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The Antler Maceheads Dating Project

Published online by Cambridge University Press:  11 December 2014

R. Loveday ,
A. Gibson ,
P. D. Marshall ,
A. Bayliss ,
C. Bronk Ramsey  and
H. van der Plicht
R. Loveday
Affiliation:
1 School of Archaeology & Ancient History, University of Leicester, Leicester LE1 7RH
A. Gibson
Affiliation:
2 Dept of Archaeological Science, University of Bradford, Bradford BD7 1DP
P. D. Marshall
Affiliation:
3 Dept of Archaeology, University of Sheffield, Westcourt, 2 Mappin Street, Sheffield S1 4DT
A. Bayliss
Affiliation:
4 English Heritage, 1 Waterhouse Square, 138-142 Holborn, London EC1N 2ST
C. Bronk Ramsey
Affiliation:
5 Oxford Radiocarbon Accelerator Unit, Research Laboratory for Archaeology, 6 Keble Rd, Oxford 0X1 3QJ
H. van der Plicht
Affiliation:
6 Center for Isotope Research, Rijksuniversiteit Groningen, PO Box 72. 9700 AB Gronineen. Netherlands
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Extract

This paper reports the first examples of direct radiocarbon measurements from antler maceheads, demonstrating that both the middle Thames specimens and those from northern Britain date to the second half of the 4th millennium cal BC. This suggests a degree of contemporaneity between riverine activity in the south and ‘prestige’ burial in the north, although the possibility that this is a function of the radiocarbon calibration curve cannot be discounted. The possibility that lattice decorated maceheads can be regarded as prototypes for the Maesmore series of fine stone maceheads is considered but the failure of two out of three decorated examples to produce radiocarbon determinations means that the debate cannot yet be settled.

Type
Research Article
Information
Proceedings of the Prehistoric Society , Volume 73 , 2007 , pp. 381 - 392
Copyright
Copyright © The Prehistoric Society 2004

