Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-29T00:17:30.488Z Has data issue: false hasContentIssue false

The Changing Provenance of Red Ochre at Puritjarra Rock Shelter, Central Australia: Late Pleistocene to Present

Published online by Cambridge University Press:  18 February 2014

M. A. Smith
Affiliation:
People and Environment section, National Museum of Australia, GPO Box 1901, Canberra ACT 2601, Australia. Email address: [email protected]
B. Fankhauser
Affiliation:
Division of Archaeology and Natural History, Research School of Pacific and Asian Studies, The Australian National University, Canberra ACT 0200, Australia
M. Jercher
Affiliation:
Anger Strasse 27, 40593, Oüsseldorf, Germany

Abstract

In this paper we apply geochemical sourcing methods to an assemblage of ochre from archaeological excavations at the Puritjarra rock shelter in western central Australia. Our work indicates that the red ochre in Late Pleistocene contexts at this rock shelter is from Karrku, a subterranean ochre mine still worked today by Walbiri people. Archaeological finds at Puritjarra indicate that exploitation of this source of high-grade red ochre had begun by 32,000 BP and has continued without significant interruption since then. Changes since the Late Pleistocene in the type and quantity of red ochre reaching the Puritjarra shelter, from various sources including Karrku, provide means to test current models of regional prehistory in this part of arid Australia and illustrate some of the potential of this approach for regional studies.

Résumé

Dans cet article les auteurs employent les méthodes géochimiques d'identification de source sur un assemblage d'ocre provenant des fouilles archéologiques à l'abri-sous-roche à Puritjarra dans l'ouest de l'Australie centrale. Le travail indique que l'ocre rouge dans les contextes du pléistocène tardif à cet abri-sous-roche provient de Karrku, une mine souterraine d'ocre qui est encore aujourd'hui exploitée par la race des Walbiri. Des découvertes archéologiques à Puritjarra indiquent que l'exploitation de cette source d'ocre de première qualité avait été commencée au plus tard 32 000 av. J.C. et continue sans interruption signifiante depuis ce temps. Des changements depuis le pléistocène tardif en ce qui concerne le type et la quantité de l'ocre rouge qui parvenait à l'abri, de divers origines, y inclus Karrku, fournissent les moyens de mettre les modèles courants de la préhistoire régionale à l'épreuve dans cette partie de l'Australie aride et servent à titre d'exemple du potentiel de cette démarche pour les études régionales.

Zusammenfassung

Dieses Referat erklärt die von den Autoren angewendeten geochemischen Quellenmethoden an Assemblagen des Ockers bei archäologischen Ausgrabungen bei dem Puritjarra - Felsenschuppen in Westzentralaustralien. Diese Arbeit weist darauf hin, dass der Eisenocker bei diesem Felsenschuppen im Rahmen des spät-pleistozänen Zeitalters von Karrku ist, ein unterirdisches Ockerbergwerk, welches noch heute vom Walbiri Stamm bearbeitet wird. Archäologische Funde bei Puritjarra lassen annehmen, dass die Ausbeutung der Fundgrube mit hochwertigem Eisenocker um 32000 v. Chr. begann und seitdem ohne irgend eine bedeutende Unterbrechung so weitergeführt wurde. Veränderungen, die seit dem spät-Pleistozänen Zeitalter bezüglich der Art und Menge des Eisenockers, vorkamen und die von den verschiedenen Fundstellen und auch von Karrku den Puritjarra - Schuppen erreichten, liefern Mittel mit deren Hilfe die aktuellen Modelle der regionalen Vorgeschichte in diesem trockenem Teil Australiens und manches Potential dieser Methoden der regionalen Studien geprüft und illustriert werden können.

