Ecology and Evolutionary Biology

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How Australian Aborigines Shaped and Maintained Fire Regimes and the Biota

Received: 22 October 2020    Accepted: 12 November 2020    Published: 23 November 2020
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Abstract

People proliferated across Australia, which was then a part of Sahul, from about 40 000 years ago when megafauna finally disappeared long before the Last Glacial Maximum. The so called ‘blitzkrieg’ hypothesis proposes that megafauna were extinguished by Aboriginal hunting. It is argued, either that there were some changes in vegetation and fire regimes as a consequence, or that fire regimes and vegetation were largely unaffected by human arrival. However, there is an alternative view that Aboriginal burning changed the vegetation so that megafauna had insufficient food resources to sustain them. We aimed to resolve this debate by examining the published palaeological and historical evidence. This evidence indicates that Aboriginal burning initially turned much biomass into charcoal, reducing browse, changing vegetation and causing megafaunal extinctions. It created ecosystems whose health and safety depend on constant human input of mild fire. Mild burning of these anthropogenic landscapes consumes relatively little biomass and produces relatively little charcoal. Although burning by people has typically been regarded as an ecological disturbance, the historical evidence, together with traditional Aboriginal knowledge, suggests that it is actually maintenance, essential to sustain our natural environment. We conclude that people can reinstate resilient, healthy and safe landscapes irrespective of climate change.

DOI 10.11648/j.eeb.20200504.17
Published in Ecology and Evolutionary Biology (Volume 5, Issue 4, December 2020)
Page(s) 164-172
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Aborigines, Australia, Climate Change, Fire Regimes, Megafauna

