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Journal of the International Association of Wildland Fire
RESEARCH ARTICLE

The effect of fire on birds of mulga woodland in arid central Australia

Adam J. Leavesley A B C E , Geoffrey J. Cary A B , Glenn P. Edwards C D and A. Malcolm Gill A B
+ Author Affiliations
- Author Affiliations

A Fenner School of Environment and Society, Australian National University, Acton, ACT 0200, Australia.

B Bushfire Cooperative Research Centre, Albert Street, East Melbourne, VIC 3002, Australia.

C Desert Knowledge Cooperative Research Centre, Alice Springs, NT 0870, Australia.

D Parks and Wildlife Service of the Northern Territory, Department of Natural Resources, Environment, Arts and Sport, Alice Springs, NT 0870, Australia.

E Corresponding author. Email: adam.leavesley@anu.edu.au

International Journal of Wildland Fire 19(7) 949-960 https://doi.org/10.1071/WF09028
Submitted: 24 March 2009  Accepted: 20 April 2010   Published: 5 November 2010

Abstract

The principal ecosystem driver in arid Australia is unpredictable rainfall, but it is hypothesised that fire also plays an important role in determining the distribution of animals. We investigated the effect of fire on birds in mulga (Acacia aneura) woodland in the central Australian arid zone. The study was conducted at Uluru–Kata Tjuta National Park using 63 sites classified into one of three time-since-fire classes: burnt 2002; burnt 1976; and long-unburnt. Birds were sampled in the winter and spring of 2005 and 2006 and vegetation structure was measured at all sites. Vegetation structure varied with time-since-fire. The burnt 2002 treatment was an early seral stage of mulga woodland and effectively a grassland. The burnt 1976 and long-unburnt treatments were both woodland, but the long-unburnt treatment had greater canopy cover and height. The bird community in the burnt 2002 treatment was characterised by granivores, whereas that in the burnt 1976 and long-unburnt treatments was characterised by foliar insectivores. All species showed monotonic responses to time-since-fire (i.e. none were at significantly highest density in the burnt 1976 treatment). Fire in mulga woodland changed the vegetation structure and consequently also changed the composition of the bird communities.

Additional keywords: Acacia aneura, arid zone, fire ecology, guilds, time-since-fire, vegetation structure.


References

Adeney JM, Ginsberg JR, Russell GJ, Kinnaird MF (2006) Effects of an ENSO-related fire on birds of a lowland tropical forest in Sumatra. Animal Conservation 9, 292–301.
Effects of an ENSO-related fire on birds of a lowland tropical forest in Sumatra.Crossref | GoogleScholarGoogle Scholar |

Allan  GE (1984) Fire history and land units of Uluru. In ‘Anticipating the Inevitable: a Patch-burn Strategy for Fire Management at Uluru (Ayers Rock–Mt Olga) National Park’. (Ed. EC Saxon) pp. 13–24. (CSIRO Publishing: Melbourne)

Allan  GE, Southgate  RI (2002) Fire regimes in the spinifex landscapes of Australia. In ‘Flammable Australia: the Fire Regimes and Biodiversity of a Continent’. (Eds RA Bradstock, JE Williams, AM Gill) (Cambridge University Press: Cambridge, UK)

Baker  J, Whelan  RJ, Evans  L, Moore  S, Norton  M, Managing the Ground Parrot in its fiery habitat in south-eastern Australia. Emu, in press. 10.1071/MU10014

Barlow J, Peres CA (2004) Avifaunal responses to single and recurrent wildfires in Amazonian forests. Ecological Applications 14, 1358–1373.
Avifaunal responses to single and recurrent wildfires in Amazonian forests.Crossref | GoogleScholarGoogle Scholar |

Bureau of Meteorology (2009) Monthly climate statistics for Yulara Aero. Available at http://www.bom.gov.au/climate/averages/ [Verified 11 March 2009]

Brawn JD (2006) Effects of restoring oak savannas on bird communities and populations. Conservation Biology 20, 460–469.
Effects of restoring oak savannas on bird communities and populations.Crossref | GoogleScholarGoogle Scholar | 16903107PubMed |

Buckland  ST, Anderson  DR, Burnham  KP, Laake  JL, Borchers  DL, Thomas  L (2001) ‘Introduction to Distance Sampling: Estimating Abundance of Biological Populations.’ (Oxford University Press: New York)

Burbidge AA, Fuller PJ (2007) Gibson Desert birds: responses to drought and plenty. Emu 107, 126–134.
Gibson Desert birds: responses to drought and plenty.Crossref | GoogleScholarGoogle Scholar |

Cody ML (1994) Mulga bird communities: species composition and predictability across Australia. Australian Journal of Ecology 19, 206–219.