Résumen

En este artículo los autores aplican métodos geoquímicos para la determinación de procedencia a una colección de ocre de las excavaciones arqueológicas en el Puritjarra Rock Shelter, Australia centro-occidental. El trabajo de investigación indica que el ocre rojo de los niveles del Pleistoceno Tardío en este yacimiento proviene de Karrku, una mina de ocre subterranea todavía en uso hoy en dia por el pueblo Walbiri. Hallazgos arqueológicos en Puritjarra indican que la explotación de esta fuente de ocre de alta calidad había comenzado ya hacia el año 32,000 a.C., y que ha continuado sin interrupciones de importancia desde entonces. Los cambios desde el Pleistoceno Tardío en el tipo y cantidad de ocre que llegaba a Puritjarra desde varias fuentes que incluyen Karrku, sirven para comprobar los actuales modelos interpretativos de la prehistoria de la región en esta parte de la Australia árida, demostrando el potencial de este enfoque para estudios regionales.

Type
Research Article
Copyright
Copyright © The Prehistoric Society 1998

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

Akerman, K. & Stanton, J. 1994. Riji and Jakoli: Kimberley pearlshell in Aboriginal Australia. Darwin: Northern Territory Museum of Arts & Sciences.Google Scholar
Binns, R.A. & McBryde, I. 1972. A Petrological Analysis of Ground-edge Artefacts from Northern New South Wales. Canberra: Australian Institute of Aboriginal Studies.Google Scholar
Birdsell, J.B. 1993. Microevolutionary Patterns in Aboriginal Australia: a gradient analysis of clines. Oxford: University Press.Google Scholar
Bowdery, D.E. 1995. Phytolith Analysis applied to Archaeological sites in the Australian arid zone. Unpublished PhD thesis. Canberra: Australian National University.Google Scholar
Bowdler, S. 1977. The coastal colonisation of Australia. In Allen, J., Golson, J. & Jones, R. (eds), Sunda and Sahul: Prehistoric studies in Southeast Asia, Melanesia and Australia, 205–46. London: Academic Press.Google Scholar
Bowdler, S. 1990a. Peopling Australasia: The ‘coastal colonisation’ hypothesis reconsidered. In Mellars, P. (ed.), The Emergence of Modern Humans: An archaeological perspective, 327–43. Edinburgh: University Press.Google Scholar
Bowdler, S. 1990b. The Silver Dollar site, Shark Bay: an interim report. Australian Aboriginal Studies 1990/2, 60–3.Google Scholar
Bowler, J.M. & Thorne, A.G. 1976. Human remains from Lake Mungo: discovery and excavation of Lake Mungo III. In Kirk, R.L. & Thorne, A.G. (eds), The Origin of the Australians, 127–38. Canberra: Australian Institute of Aboriginal Studies.Google Scholar
Butzer, K.W. 1982. Archaeology as Human Ecology: method and theory for a contextual approach. Cambridge: University Press.CrossRefGoogle Scholar
Cane, S. 1984. Desert Camps: a case study of stone artefacts and Aboriginal behaviour in the Western Desert. Unpublished PhD thesis. Canberra: Australian National University.Google Scholar
Cane, S. 1987. Australian Aboriginal subsistence in the Western desert. Human Ecology 15, 391434.CrossRefGoogle Scholar
Cane, S. 1995. Nullarbor Antiquity: archaeological, luminescent and seismic investigations on the Nullarbor Plain. Report to the National Estate Grants Program, Australian Heritage Commission, Canberra.Google Scholar
Clarke, J. 1976. Two Aboriginal rock art pigments from Western Australia: Their properties, use and durability. Studies in Conservation 21, 134–42.Google Scholar
Cosgrove, R. 1995. The Illusion of Riches: scale, resolution and explanation in Tasmanian Pleistocene human behaviour. Oxford: British Archaeological Report S608.CrossRefGoogle Scholar