References
[1] Horton, D. R. (1982) The burning question: Aborigines, fire and Australian ecosystems. Mankind 13 (3), 237-251
[2] Egloff, B. (2017) Lightning strikes: rethinking the nexus between Australian indigenous land management and natural forces. Australian Forestry 80, 275-85.
[3] Wroe, S, Field, J. H., Archer, M., Grayson, D. K., Price, G. J., Louys, J., Faith, J. T., Webb, G. E., Davidson, I., Mooney, S. D. (2013) Climate change frames debate over the extinction of megafauna in Sahul (Pleistocene Australia-New Guinea). PNAS 110 (22), 8777–8781. doi: 10.1073/pnas.1302698110.
[4] Hocknull, S. A., Lewis, R., Arnold, L. J., Pietsch, T., Joannes-Boyau, R., Price, G. J., Moss, P., Wood, R. et al. (2020) Extinction of eastern Sahul megafauna coincides with sustained environmental deterioration. Nature Communications 11: 2250 doi. org/10.1038/s41467-020-15785-w.
[5] Steffensen, V. (2020) Fire Country. How indigenous fire management could help save Australia. Hardie Grant Travel, Melbourne.
[6] Hallam, S. J. (1975). Fire and hearth: a study of Aboriginal usage and European usurpation in south-west Australia. Australian Institute of Aboriginal Studies, Canberra.
[7] Hallam, S. J. (2002). Peopled landscapes in Southwestern Australia in the early 1800s: Aboriginal burning off in the light of Western Australian historical documents. Journal of the Royal Western Australian Historical Society 2, 177-191.
[8] Gott B. (2005). Aboriginal fire management in south-eastern Australia.: aims and frequency. Journal of Biogeography 32, 1203-1208.
[9] Burrows, N. D., Burbidge, A. A., Fuller, P. J. and G. Behn. (2006) Evidence of altered fire regimes in the Western Desert region of Australia. Conservation Science Western Australia 5, 272-284.
[10] Gammage, B. (2011) The Biggest Estate on Earth: How Aborigines Made Australia. Sydney: Allen & Unwin.
[11] Mitchell, T. L. (1848). Journal of an expedition into the interior of tropical Australia in search of a route from Sydney to the Gulf of Carpentaria. London: Longman, Brown, Green and Longmans. Facsimile edition 2007. Ridgehaven, South Australia: Archive CD Books Australia.
[12] Howitt, A. W. (1891) The eucalypts of Gippsland. Transactions of the Royal Society of Victoria II, 81-120.
[13] Jurskis, V. (2015) Firestick ecology: fairdinkum science in plain English. Australia: Connor Court.
[14] Fletcher, M. S., Hall, T., Alexandra, A. N. (2020) The loss of an indigenous constructed landscape following British invasion of Australia: An insight into the deep human imprint on the Australian landscape. Ambio https://doi.org/10.1007/s13280-020-01339-3.
[15] Bowman, D. M. J. S. (1998) Tansley review No. 101: The impact of Aboriginal landscape burning on the Australian biota. New Phytologist 140, 385–410.
[16] Prideaux, G. J., G. A. Gully and A. M. C. Couzens, et al. (2010) Timing and dynamics of Late Pleistocene mammal extinctions in southwestern Australia. PNAS 107, 22157-22162.
[17] Flannery, T. F. (2012) After the future: Australia’s new extinction crisis. Quarterly Essay 48, 1-80.
[18] Johnson, C. N. (2016) Fire, people and ecosystem change in Pleistocene Australia. Australian Journal of Botany 64, 643-651.
[19] Van der Kaars, S., Miller, G. H., Turney, C. S. M., Cook, E. J., Nurnberg, D., Schonfeld, J., Kershaw, A. P., Lehman, S. J. (2017) Humans rather than climate the primary cause of Pleistocene megafaunal extinction in Australia. Nature Communications. 8: 14142 DOI: 10.1038/ncomms14142|www.nature.com/naturecommunications.
[20] Singh, G., A. P. Kershaw, and R. Clark. (1981) Quaternary vegetation and fire history in Australia. In A. M. Gill, R. H. Groves, and I. R. Noble (Eds.) Fire and the Australian biota,. Canberra: Australian Academy of Science, pp. 23-54.
[21] Kershaw, A. P., J. S. Clark, A. M. Gill and D. M. D’Costa (2002) A history of fire in Australia. In: R. A. Bradstock, J. E. Williams, A. M. Gill (Eds.) Flammable Australia: the Fire Regimes and Biodiversity of a Continent, Cambridge: Cambridge University Press, pp3-25.
[22] Kershaw, P., S. Van Der Kaars, P. Moss, et al. (2006) Environmental change and the arrival of people in the Australian Region. Before Farming: The Archaeology and Anthropology of Hunter-Gatherers 2006 (1) Article 2.
[23] Mooney, S. D., S. P. Harrison, P. J. Bartlein, et al. (2011) Late quaternary fire regimes of Australia. Quaternary Science Review 30, 28−46. doi: 10.1016/j.quascirev.2010.10.010.
[24] Flannery, T. F. (1994) The Future Eaters. Sydney: Reed New Holland.
