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Broad spectrum diets in arid Australia

Published online by Cambridge University Press:  02 January 2015

Douglas A. Edwards  and
James F. O'Connell
Douglas A. Edwards
Affiliation:
Department of Anthropology, University of Utah, Salt Lake City UT 84112, USA
James F. O'Connell
Affiliation:
Department of Anthropology, University of Utah, Salt Lake City UT 84112, USA
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Abstract

A characteristic feature of human subsistence as the last glaciation ended was the turn towards new food sources, in a ‘broad spectrum’ transformation. Australia took an unusual course, and the trajectory in its arid zone is especially striking. What were the broad spectrum diets in arid Austalia? Why did they arise so late? Did they arise late?

Type
Research Article
Information
Antiquity , Volume 69 , Issue 265 , 1995 , pp. 769 - 783
Copyright
Copyright © Antiquity Publications Ltd. 1995

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References

Allen, H. 1972. Where the crow flies backwards: man and land in the Darling Basin. Unpublished Ph. D dissertation, Department of Prehistory, RSPacS, Australian National University, Canberra.Google Scholar
Allen, H. 1974. The Bagundji of the Darling Basin: cereal gathers in an uncertain environment, World Archaeology 5: 309–22.Google Scholar
Allen, H. 1990. Environmental history in southwestern New South Wales during the late Pleistocene, in Gamble, C. & Soffer, O. (ed.), The world at 18000 BP 2: Low latitudes: 297321. London: Unwin Hyman.Google Scholar
Balme, J. 1991. The antiquity of grinding stones in semi-arid western New South Wales, Australian Archaeology 32: 39.Google Scholar
Balme, J. 1995. 30,000 years of fishery in western New South Wales, Archaeology in Oceania (in press).Google Scholar
Beard, J.S. 1981. Vegetation of central Australia, in Jessop, J. (ed.), Flora of central Australia: 2126. Sydney: Reed.Google Scholar
Balme, J. 1984. The vegetation of the Australian arid zone, in Cogger, H.G. & Cameron, E.E. (ed.), Arid Australia: 113–17. Sydney: Australian Museum.Google Scholar
Beaton, J.M. 1977. Dangerous harvest. Unpublished Ph.D dissertation, Department of Prehistory, RSPacS, Australian National University, Canberra.Google Scholar
Beaton, J.M. 1982. Fire and water: aspects of Australian Aboriginal management of cyacads, Archaeology in Oceania 17: 5967.Google Scholar
Beaton, J.M. 1983. Comment: does intensification account for changes in the Australian Holocene archaeological record?, Archaeology in Oceania 18: 94–7.Google Scholar
Beaton, J.M. 1985. Evidence for a coastal occupation time lag at Princess Charlotte Bay (North Queensland) and implications for coastal colonization and population growth theories for Aboriginal Australia, Archaeology in Oceania 20: 120.CrossRefGoogle Scholar
Beaton, J.M. 1991. Colonizing continents: some problems from Australia and the Americas, in Dillehay, T. & Meitzer, D. (ed.), The first Americans: search and research: 209–30. Boca Raton (FL): CRC Press.Google Scholar
Bender, B. 1978. Gatherer-hunter to farmer: a social perspective, World Archaeology 10(2): 204–22.Google Scholar
Beaton, J.M. 1985. Emergent tribal formations in the American midcontinent, American Antiquity 50(1): 5262.Google Scholar
Binford, L. 1968. Post–pleistocene adaptations, in Binford, L.R. & Binford, S. (ed.), New perspectives in archaeology: 313–41. Chicago (IL): Aldine.Google Scholar
Bowdler, S. 1977. The coastal colonization of Australia, in Allen, J., Golson, J. & Jones, R. (ed.), Sunda and Sahul: prehistoric studies in Southeast Asia, Melanesia and Australia: 205–46. London: Academic Press.Google Scholar