Dart, R.A. & Beaumont, P. 1967. Amazing antiquity of mining in southern Africa. Nature 216, 407–8.CrossRefGoogle Scholar
Dart, R.A. & Beaumont, P. 1971. On a further radiocarbon date for ancient mining in southern Africa. South African Journal of Science 67, 1011.Google Scholar
David, B., Clayton, E. & Watchman, A. 1993. Initial results of PIXE analysis of Northern Territory ochres. Australian Archaeology 36, 50–7.CrossRefGoogle Scholar
David, B., Watchman, A., Goodall, R. & Clayton, E. 1995. The Maytown ochre source. Memoirs of the Queensland Museum 38, 441–5.Google Scholar
Deer, W.A., Howie, R.A. & Zussman, J. 1992. An Introduction to the Rock-Forming Minerals. (2nd edn). Harlow: Longman.Google Scholar
Dorn, R. 1997. Uncertainties in 14C ages for petroglyphs from the Olary province, South Australia. Archaeology in Oceania 32, 214–5.CrossRefGoogle Scholar
Dorn, R.I. & Nobbs, M. 1992. Further support for the antiquity of South Australian rock engravings. Australian Aboriginal Studies 1992/1, 5660.Google Scholar
Dorn, R. I., Nobbs, M. & Cahill, T.A. 1988. Cation-ratio dating of rock-engravings from the Olary Province of arid South Australia. Antiquity 62, 681–9.CrossRefGoogle Scholar
Ford, B., MacLeod, I. & Haydock, P. 1994. Rock art pigments from Kimberley region of Western Australia: Identification of the minerals and conversion mechanisms. Studies in Conservation 39, 5769.CrossRefGoogle Scholar
Fullagar, R. & Field, J.H. 1997. Pleistocene seed-grinding implements from the Australian arid zone. Antiquity 71, 300–7.CrossRefGoogle Scholar
Furby, J.H. 1995. Megafauna under the Microscope: Archaeology & Palaeoenvironment at Cuddie Springs. Unpublished PhD thesis. Sydney: University of New South Wales.Google Scholar
Goodall, R., David, B. & Bartley, J. 1996. Non-destructive techniques for the analysis and characterisation of pigments from archaeological sites: the case of Fern Cave. In Ulm, S.Lilley, I. & Ross, A. (eds), Australian Archaeology '95: Proceedings of the 1995 Australian Archaeological Association Annual Conference, 183–7. St Lucia, Brisbane: University of Queensland.Google Scholar
Gould, R.A. 1977. Puntutjarpa rockshelter and the Australian Desert Culture. Anthropological Papers of the American Museum of Natural History 54, 1187.Google Scholar
Griffin, G.F. & Friedel, M. H. 1985. Discontinuous change in central Australia: some implications of major ecological events for land management. Journal of Arid Environments 9, 6380.CrossRefGoogle Scholar
Gunn, R.G. 1995. Regional patterning in the Aboriginal rock art of Central Australia: a preliminary report. Rock Art Research 12, 117–28.Google Scholar
Jercher, M., Pring, A., Jones, P. G. & Raven, M.D. in press. Rietveld x-ray diffraction and x-ray fluorescence analysis of Australian Aboriginal ochres. Archaeometry 41.Google Scholar
Jones, P. 1984a. Red ochre expeditions: An ethnographic and historical analysis of Aboriginal trade in the Lake Eyre basin: A progress report — Part 1. Journal of the Anthropological Society of South Australia 22, 310.Google Scholar
Jones, P. 1984b. Red ochre expeditions: An ethnographic and historical analysis of Aboriginal trade in the Lake Eyre basin: A progress report — Part 2. Journal of the Anthropological Society of South Australia 22, 1019.Google Scholar
Jones, R. 1987. Pleistocene life in the Dead Heart of Australia. Nature 328, 666.CrossRefGoogle Scholar
