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Tin sources for prehistoric bronze production in Ireland

Published online by Cambridge University Press:  02 January 2015

P. Budd ,
D. Gale ,
R. A. F. Ixer  and
R. G. Thomas
P. Budd
Affiliation:
Ancient Metallurgy Research Group, Department of Archaeological Sciences, University of Bradford, Bradford BD7 1DP, England
D. Gale
Affiliation:
Ancient Metallurgy Research Group, Department of Archaeological Sciences, University of Bradford, Bradford BD7 1DP, England
R. A. F. Ixer
Affiliation:
School of Earth Science, Birmingham University, Birmingham B15 2TT, England
R. G. Thomas
Affiliation:
Department of Chemistry, University of Western Sydney, Nepean, P.O. Box 10, Kingswood NSW 2747, Australia
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Extract

Ireland is important in the early metallurgy of northwest Europe, for it has given us a large majority of the Early Bronze Age artefacts from the whole British Isles. Is there tinore to have been mined in early Ireland to produce this bronze or must it have come from elsewhere?

Type
Papers
Information
Antiquity , Volume 68 , Issue 260 , September 1994 , pp. 518 - 524
Copyright
Copyright © Antiquity Publications Ltd. 1994

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References

Alderton, D.H.M. 1993. Mineralization associated with the Cornubian Granite Batholith, in Pattrick, R.A.D. & Polya, D.A. (ed.), Mineralization in the British Isles: 270339 London: Chapman-Hall.Google Scholar
Andrews, C.J., Crowe, R.W.A. Finlay, S. Pennei, W.M. Pennei, W.M. & Pyne, J.F. (ed.). 1986. Geology and genesis of mineral deposits in Ireland. Dublin: Irish Association for Economic Geology.Google Scholar
Budd, P. 1991. A metallographic investigation of Eneolithic arsenical copper. Unpublished Ph.D thesis, Chapman-Hall.Google Scholar
Budd, P., Pollard, R.G. Thomas, A.M. & Williams, P.A. 1992. The early development of metallurgy in the British Isles, Antiquity, 66: 677–86.Google Scholar
Burgess, C. 1974. The Bronze Age, in Renfrew, C. (ed.), British prehistory: a new outline: 165232.London: Duckworth.Google Scholar
Burgess, C. 1979. The background of early metalworking in Ireland and Britain, in Ryan, M. (ed.), The origins of metallurgy in Atlantic Europe: Proceedings of the 5th Atlantic Colloquium: 207–14. Dublin: Stationery Office.Google Scholar
Butler, J.R. 1963. A report on elements in Irish copper ores, in Coghlan, et al. (1963): 3453.Google Scholar
Case, H.J. 1954. STUDIES OF IRISH AND BRitish early copper artifacts: second series, Man, 21: 1827.Google Scholar
Case, H.J. 1966. Were the Beaker people the first metallurgists in Ireland?, Palaeohistoria 12: 14177.Google Scholar
Charles, J.A. 1967. Early arsenical bronzes — a metallurgical view, American Journal of Archaeology 71: 21–6.Google Scholar
Charles, J.A. 1979. From copper to iron — the origin of metallic materials, Journal of the Institute of Metals 31(7): 813.Google Scholar
Charles, J.A. 1980. The coming of copper and copper–base alloys and iron: a metallurgical sequence, in Wertime, T.A. & Muhly, J.D. (ed.), The coming of the age of iron: 151–81. Yale (CT): Yale University Press.Google Scholar
Charles, J.A. 1982. The metallurgical contribution to science–based archaeology, Metallurgist and Materials Technologist 14(8): 335–9.Google Scholar
Charles, J.A. 1985. Determinative mineralogy and the origins of metallurgy, in Craddock, P.T. & Hughes, M.J. (ed.), Furnaces and smelting technology in antiquity: 21–8. London: British Museum. Occasional paper 48.Google Scholar
Coghlan, H.H. 1963. A note on Irish copper ores and metals, in Coghlan, et al. (1963): 133.Google Scholar
Coghian, H.H., Butler, J.R. & Parker, G. 1963. Ores and metals: a report of the Ancient Mining and Metallurgy Committee: 133. London: Royal Anthropological Institute.Google Scholar
Coghlan, H.J. & Case, H.H. 1957. Early metallurgy of copper in Ireland and Britain, Proceedings of the Prehistoric Society 23: 91123.CrossRefGoogle Scholar
