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RESEARCH ARTICLE
Contents Vol 33(3)

Rail survey plans to remote sensing: vegetation change in the Mulga Lands of eastern Australia and its implications for land use

Roderick J. Fensham A B D , Owen Powell C and James Horne B
+ Author Affiliations
- Author Affiliations

A Queensland Herbarium, Department of Environment and Resource Management, Mt Coot-tha Road, Toowong, Qld 4066, Australia.

B Department of Biological Sciences, University of Queensland, St Lucia, Qld 4072, Australia.

C School of Geography Planning and Environmental Management, University of Queensland, St Lucia, Qld 4072, Australia.

D Corresponding author. Email: r.fensham@uq.edu.au

The Rangeland Journal 33(3) 229-238 https://doi.org/10.1071/RJ11007
Submitted: 11 February 2011  Accepted: 27 July 2011   Published: 9 September 2011

Abstract

There is a prevailing paradigm that woody vegetation is expanding at the expense of grassland with reduced burning under pastoralism in the Mulga Lands biogeographic region in eastern Australia. This raises the possibility that the region is acting as a carbon sink. Vegetation boundaries were precisely positioned from rail survey plans dating from 1895 to 1900. This baseline was compared with the position of boundaries on 1952 aerial photography and 2010 Google Earth imagery. The conversion of forest to non-forest by mechanical clearing was also mapped from satellite imagery. There was no consistent trend in the direction of boundary movement for mulga (Acacia aneura F.Muell. ex Benth.), gidgee (Acacia cambagei R.T. Baker) forest or miscellaneous other forest types. The stability of the boundaries, despite the transition from aboriginal management to rangeland pastoralism, contrasts with dramatic declines in tree cover resulting from mechanical clearing. Mapping of forest cover from satellite imagery reveals that conversion of forest to non-forest has reduced mulga forest to 74%, gidgee forest to 30% and miscellaneous forest types to 82% of their original area. Annual clearing rates for the period between 1997 and 2005 were 0.83, 0.95 and 0.43% for those forest types, respectively. Clearing has declined substantially in the period 2005–09 since the advent of recent regulations in Queensland. The area remains a source of carbon emissions but this situation may reverse if restoration of mulga dry forest becomes an attractive land use with an emerging carbon market.

Additional keywords: carbon accounting, carbon sequestration, forest boundary change, historical sources, mulga, woody encroachment.


References

Allen, C. D., Macalady, A. K., Chenchouni, H., Bachelet, D., McDowell, N., Vennetier, M., Kitzberger, T., Rigling, A., Breshears, D., Hogg, E. H., Gonzalez, P., Fensham, R., Zhang, Z., Castro, J., Demidova, N., Lim, J., Allard, G., Running, S. W., Semerci, A., and Cobb, N. (2010). A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests. Forest Ecology and Management 259, 660–684.
A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests.Crossref | GoogleScholarGoogle Scholar |

Anon., (1903). In the south-west country. Queensland Agricultural Journal 12, 295–307.

Asner, G. P., Archer, S., Hughes, R. F., Ansley, R. J., and Wessman, C. A. (2003). Net changes in regional woody vegetation cover and carbon storage in Texas drylands, 1937–1999. Global Change Biology 9, 316–335.
Net changes in regional woody vegetation cover and carbon storage in Texas drylands, 1937–1999.Crossref | GoogleScholarGoogle Scholar |

Beale, E. (1983). ‘Kennedy the Barcoo and Beyond.’ (Blubber Head Press: Hobart.)

Beard, J. S. (1968). Drought effects in the Gibson Desert. Journal of the Royal Society of Western Australia 54, 39–50.

Bond, W. J., Woodward, F. I., and Midgley, G. F. (2005). The global distribution of ecosystems in a world without fire. New Phytologist 165, 525–538.
The global distribution of ecosystems in a world without fire.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD2M%2Fpt1OktQ%3D%3D&md5=7f609815103a21e7c27fc64b2a0a65c2CAS |

Bostock, P. D., and Holland, A. E. (Eds) (2007). ‘Census of the Queensland Flora 2007.’ (Queensland Herbarium, Environmental Protection Agency: Brisbane.)

