Register      Login
The Rangeland Journal The Rangeland Journal Society
Journal of the Australian Rangeland Society
RESEARCH ARTICLE

Changes in vegetation over nine years after rehabilitating a linear feature in Australia’s arid zone

W. A. Low A , A. McNally A , B. K. Davies A and Penelope Greenslade B C
+ Author Affiliations
- Author Affiliations

A W. A. Low Ecological Services, PO Box 3130, Alice Springs, NT 0871, Australia.

B Centre for Environmental Management, School of Science, Information Technology and Engineering, University of Ballarat, St Helens Campus, Ballarat, Vic. 3353, Australia.

C Corresponding author. Email: Pgreenslade@staff.ballarat.edu.au

The Rangeland Journal 34(4) 399-414 https://doi.org/10.1071/RJ12033
Submitted: 24 May 2012  Accepted: 9 November 2012   Published: 17 December 2012

Abstract

A 36-km road built in 1961 between Ayers Rock (Uluru) and the Olgas (Kata Tjuta), Northern Territory, Australia had seriously deteriorated by the 1980s. A newly aligned road, which was ecologically located and avoided sensitive Aboriginal sites, was completed early in 1991. The old road was rehabilitated by deep ripping, filling with imported sand and topsoil and by grading logs and windrows1 over the new surface. This paper reports on the effectiveness of the rehabilitation technique used in reinstating vegetation over 8 years and considers whether this rehabilitation aim was met. Plant colonisation and succession were monitored on 15 paired plots, one in the rehabilitated road and the other in the adjacent undisturbed habitat (with four exceptions) and also on the windrows. Sites at eight creek crossings and those subject to fire and rabbit activity were also monitored. Different landscape units responded in different ways to the rehabilitation. Herbaceous species from imported sand plain fill and top soil eventually dominated the road where they were introduced and were likely to persist in most areas because of local recruitment. The revegetation of the road has stabilised the old road surface as observed by the reduced erosion although succession did not always approach the reference site communities because of a greater resemblance to the Simpson Land System. Over the 8 years of monitoring considerable changes in vegetation occurred and are probably continuing. Only the road sites in the Simpson Land System approached the condition of the adjacent undisturbed vegetation because the vegetation of the other two land systems became closer to that of the Simpson Land System rather than to that of the surrounding vegetation. It is recommended that the introduced Buffel grass, known to alter landscape-level processes by reducing native herbaceous species and increasing risk of high intensity wildfire, which is most evident at creek crossings, should be controlled. Recommendations are made for improved management.

Additional keywords: Karee Land System, Killen Land System, plant density, plant succession, old road, Simpson Land System.


References

Allan, G. E. (1984). Fire history and land units of Uluru. In: ‘Anticipating the Inevitable’. (Ed. E. C. Allan.) pp. 13–24. (CSIRO: Melbourne.)

Allen, E. B. (1995). Restoration ecology: limits and possibilities in arid and semi-arid lands. In: ‘Proceedings of Wildland Shrub and Arid Land Restoration Symposium’. (Eds B. A. Roundy, E. D. McArthur, J. S. Haley and D. K. Mann.) pp. 7–15. (U.S. Forest Service: Ogden, UT.)

Australian Bureau of Meteorology (2010). Australian Bureau of Meteorology. Available at: http://reg.bom.gov.au/ (accessed February 2010).

Australian Plant Names Index (2012). Australian Plant Name Index. Available at: www.anbg.gov.au/apni/ (accessed October 2012).

Bastin, G. N. (1989). ‘Centralian Range Assessment Programme.’ Technical Bulletin No. 151. (Department of Primary Industries and Fisheries: Alice Springs.)

Blomquist, K. W., and Lyon, G. E. (1995). Effects of soil quality and depth on seed germination and seedling survival at the Nevada Test site. In: ‘Proceedings of Wildland Shrub and Arid Land Restoration Symposium’. (Eds B. A. Roundy, E. D. McArthur, J. S. Haley and D. K. Mann.) pp. 57–93. (U.S. Forest Service: Ogden, UT.)

