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Australian Journal of Botany Australian Journal of Botany Society
Southern hemisphere botanical ecosystems
RESEARCH ARTICLE

Is ‘vegetation thickening’ occurring in Queensland’s mulga lands – a 50-year aerial photographic analysis

G. Bradd Witt A B , Rebecca A. Harrington A and Manda J. Page A
+ Author Affiliations
- Author Affiliations

A School of Integrative Systems, The University of Queensland, Gatton Campus, Gatton, Qld 4343, Australia.

B Corresponding author. Email: bwitt@uq.edu.au

Australian Journal of Botany 57(7) 572-582 https://doi.org/10.1071/BT08217
Submitted: 10 December 2008  Accepted: 9 November 2009   Published: 21 December 2009

Abstract

Changes in the density of woody vegetation in arid and semiarid rangelands have the potential to dramatically reduce productivity as well as adversely affect ‘natural’ ecosystem processes. Many parts of Australia are believed to have experienced thickening of woody vegetation since European occupation and the associated changes to fire and grazing regimes that followed. Unfortunately there is little empirical evidence to support a widely held perception of thickening. This study analyses the available historical aerial photographic coverage for the mulga lands bioregion of south-western Queensland, Australia; a record spanning the second half of the twentieth century. Changes in woody vegetation canopy cover were assessed for 190 sites. More than half of the sites had no evidence of mechanical disturbance and thus reflected general, or background trends in woody vegetation cover. The region-wide average extent of change on these undisturbed sites was estimated to be approximately a 3.6% increase in canopy cover over the study period. Thus, a trend toward vegetation thickening was detected. However, large variation was observed depending on the land systems and rainfall zone where sites were located. The results are discussed in the context of century scale climate variability and perceptions of vegetation change and a tentative explanatory model is presented to account for the observed data.


Acknowledgements

We wish to thank Department of Natural Resources Mines and Energy, Queensland staff for assistance with access to archival aerial photography and for access to the SLATS site data. Without these contributions the study would not have been possible; Ms Tara Bell for diligent and comprehensive photographic analysis and field work assistance. Particular acknowledgement needs to be given to landholders in the mulga lands bioregion for support and assistance for use of their properties for ground-truthing and providing accommodation for field work. We thank Mr Russell Fairfax (EPA Queensland) for advice and assistance with research design and his extensive experience with aerial photographic interpretation. Thanks to Allan Lisle who provided advice on analytical and statistical aspects of the study. Jennifer Silcock and Michelle Noël provided welcome feedback on earlier drafts of this manuscript. The project was funded by an Early Career Researcher Grant through The University of Queensland.


References


Archer S (1995) Tree-grass dynamics in a Prosopis-thornscrub savanna parkland: reconstructing the past and predicting the future. Ecoscience 2, 83–99. open url image1

Beale I (2004) ‘Tree and Shrub Thickening in the Murweh Shire.’ (Report to the Productivity Commission: Melbourne)

Booth CA (1986) Management of woody weeds for sustainability of the ecosystem. In ‘The Mulga Lands’. (Ed. PS Sattler) pp. 79–83. (Royal Society of Queensland: Brisbane)

Burrows WH (2002) Seeing the wood(land) for the trees – An individual perspective of Queensland woodland studies (1965–2002). Tropical Grasslands 36, 202–217. open url image1

Dawson NM , Ahern CR (1974) Soils (Chapter 4). In ‘Western Arid Landuse Study – Part 1’ Division of Land Utilization pp. 18–46. Technical Bulletin No. 12 (Department of Primary Industries: Brisbane)

Department of Natural Resources and Mines (2005) Land cover change in Queensland 2001–2003, incorporating 2001–2002 and 2002–2003 change periods: a Statewide Landcover and Trees Study (SLATS) report, Feb., 2005. (Department of Natural Resources and Mines: Brisbane)

Fensham RJ (2008) A protocol for assessing applications to selectively clear vegetation in Australia. Land Use Policy 25, 249–258.
Crossref | GoogleScholarGoogle Scholar | open url image1

Fensham RJ, Fairfax RJ (2003) Assessing woody vegetation cover change in north-west Australian savanna using aerial photography. International Journal of Wildland Fire 12, 359–369.
Crossref | GoogleScholarGoogle Scholar | open url image1

Fensham RJ, Fairfax RJ (2007) Effect of photoscale, interpreter bias and land type on woody crown cover estimates from aerial photography. Australian Journal of Botany 55, 457–463.
Crossref | GoogleScholarGoogle Scholar | open url image1

Fensham RJ, Fairfax RJ, Archer SR (2005) Rainfall, land use and woody vegetation cover change in semi-arid Australian savanna. Journal of Ecology 93, 596–606.
Crossref | GoogleScholarGoogle Scholar | open url image1

Fensham RJ, Fairfax RJ, Ward DP (2009) Drought-induced tree death in savanna. Global Change Biology 15, 380–387.
Crossref | GoogleScholarGoogle Scholar | open url image1

Fensham RJ, Low Choy SJ, Fairfax RJ, Cavallaro PC (2003) Modelling trends in woody vegetation structure in semi-arid Australia as determined from aerial photography. Journal of Environmental Management 68, 421–436.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Flannery TF (1994) ‘The Future Eaters: An Ecological History of the Australasian Lands and People’. (Reed: Sydney)