Bowman, D. M. J. S., Boggs, G. S., and Prior, L. D. (2008). Fire maintains an Acacia aneura shrubland – Triodia grassland mosaic in central Australia. Journal of Arid Environments 72, 34–47.
Fire maintains an Acacia aneura shrubland – Triodia grassland mosaic in central Australia.Crossref | GoogleScholarGoogle Scholar |

Bowman, D. M. J. S., Balch, J. K., Artaxo, P., Bond, W. J., Carlson, J. M., Cochrane, M. A., D’Antonio, C. M., DeFries, R. S., Doyle, J. C., Harrison, S. P., Johnston, F. H., Keeley, J. E., Krawchuk, M. A., Kull, C. A., Marston, J. B., Moritz, M. A., Prentice, I. C., Roos, C. I., Scott, A. C., Swetnam, T. W., Van Der Werf, G. R., and Pyne, S. J. (2009). Fire in the earth system. Science 324, 481–484.
Fire in the earth system.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXkvVGmtb8%3D&md5=e8d0ff1eb18c0d13d02ff6f2238dd0b7CAS |

Brisbane Courier (1913). Death of the King of the Warrego Blacks. 22 April. http://trove.nla.gov.au/ndp/del/page/1577723?zoomLevel=1

Brown, R. F. (1985). The growth and survival of young mulga (Acacia aneura F.Muell) trees under different levels of grazing. Australian Rangeland Journal 7, 143–148.
The growth and survival of young mulga (Acacia aneura F.Muell) trees under different levels of grazing.Crossref | GoogleScholarGoogle Scholar |

Butlin, N. (1962). The growth of rural capital 1860–1890. In: ‘The Simple Fleece: Studies in the Australian Wool Industry’. (Ed. A. Barnard) pp. 322–339. (Melbourne University Press: Melbourne)

Condon, R. W. (1949). Mulga death in the west Darling country. Journal of the Soil Conservation Service of New South Wales 5, 7–14.

Condon, R. W. (1986). Scrub invasion on semi-arid grazing lands in western New South Wales – causes and effects. In: ‘Rangelands: a Resource Under Siege’. (Eds P. J. Joss, P. W. Lynch and O. B. Williams.) p. 40. (Australian Academy of Science: Canberra.)

Denny, M. J. S. (1994). Investigating the past: an approach to determining the changes in the fauna of the Western Division of New South Wales since the first explorers. In: ‘Future of the Fauna of Western New South Wales’. (Eds D. Lunney, S. Hand, P. Reed and D. Butcher.) pp. 53–63. (Royal Zoological Society of NSW: Mosman.)

Department of Environment and Resource Management (2010). ‘Analysis of Vegetation Clearing Rates in Queensland.’ Supplementary Report to Land Cover Change in Queensland 2007–08. (Queensland Government: Brisbane.)

Department of Environment Climate Change and Water (2008). ‘NSW Annual Report on Native Vegetation 2009.’ (Department of Environment, Climate Change and Water NSW: Sydney.)

Downing, B. H. (1986). Goat and sheep grazing in shrub-infested semi-arid woodlands of New South Wales. Australian Rangeland Journal 8, 140–150.
Goat and sheep grazing in shrub-infested semi-arid woodlands of New South Wales.Crossref | GoogleScholarGoogle Scholar |

Eldridge, D. J., Bowker, M. A., Maestre, F. T., Roger, E., Reynolds, J. F., and Whitford, W. G. (2011). Impacts of shrub encroachment on ecosystem structure and functioning: towards a global synthesis. Ecology Letters , .
Impacts of shrub encroachment on ecosystem structure and functioning: towards a global synthesis.Crossref | GoogleScholarGoogle Scholar |

Everist, S. L. (1969). Use of Fodder Trees and Shrubs. Division of Plant Industry Advisory Leaflet No. 1024.Queensland Department of Primary Industries, Brisbane.

Fensham, R. J. (2008). A protocol for assessing applications to selectively clear vegetation in Queensland, Australia. Land Use Policy 25, 249–258.
A protocol for assessing applications to selectively clear vegetation in Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |

Fensham, R. J., and Fairfax, R. J. (2005). Preliminary assessment of gidgee (Acacia cambagei) woodland thickening in the Longreach district, Queensland. The Rangeland Journal 27, 159–168.
Preliminary assessment of gidgee (Acacia cambagei) woodland thickening in the Longreach district, Queensland.Crossref | GoogleScholarGoogle Scholar |

Fensham, R. J., and Guymer, G. P. (2009). Carbon accumulation through ecosystem recovery. Environmental Science & Policy 12, 367–372.
Carbon accumulation through ecosystem recovery.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXksFamtro%3D&md5=3e9991ab1a639223ddd456f0959bc8f5CAS |

Fensham, R. J., and Holman, J. E. (1999). Temporal and spatial patterns in drought-related tree dieback in Australian savanna. Journal of Applied Ecology 36, 1035–1050.
Temporal and spatial patterns in drought-related tree dieback in Australian savanna.Crossref | GoogleScholarGoogle Scholar |