Coles, J.M. & Case, H.H. 1968–9. Scottish Early Bronze Age metalwork, Proceedings of the Society of Antiquaries of Scotland 101: 1110.Google Scholar
Coghian, H.H., Butler, J.R. & Parker, G. 1963. Ores and metals: a report of the Ancient Mining and Metallurgy Committee: 133. London: Royal Anthropological Institute.Google Scholar
Craddock, P.T. 1979. >Deliberate alloying in the Atlantic Bronze Age>, in Ryan, M. (ed.), The origins of metallurgy in Atlantic Europe: Proceedings of the 5th At-lantic Colloquium: 369–85. Dublin: Stationery Office.Google Scholar
Craddock, P.T & Meeks, N.D. 1987. Iron in ancient copper, Archaeometry 29: 187204.Google Scholar
Crew, P. & Crew, S. 1990. Early mining in the British Isles. Tan–y–Bwlch, Gwynedd: Pias Tan–y–Bwlch, Snowdonia: a National Park Study Centre. Occasional paper 1.Google Scholar
Eaton, E.R. & Mckerrell, H. 1976. Near Eastern alloying and some textural evidence for the early use of arsenical copper, World Archaeology 8(2): 169–91.Google Scholar
Harbison, P. 1969a. The daggers and halberds of the Early Bronze Age in Ireland, Munich: CH. Beck. Prähistorische Bronzefunde 6.1.Google Scholar
Harbison, P. 1969b. The axes of the Early Bronze Age in Ireland, Munich: CH. Beck. rähistorische Bronzefunde 9.1.Google Scholar
Ixer, R.A. 1990. Atlas of opaque and ore minerals in their associations, Milton Keynes: Open University Press.Google Scholar
Ixer, R.A. 1992. Petrography of the ores at Avoca, Co. Wicklow. Unpublished report for the Irish Geological Survey.Google Scholar
Ixer, R.A., Mcardle, P. & Stanley, C.J. 1990. Primary gold mineralization within metamorphosed iron ores, Southeast Ireland, Bulletin of the Geological Survey of Ireland 4. 221–6.Google Scholar
Jackson, J.S., 1968. Bronze Age copper mines on Mount Gabriel, West Co. Cork, Ireland, Archaeologia Austriaca 43. 92114.Google Scholar
Jackson, J.S., 1979. Metallic ores in prehistory: copper and tin, in Ryan, M. (ed.), The origins of metallurgy in Atlantic Europe 107–25. Dublin: Stationery Office.Google Scholar
Jackson, J.S., 1991. The geology and raw materials of the Bronze Age, in Ryan, M. (ed.), The illustrated archaeology of Ireland: 73–5. Dublin: Country House.Google Scholar
Kennan, P.S., Mcardle, P. Williams, F.M. & Doyle, E. 1986. A review of metal deposits associated with the Leinster granites, SE Ireland and a model for their genesis, in Andrews, et al. 1986: 201–10.Google Scholar
Macalister, R.A.S., 1949. The archaeology of Ireland. 2nd edition. London: Methuen.Google Scholar
Mcardle, P., 1989. Geological setting of gold mineralization in the Republic of Ireland, Transactions of the Institution of Mining and Metallurgy 98 (section B): B7–B12.Google Scholar
Mcardle, P. & Warren, W.P. 1987a. Iron formation as abed–rock source of gold in southeast Ireland and its implications for exploration, Transactions of the Institution of Mining and Metallurgy 98(section B): B195–B200.Google Scholar
Mcardle, P. & Warren, W.P. 1987b. The bedrock source and emplacement of placer gold at Goldmine River valley, Co. Wicklow, Bulletin of the Geological Survey of Ireland 4: 1126.Google Scholar
Mckerrell, H. & Tylecote, R.F. 1972b. The working of copper–arsenic alloys in the Early Bronze Age and the effect on the determination of provenance, Proceedings of the Prehistoric Society 38: 209–18.Google Scholar
Mallet, W. 1851. On the minerals of the auriferous districts of Wicklow, Journal of the Geological Society of Dublin 4: 269–77.Google Scholar
Mills, A., King, T. &Weaver, T. 1801. Report of the gold mines in the County of Wicklow, Transactions of the Royal Dublin Society!: 131–48.Google Scholar
Ni, W. 1991. Copper and other mineralization in metamorphosed ‘red beds’, West Carbery area, south–west Cork, Ireland. Unpublished Ph.D thesis, University of Birmingham.Google Scholar
Northover, P. 1980a. The analyses of Welsh Bronze Age metalwork, Appendix to Savory, H.N. Guide catalogue to the Bronze Age collections National Museum of Wales: 229–43. Cardiff: National Museum of Wales.Google Scholar