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.
Tansley Review No. 101. The impact of Aboriginal landscape burning on the Australian biota.Crossref | GoogleScholarGoogle Scholar |

Christian-Smith, J., and Merenlender, A. M. (2010). The disconnect between restoration goals and practices: a case study of watershed restoration in the Russian River Basin, California. Restoration Ecology 18, 95–102.
The disconnect between restoration goals and practices: a case study of watershed restoration in the Russian River Basin, California.Crossref | GoogleScholarGoogle Scholar |

Clarke, P. J., Latz, P. K., and Albbrecht, D. E. (2005). Long-term changes in semi-arid vegetation: invasion of an exotic perennial grass has larger effects than rainfall variability. Journal of Vegetation Science 16, 237–248.
Long-term changes in semi-arid vegetation: invasion of an exotic perennial grass has larger effects than rainfall variability.Crossref | GoogleScholarGoogle Scholar |

Cohen, S. (1990). Reconstruction of South Australia’s arid lands: the conservation option. Proceedings of the Ecological Society of Australia 16, 459–465.

DeFalco, L. A., Esque, T. C., Kane, J. M., and Nicklas, M. B. (2009). Seed banks in a degraded desert shrubland: influence of soil surface condition and harvester ant activity on seed abundance. Journal of Arid Environments 73, 885–893.
Seed banks in a degraded desert shrubland: influence of soil surface condition and harvester ant activity on seed abundance.Crossref | GoogleScholarGoogle Scholar |

Dunne, J. (1989). Cryptogamic soil crusts in arid ecosystems. Rangelands 11, 180–182.

Grant, C. D., and Koch, J. M. (1997). Ecological aspects of soil seed-banks in relation to bauxite mining. II. Twelve-year-old rehabilitated mines. Australian Journal of Ecology 22, 177–184.
Ecological aspects of soil seed-banks in relation to bauxite mining. II. Twelve-year-old rehabilitated mines.Crossref | GoogleScholarGoogle Scholar |

Grant, C., and Koch, J. (2007). Decommissioning Western Australia’s first bauxite mine: co-evolving vegetation restoration techniques and targets. Ecological Management & Restoration 8, 92–105.
Decommissioning Western Australia’s first bauxite mine: co-evolving vegetation restoration techniques and targets.Crossref | GoogleScholarGoogle Scholar |

Griffin, G. F., and Nelson, D. J. (1989). ‘Environmental Guidelines for the Rehabilitation of the Existing Kata Tjuta Road.’ (CSIRO Division of Wildlife and Ecology: Alice Springs.)

Griffin, G. F., Pearce, G., Chewings, V. H., and Pickup, G. (1997). ‘Video Imaging for Measuring and Monitoring Environment in the Central Australian Ranges.’ CARGIS No. 20. (CSIRO: Alice Springs.)

Hill, A., Forth, F., and Low, W. A. (2002). ‘Review of Rehabilitation and Vegetation Establishment on the Old Kata Tjuta (Mt Olga) Road in Uluru-Kata Tjuta National Park 1992–2001. Data and Observations.’ (Environment Australia, Biodiversity Group, Parks Australia: Canberra.)

Holden, M., and Miller, C. (1995). New arid-land revegetation techniques at Joshua Tree National Monument. In: ‘Proceedings of Wildland Shrub and Arid Land Restoration Symposium’. (Eds B. A. Roundy, E. D. McArthur, J. S. Haley and D. K. Mann.) pp. 99–101. (U.S. Forest Service: Ogden, UT.)

Latz, P. (1995). ‘Bushfires and Bush Tucker. Aboriginal Plant Use in Central Australia.’ (I.A.D. Press: Alice Springs.)

Lawrie, J. W. (1984). Regeneration at Weipa Bauxite. Mining Magazine 3, 206–213.

Low, W. A., and Foster, E. C. (1992). ‘Monitoring Revegetation of the old Olga’s Road in Uluru National Park: Introduction and Site Establishment.’ Report to Uluru National Park. (Australian Nature Conservation Agency: Darwin.)

Luce, C. H. (1997). Effectiveness of road ripping in restoring infiltration capacity of forest roads. Restoration Ecology 5, 265–270.
Effectiveness of road ripping in restoring infiltration capacity of forest roads.Crossref | GoogleScholarGoogle Scholar |

McDonald, T., and Williams, J. (2009). A perspective on the evolving science and practice of ecological restoration in Australia. Ecological Management & Restoration 10, 113–125.
A perspective on the evolving science and practice of ecological restoration in Australia.Crossref | GoogleScholarGoogle Scholar |

McDonald, R. C., Isbell, R. F., Speight, J. G., Walker, J., and Hopkins, M. S. (1984). ‘Australian Soil and Land Survey.’ (Inkata Press: Melbourne.)