Fensham, R. J., Dwyer, J. M., Eyre, T. J., Fairfax, R. J., and Wang, J. (2012b). The effect of clearing on plant composition in mulga (Acacia aneura) dry forest, Australia. Austral Ecology 37, .
The effect of clearing on plant composition in mulga (Acacia aneura) dry forest, Australia.Crossref | GoogleScholarGoogle Scholar |

Fensham, R. J., Fairfax, R. J., and Ward, D. P. (2009). Drought-induced tree death in savanna. Global Change Biology 15, 380–387.
Drought-induced tree death in savanna.Crossref | GoogleScholarGoogle Scholar |

Fensham, R. J., Silcock, J. L., and Dwyer, J. M. (2012a). Plant species richness responses to grazing protection and degradation history in a low productivity landscape. Journal of Vegetation Science 23, .

Garnaut, R. (2008). ‘The Garnaut Climate Change Review.’ (Cambridge University Press: Cambridge.)

Google Earth (2010). Cnes Spot Image 2010. Available at: www.google.com/earth/index.html (accessed March–September 2010).

Griffin, G. F., and Friedel, M. H. (1984). Effects of fire on central Australian rangelands. II. Changes in tree and shrub populations. Australian Journal of Ecology 9, 395–403.
Effects of fire on central Australian rangelands. II. Changes in tree and shrub populations.Crossref | GoogleScholarGoogle Scholar |

Harrington, G. N. (1979). The effect of feral goats and sheep on the shrub populations in a semi-arid woodland. Australian Rangeland Journal 1, 334–345.
The effect of feral goats and sheep on the shrub populations in a semi-arid woodland.Crossref | GoogleScholarGoogle Scholar |

Harris, M. R., and Lamb, D. (2004). A history of recent disturbances in white cypress pine forests in Southern Queensland. Proceedings of the Royal Society of Queensland 111, 19–30.

Hodgkinson, K. C. (1991). Shrub recruitment response to intensity and season of fire in a semi-arid woodland. Journal of Applied Ecology 28, 60–70.
Shrub recruitment response to intensity and season of fire in a semi-arid woodland.Crossref | GoogleScholarGoogle Scholar |

Hodgkinson, K. C. (1998). Sprouting success of shrubs after fire: height-dependent relationships for different strategies. Oecologia 115, 64–72.
Sprouting success of shrubs after fire: height-dependent relationships for different strategies.Crossref | GoogleScholarGoogle Scholar |

Hodgkinson, K. C., and Griffin, G. F. (1982). Adaptation of shrub species to fires in the arid zone. In: ‘Evolution of the Flora and Fauna of Arid Australia’. (Eds W. R. Barker and P. J. M. Greenslade.) pp. 145–152. (Peacock Publications: Frewville.)

Hodgkinson, K. C., and Harrington, G. N. (1985). The case for prescribed burning to control shrubs in eastern semi-arid woodlands. Australian Rangeland Journal 7, 64–74.
The case for prescribed burning to control shrubs in eastern semi-arid woodlands.Crossref | GoogleScholarGoogle Scholar |

Hodgkinson, K. C., and Oxley, R. E. (1990). Influence of fire and edaphic factors on germination of the arid zone shrubs Acacia aneura, Cassia nemophila and Dodonaea viscosa. Australian Journal of Botany 38, 269–279.
Influence of fire and edaphic factors on germination of the arid zone shrubs Acacia aneura, Cassia nemophila and Dodonaea viscosa.Crossref | GoogleScholarGoogle Scholar |

Houghton, R. A., Hackler, J. L., and Lawrence, K. T. (1999). The US carbon budget: contributions from land-use change. Science 285, 574–578.
The US carbon budget: contributions from land-use change.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK1MXltVSjsbw%3D&md5=ae0824f3deec52b1bfb6121cf142cc25CAS |

Howden, S. M., Moore, J. L., McKeon, G. M., and Carter, J. O. (2001). Global change and the mulga woodlands of southwest Queensland: greenhouse gas emissions, impacts, and adaptation. Environment International 27, 161–166.
Global change and the mulga woodlands of southwest Queensland: greenhouse gas emissions, impacts, and adaptation.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXos1aksLw%3D&md5=7daab55c5feba373ca868e1c7ab765a6CAS |

Keith, D. A., Orshceg, C., Simpson, C. C., Clarke, P. J., Hughes, L., Kennelly, S. J., Major, R. E., Soderquist, T. R., Wilson, A. L., and Bedward, M. (2009). A new approach and case study for estimating extent and rates of habitat loss for ecological communities. Biological Conservation 142, 1469–1479.
A new approach and case study for estimating extent and rates of habitat loss for ecological communities.Crossref | GoogleScholarGoogle Scholar |

Kitson, B., and McKay, J. (2006). ‘Surveying Queensland 1839–1945. A Pictorial history.’ (Queensland Department of Natural Resources and Queensland Museum: Brisbane.)