[25] Turney C. S. M., T. F. Flannery, R. G. Roberts, et al. (2008) Late-surviving megafauna in Tasmania, Australia, implicate human involvement in their extinction. PNAS 105 (34), 12150-12153.
[26] Wroe, S. Field, J., Fullagar, R., Jermiin, L. S. (2004) Megafaunal extinction in the Late Quaternary and the global overkill hypothesis. Alcheringa, 28: 1, 291-331, DOI: 10.1080/03115510408619286.
[27] Cohen, T. J., J. D. Jansen and L. A. Gliganic et al. (2015) Hydrological transformation coincided with megafaunal extinction in central Australia. Geology 43 (3), 195-198.
[28] Rule, S., B. W. Brook, S. G. Haberle, C. S. M. Turney, A. P. Kershaw, and C. N. Johnson (2012) The Aftermath of Megafaunal Extinction: Ecosystem transformation in Pleistocene Australia. Science 335, 1483-1486.
[29] Clarkson, C., Z. Jacobs, B. Marwick, R. Fullagar, L. Wallis, M. Smith, R. G. Roberts, E. Hayes, et al. (2017). Human occupation of northern Australia by 65,000 years ago. Nature 547, 306.
[30] Jackson, W. D. (1999) The Tasmanian legacy of man and fire. Papers and Proceedings of the Royal Society of Tasmania 133 (1), 1-14.
[31] McIntosh, P. D., M. D. Laffan, and A. E. Hewitt (2005) The role of fire and nutrient loss in the genesis of the forest soils of Tasmania and southern New Zealand. Forest Ecology and Management 220, 185-215.
[32] Oxley, J. J. W. M. (1820) Journals of Two Expeditions into the Interior of New South Wales Undertaken by Order of the British Government in the years 1817-18. John Murray/University of Sydney Library, London/Sydney, Etext 2002.
[33] Chen, Y. (1986) Early Holocene vegetation dynamics of Lake Barrine Basin Northeast Queensland Australia. Thesis submitted for the degree of Doctor of Philosophy at the Australian National University, October 1986.
[34] Miller, G. H., J. W. Magee, M. Smith, et al. (2016) Human predation contributed to the extinction of the Australian megafaunal bird Genyornis newtoni ~47ka. Nature Communications 7: 10496. doi: 10.1038/ncomms10496.
[35] Miller, G. H., M. L. Fogel, J. W. Magee, M. K. Gagan, S. J. Clarke and B. J. Johnson (2005) Ecosystem collapse in Pleistocene Australia and a human role in megafaunal extinction. Science 309, 287-290.
[36] Flinders, M. (1814) A voyage to Terra Australis; undertaken for the purpose of completing the discovery of that vast country, and prosecuted in the years 1801, 1802, and 1803, in His Maj¬esty’s ship the Investigator, and subsequently in the armed vessel Porpoise and Cumberland schooner. With an account of the shipwreck of the Porpoise, arrival of the Cumberland at Mauritius and imprisonment of the commander during six years and a half in that island. Pall-Mall: G. and W. Nicol, Facsimile edition, 1966. Project Gutenberg Australia Ebook. . Accessed 16 Jun 2013.
[37] Flood, J. (2006) The Original Australians: story of the Aboriginal people. Crows Nest: Allen & Unwin.
[38] Strzelecki, P. E. (1845) Physical Description of New South Wales and Van Dieman’s Land, accompanied by a Geological Map, Sections and Diagrams, and Figures of the organic remains. Google Books. Available online: https://play.google.com/books/reader?id=ftUKAAAAIAAJ&printsec=frontcover&output=reader&hl=en&pg=GBS.PR1 (accessed 10 April 2016).
[39] Wesson, S. (2000) An historical atlas of the aborigines of eastern Victoria and far south-eastern New South Wales. Monash publications in geography and environmental science Number 53. Caulfield: Monash Print Services.
[40] Coverdale, T. J. 1920 The scrub. In (Eds.) Committee of the South Gippsland Pioneers Association, The land of the lyrebird. A story of early settlement in the great forest of South Gippsland, Melbourne: Gordon and Gotch, pp 31-47.
[41] Dodd, F. (1920) Recollections and Experiences. In: The Land of the Lyrebird. A Story of Early Settlement in the Great Forest of South Gippsland. South Gippsland Pioneers’ Association. Facsimile reproduction. Forgotten Books, London. pp. 140-8.
[42] Holmes, W. H. C. (1920) Scrub Cutting. In: The Land of the Lyrebird. A Story of Early Settlement in the Great Forest of South Gippsland. South Gippsland Pioneers’ Association. Facsimile reproduction. Forgotten Books, London. pp. 67-78.
[43] Curr, E. M. (1883) Recollections of squatting in Victoria, then called the Port Phillip District, from 1841 to 1851. Australian facsimile edition, 1968. Adelaide: Libraries Board of South Australia.
[44] Pyne, S. J. (1991) Burning bush. A fire history of Australia. Seattle: University of Washington Press.
[45] Jurskis, V., Turner, J. (2002). Eucalypt dieback in eastern Australia: a simple model. Australian Forestry 65, 81-92.