Bowdler, S. 1981. Hunters in the highlands: aboriginal adaptations in the eastern Australian uplands, Archaeology in Oceania 16: 99111.CrossRefGoogle Scholar
Bowler, J.M. 1976. Aridity in Australia: age, origins, and expression in aeolian landforms and sediments, Earth–Science Reviews 12: 279310.Google Scholar
Bowler, J.M., Hope, G.S., Jennings, J.N., Singh, G. & Walker, D.. 1976. Late Quaternary climates of Australia and New Guinea, Quaternary Research 6: 359–94.Google Scholar
Bowler, J.M., Huanc, QI, Chen kezao, M.J. HEAD & YUAN BAOYIN. 1986. Radiocarbon dating of playa-lake hydro-logic changes: examples from northwestern China and central Australia, Paleogeography, Paleoclimatology, Paleoecology 54: 241–60.Google Scholar
Bowler, J.M. & Wasson, R.J.. 1984. Glacial age environments of inland Australia, in Vogel, (ed.): 183208.Google Scholar
Broughton, J. 1994. Late Holocene resource intensification in the Sacramento Valley, California: the vertebrate evidence, Journal of Archaeological Science 21: 501–14.CrossRefGoogle Scholar
Brown, S. 1987. Towards a prehistory of the Harnersley Plateau, Northwest Australia. Canberra: Australian National University Press. Occasional Papers in Prehistory 6Google Scholar
Cane, S. 1987. Australian Aborginal subsistence in the Western Desert, Human Ecology 15(4): 391435.Google Scholar
Cane, S. 1989. Australian Aboriginal seed grinding and its archaeological record: a case study from the Western Desert, in Harris, & Hillman, (ed.): 99119.Google Scholar
Chappell, J. 1991. Late Quaternary environmental changes in eastern and central Australia, and their climatic interpretation, Quaternary Science Reviews 10: 377–90.Google Scholar
Chappell, J.M.A. & Grindrod, A. (ed.). 1983. CLIMANZ: a symposium of results and discussions concerned with late Quaternary climatic history of Australia, New Zealand and surrounding seas. Department of Biogeography and Geomorphology, RSPacS, Australian National University, Canberra.Google Scholar
Chen, X.Y. 1989. Lake Amadeus, Central Australia: modern processes and evolution. Unpublished Ph.D dissertation, Australian National University, Canberra.Google Scholar
Chen, X.Y., Rescott, J.R. & Hutton, J.T.. 1990. Thermo–luminesence dating on gypseous dunes of Lake Amadeus, central Australia, Australian Journal of Earth Sciences 37: 92103.Google Scholar
Cleland, J.B. 1966. The ecology of the Aboriginal in south and central Australia, in Cotton, B.C. (ed.), Aboriginal man in south and central Australia: 111–58. Adelaide: Government Printer.Google Scholar
Cleland, J.B. & Johnston, T.H.. 1933. The ecology of the Aborigines of central Australia: botanical notes, Transactions of the Royal Society of South Australia 57: 113–24Google Scholar
Cleland, J.B. & Tindale, N.. 1959. The native names and uses of plants at Haast Bluff, Central Australia, Transactions of the Royal Society of South Australia 82: 123–40.Google Scholar
Cohen, M. 1977. The food crisis in prehistory. New Haven (CT): Yale University Press.Google Scholar
Davidson, I., Sutton, S.A. & Gale, S.J.. 1993. The human occupation of Cuckadoo 1 Rocksheiter, northwest central Queensland, in Smith et al. (ed.): 164–72.Google Scholar
Flannery, K.V. 1969. The origins and ecological effects of early domestication in Iran and the Near East, in Ucko, P.J. & Dimbleby, G.W. (ed.), The domestication and exploitation of plants and animals: 73100. London: Duckworth.Google Scholar
Furby, J.H., Fullegar, R., Dodson, J.R. & Prosser, I.. 1993. The Guddie Springs bone bed revisited, 1991, in Smith et al. (ed.): 204–10.Google Scholar