Kraaij, T., and Ward, D. (2006). Effects of rain, nitrogen, fire and grazing on tree recruitment and early survival in bush-encroached savanna, South Africa. Plant Ecology 186, 235–246.
Effects of rain, nitrogen, fire and grazing on tree recruitment and early survival in bush-encroached savanna, South Africa.Crossref | GoogleScholarGoogle Scholar |

McKeon, G., Hall, W., Henry, B., Stone, G., and Watson, I. (2004). ‘Pasture Degradation and Recovery in Australia’s Rangelands: Learning from History.’ (Queensland Department of Natural Resources, Mines and Energy: Brisbane.)

McManus, M. (1916). ‘Reminiscences of the Early Settlement of the Maranoa District in the Late Fifties and Early Sixties.’ (E. A. Howard: Brisbane.)

Moore, J. L., Howden, S. M., McKeon, G. M., Carter, J. O., and Scanlan, J. C. (2001). The dynamics of grazed woodlands in southwest Queensland, Australia and their effect on greenhouse gas emissions. Environment International 27, 147–153.
The dynamics of grazed woodlands in southwest Queensland, Australia and their effect on greenhouse gas emissions.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXos1aksL4%3D&md5=17a6ea1fe2b1d167d392df62462abd54CAS |

Mulvaney, D., and Joyce, E. (1965). Archaeological and geomorphological investigations on Mt. Moffat Station, Queensland, Australia. Proceedings of the Prehistoric Society 31, 147–212.

Nano, C. E. M., and Clarke, P. J. (2008). Variegated desert vegetation: covariation of edaphic and fire variables provides a framework for understanding mulga-spinifex coexistence. Austral Ecology 33, 848–862.
Variegated desert vegetation: covariation of edaphic and fire variables provides a framework for understanding mulga-spinifex coexistence.Crossref | GoogleScholarGoogle Scholar |

Nano, C. E. M., and Clarke, P. J. (2010). Woody-grass ratios in a grassy arid system are limited by multi-causal interactions of abiotic constraint, competition and fire. Oecologia 162, 719–732.
Woody-grass ratios in a grassy arid system are limited by multi-causal interactions of abiotic constraint, competition and fire.Crossref | GoogleScholarGoogle Scholar |

Nicholas, A. M. M., Franklin, D. C., and Bowman, D. M. J. S. (2009). Coexistence of shrubs and grass in a semi-arid landscape: a case study of mulga (Acacia aneura, Mimosaceae) shrublands embedded in fire-prone spinifex (Triodia pungens, Poaceae) hummock grasslands. Australian Journal of Botany 57, 396–405.
Coexistence of shrubs and grass in a semi-arid landscape: a case study of mulga (Acacia aneura, Mimosaceae) shrublands embedded in fire-prone spinifex (Triodia pungens, Poaceae) hummock grasslands.Crossref | GoogleScholarGoogle Scholar |

Noble, J. C. (1997). ‘The Delicate and Noxious Scrub: CSIRO Studies on Native Tree and Shrub Proliferation in the Semi-arid Woodlands of Eastern Australia.’ (CSIRO: Canberra.)

Pacala, S. W., Hurtt, G. C., Baker, D., Peylin, P., Houghton, R. A., Birdsey, R. A., Heath, L., Sundquist, E. T., Staffard, R. F., Ciais, P., Moorcroft, P., Caspersen, J. P., Shevliakova, E., Moore, B., Kohlmaier, G., Holland, E., Gloor, M., Harmon, M. E., Fan, S. M., Sarmiento, J. L., Goodale, C. L., Schimel, D., and Field, C. B. (2001). Consistent land and atmosphere-based US carbon sink estimates. Science 292, 2316–2320.
Consistent land and atmosphere-based US carbon sink estimates.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD3MzmtlWmsQ%3D%3D&md5=b363a1a55bb5d8c07d04b4598e3d5c4eCAS |

Pickard, J. (1990). Analysis of stocking records from 1884 to 1988 during the subdivision of Momba, the largest property in semi-arid New South Wales. Proceedings of Ecological Society of Australia. 16, 245–253.