Davis MA, Peterson DW, Reich PB, Crozier M, Query T, Mitchell E, Huntington J, Bazakas P (2000) Restoring savanna using fire: impact on the breeding bird community. Restoration Ecology 8, 30–40.
Restoring savanna using fire: impact on the breeding bird community.Crossref | GoogleScholarGoogle Scholar |

Edwards GP, Allan GE, Brock C, Duguid A, Gabrys K, Vaarzon-Morel P (2008) Fire and its management in central Australia. The Rangeland Journal 30, 109–121.
Fire and its management in central Australia.Crossref | GoogleScholarGoogle Scholar |

ESRI (2004) ‘ArcGIS 9.1.’ (ESRI: Redlands, CA)

Field SA, Tyre AJ, Possingham HP (2002) Estimating bird species richness: how should repeat surveys be organised in time? Austral Ecology 27, 624–629.
Estimating bird species richness: how should repeat surveys be organised in time?Crossref | GoogleScholarGoogle Scholar |

Finch  DM, Ganey  JL, Yong  W, Kimball  RT, Sallabanks  R (1997) Effects and interactions of fire, logging and grazing. In ‘Songbird Ecology in South-western Ponderosa Pine Forests: a Literature Review’. (Eds WM Block, DM Finch) USDA Forest Service, Rocky Mountain Forest and Range Experiment Station, General Technical Report RM-GTR-292. (Fort Collins, CO)

Fleishman E, Reed F, Noss RF, Noon BR (2006) Utility and limitations of species richness metrics for conservation planning. Ecological Indicators 6, 543–553.
Utility and limitations of species richness metrics for conservation planning.Crossref | GoogleScholarGoogle Scholar |

Gill AM (1975) Fire and the Australian flora: a review. Australian Forestry 38, 4–25.

Gill  AM (1996) How fires affect biodiversity. In ‘Proceedings of the Conference, Fire and Biodiversity: the Effects and Effectiveness of Fire Management’, 8–9 October 1994, Melbourne. Department of Environment, Sport and Territories, Biodiversity Series, Paper No. 8, pp. 47–55. (Canberra)

Groves  RH (1994) ‘Australian Vegetation.’ (Cambridge University Press: Cambridge, UK)

Helle  P, Monkkonen  M (1990) Forest successions and bird communities: theoretical aspects and practical implications. In ‘Biogeography and Ecology of Forest Bird Communities’. (Ed. A Keast) (SPB Academic Publishing: the Hague)

Helzer CJ, Jelinski DE (1999) The relative importance of patch area and perimeter-area ratio to grassland breeding birds. Ecological Applications 9, 1448–1458.

Herrando S, Brotons L, Del Amo R, Llacuna S (2002) Bird community succession after fire in a dry Mediterranean shrubland. Ardea 90, 303–310.

Hodgkinson  KC, Griffin  GF (1982) Adaptation of shrub species to fires in the the arid zone. In ‘Evolution of the Flora and Fauna of Arid Australia’. (Eds WR Barker, PJM Greenslade) (Peacock Publications: Adelaide, SA)

Hurlbert SH (1984) Pseudoreplication and the design of ecological field experiments. Ecological Monographs 54, 187–211.
Pseudoreplication and the design of ecological field experiments.Crossref | GoogleScholarGoogle Scholar |

Imbeau L, Savard JL, Gagnon R (1999) Comparing bird assemblages in successional black spruce stands originating from fire and logging. Canadian Journal of Zoology 77, 1850–1860.
Comparing bird assemblages in successional black spruce stands originating from fire and logging.Crossref | GoogleScholarGoogle Scholar |

Johnson  RW, Burrows  WH (1994) Acacia open forests, woodlands and shrublands. In ‘Australian Vegetation’. (Ed. RH Groves) (Cambridge University press: Cambridge, UK)

Kotliar NB, Hejl SJ, Hutto RL, Saab VA, Melcher CP, McFadzen ME (2002) Effects of fire and post-fire salvage logging on avian communities in conifer-dominated forests of the western United States. Studies in Avian Biology 25, 49–64.