Gentilli, J. (ed.). 1971. Climates of Australia and New Zealand. Amsterdam: Elsevier. World Survey of Climatology 13.Google Scholar
Gorecki, P., Grant, M., O’connor, S. & Veth, P.. 1994. The morphology, function and antiquity of grinding implements in northern Australia. Unpublished manuscript.Google Scholar
Gould, R.A. 1969. Subsistence behaviour among the Western Desert Aborigines of Australia, Oceania 34(4): 253–74.Google Scholar
Gould, R.A. 1977. Puntutjarpa Rocksheiter and the Australian Desert Culture. Anthropological Papers of the American Museum of Natural History 54.Google Scholar
Gould, R.A. 1978. James Range East Rocksheiter, Northern Territory, Australia: a summary of the 1973 and 1974 investigations, Asian Perspectives 21(1): 85125.Google Scholar
Hamilton, A. 1980. Dual social systems: technology, labour and women’s secret rites in the Eastern Western Desert of Australia, Oceania 51: 419.Google Scholar
Harris, D.R., & Hillman, G.C. (ed.). 1989. Foraging and farming: the evolution of plant exploitation. London: Unwin Hyman.Google Scholar
Harrison, S.P. 1993. Late Quaternary lake-level changes and climates of Australia, Quaternary Science Reviews 12: 211–31.Google Scholar
Harrison, S.P. & Dodson, J.. 1993. Climates of Australia and New Guinea since 18,000 BP, in Wright, H.E. Jr., et al. (ed.), Global climates since the Last Glacial Maximum: 265–93. Minneapolis (MN): University of Minnesota Press.Google Scholar
Harrison, S.P., Metcalfe, S.E., Street-perrott, F.A., Pit-tock, A.R., Roberts, C.N. & Salingero, M.J.. 1984. A climatic–model of the last glacial/interglacial transition based on paleotemperature and paleohydrological evidence, in Vogel, (ed.): 2134.Google Scholar
Hawkes, K. & O’connell, J.F.. 1992. On optimal foraging models and subsistence transitions, Current Anthropology 33(1): 63–6.Google Scholar
Hawkes, K., O’connell, J.F. & Blurton jones, N.. 1991. Hunting income patterns among the Hadza: big game, common goods, foraging goals, and the evolution of the human diet, Philosophical Transactions of the Royal Society, London B 334: 243–51.Google Scholar
Hayden, B. 1981. Research and development in the Stone Age: technological transitions among hunter/gatherers, Current Anthropology 22: 519–48.Google Scholar
Hayden, B. 1990. Nimrods, piscators, pluckers and planters: the emergence of food production, Journal of Anthropological Archaeology 9: 3169.CrossRefGoogle Scholar
Henry, D. 1989. From foraging to agriculture: the Levant at the end of the last Ice Age. Philadelphia (PA): University of Pennsylvania Press.Google Scholar
Hiscock, P. 1988. Prehistoric settlement patterns and artefact manufacture at Lawn Hill, Northwest Queensland. Unpublished Ph.D dissertation, Department of Anthropol-ogy, LIniversity of Queensland.Google Scholar
Hope, J. 1993. Pleistocene archaeological sites in the central Murray-Darling Basin, in Smith, et al. (ed.): 183–96.Google Scholar
Horton, D.R. 1981. Water and woodland: the peopling of Australia, Australian Institute of Aboriginal Studies Newsletter 16: 21–7.Google Scholar
Jacobson, G., Arakel, A.V. & Vijian, C.. 1988. The central Australian groundwater discharge zone: evolution of associated calerete and gypcrete deposits, Australian Journal of Earth Sciences 35: 549–66.Google Scholar
Jacobson, G., Calf, G.E., Jankowski, J. & Mcdonald, P.S.. 1989. Groundwater chemistry and palaeocharge in the Amadeus Basin, central Australia, Journal of Hydrology 109: 237–66.Google Scholar
Jennings, J.N. 1975. Desert dunes and estuarine fill in the Fitzroy Estuary, northwestern Australia, Catena 2: 215–62.Google Scholar