Miller, G., Friedel, M., Adam, P., and Chewings, V. (2010). Ecological impacts of buffel grass (Cenchrus ciliaris L.). invasion in central Australia – does field evidence support a fire-invasion feedback? The Rangeland Journal 32, 353–365.
Ecological impacts of buffel grass (Cenchrus ciliaris L.). invasion in central Australia – does field evidence support a fire-invasion feedback?Crossref | GoogleScholarGoogle Scholar |

Moseby, K. E., Stott, J., and Crisp, H. (2009). Movement patterns of feral predators in an arid environment – implications for control through poison baiting. Wildlife Research 36, 422–435.
Movement patterns of feral predators in an arid environment – implications for control through poison baiting.Crossref | GoogleScholarGoogle Scholar |

Norman, M. A., Koch, J. M., Grant, C. D., Morald, T. K., and Ward, S. C. (2006). Vegetation succession after bauxite mining in Western Australia. Restoration Ecology 14, 278–288.
Vegetation succession after bauxite mining in Western Australia.Crossref | GoogleScholarGoogle Scholar |

Ruiz-Jaen, M. C., and Aide, T. M. (2005). Restoration success: how is it being measured? Restoration Ecology 13, 569–577.
Restoration success: how is it being measured?Crossref | GoogleScholarGoogle Scholar |

Saxon, E. C. (1984). Fire history and land units of Uluru. In: ‘Anticipating the Inevitable: A Patch Burn Strategy of Fire Management at Uluru (Ayers Rock-Mt Olga) National Park’. pp. 13–24.(CSIRO: Melbourne.)

Simpson, B. (1999). Rehabilitation at the Granites Gold Mine: a study of unmined vegetation and seed banks. BSc Honours Thesis, Flinders University, Australia.

Sinclair, R. (2005). Long-term changes in vegetation, gradual and episodic, on the TGB Osborn Vegetation Reserve, Koonamore, South Australia (1926–2002). Australian Journal of Botany 53, 283–296.
Long-term changes in vegetation, gradual and episodic, on the TGB Osborn Vegetation Reserve, Koonamore, South Australia (1926–2002).Crossref | GoogleScholarGoogle Scholar |

Smyth, A., Friedel, M., and O’Malley, C. (2009). The influence of buffel grass (Cenchrus ciliaris) on biodiversity in an arid Australian landscape. The Rangeland Journal 31, 307–320.
The influence of buffel grass (Cenchrus ciliaris) on biodiversity in an arid Australian landscape.Crossref | GoogleScholarGoogle Scholar |

Sparrow, A. D., Friedel, M. H., and Tongway, D. J. (2003). Degradation and recovery processes in arid grazing lands of central Australia. Part 3: implications at landscape scale. Journal of Arid Environments 55, 349–360.
Degradation and recovery processes in arid grazing lands of central Australia. Part 3: implications at landscape scale.Crossref | GoogleScholarGoogle Scholar |

Stafford Smith, D. M., McKeon, G. M., Watson, I. W., Henry, B. K., Stone, G. S., Hall, W. B., and Howden, S. M. (2007). Learning from episodes of degradation and recovery in variable Australian rangelands. Proceedings of the National Academy of Sciences of the United States of America 104, 20 690–20 695.
Learning from episodes of degradation and recovery in variable Australian rangelands.Crossref | GoogleScholarGoogle Scholar |

Suding, K. N. (2011). Towards an era of restoration in ecology: successes, failures and opportunities ahead. Annual Review of Ecology Evolution and Systematics 42, 465–487.
Towards an era of restoration in ecology: successes, failures and opportunities ahead.Crossref | GoogleScholarGoogle Scholar |

Thompson, S. A., and Thompson, G. G. (2004). Adequacy of rehabilitation monitoring practices in the Western Australian mining industry. Ecological Management & Restoration 5, 30–33.
Adequacy of rehabilitation monitoring practices in the Western Australian mining industry.Crossref | GoogleScholarGoogle Scholar |

Tongway, D., and Ludwig, J. (2007). Landscape function as a target for restoring natural capital in semi-arid Australia. In: ‘Restoring Natural Capital: Science, Business and Practice’. (Eds J. Aronson, S. J. Milton and J. N. Bignaut.) pp. 76–84. (Island Press: Washington.)

Wijayratne, U. C., and Pyke, D. A. (2012). Burial increases seed longevity of two Artemisia tridentata (Asteraceae) sub-species. American Journal of Botany 99, 438–447.
Burial increases seed longevity of two Artemisia tridentata (Asteraceae) sub-species.Crossref | GoogleScholarGoogle Scholar |