Kotliar NB, Kennedy PL, Ferree K (2007) Avifaunal responses to fire in south-western montane forests along a burn severity gradient. Ecological Applications 17, 491–507.
Avifaunal responses to fire in south-western montane forests along a burn severity gradient.Crossref | GoogleScholarGoogle Scholar | 17489255PubMed |

Leavesley  AJ (2008) The response of birds to the fire regimes of mulga woodlands in central Australia. PhD thesis, Fenner School of Environment and Society, Australian National University, Canberra.

Leavesley AJ, Magrath RD (2005) Communicating about danger: urgency alarm calling in a bird. Animal Behaviour 70, 365–373.
Communicating about danger: urgency alarm calling in a bird.Crossref | GoogleScholarGoogle Scholar |

Letnic M, Dickman CR (2005) The responses of small mammals to patches regenerating after fire in the Simpson Desert, central Australia. Austral Ecology 30, 24–39.
The responses of small mammals to patches regenerating after fire in the Simpson Desert, central Australia.Crossref | GoogleScholarGoogle Scholar |

MacArthur RH, MacArthur JW (1961) On bird species diversity. Ecology 42, 594–598.
On bird species diversity.Crossref | GoogleScholarGoogle Scholar |

MacKenzie  DI, Nichols  JD, Royle  JA, Pollock  KH, Bailey  LL, Hines  JE (2006) ‘Occupancy Estimation and Modelling: Inferring Patterns and Dynamics of Species Occurrence.’ (Elsevier Academic Press: Burlington, MA)

McCulloch  CE, Searle  SR (2001) ‘Generalized, Linear, and Mixed Models.’ (Wiley: New York)

Morton SR (1990) The impact of European settlement on the vertebrate animals of arid Australia: a conceptual model. Proceedings of the Ecological Society of Australia 16, 201–213.

Morton  SR (1993) Determinants of diversity in animal communities of arid Australia. In ‘Species Diversity in Ecological Communities: Historical and Geographical Perspectives’. (Eds RE Ricklefs, D Schluter) pp. 158–169. (University of Chicago Press: Chicago, MA)

Morton SR, Stafford Smith DM, Friedel MH, Griffin GF, Pickup G (1995) The stewardship of arid Australia: ecology and landscape management. Journal of Environmental Management 43, 195–217.
The stewardship of arid Australia: ecology and landscape management.Crossref | GoogleScholarGoogle Scholar |

Nano CEM, Clarke PJ (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 |

Norvell RE, Howe FP, Parrish JR (2003) A seven-year comparison of relative-abundance and distance-sampling methods. The Auk 120, 1013–1028.
A seven-year comparison of relative-abundance and distance-sampling methods.Crossref | GoogleScholarGoogle Scholar |

Paltridge R, Southgate RI (2001) The effect of habitat type and seasonal conditions on fauna in two areas of the Tanami Desert. Wildlife Research 28, 247–260.
The effect of habitat type and seasonal conditions on fauna in two areas of the Tanami Desert.Crossref | GoogleScholarGoogle Scholar |

Payne  RW, Harding  SA, Murray  DA, Soutar  DM, Baird  DB, Welham  SJ, Kane  AF, Gilmour  AR, Thompson  R, Webster  R, Tunnicliffe Wilson  G (2005) ‘GenStat Release 8 Reference Manual.’ (VSN International: Oxford, UK)

Pickett  STA (1989) Space-for-time substitution as an alternative to long-term studies. In ‘Long-term Studies in Ecology’. (Ed. GE Likens) pp. 110–135. (Springer-Verlag: New York)

Pons P, Lambert B, Rigolot E, Prodon R (2003) The effects of grassland management using fire on habitat occupancy and conservation of birds in a mosaic landscape. Biodiversity and Conservation 12, 1843–1860.
The effects of grassland management using fire on habitat occupancy and conservation of birds in a mosaic landscape.Crossref | GoogleScholarGoogle Scholar |

Raphael MG, Morrison ML, Yoder-Williams MP (1987) Breeding bird populations during twenty-five years of post-fire succession in the Sierra Nevada. The Condor 89, 614–626.
Breeding bird populations during twenty-five years of post-fire succession in the Sierra Nevada.Crossref | GoogleScholarGoogle Scholar |

Reche HF, Davis WE (1997) Foraging ecology of a mulga bird community. Wildlife Research 24, 27–43.
Foraging ecology of a mulga bird community.Crossref | GoogleScholarGoogle Scholar |

Recher HF (1988) Counting terrestrial birds: use and application of census procedures in Australia. Australian Zoological Review 1, 25–45.