Northover, P. 1980b. Bronze in the British Bronze Age, in Oddy, W.A. (ed.), Aspects of early metallurgy: 6370. London: British Museum. Occasional paper 17.Google Scholar
Northover, P. 1982. The exploration of the long–distance movement of bronze in Bronze and Early Iron Age Europe, Bul–ietin of the Institute of Archaeology 19: 4571.Google Scholar
Northover, P. 1988. Case studies in the introduction of bronze, in unpublished Resumé, 2nd Deia conference on prehistory, September 1988. Mallorca: Deia Archaeological Museum&Research Centre.Google Scholar
Northover, P. 1989. Properties and use of arsenic–copper alloys, in Hauptmann, A. Pernicka, E. & Wagner, G.A. (ed.), Proceedings of the International Symposium on Old World Archaeometallurgy, Heidelberg, 1987: 111–18. Bochum: Deutschen Bergbau Museums.Google Scholar
O‘Brien, W.R. 1990. Prehistoric copper mines in southwest Ireland: the Mount Gabriel type mines, Proceedings of the Prehistoric Society 56: 269–90.Google Scholar
O‘Brien, W.R., IXER, R. & O‘Sullivan, M. 1990. Copper resources in prehistory: an Irish perspective, in Crew, & Crew, 1990: 3035.Google Scholar
Penhallurick, R.D. 1986. Tin in antiquity. London: Institute of Metals.Google Scholar
Platt, J.W. 1977. Volcanogenic mineralization at Avoca, Co. Wicklow, Ireland and its regional implications, in Volcanic processes in ore genesis: 163–70. London: Institution of Mining and Metallurgy and Geological Society.Google Scholar
Pointon, C.R. 1979. Palaeozoic volcanogenic mineral deposits at Parys Mountain, Avoca and S.E. Canada. Unpublished Ph.D thesis, University of Aston.Google Scholar
Pollard, A.M., Thomas, R.G. & Williams, P.A. 1990. Experimental smelting of arsenical copper ores: implications for Early Bronze Age copper production, in Crew, & Crew, 1990: 72–4.Google Scholar
Pollard, A.M., Thomas, R.G. Ware, D.P. & Williams, P.A. 1991. Experimental smelting of secondary copper minerals: implications for Early Bronze Age metallurgy in Britain, in Pernicka, E. & G.A., Wagner (ed.), Archaeometry90: 127–36. Heidelberg: Birkhauser Verlag.Google Scholar
Ramdohr, P. 1969. The ore minerals and their intergrowths. English edition. Oxford: Pergamon Press.Google Scholar
Rapp, G. 1988. On the origins of copper and bronze alloying, in Maddin, R. (ed.), The beginning of the use of metals and alloys: Proceedings of a colloquium, Zheng–Zhou, Henan, China, October 1986: 21–7. Cambridge (MA)& London: MIT Press.Google Scholar
Reeves, T.J. 1971. Gold in Ireland, Bulletin of the Geological Survey of Ireland 1: 7385.Google Scholar
Russel, A. & Vincent, E.A. 1952. On the occurrence of varlamoffite (partially hydrated stannic oxide) in Cornwall, Mineralogical Magazine 29: 817–26.Google Scholar
Savory, H.N. 1980. Guide catalogue to the Bronze Age collections National Museum of Wales. Cardiff: National Museum of Wales.Google Scholar
Steiger, R. & Bowden, A. 1986. Tungsten mineralization in SE Leinster, Ireland, in Andrews, et al. 1986: 211–16.Google Scholar
Thomas, R.G. 1990. Studies of archaeological copper corrosion phenomena. Unpublished Ph.D thesis, University of Wales, College of Cardiff.Google Scholar
Tylecote, R.F. 1976. A history of metallurgy. London: Institute of Metals.Google Scholar
Wertime, T.A. 1964. Man’s first encounter with metallurgy, Science 146: 1257–67.Google Scholar
Wheatley, C.J.V. 1971. Aspects of metallogenesis within the southern Caledonides of Great Britain and Ireland, Transactions of the Institution of Mining and Metallurgy Section 80(section B): B211–B223.Google Scholar
Williams, F.M., Sheppard, W.A. & Mcardle, P. 1986. Avoca Mine, County Wicklow: a review of geological and isotopie studies, in Andrews, et al. 1986: 7182.Google Scholar
Winchesier, J.A. & Max, M.D. 1983. A note on the occurrence of stanniferous granite gneiss in County Mayo, Bulletin of the Geological Survey of Ireland 3: 113–19.Google Scholar