert, J.B. & Grupe, G. (ed.), Prehistoric bone — archaeology at the molecular level: 137. Berlin: Springer-Verlag.Google Scholar
Arneborg, J., Heinemeier, J., Lynnerup, N., Nielsen, H. L., Rud, N. & Sveinhjörnsdöttir, A. E.. 1999. Change of diet of the Greenland Vikings determined from stable carbon isotope analysis and l4C dating of their bones, Radiocarbon 41(2): 15768.CrossRefGoogle Scholar
Bonsali, C. (ed.). 1989. The Mesolithic in Europe. Papers presented at the Third International Symposium, Edinburgh 1985. Edinburgh: John Donald.Google Scholar
Bonsall, C., Lennon, R., McSweeney, K., Stewart, G., Harknkss, D., Boroneant, V., Bartosiewicz, I., Payton, R., & Chapman, J.. 1997. Mesolithic and Early Neolithic in the Iron Gates: a palaeodietary perspective, Journal of European Archaeology 5(1): 5092.Google Scholar
Boroneant, V, 1970. La période epipaléolithique sur la rive roumaine des Portes de For chi Danube, Prähistorische Zeitschrift 45(1): 125.Google Scholar
Boroneant, V, 1973. Recherches archéologiques sur la culture Schela Gladovei de la zone des ‘Portes de Fer’, Dacia 17: 539.Google Scholar
Boroneant, V, 1989. Thoughts on the chronological relations between the Epi-Palaeolithic and the Neolithic of the low Danube, in Bonsall (ed.): 47580.Google Scholar
Boroneant, V, 1990. Les enterrements de Schela Gladovei: nouvelles données, in Vermeersch, P. & Van Peer, P. (ed.), Contributions lo the Mesolithic in Europe: 1215. Leuven: Leuven University Press.Google Scholar
Chapman, J. C. 1992. Social power in the Iron Gates, in Chapman, J. G. & Dolukhanov, P. (ed.), Cultural transformations and interactions in Eastern Europe: 71121. Aldershot: Avebury.Google Scholar
Conn, E. E. & Stumpf, P. K.. 1972. Chapter 16, the metabolism of ammonia and nitrogen-containing monomers, iin Outlines of Biochemistry (3rd edition): 363–402. New York (NY): John Wiloy & Sons.Google Scholar
Cook, G. T., Bonsall, G., Hedges, R. E. M., MoSweeney, K., Boroneanx, V. & Pkttitt, P. B.. In press. A freshwater diet- derived 14C reservoir effect at the Stone Age sites in the Iron Gates gorge, Radiocarbon 43.Google Scholar
Doucett, R. R., Hooper, W. & Power, G.. 1999. Identification of anadromous and non-anadromous adult brook trout and their progeny in the Tabusintac River, New Brunswick, by means of multi-stable-isotope analysis, Transactions of the American Fisheries Society 128: 27888.Google Scholar
Dufour, E., Bocherens, H. & Mariotti, A.. 1999. Palaeodietary implications of isotopic variability in Eurasian lacustrine fish, Journal of Archaeological Science 26: 61727.CrossRefGoogle Scholar
Harkness, D. D. 1983. The extent of natural 14C deficiency in the coastal environment of the United Kingdom, in Mook & Waterbolk (ed.): 351–64.Google Scholar
Hobson, K. A. & Welcii, H. E.. 1995. Cannibalism and trophic structure in a high Arctic lake: insights from stable-iso- tope analysis, Canadian Journal of Fisheries and Aquatic Science 52: 1195201.CrossRefGoogle Scholar
Iacumin, P., Bocherens, H., Chaix, L. & Marioth, A.. 1998. Stable carbon and nitrogen isotopes as dietary indicators of ancient Nubian populations (Northern Sudan), Journal of Archaeological Science 25: 293301.CrossRefGoogle Scholar
Johansen, O. S., Gulliksen, S. & Nydal, R.. 1986, ð 13C and diet: analysis of Norwegian human skeletons, Radiocarbon 28(2A): 75461.Google Scholar
Jones, G. A. & Gagnon, A. R.. 1994. Radiocarbon chronology of Black Sea sediments, Deep-Sea Research 41: 53157.Google Scholar
Lanting, J. N. & van der Plight, J.. 1998. Reservoir effects and apparent ages, The Journal of Irish Archaeology 9: 15165.Google Scholar
Mays, S. 1998. The archaeology of human bonus. London: Routledge.Google Scholar
Minagawa, M. & Wada, E.. 1984. Stepwise enrichment of 15N along food chains: further evidence and the relation between δ 15N and animal age, Geochimica et Cosmochimica Acta 48: 113540.Google Scholar
Milisauskas, S. 1978. European prehistory. New York (NY): Academic Press.Google Scholar
Mook, W. & Waterbolk, H. T. (ed.). 1983. PACT 8: 14C and archaeology. Strasbourg: Council of Europe.Google Scholar
Ogking, N. 1999. Stable isolope evidence of the diet of the Neolithic population in Slovenia — a case study: Ajdovska jama, in Budja, M. (ed.), 6th Neolithic Studies (Documenta Praehistorica 26): 193–200. Ljubljana: University of Ljuhljana.Google Scholar
Pate, F. D. 1998. Bone collagen stable nitrogen and carbon isotopes as indicators of past human diet and landscape use in southeastern Soulh Australia, Australian Archaeology 46: 239.Google Scholar
Prinz, B. 1987. Mesolithic adaptations on the Lower Danube: Vlasac and the Iron Gates gorge. Oxford: British Archaeological Reports. International series S330.Google Scholar
Quitta, H. 1972. The dating of radiocarbon samples, in Srejovic (1972): 205–10.Google Scholar
Radovanović, I. 1996. The Iron Gates Mesolithic. Ann Arbor (MI): Internationa} Monographs in Prehistory. Archaeological series 11.Google Scholar
Richards, M. P. & Hedges, R. E. M.. 1999. Stable isotope evidence for similarities in the types of marine foods used by Lute Mesolithic humans at sites along the Atlantic coast of Europe, Journal of Archaeological Science 26: 71722.Google Scholar
Ryan, W. B. F., Pitman, W. C.. Major, C. O., Kazimieras, S., Moskalenko, V., Jonks, G. A., Dimitrov, P.. Gorür, N., Saking, M. & Yüce, H.. 1997. An abrupt drowning of the Black Sea shelf, Marine Geology 138: 11926.Google Scholar
Schoeninger, M. J. & Denlro, M. J.. 1984. Nitrogen and carbon isotopic composition of bone collagen from marine and terrestrial animals, Geochimica et Cosmochimica Acta 48: 62539.Google Scholar
Srejović, D. 1972. Europe’s first monumental sculpture. New discoveries at Lepenski Vir. London: Thames & Hudson.Google Scholar
Srejović, D. 1989. The Mesolithic of Serbia and Montenegro, in Bonsall (ed.): 48191.Google Scholar
Srejović, D. & Letica, Z.. 1978. Vlasac. A Mesolithic settlement in the Iron Gates. Beograd: Serbian Academy of Sciences and Arts. Monograph DXII.Google Scholar
Tauber, H. 1983. 14C dating of human beings in relation to dietary habits, in Mook & Waterbolk (ed.): 36575.Google Scholar
Voytek, B. A. & Tringham, R.. 1989. Rethinking the Mesolithic: the case of south-east Europe, in Bonsall (ed.): 4929.Google Scholar