Gifford RM, Howden M (2001) Vegetation thickening in an ecological perspective: significance to national greenhouse gas inventory. Environmental Science & Policy 4, 59–72.
Crossref | GoogleScholarGoogle Scholar | CAS | open url image1

Grimes JP (1979) ‘Plant strategies and vegetation processes.’ (Wiley: New York)

Hill MJ, Roxburgh SH, Carter JO, McKeon GM (2005) Vegetation state change and consequent carbon dynamics in savanna woodlands of Australia in response to grazing, drought and fire: a scenario approach using 113 years of synthetic annual fire and grassland growth. Australian Journal of Botany 53, 715–739.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hobbs RJ, Huenneke LF (1992) Disturbance, diversity and invasion: Implications for conservation. Conservation Biology 6, 324–337.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hoffman MT, Bond WJ, Stock WD (1995) Desertification of the eastern karoo, South Africa: conflicting palaeoecological, historical and soil isotope evidence. Environmental Monitoring and Assessment 37, 159–177.
Crossref | GoogleScholarGoogle Scholar | CAS | open url image1

Hodgkinson KC, Harrington GN (1985) The case for prescribed burning to control shrubs in eastern semi-arid woodlands. Australian Rangeland Journal 7, 64–74.
Crossref | GoogleScholarGoogle Scholar | open url image1

Kenny G , Beale I (2003) ‘Impacts of Vegetation Thickening on Woodland Stocking Rates for the Murweh Shire.’ (Report to the Productivity Commission: Melbourne)

Lunt ID, Jones N, Spooner PG, Petrow M (2006) Effects of European colonization on indigenous ecosystems: post-settlement changes in tree stand structures in Eucalyptus-Callitris woodlands in central New South Wales, Australia. Journal of Biogeography 33, 1102–1115.
Crossref | GoogleScholarGoogle Scholar | open url image1

McKeon G , Hall W , Henry B , Stone G , Watson I (2004) ‘Pasture degradation and recovery in Australia’s rangelands: learning from history.’ (Queensland Department of Natural Resources, Mines Energy: Brisbane)

Mills JR (1989) ‘Management of mulga lands in far south-west Queensland.’ Project Report QO89023. (Department of Primary Industries, Queensland Government: Brisbane)

Mitchell PB (1991) Historical perspectives on some vegetation and soil changes in semi-arid New South Wales. Vegetatio 91, 169–182.
Crossref | GoogleScholarGoogle Scholar | open url image1

Neldner VJ (1986) Vegetation of the Australian mulga lands. In ‘The Mulga Lands’. (Ed. PS Sattler) pp. 20–26. (Royal Society of Queensland: Brisbane)

Noble J (1997) ‘The delicate and noxious scrub: CSIRO studies on native trees and shrub proliferation in the semi arid woodlands of eastern Australia.’ (CSIRO Wildlife and Ecology: Canberra)

Oxley RE (1987) Analysis of historical records of a grazing property in south western Queensland. 2. Vegetation change. Australian Rangeland Journal 9, 30–38.
Crossref | GoogleScholarGoogle Scholar | open url image1

Productivity Commission (2004) ‘Impacts of Native Vegetation and Biodiversity Regulations, Report no. 29.’ (Productivity Commission: Melbourne)

Rolls E (1981) ‘A Million wild acres: 200 years of man and an Australian forest.’ (Nelson: Melbourne)

Royal Commission (1901) ‘Royal Commission to Inquire into the Condition of the Crown Tenants of the Western Division of New South Wales.’ (Government Printer: Sydney)

Sattler P , Williams R (Eds) (1999) ‘The Conservation status of Queensland’s bioregional ecosystems.’ (Environmental Protection Agency: Brisbane)

Scanlan JC (2002) Some aspects of tree-grass dynamics in Queensland’s grazing lands. The Rangeland Journal 24, 56–82.
Crossref | GoogleScholarGoogle Scholar | open url image1

Walker J , Hopkins MS (1984) Vegetation. In ‘Australian soil and land survey: field book’. (Eds RC McDonald, RF Isbell, JG Speight, J Walker, MS Hopkins) pp. 44–67. (Inkata Press: Melbourne)

Witt GB , Beeton RJS (1995) ‘The regional implications of ‘naturalness’ in protected area management: a case study from the Queensland mulga lands. Ecological Research and Management in the Mulga lands – Conference Proceedings.’ (Eds MJ Page, TS Beutel), pp. 177–182. (The University of Queensland Gatton College: Brisbane)

Witt GB, Luly J, Fairfax RJ (2006) How the west was once: vegetation change in south-west Queensland from 1930 to 1995. Journal of Biogeography 33, 1585–1596.
Crossref | GoogleScholarGoogle Scholar | open url image1

Witt GB, Berghammer LJ, Beeton RJS, Moll EJ (2000) Retrospective monitoring of rangeland vegetation change: ecohistory from deposits of sheep dung associated with shearing sheds. Austral Ecology 25, 260–267. open url image1