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References

Aerts-Bijma, A.T, Meijer, H.A.J. & Plicht, J. van der. 1997. AMS sample handling in Groningen, Nuclear Instruments and Methods in Physics Research B 123, 221–5Google Scholar
Aerts-Bijma, A.T., Plicht, J. van der & Meijer, H.A.J. 2001. Automatic AMS sample combustion and CO2 collection. Radiocarbon 43, 293–8Google Scholar
Ambrose, S.H. 1983. Isotopic analysis of palaeodiets: methodological and interpretative considerations. In Standford, M.K. (ed.), Investigations of Ancient Human Tissue: chemical analyses in anthropology, 59130. New York: Gordon & Breach ScienceGoogle Scholar
Ashmore, P. & MacSween, A. 1998. Radiocarbon dates for settlements, tombs and ceremonial sites with Grooved Ware in Scotland. In Gibson, A. & Simpson, D. (eds), Prehistoric Ritual and Religion: essays in honour of Aubrey Burl, 139–47. Stroud: Alan SuttonGoogle Scholar
Barclay, A. 1999. Grooved Ware from the Upper Thames Region. In Cleal, R. & MacSween, A. (eds), Grooved Ware in Britain and Ireland, 922. Oxford: Oxbow Books/Neolithic Studies Group Seminar Papers 3Google Scholar
Barnatt, J. 1996. A multiphased barrow at Liffs Low, near Biggin, Derbyshire. In Barnatt, J & Collis, J. (eds), Barrows in the Peak District. Recent Research, 95129. Sheffield: John CollisGoogle Scholar
Bateman, T. 1848. Vestiges of the Antiquities of Derbyshire. London: John Russell SmithGoogle Scholar
Bonsall, C. & Smith, C. 1989. Late Palaeolithic and Mesolithic bone and antler artefacts from Britain: first reactions to accelerator dates. Mesolithic Miscellany 10(1), 33–8Google Scholar
Bronk Ramsey, C. 1995. Radiocarbon calibration and analysis of stratigraphy. Radiocarbon 36, 425–30Google Scholar
Bronk Ramsey, C. 1998. Probability and dating. Radiocarbon 40, 461–74Google Scholar
Bronk Ramsey, C. 2001. Development of the radiocarbon program OxCal. Radiocarbon 43, 355–63Google Scholar
Bronk Ramsey, C. & Hedges, R.E.M. 1989. Use of the CO2 source in radiocarbon dating by AMS. Radiocarbon 31, 298304Google Scholar
Bronk Ramsey, C. & Hedges, R.E.M. 1997. Hybrid ion sources: radiocarbon measurements from microgram to milligram. Nuclear Instruments and Methods in Physics Research B 123, 539–45Google Scholar
Bronk Ramsey, C., Pettitt, P.B., Hedges, R.E.M., Hodgins, G.W.L. & Owen, D.C. 2000. Radiocarbon dates from the Oxford AMS system. Archaeometry datelist 29. Archaeometry 42, 243–54Google Scholar
Bronk Ramsey, C., Higham, T.F.G., Bowles, A. & Hedges, R.E.M. 2004a. Improvements to the pretreatment of bone at Oxford. Radiocarbon 46, 155–63Google Scholar
Bronk Ramsey, C., Ditchfield, P. & Humm, M. 2004b. Using a gas ion source for radiocarbon AMS and GC-AMS. Radiocarbon 46, 2532Google Scholar
Clark, J.G.D. 1936. The Mesolithic Settlement of Northern Europe. Cambridge: University PressGoogle Scholar
Canham, R. 1978. 2000 Years of Brentford. London: HMSOGoogle Scholar
Celoria, F.S.C. & Macdonald, J. 1969. The Neolithic Age. Victoria County History of Middlesex I, 2935Google Scholar
Cotton, J. & Johnson, R. 2004. Two decorated Peterborough bowls from the Thames at Mortlake and their London context. In Cotton, J. & Field, D. (eds), Towards a New Stone Age: aspects of the Neolithic in south-east England, 128–47. York: Council for British Archaeology Research Report 137Google Scholar
Cowie, T. & MacSween, A. 1999. Grooved Ware from Scotland: a review. In Cleal, R. & MacSween, A. (eds), Grooved Ware in Britain and Ireland, 4856. Oxford: Oxbow BooksGoogle Scholar
Edwardson, A.R. 1965. A spirally decorated object from Garboldisham. Anitiquity 39, 145Google Scholar
Eogan, G. & Richardson, H. 1982. Two maceheads from Knowth, Co. Meath. Journal of the Royal Society of Antiquaries of Ireland 112, 123–38Google Scholar
Eogan, G. & Roche, H. 1997. Excavations at Knowth (2). Dublin: Royal Irish Academy & Department of Arts, Culture & the GaeltachtGoogle Scholar
Evans, C., Edmunds, M. & Boreham, S. 2006. ‘Total archaeology’ and model landscapes: excavation of the Great Wilbraham causewayed enclosure, Cambridgeshire, 1975–6. Proceedings of the Prehistoric Society 72, 113–62Google Scholar
Frodsham, P. 1996. Spirals in time: Morwick Mill and the spiral motif in the British Neolithic. In Frodsham, P. (ed.), Neolithic Studies in No-Man's Land. Papers on the Neolithic of Northern England from the Trent to the Tweed. Northern Archaeology 13/14, 101–38Google Scholar
Garwood, P. 1999. Grooved ware in Southern Britain: chronology and interpretation. In Cleal, R. & MacSween, A. (eds), Grooved Ware in Britain and Ireland, 145–76. Oxford: Oxbow BooksGoogle Scholar
Gibson, A. 2002. Prehistoric Pottery in Britain and Ireland. Stroud: TempusGoogle Scholar
Gibson, A. forthcoming. The Neolithic Round Barrows of the Great Wold Valley.Google Scholar
Gibson, A. & Kinnes, I. 1997. On the urns of a dilemma: radiocarbon and the Peterborough problem, Oxford Journal of Archaeology 16(1), 6572Google Scholar
Harding, J. 1997. Interpreting the Neolithic: the monuments of North Yorkshire. Oxford Journal of Archaeology 16, 279–95Google Scholar
Hedges, R.E.M., Bronk Ramsey, C. & Housley, R.A. 1989. The Oxford Accelerator Mass Spectrometry facility: technical developments in routine dating. Archaeometry 31, 99113Google Scholar
Hedges, R.E.M. & Law, I. 1989. The radiocarbon dating of bone. Applied Geochemistry 4, 249–54Google Scholar