Juell, K.E. 1990. Groundstone utilization, in Elston, R.G. & Budy, E.E. (ed.), The archaeology of James Creek Shelter, 247–55. Salt Lake City (UT): University of Utah. Anthropo-logical Papers 115.Google Scholar
Klmber, R.G. 1984. Resource use and management in central Australia, Australian Aboriginal Studies 2: 1223.Google Scholar
Lampert, R.J. & Hughes, R.J.. 1987. The Flinders Ranges: a Pleistocene outpost in the arid zone?, Records of the South Australia Museum 20: 2934.Google Scholar
Lampert, R.J. & Hughes, R.J.. 1988. Early human occupation of the Flinders Ranges, Records of the South Australian Museum 22(2): 139–08.Google Scholar
Latz, P.K. 1982. Bushfires and bushtucker: Aborigines and plants in central Australia, Unpublished MA thesis, Department of Prehistory, University of New England, Annidale.Google Scholar
Layton, R., Foley, R. & Williams, E.. 1991. The transition between hunting and gathering and the specialized husbandry of resources, Current Anthropology 32: 255–74.Google Scholar
Long, J.P.M. 1971. Arid region Aborigines: the Pintubi, in Mulvaney, & Golson, (ed.): 262–70.Google Scholar
Lourandos, H. 1983. Intensification: a late Pleistocone–Holocene archaeological sequence from southwest Victoria, Archaeology in Oceania 18: 8194.Google Scholar
Lourandos, H. 1985. Intensification and Australian prehistory, in Price, T.D. & Brown, J.A. (ed.), Prehistoric hunter–gatherers: the emergence of cultural complexity: 385426. New York (NY): Academic Press.Google Scholar
Mccorriston, J. & Hole, F.. 1991. The ecology of seasonal stress and the origins of agriculture in the Near East, American Anthropologist 93(1): 4669.Google Scholar
Mabbutt, J.A. 1971. The Australian arid zone as a prehistoric environment, in Mulvaney, & Golson, (ed.): 6679.Google Scholar
Martin, H.A. 1973. Palynology and historical ecology of some cave excavations in the Australian Nullarbor, Australian Journal of Botany 21: 283–16.CrossRefGoogle Scholar
Maynard, L. 1980. A Pleistocene date from an occupation deposit in the Pilbara region, Western Australia, Australian Archaeology 10: 38.Google Scholar
Meggitt, M.J. 1957. Notes on the vegetable foods of the Walbiri of central Australia, Oceania 28: 143–5.Google Scholar
Moore, A.M.T. & Hillman, G.G.. 1992. The Pleistocene to Holocene transition: the impact of the Younger Dryas, American Antiquity 57: 482–94.Google Scholar
Morse, K. 1988. Mandu Mandu Creek rockshelter: Pleistocene human coastal occupation of North West Cape, Western Australia, Archaeology in Oceania 23: 81–8.Google Scholar
Mulvaney, D.J. & Golson, J. (ed.). 1971. Aboriginal man and environment in Australia. Canberra: Australian National University Press.Google Scholar
Nix, H.A. & Kalma, J.D.. 1972. Climate as a dominant control in the biogeography of northern Australia and New Guinea, in Walker, D. (ed.), Bridge and barrier: the natural and cultural history of Torres Strait: 6992. Canberra: Australian National University.Google Scholar
O’CONNELL, J.F. & Hawkes, K.. 1981. Alyawara plant use and optimal foraging theory, in Winterhaider, B. & Smith, E. (ed.), Hunter-gatherer foraging stategies: ethnographic and archaeological analyses: 99125. Chicago (IL): University of Chicago Press.Google Scholar
O’CONNELL, J.F., Latz, P.K. & Barnett, P.. 1983. Traditional and modern plant use among the Alyawara of central Australia, Economic Botany 37: 80109.Google Scholar
O’connor, S., Veth, P. & Hubbard, N.. 1993. Changing interpretations of postglacial human subsistence and demography in Sahul, in Smith, et al. (ed.): 95105.Google Scholar