Preece, P. B. (1971). Contributions to biology of mulga.1. Flowering. Australian Journal of Botany 19, 21–38.
Contributions to biology of mulga.1. Flowering.Crossref | GoogleScholarGoogle Scholar |

Pressland, A. J. (1984). Productivity and management of western Queensland’s rangelands. Australian Rangeland Journal 6, 26–45.
Productivity and management of western Queensland’s rangelands.Crossref | GoogleScholarGoogle Scholar |

Ratnam, J., Bond, W. J., Fensham, R. J., W.A., H., Archibald, S., Lehmann, C. E. R., Andersen, M. T., Higgins, S. I., and Sankaran, M. (2011). When is a ‘forest’ a savanna, and why does it matter? Global Ecology and Biogeography 20, 650–653.

Robins, R. (1998). Archaeological investigations at Youlain Springs, southwest Queensland. Memoirs of the Queensland Museum. Cultural Heritage Series 1, 57–74.

Russell-Smith, J., Yates, C. P., Brock, C., and Westcott, V. C. (2010). Fire regimes and interval-sensitive vegetation in semiarid Gregory National Park, northern Australia. Australian Journal of Botany 58, 300–317.

Sattler, P., and Williams, R. (1999). ‘The Conservation Status of Queensland’s Bioregional Ecosystems.’ (Environmental Protection Agency: Brisbane.)

Shinneman, D. J., and Baker, W. L. (2009). Historical fire and multidecadal drought as context for pinon–juniper woodland restoration in western Colorado. Ecological Applications 19, 1231–1245.
Historical fire and multidecadal drought as context for pinon–juniper woodland restoration in western Colorado.Crossref | GoogleScholarGoogle Scholar |

Silcock, R. G., Williams, L. M., Lehane, K. J., and Smith, F. T. (1985). Seasonal distribution of herbage growth from sandplain mulga country, Charleville. Australian Rangeland Journal 7, 98–101.
Seasonal distribution of herbage growth from sandplain mulga country, Charleville.Crossref | GoogleScholarGoogle Scholar |

Wigley, B. J., Bond, W. J., and Hoffman, M. T. (2010). Thicket expansion in a South African savanna under divergent land use: local vs. global drivers? Global Change Biology 16, 964–976.
Thicket expansion in a South African savanna under divergent land use: local vs. global drivers?Crossref | GoogleScholarGoogle Scholar |

Wilson, B. A., Neldner, V. J., and Accad, A. (2002). The extent and status of remnant vegetation in Queensland and its implications for statewide vegetation management and legislation. The Rangeland Journal 24, 6–35.
The extent and status of remnant vegetation in Queensland and its implications for statewide vegetation management and legislation.Crossref | GoogleScholarGoogle Scholar |

Witt, G. B., Harrington, R. A., and Page, M. J. (2009). Is ‘vegetation thickening’ occurring in Queensland’s mulga lands – a 50-year aerial photographic analysis. Australian Journal of Botany 57, 572–582.
Is ‘vegetation thickening’ occurring in Queensland’s mulga lands – a 50-year aerial photographic analysis.Crossref | GoogleScholarGoogle Scholar |

Witt, G. B., Luly, J., and Fairfax, R. J. (2006). How the west was once: vegetation change in south-west Queensland from 1930–1995. Journal of Biogeography 33, 1585–1596.
How the west was once: vegetation change in south-west Queensland from 1930–1995.Crossref | GoogleScholarGoogle Scholar |

Witt, G. B., Noël, M. V., Bird, M. I., Beeton, R. J. S., and Menzies, N. W. (2011). Carbon sequestration and biodiversity restoration potential of semi-arid mulga lands of Australia interpreted from long-term grazing exclosures. Agriculture, Ecosystems & Environment 141, 108–118.
Carbon sequestration and biodiversity restoration potential of semi-arid mulga lands of Australia interpreted from long-term grazing exclosures.Crossref | GoogleScholarGoogle Scholar |

Wright, B. R., and Clarke, P. J. (2007). Resprouting responses of Acacia shrubs in the Western Desert of Australia – fire severity, interval and season influence survival. International Journal of Wildland Fire 16, 317–323.
Resprouting responses of Acacia shrubs in the Western Desert of Australia – fire severity, interval and season influence survival.Crossref | GoogleScholarGoogle Scholar |

Wright, B. R., and Clarke, P. J. (2009). Fire, aridity and seed banks. What does seed bank composition reveal about community processes in fire-prone desert? Journal of Vegetation Science 20, 663–674.
Fire, aridity and seed banks. What does seed bank composition reveal about community processes in fire-prone desert?Crossref | GoogleScholarGoogle Scholar |