[46] Jurskis, V., Bridges, B., de Mar, P. (2003) Fire management in Australia: the lessons of 200 years. In Joint Australia and New Zealand Institute of Forestry Conference Proceedings, 27 April–1 May 2003, Queenstown, New Zealand. Eds. E. G. Mason, C. J. Perley. Ministry of Agriculture and Forestry, Wellington, New Zealand, pp. 353-68.
[47] Jurskis, V., Turner, J., Lambert, M., Bi, H. (2011) Fire and N cycling: getting the perspective right. Applied Vegetation Science 14, 433-4. doi: 10.1111/j.1654-109X.2011.01130.x.
[48] Jurskis, V. (2005) Eucalypt decline in Australia, and a general concept of tree decline and dieback. Forest Ecology and Management 215, 1-20.
[49] Jurskis, V. (2011) Human fire maintains a balance of nature. In Proceedings of Bushfire CRC & AFAC 2011 Conference Science Day, 1 September 2011, Sydney, Australia. Ed. R. P. Thornton Bushfire Cooperative Research Centre, Melbourne, Australia. pp. 129-38.
[50] Jurskis, V. (2020) The great koala scam: green propaganda, junk science, government waste & cruelty to animals. Australia: Connor Court.
[51] Turner, J., Lambert, M., Jurskis, V., Bi, H. (2008) Long term accumulation of nitrogen in soils of dry mixed eucalypt forest in the absence of fire. Forest Ecology and Management 256, 1133-42.
[52] Jurskis, V., Underwood, R. (2013) Human fires and wildfires on Sydney sandstones: History informs fire management. Fire Ecology 9 (3), 8-24.
[53] Kershaw A. P., G. M. Mackenzie, N. Porch, et al. (2007) A high-resolution record of vegetation and climate through the last glacial cycle from Caledonia Fen, southeastern highlands of Australia. Journal of Quaternary Science 22, 481–500. doi: 10.1002/jqs.1127.
[54] Burrows, N. D., B. Ward and A. D. Robinson. (1995) Jarrah forest fire history from stem analysis and anthropological evidence. Australian Forestry 58 (1), 7−16. doi: 10.1080/00049158.1995.10674636.
[55] Hollis, J. J., Anderson, W. R, McCaw, W. L, Cruz, M. G., Burrows, N. D, Ward, B., Tolhurst, K. J. and Gould, H. S. (2011) The effect of fireline intensity on woody fuel consumption in southern Australian eucalypt forest fires. Australian Forestry 74, 81-96.
[56] Calaby, J. H. (1971) Man, fauna, and climate in aboriginal Australia. In: Mulvaney, DJ; Golson, J., (Eds.) Man, fauna, and Climate in Aboriginal Australia. ANU Press, Canberra pp. 80-93.
[57] Tench, W. (1793) A complete account of the settlement at Port Jackson including an accurate de¬scription of the situation of the colony; of the natives; and of its natural productions. London: G. Nichol and J. Sewel. Available online: . Accessed 16 Jun 2013.
[58] Darwin, C. (1845) The voyage of the Beagle. http://www.gutenberg.org/cache/epub/944/pg944-images.html
[59] Lindenmayer, D., Blair, D., McBurney, L., Banks, S. (2015) Mountain Ash: fire, logging and the future of Victoria’s giant forests. CSIRO Publishing, Clayton South, Australia.
[60] Adams, M., Attiwill, P. (2011) Burning issues. Sustainability and management of Australia’s southern forests. Collingwood: CSIRO Publishing.
[61] Davey, S., Sarre, A. (2020) Editorial: the 2019/20 Black Summer bushfires. Australian Forestry, DOI: 10.1080/00049158.2020.1769899.
[62] Russell-Smith, J., G. D. Cook and P. M. Cooke, et al. (2013) Managing fire regimes in north Australian savannas: applying Aboriginal approaches to contemporary global problems. Frontiers in Ecology and Environment 11 (1), e55-e63.
[63] Kenyon, C. and I. D. Rutherfurd (1999) Preliminary evidence for pollen as an indicator of recent floodplain accumulation rates and vegetation changes: The Barmah-Millewa Forest, SE Australia. Environmental Management 24 (3), 359-367.
[64] Stanton, P., D. Stanton, M. Stott, and M. Parsons. (2014) Fire exclusion and the changing landscape of Queensland’s Wet Tropics Bioregion. Australian Forestry 77 (1), 51-68.
[65] Pople, T., Froese, J. (2012) Distribution, abundance and harvesting of feral goats in the Australian rangelands 1984-2011. State of Queensland, Department of Employment, Economic Development and Innovation, 2012.
[66] NSW Department of Primary Industries (2019) Feral deer in New South Wales. September 2019, Primefact 1678, Third edition Invasive Species Biosecurity. State of New South Wales.
[67] Van Der Kaars S. and P. De Deckker (2002) A late Quaternary pollen record from deep-sea core Fr10/95 GC17 offshore Cape Range Peninsula, northwestern Western Australia. Review of Palaeobotany and Palynology 120 (1), 17-39. doi: 10.1016/S0034-6667(02)00075-1.
[68] Flood, J. (1983) Archeology of the Dreamtime. Collins Publishers, Sydney, Australia.
Author Information
  • Independent Scholar, Eden, Australia