Reid  JRW, Kerle  JA, Morton  SR (1991) ‘The Distribution and Abundance of Vertebrate Fauna of Uluru (Ayers Rock–Mount Olga) National Park.’ (CSIRO Division of Wildlife and Ecology: Alice Springs)

Ries L, Fletcher RJ, Battin J, Sisk TD (2004) Ecological responses to habitat edges: mechanisms, models and variability explained. Annual Review of Ecology and Systematics 35, 491–522.
Ecological responses to habitat edges: mechanisms, models and variability explained.Crossref | GoogleScholarGoogle Scholar |

Rosenstock SS, Anderson DR, Giesen KM, Leukering T, Carter MF (2002) Landbird counting techniques: current practices and an alternative. The Auk 119, 46–53.
Landbird counting techniques: current practices and an alternative.Crossref | GoogleScholarGoogle Scholar |

Russell RE, Royle JA, Saab VA, Lehmkuhl VA, Block WM, Sauer JR (2009) Modeling the effects of environmental disturbance on wildlife communities: avian responses to prescribed fire. Ecological Applications 19, 1253–1263.
Modeling the effects of environmental disturbance on wildlife communities: avian responses to prescribed fire.Crossref | GoogleScholarGoogle Scholar | 19688932PubMed |

Slatyer RO (1961) Methodology of a water balance study conducted on a desert woodland (Acacia aneura F. Muell.) community in central Australia. UNESCO Arid Zone Research 16, 15–26.

Smyth A, Mac Nally RDL (2002) Comparative influence of forest management and habitat structural factors on the abundances of hollow-nesting bird species in subtropical Australian eucalypt forest. Environmental Management 30, 547–559.
Comparative influence of forest management and habitat structural factors on the abundances of hollow-nesting bird species in subtropical Australian eucalypt forest.Crossref | GoogleScholarGoogle Scholar | 12481921PubMed |

Stafford-Smith DM, Morton SR (1990) A framework for the ecology of arid Australia. Journal of Arid Environments 18, 255–278.

Stuart-Smith AK, Adams IT, Larsen KW (2002) Songbird communities in a pyrogenic habitat mosaic. International Journal of Wildland Fire 11, 75–84.
Songbird communities in a pyrogenic habitat mosaic.Crossref | GoogleScholarGoogle Scholar |

Ter Braak  CJF, Smilauer  P (2002) ‘CANOCO Reference Manual and CanoDraw for Windows User’s Guide: Software for Canonical Community Ordination (Version 4.5).’ (Microcomputer Power: New York)

Thomas  L, Laake  JL, Strindberg  S, Marques  FFC, Buckland  ST, Borchers  DL, Anderson  DR, Burnham  KP, Hedley  SL, Pollard  JH, Bishop  JRB, Marques  TA (2006) Distance 5.0. Release 2. (Research Unit for Wildlife Population Assessment, University of St Andrews: UK) Available at http://www.ruwpa.st-and.ac.uk/distance/ [Verified 30 August 2010]

Tongway DJ, Ludwig JA (1990) Vegetation and soil patterning in semi-arid mulga lands of Eastern Australia. Australian Journal of Ecology 15, 23–34.
Vegetation and soil patterning in semi-arid mulga lands of Eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Valentine LE, Schwarzkopf L, Johnson CN, Grice AC (2007) Burning season influences the response of bird assemblages to fire in tropical savannas. Biological Conservation 137, 90–101.
Burning season influences the response of bird assemblages to fire in tropical savannas.Crossref | GoogleScholarGoogle Scholar |

Walker  J, Hopkins  MS (1998) Vegetation. In ‘Australian Soil and Land Survey’. (Eds RC McDonald, RF Isbell, JG Speight, J Walker, MS Hopkins) (CSIRO Publishing: Melbourne)

Whelan  RJ (1995) ‘The Ecology of Fire.’ (Cambridge University Press: Cambridge, UK)

Whelan  RJ, Rodgerson  L, Dickman  CR, Sutherland  EF (2002) Critical life cycles of plants and animals: developing a process-based understanding of population changes in fire-prone landscapes. In ‘Flammable Australia: the Fire Regimes and Biodiversity of a Continent’. (Eds R Bradstock, JE Williams, AM Gill) pp. 94–124. (Cambridge University Press: Cambridge, UK)

Woinarski JCZ, Recher HF (1997) Impact and response: a review of the effects of fire on the Australian avifauna. Pacific Conservation Biology 3, 183–205.