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An early bronze artefact from Papua New Guinea

Published online by Cambridge University Press:  02 January 2015

W.R. Ambrose*
Affiliation:
Department of Prehistory, Australian National University, Canberra, ACT 2601, Australia

Extract

This small tabular bronze artefact, recovered from an occupation layer sealed beneath volcanic ash on Lou Island, is the first bronze artefact found in a dated context in Papua New Guinea, well outside the range of the normal occurrence of bronze in southeast Asia.

Type
Papers
Copyright
Copyright © Antiquity Publications Ltd 1988

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References

Ambrose, W.R. & Duerden, P.. 1982. Pixe analysis in the distribution and chronology of obsidian use in the Admiralty Islands, in Ambrose, W.R. & Duerden, P. (ed.), Archaeometry: an Australasian perspective: 889. Canberra: Australian National University.Google Scholar
Badner, M 1972. Some evidences of Dong-son-derived influence in the art of the Admiralty Islands, in Barnard 1972: 597629.Google Scholar
Barnard, N. (ed.). 1972. Early Chinese art and its possible influence on the Pacific Basin. New York: Intercultural Arts Press.Google Scholar
Bayard, D. 1986–7. Chronology, evolution, and diffusion in the later southeast Asian cultural sequence: some comments on Higham’s recent revision, Bulletin of the Indo-Pacific Prehistory Association 7: 118140.Google Scholar
Bellwood, P. 1978. Man’s conquest of the Pacific. Auckland: Collins.Google Scholar
Bellwood, P. 1985. Prehistory of the Indo-Malaysian archipelago. Sydney: Academic Press.Google Scholar
Bernett Kempers, A.J. 1988. The kettledrums of Southeast Asia, a bronze world and its aftermath. Rotterdam: A.A. Balkerma.Google Scholar
Best, S. 1987. Long distance obsidian travel and possible implications for the settlement of Fiji, Archaeology in Oceania 22(1): 312.Google Scholar
Bowman, G. & Harvey, N.. 1983. Radiocarbon dating marine shells in South Australia, Australian Archaeology 17: 11323.Google Scholar
Dana, E.S. & Ford, W.E.. 1957. A textbook of mineralogy. 4th edition. New York: John Wiley.Google Scholar
De Bruyn, J.V. 1959. New archaeolgical finds at Lake Sentani, Nieuw-Guinea Studiën 3: 18.Google Scholar
Elmberg, J.E. 1959. Further notes of the Norther Mejbrats (Vogelkop, Western New Guinea), Ethnos 24: 7080.Google Scholar
Gillespie, R. & Temple, R.B.. 1977. Radiocarbon dating of shell middens, Archaeology and Physical Anthropology in Oceania 12(1): 2637.Google Scholar
Gillespie, R. & Polach, H.A.. 1979. The suitability of marine shells for radiocarbon dating of Australian prehistory, in Berger, R. & Suess, H. (ed.), Proceedings Ninth International Conference on Radiocarbon Dating: 40421. Los Angeles: University of California Press.Google Scholar
Glover, 1.1986. Archaeology in Eastern Timor, 1966–67. Canberra: Department of Prehistory (RSPacS), Australian National University. Terra Australis 11.Google Scholar
Golson, J. 1972. Both sides of the Wallace Line: New Guinea, Australia, island Melanesia and Asian prehistory, in Barnard 1972: 53395.Google Scholar
Head, J., Jones, R. & Allen, J.. 1983. Calculation of the ’marine reservoir effect’ from the dating of shell-charcoal paired samples from an Aboriginal midden on Great Glennie Island, Bass Strait, Australian Archaeology 17: 99112.CrossRefGoogle Scholar
Johnson, R.W. & Smith, I.E.. 1974. Volcanoes and rocks of St Andrew Strait, Papua New Guinea, Journal of the Geological Society of Australia 21(3): 33352.CrossRefGoogle Scholar
Kennedy, J. 1983. On the prehistory of Western Melanesia: the significance of new data from the Admiralties, Australian Archaeology 16: 11522.CrossRefGoogle Scholar
McKeer, R., Dunne, D., Kennon, N. & Barnard, N.. 1987. Free copper particles in archaeological bronze artefacts, in Ambrose, W.R. & Mummery, J.M.J. (ed.), Archaeometry, further Australasian studies: 32030. Canberra: Australian National University-Australian National Gallery.Google Scholar
Pain, C. 1981. Stratigraphy and chronology of volcanicash beds on Lou Island, in Johnson, R.W. (ed.), Cooke-Ravian volume of volcanological papers: 22125. Port Moresby: Geological Survey of Papua New Guinea.Google Scholar
Polach, H.A. 1976. Radiocarbon dating as a research tool in archaeology – hopes and limitations, in Barnard, N. (ed.), Ancient Chinese bronzes and South East Asian and other metal artifacts: 25598. Melbourne: National Gallery of Victoria.Google Scholar
Reynolds, M.A. & Best, J.G.. 1976. Summary of the 1953–57 eruption of Tuluman volcano, Papua New Guinea, in Johnson, R.W. (ed.), Volcanism in Australasia: 28796. Amsterdam: Elsevier.Google Scholar
Smith, C.S. 1965. The interpretation of microstructures of metallic artifacts, in Application of science in examination of works of art: 2052. Boston (MA): Museum of Fine Arts.Google Scholar
Solheim, W., II. 1979. Irian Jaya origins, Australian Natural History 19 (10): 3247.Google Scholar
Spenneman, D.H.R. 1985. Einige Bemerkungen zum Don-So’n Schiff vom Berg Dobo auf Flores, Indonesien, Tribus 34: 14580.Google Scholar
Stuiver, M. & Becker, B.. 1986. High-precision decadal calibration of the radiocarbon time scale, A.D. 1950–2500 B.C., Radiocarbon 28 (2B): 863910.CrossRefGoogle Scholar
Stuiver, M. & Pearson, G.W.. 1986. High precision calibration of the radiocarbon timescale, AD 1950–500 BC, Radiocarbon 28(2B): 80538.Google Scholar
Stuiver, M., Pearson, G.W. & Braziunas, T.. 1986. Radiocarbon age calibration of marine samples back to 9000 cal yr Bp, Radiocarbon 28(2B): 9801021.CrossRefGoogle Scholar