  • Independent Scholar, Palmyra, Australia

  • Independent Scholar, Rossmoyne, Australia

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  • APA Style

    Vic Jurskis, Roger Underwood, Neil Burrows. (2020). How Australian Aborigines Shaped and Maintained Fire Regimes and the Biota. Ecology and Evolutionary Biology, 5(4), 164-172. https://doi.org/10.11648/j.eeb.20200504.17

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    Vic Jurskis; Roger Underwood; Neil Burrows. How Australian Aborigines Shaped and Maintained Fire Regimes and the Biota. Ecol. Evol. Biol. 2020, 5(4), 164-172. doi: 10.11648/j.eeb.20200504.17

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    AMA Style

    Vic Jurskis, Roger Underwood, Neil Burrows. How Australian Aborigines Shaped and Maintained Fire Regimes and the Biota. Ecol Evol Biol. 2020;5(4):164-172. doi: 10.11648/j.eeb.20200504.17

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  • @article{10.11648/j.eeb.20200504.17,
      author = {Vic Jurskis and Roger Underwood and Neil Burrows},
      title = {How Australian Aborigines Shaped and Maintained Fire Regimes and the Biota},
      journal = {Ecology and Evolutionary Biology},
      volume = {5},
      number = {4},
      pages = {164-172},
      doi = {10.11648/j.eeb.20200504.17},
      url = {https://doi.org/10.11648/j.eeb.20200504.17},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.eeb.20200504.17},
      abstract = {People proliferated across Australia, which was then a part of Sahul, from about 40 000 years ago when megafauna finally disappeared long before the Last Glacial Maximum. The so called ‘blitzkrieg’ hypothesis proposes that megafauna were extinguished by Aboriginal hunting. It is argued, either that there were some changes in vegetation and fire regimes as a consequence, or that fire regimes and vegetation were largely unaffected by human arrival. However, there is an alternative view that Aboriginal burning changed the vegetation so that megafauna had insufficient food resources to sustain them. We aimed to resolve this debate by examining the published palaeological and historical evidence. This evidence indicates that Aboriginal burning initially turned much biomass into charcoal, reducing browse, changing vegetation and causing megafaunal extinctions. It created ecosystems whose health and safety depend on constant human input of mild fire. Mild burning of these anthropogenic landscapes consumes relatively little biomass and produces relatively little charcoal. Although burning by people has typically been regarded as an ecological disturbance, the historical evidence, together with traditional Aboriginal knowledge, suggests that it is actually maintenance, essential to sustain our natural environment. We conclude that people can reinstate resilient, healthy and safe landscapes irrespective of climate change.},
     year = {2020}
    }
    

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    T1  - How Australian Aborigines Shaped and Maintained Fire Regimes and the Biota
    AU  - Vic Jurskis
    AU  - Roger Underwood
    AU  - Neil Burrows
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    T2  - Ecology and Evolutionary Biology
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    JO  - Ecology and Evolutionary Biology
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    AB  - People proliferated across Australia, which was then a part of Sahul, from about 40 000 years ago when megafauna finally disappeared long before the Last Glacial Maximum. The so called ‘blitzkrieg’ hypothesis proposes that megafauna were extinguished by Aboriginal hunting. It is argued, either that there were some changes in vegetation and fire regimes as a consequence, or that fire regimes and vegetation were largely unaffected by human arrival. However, there is an alternative view that Aboriginal burning changed the vegetation so that megafauna had insufficient food resources to sustain them. We aimed to resolve this debate by examining the published palaeological and historical evidence. This evidence indicates that Aboriginal burning initially turned much biomass into charcoal, reducing browse, changing vegetation and causing megafaunal extinctions. It created ecosystems whose health and safety depend on constant human input of mild fire. Mild burning of these anthropogenic landscapes consumes relatively little biomass and produces relatively little charcoal. Although burning by people has typically been regarded as an ecological disturbance, the historical evidence, together with traditional Aboriginal knowledge, suggests that it is actually maintenance, essential to sustain our natural environment. We conclude that people can reinstate resilient, healthy and safe landscapes irrespective of climate change.
    VL  - 5
    IS  - 4
    ER  - 

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