Patton, P.C., Pickup, G. & Price, D.M.. 1993. Holocene paleofloods of the Ross River, central Australia, Quaternary Research 40: 201–12.Google Scholar
Peterson, N. 1977. Aboriginal uses of Australian Solonaceae, in Hawkes, J.G., Lester, R.N. & Skedling, A.D. (ed.), Tile biology and taxonomy of the Solonaceae: 171–88. London: Linnean Society. Symposium Series 7.Google Scholar
Peterson, N. 1978. The traditional pattern of subsistence to 1974, in Hetzel, B.S. & Frith, H.J. (ed.). The nutrition of Aborigines: 2535. Melbourne: CSIRO.Google Scholar
Prentice, I.C., Guiot, J. & Harrison, S.P.. 1992. Mediterranean vegetation, lake levels and paleoclimate at the Last Glacial Maximum, Nature 360: 658–60.Google Scholar
Ross, A. 1985. Archaeological evidence for population change in the middle to late Holocene in southeastern Australia, Archaeology in Oceania 20: 81–9.Google Scholar
Ross, A., Donnelly, T. & Wasson, R.. 1992. The peopling of the arid zone: human-environment interactions, in Dodson, J. (ed.), The naive lands: prehistory and environmental change in Australia and the southwest Pacific: 76114. Melbourne: Longman Cheshire.Google Scholar
Silberbauer, G. 1971. Ecology of the Ernabella Aboriginal community, Anthropological Forum 3: 2136.CrossRefGoogle Scholar
Singh, G. & Luly, J.. 1991. Changes in vegetation and seasonal climate since the last full glacial at Lake Frome, South Australia, Palaeogeography, Palaeoclimatology, Palaeo-ecology 84: 7586.Google Scholar
Smith, M.A. 1985. A morphological comparison of central Australian seedgrinding implements and Australian Pleistocene–age grindstones, The Beagle, 2338.Google Scholar
Smith, M.A. 1986. The antiquity of seedgrinding in arid Australia, Archaeology in Oceania 21: 2939.Google Scholar
Smith, M.A. 1987. Pleistocene occupation in arid Central Australia, Nature 328: 710–11.Google Scholar
Smith, M.A. 1988. The pattern and timing of prehistoric settlement in central Australia. Unpublished Ph.D dissertation, Department of Archaeology and Paleoanthropology, University of New England, Annidale.Google Scholar
Smith, M.A. 1989a. 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. 1989b. Seed gathering in inland Australia: current evidence from seed-grinders on the antiquity of the ethnohistorical pattern of exploitation, in Harris, & Hillman, (ed.): 305–17.Google Scholar
Smith, M.A. 1993. Biogeography, human ecology and prehistory in the Sandridge Deserts, Australian Archaeology 37: 3549.Google Scholar
Smith, M.A. & Clarke, P.. 1993. Radiocarbon dates for prehistoric occupation of the Simpson desert, Records of the South Australian Museum 26: 121–27.Google Scholar
Smith, M.A., Spriggs, M. & Fankhauser, B. (ed.). 1993. Sahul in review: Pleistocene archaeology in Australia, New Guinea, and island Melanesia. Canberra: Australian National University Press.Google Scholar
Smith, M.A., Williams, E. & Wasson, R.J.. 1991. The archaeology of the JSN site: some implications for the dynamics of human occupation in the Strzelecki Desert during the late Pleistocene, Records of the South Australian Museum 25: 175–92.Google Scholar
Spencer, B. & Cillen, F.J.. 1912. Across Australia. London: MacMillan.Google Scholar
Stephens, D.W. & Krebs, J.R.. (1986). Foraging theory. Princeton (NJ): Princeton University Press.Google Scholar
Strehlow, T.G.H. 1965. Culture, social structure and environment in Aboriginal Central Australia, in Berndt, R.M. & Berndt, C.M. (ed.), Aboriginal man in Australia: essays in honour of emeritus professor A.P. Elkin: 121–45. Sydney: Angus and Robertson.Google Scholar