Layton, R. 1992. Australian Rock Art: A new synthesis. Melbourne: Cambridge University Press.Google Scholar
Long, J.P.M. 1971. Arid Region Aborigines: the Pintupi. In Mulvaney, D. J. & Golson, J. (eds), Aboriginal Man and Environment in Australia, 262–70. Canberra: Australian National University Press.Google Scholar
Martin, H.A. 1973. Palynology and historical ecology of some cave excavations in the Australian Nullarbor. Australian Journal of Botany 21, 283316.CrossRefGoogle Scholar
Maynard, L. 1980. A Pleistocene date from an occupation deposit in the Pilbara region, Western Australia. Australian Archaeology 10, 38.CrossRefGoogle Scholar
McBryde, I. 1987. Goods from another country: exchange networks and the people of the Lake Eyre basin. In Mulvaney, D.J., & White, J.P. (eds), Australians to 1788, 253–73. Broadway (New South Wales): Fairfax, Syme & Weldon Associates.Google Scholar
McConvell, P. 1996. Backtracking to Babel: the chronology of Pama-Nyungan expansion in Australia. Archaeology in Oceania 31, 125–44.CrossRefGoogle Scholar
Morse, K. 1993. New radiocarbon dates from North West Cape, Western Australia: a preliminary report. In Smith, M.A., Spriggs, M. & Fankhauser, B. (eds), Sahul in Review: Pleistocene Archaeology in Australia, New Guinea and Island Melanesia, 155–63. Canberra: Australian National University Occasional Papers in Prehistory 24.Google Scholar
Mulvaney, D.J. 1976. ‘The chain of connection’: the material evidence. In Peterson, N. (ed.), Tribes and Boundaries in Australia, 7294. Canberra: Australian Institute of Aboriginal Studies.Google Scholar
Myers, F.R. 1986. Pintupi Country, Pintupi Self: Sentiment, Place, and Politics among Western Desert Aborigines. Washington: Smithsonian Institution Press.Google Scholar
O'Connor, S., Veth, P. & Hubbard, N. 1993. Changing interpretations of postglacial human subsistence and demography in Sahul. In Smith, M.A., Spriggs, M. & Fankhauser, B. (eds), Sahul in Review: Pleistocene Archaeology in Australia, New Guinea and Island Melanesia, 95105. Canberra: Australian National University.Google Scholar
O'Connor, S., Veth, P. & Campbell, C. in press. Serpent's Glen shelter: A Pleistocene archaeological sequence from the Western Desert, Western Australia. Archaeology in Oceania.Google Scholar
Peterson, N. & Lampert, R. 1985. A Central Australian ochre mine. Records of the Australian Museum 37, 19.CrossRefGoogle Scholar
Roberts, R.G., Jones, R. & Smith, M.A. 1990. Thermoluminescence dating of a 50,000-year-old human occupation site in northern Australia. Nature 345, 153–6.CrossRefGoogle Scholar
Roberts, R. G., Jones, R., Spooner, N.A., Head, M.J., Murray, A.S. & Smith, M.A. 1994. The human colonisation of Australia: Optical dates of 53,000 and 60,000 years bracket human arrival at Deaf Adder Gorge, Northern Territory. Quaternary Geochronology (Quaternary Science Reviews) 13, 575–83.CrossRefGoogle Scholar
Smith, M.A. 1987. Pleistocene occupation in arid Central Australia. Nature 328, 710–11.CrossRefGoogle Scholar
Smith, M.A. 1988. The Pattern and Timing of Prehistoric Settlement in Central Australia. Unpublished PhD thesis. Armidale (NSW): University of New England.Google Scholar
Smith, M.A. 1989. The case for a resident human population in the Central Australian Ranges during full glacial aridity. Archaeology in Oceania 24, 93105.CrossRefGoogle Scholar
Smith, M.A. 1993. Biogeography, human ecology and prehistory in the sandridge deserts. Australian Archaeology 37, 3550.CrossRefGoogle Scholar