Hedges, R.E.M., Housley, R.A., Bronk Ramsey, C. & Klinken, G.J. van. 1991. Radiocarbon dates from the Oxford AMS System. Archaeometry 33, 121–34Google Scholar
Kinnes, I. 1979 Round Barrows and Ring Ditches of the British Neolithic. London: British Museum Occasional Paper 7Google Scholar
Kinnes, I. 1995. An innovation backed by great prestige: the tnstance of the spiral and twenty centuries of stony sleep. In Kinnes, I. & Varndell, G. (eds), ‘Unbaked Urns of Rudely Shape’: Essays on British and Irish Pottery for lan Longworth, 4953. Oxford: Oxbow BooksGoogle Scholar
Kinnes, I.A. & Longworth, I.H. 1985. Catalogue of the Excavated Prehistoric and Romano-British Material in the Greenwell Collection. London: British Museum PressGoogle Scholar
Kinnes, I.Schadla-Hall, T.Chadwick, P. & Dean, P. 1983. Duggleby Howe reconsidered. Archaeological Journal 140, 83108Google Scholar
Lacaille, A.D. 1961. Mesolithic facies in Middlesex and London. Transactions of the London & Middlesex Archaeological Society 20, 101–50Google Scholar
Laicaille, A.D. 1969. The Mesolithic age. Victoria County History of Middlesex I, 21–8Google Scholar
Law, I.A. & Hedges, R.E.M. 1989. A semi-automated bone pre-treatment system and the pre-treatment of older and contaminated samples. Radiocarbon 31, 247–53Google Scholar
Lawrence, F.G. 1929. Antiquities from the Middle Thames. Archaeologia 86, 6998Google Scholar
Loveday, R. 2002. Duggleby Howe revisited. Oxford Journal of Archaeology 21(2), 135–46Google Scholar
Loveday, R. 2004. Spiralling outwards — the problems and possibilities of a later Neolithic Leitmotiv. In Gibson, A. & Sheridan, A. (eds), Prom Sickles to Circles. Britain and Ireland at the Time of Stonehenge, 123–41. Stroud: TempusGoogle Scholar
Loveday, R. forthcoming. From ritual to riches: the route to individual power in Eastern Yorkshire? In Barclay, G. & Brophy, K. (eds), Regional Diversity in the Neolithic of Britain and Ireland, Oxford: Oxbow BooksGoogle Scholar
Mook, W.G. 1986. Business meeting: recom mendations/resolutions adopted by the twelfth international radiocarbon conference. Radiocarbon 28, 799Google Scholar
Posnansky, M. 1958. Neolithic finds from Attenborough, near Nottingham. Antiquaries Journal 38, 87–8Google Scholar
Piggott, S. 1954. The Neolithic Cultures of the British Isles. Cambridge: University PressGoogle Scholar
Plicht, J. van der, Wijma, S., Aerts, A.T., Pertuisot, M.H. & Meijer, H.A.J. 2000. Status report: the Groningen AMS facility. Nuclear Instruments and Methods in Physics Research B 172, 5865Google Scholar
Reimer, P.J., Baillie, M.G.L., Bard, E., Bayliss, A., Beck, J.W., Bertrand, C.J.H., Blackwell, P.G., Buck, C. E., Burr, G.S., Cutler, K.B., Damon, P.E., Edwards, R.L., Fairbanks, R.G., Friedrich, M., Guilderson, T.P., Hogg, A.G., Hughen, K.A., Kromer, B., McCormac, G., Manning, S., Bronk Ramsey, C, Reimer, R W, Remmele, S, Southon, J R, Stuiver, M, Talamo, S, Taylor, F W., Plicht, J. van der & Weyhenmeyer, C.E. 2004. IntCal04 Terrestrial radiocarbon age calibration, 0–26 Cal Kyr BP. Radiocarbon 46, 1029–58Google Scholar
Roe, F.E.S. 1968. Stone maceheads and the latest Neolithic cultures of the British Isles. In Coles, J.M. & Simpson, D. D.A. (eds), Studies in Ancient Europe, 145–72. Leicester: University PressGoogle Scholar
Schoeninger, M.J. & DeNiro, M.J. 1984. Nitrogen and carbon isotopic composition of bone collagen from marine and terrestrial animals. Geochimica et Cosmochimica Act 49, 625–39Google Scholar
Schulting, R.J. & Wysocki, M. 2005. ‘In this chambered tumulus were found cleft skulls…’: an assessment of the evidence for cranial trauma in the British Neolithic. Proceedings of the Prehistoric Society 71, 107–38Google Scholar
Scott, E.M. 2003. The third international radiocarbon intercomparison (TIRI) and the fourth international radiocarbon intercomparison (FIRI) 1990-2002: results, analyses, and conclusions. Radiocarbon 45, 135408Google Scholar
Sheridan, A. 2004. Going round in circles? Understanding the Irish Grooved Ware ‘complex’ in its wider context. In Coles, J., Grogan, E., Raftery, B., Roche, H. & Bradley, J. (eds), From Megaliths to Metals. Essays in Honour of George Eogan, 2737. Oxford: Oxbow BooksGoogle Scholar
Simpson, D.D.A. 1996. ‘Crown’ antler maceheads and the later Neolithic in Britain. Proceedings of the Prehistoric Society 62, 293309Google Scholar
Simpson, D.D.A., Murphy, E.M. & Gregory, R.A. 2006. Excavations at Northton, Isle of Harris. Oxford: British Archaeological Report 408Google Scholar
Smith, C. 1989. British antler mattocks. In Bonsall, C.The Mesolithic in Europe, 272–83. Edinburgh: John DonaldGoogle Scholar
Smith, R.A. 1920. Specimens from the Layton Collection in the Brentford Public Library. Archaeologia 69, 130Google Scholar
Smith, R.A. 1926. The perforated axe hammers of Britain. Archaeologia 75, 77108Google Scholar
Stuiver, M. & Kra, R.S. 1986. Editorial comment. Radiocarbon, 28(2B), iiGoogle Scholar
Stuiver, M. & Polach, H.J. 1977. Discussion: reporting of 14C data. Radiocarbon 19, 355–63Google Scholar
Stuiver, M. & Reimer, P.J. 1986. A computer program for radiocarbon age calculation. Radiocarbon 28, 1022–30Google Scholar
Stuiver, M. & Reimer, P.J. 1993. Extended & data base and revised CALIB 3.0 & age calibration program. Radiocarbon 35, 215–30Google Scholar
Ward, G.K. & Wilson, S.R. 1978. Procedures for comparing and combining radiocarbon age determinations: a critique. Archaeometery 20, 1931Google Scholar