Sweeney, G. 1947. Food supplies of a desert tribe, Oceania 17: 289–99.Google Scholar
Thomas, D.H. 1989. Archaeology. 2nd edition. Fort Worth (TX): Holt, Rinehart and Winston.Google Scholar
Thomson, L. 1992. Australia’s sulrtropical dry zone Acacia species with human food potential, in House, A.P.N. & Harwood, C.E. (ed.), Australian dry zone acacias for human food: 336. Canberra: Australian Tree Seed Centre.Google Scholar
Tindale, N.B. 1959. Ecology of primitive aboriginal man in Australia, in Keast, A., Crocker, R.L. & Christian, C.S. (ed.), Biogeography and ecology in Australia: 3651. The Hague: W. Junk.CrossRefGoogle Scholar
Tindale, N.B. 1972. The Pitjandjara, in Bicchieri, M.G. (ed.), Hunter gatherers today: 217–68. New York (NY): Holt, Rinehart and Winston.Google Scholar
Tindale, N.B. 1977. Adaptive significance of the Panara or grass seed culture of Australia, in Wright, R.V.S. (ed.), Stone tools as cultural markers: 345–49. Canberra: Australian Institute of Aboriginal Studies.Google Scholar
Veth, P.M. 1987. Martu prehistory: variation in arid zone adaptations, Australian Archaeology 25: 102–11.Google Scholar
Veth, P.M. 1989. Islands in the interior: a model for the colonization of Australia’s arid zone, Archaeology in Oceania 24: 8192.Google Scholar
Veth, P.M. 1993. Islands of the interior: the dynamics of prehistoric adaptations within the arid zone of Australia. Ann Arbor (MI): International Monographs in Prehistory.Google Scholar
Veth, P.M. 1994. Marginal returns and fringe benefits: characterizing the prehistory of the lowland deserts of Australia (a reply to Smith). Unpublished manuscript.Google Scholar
Veth, P., Hamm, G. & Lampert, R.J.. 1990. The archaeological significance of the lower Cooper Creek, Records of the South Australian Museum 24: 4366.Google Scholar
Veth, P. & Walsh, F.J.. 1988. The concept of ‘staple’ plant foods in the Western Desert region of Western Australia, Australian Aboriginal Studies 2: 1925.Google Scholar
Vocel, J.C. (ed.). 1984. Late Cainozoic palaeoclimates of the Southern Hemisphere. Rotterdam: A.A. Balkema.Google Scholar
Walsh, F.J. 1987. The influence of the spatial and temporal distribution of plant food resources on traditional Martujarra subsistence strategies, Australian Archaeology 25: 88–01.CrossRefGoogle Scholar
Wasson, R.J. 1983. The Cainozoic history of the Strzelecki and Simpson dunefields (Australia), and the origin of the desert dunes, Zeitschrift für Geomorphologie, N.F. Supplement 45: 85115.Google Scholar
Wasson, R.J. 1984. Late Quaternary palaeoenvironments in the desert dunefields of Australia, in Vogel, (ed.): 419–32.Google Scholar
Wasson, R.J. 1989. Desert dune building, dust raising and palaeoclimate in the Southern hemisphere during the last 280,000 years, in Donnelly, T. & Wasson, R. (ed.), Late Quaternary climatic history of Australasia: 123–37. Canberra: CSIRO.Google Scholar
Webster, P.J. & Streten, N.A.. 1978. Late Quaternary ice age climates of tropical Australasia: interpretations and reconstructions, Quaternary Research 10: 279309.Google Scholar
Williams, E. 1987. Complex hunter-gatherers: a view from Australia, Antiquity 61: 310–21.Google Scholar
Williams, E. 1988. The archaeology of the Cooper Basin: report on field-work, Records of the South Australian Museum 22(1): 5362.Google Scholar
Wright, K. 1994. Ground-stone tools and hunter-gatherer subsistence in Southwest Asia: implications for the transition to farming, American Antiquity 52(2): 238&63.CrossRefGoogle Scholar
Wright, R.V.S. (ed.). 1971. Archaeology of the Gallus site, Koonalda Cave. Canberra: Australian Institute of Aboriginal Studies.Google Scholar