Smith, M.A. 1996. Prehistory and human ecology in central Australia: an archaeological perspective. In Morton, S.R. & Mulvaney, D.J. (eds), Exploring Central Australia: Society, the Environment and the 1894 Horn Expedition, 6173. Chipping Norton: Surrey Beatty & Sons.Google Scholar
Smith, M.A. & Cundy, B.J. 1985. Distribution maps for flaked stone points and backed blades in the Northern Territory. Australian Aboriginal Studies 1985/2, 32–7.Google Scholar
Smith, M.A., & Fankhauser, B. 1996. An Archaeological Perspective on the geochemistry of Australian Red Ochre Deposits: prospects for fingerprinting major sources. Report to the Australian Institute of Aboriginal and Torres Strait Islander Studies, Canberra.Google Scholar
Smith, M.A. & Pell, S. 1997. Oxygen-isotope ratios in quartz as indicators of the provenance of archaeological ochres, Journal of Archaeological Science 24, 773–8.CrossRefGoogle Scholar
Smith, M.A., Prescott, J.R. & Head, M.J. 1997. Comparison of 14C and luminescence chronologies at Puritjarra rock shelter, Central Australia. Quaternary Geochronology (Quaternary Science Reviews) 16, 122.CrossRefGoogle Scholar
Smith, M.A. & Rosenfeld, A. 1992. Archaeological Sites in Watarrka National Park: the northern sector of the plateau. Report to the Conservation Commission of the Northern Territory, Alice Springs.Google Scholar
Smith, M.A., Vellen, L. & Pask, J. 1995. Vegetation history from archaeological charcoals in central Australia: The late Quaternary record from Puritjarra rock shelter. Vegetation History and Archaeobotany 4, 171–7.CrossRefGoogle Scholar
Stafford Smith, D.M. & Morton, S.R. 1990. A framework for the ecology of arid Australia. Journal of Arid Environments 18, 255–78.CrossRefGoogle Scholar
Thorley, P.B. 1998. Pleistocene settlement in the Australian arid zone: occupation of an inland riverine landscape in the central Australian ranges. Antiquity 72, 3445.CrossRefGoogle Scholar
Thomson, D.F. 1977. Bindibu Country Melbourne: Thomas Nelson.Google Scholar
Tonkinson, R. 1978. The Mardudjara Aborigines: living the Dream in Australia's desert. New York: Holt, Rinehart & Winston.Google Scholar
Veth, P. 1989. Islands in the interior: a model for the colonization of Australia's arid zone. Archaeology in Oceania 24, 8192.CrossRefGoogle Scholar
Veth, P. M. 1993. Islands in the Interior: the dynamics of prehistoric adaptations within the arid zone of Australia. Ann Arbor, Michigan: International Monographs in Prehistory. Archaeology Series 3.Google Scholar
Veth, P. 1995. Marginal returns and fringe benefits: characterising the prehistory of the lowland deserts of Australia (a reply to Smith). Australian Archaeology 40, 32–8.CrossRefGoogle Scholar
Walshe, K.A. 1994. A Taphonomic Analysis of the Vertebrate Material from Allen's Cave: implications for Australian arid zone archaeology. Unpublished PhD thesis. Canberra: Australian National University.Google Scholar
Weinstein-Evron, M. & Ilani, S. 1994. Provenance of ochre in the Natufian layers of el-Wad Cave, Mount Carmel, Israel. Journal of Archaeological Science 21, 461–7.CrossRefGoogle Scholar
Wright, R.V.S. (ed.) 1971. Archaeology of the Gallus Site, Koonalda Cave. Canberra: Australian Institute of Aboriginal Studies. Australian Aboriginal Studies 26.Google Scholar
Wright, R.V.S. 1992. Doing Multivariate archaeology and prehistory: Handling large data sets with MV-ARCH. (2nd edn). Sydney: MV-ARCH.Google Scholar
Yengoyan, A.A. 1968. Demographic and ecological influences on Aboriginal Australian marriage sections. In Lee, R.B. & DeVore, I. (eds), Man the Hunter 185–99. Chicago: Aldine.Google Scholar