Recently but infrequently burnt breeding sites are favoured by threatened Gouldian finches (Erythrura gouldiae)
Anna Weier A , Ian J. Radford B , Sofia L. J. Oliveira A and Michael J. Lawes A C
+ Author Affiliations
- Author Affiliations
A Research Institute for the Environment and Livelihoods, Charles Darwin University, Darwin, NT 0909, Australia.
B Department of Parks and Wildlife, PO Box 942, Lot 248 Ivanhoe Road, Kununurra, WA 6743, Australia.
C Corresponding author. Email: michael.lawes@cdu.edu.au
International Journal of Wildland Fire 25(12) 1281-1290 https://doi.org/10.1071/WF16105
Submitted: 9 June 2016 Accepted: 1 October 2016 Published: 2 November 2016
Abstract
Frequent and extensive fires are becoming increasingly common throughout the tropical savannas of northern Australia. This fire regime has been implicated in both habitat alteration and losses of biodiversity. Granivorous birds are particularly affected because of the effect of fire on grass seed availability. The endemic Gouldian finch (Erythrura gouldiae) has experienced population declines in recent decades, potentially in response to changed fire regimes. Using breeding data from monitored artificial nest-boxes, this study examined the choice of breeding site by Gouldian finches in response to several attributes of the prevailing fire regime. The fire regime was characterised using remote sensing analysis of annual fire scars. Time since last fire and fire frequency were the most useful predictors of breeding site occupancy. Gouldian finches favoured recently burnt sites (previous dry season), but also sites that were infrequently burnt (return time of 2–3 years). Consequently, under the current regime of many frequent fires, Gouldian finches move among breeding sites and display low seasonal site fidelity. Our findings provide support for the notion that the Gouldian finch favours a fine-grain patch-mosaic fire regime and that contemporary large-scale fire regimes are likely contributing to their decline.
Additional keywords: annual grasses, fire frequency, fire patchiness, fire size, patch-mosaic fire regime, Sorghum spp., tropical savanna.
References
Andersen AN, Woinarski JCZ, Parr CL (2012) Savanna burning for biodiversity: fire management for faunal conservation in Australian tropical savannas. Austral Ecology 37, 658–667.| Savanna burning for biodiversity: fire management for faunal conservation in Australian tropical savannas.Crossref | GoogleScholarGoogle Scholar |
Andrew MH, Mott JJ (1983) Annuals with transient seed banks: the population biology of indigenous sorghum species of tropical north-west Australia. Australian Journal of Ecology 8, 265–276.
| Annuals with transient seed banks: the population biology of indigenous sorghum species of tropical north-west Australia.Crossref | GoogleScholarGoogle Scholar |
Armstrong G, Legge S (2011) The post-fire response of an obligate seeding Triodia species (Poaceae) in the fire-prone Kimberley, north-west Australia. International Journal of Wildland Fire 20, 974–981.
| The post-fire response of an obligate seeding Triodia species (Poaceae) in the fire-prone Kimberley, north-west Australia.Crossref | GoogleScholarGoogle Scholar |
Blakers M, Davies SJJF, Reilly PN (1984) ‘The atlas of Australian birds.’ (Melbourne University Press: Melbourne)
Bowman D (2002) The Australian summer monsoon: a biogeographic perspective. Australian Geographical Studies 40, 261–277.
| The Australian summer monsoon: a biogeographic perspective.Crossref | GoogleScholarGoogle Scholar |
Bowman D, Franklin DC, Price OF, Brook BW (2007) Land management affects grass biomass in the Eucalyptus tetrodonta savannas of monsoonal Australia. Austral Ecology 32, 446–452.
| Land management affects grass biomass in the Eucalyptus tetrodonta savannas of monsoonal Australia.Crossref | GoogleScholarGoogle Scholar |
Bowman D, MacDermott HJ, Nichols SC, Murphy BP (2014) A grass–fire cycle eliminates an obligate‐seeding tree in a tropical savanna. Ecology and Evolution 4, 4185–4194.
| A grass–fire cycle eliminates an obligate‐seeding tree in a tropical savanna.Crossref | GoogleScholarGoogle Scholar | 25505543PubMed |
Bowman DMJS, Walsh A, Prior LD (2004) Landscape analysis of Aboriginal fire management in central Arnhem Land, north Australia. Journal of Biogeography 31, 207–223.
| Landscape analysis of Aboriginal fire management in central Arnhem Land, north Australia.Crossref | GoogleScholarGoogle Scholar |
Bowman DMJS, Brown GK, Braby MF, Brown JR, Cook LG, Crisp MD, Ford F, Haberle S, Hughes J, Isagi Y, Joseph L, McBride J, Nelson G, Ladiges PY (2010) Biogeography of the Australian monsoon tropics. Journal of Biogeography 37, 201–216.
| Biogeography of the Australian monsoon tropics.Crossref | GoogleScholarGoogle Scholar |
Brazill-Boast J, Pryke SR, Griffith SC (2010) Nest-site utilisation and niche overlap in two sympatric, cavity-nesting finches. Emu 110, 170–177.
| Nest-site utilisation and niche overlap in two sympatric, cavity-nesting finches.Crossref | GoogleScholarGoogle Scholar |
Brazill-Boast J, Dessmann JK, Davies GTO, Pryke SR, Griffith SC (2011) Selection of breeding habitat by the endangered Gouldian finch (Erythrura gouldiae) at two spatial scales. Emu 111, 304–311.
| Selection of breeding habitat by the endangered Gouldian finch (Erythrura gouldiae) at two spatial scales.Crossref | GoogleScholarGoogle Scholar |
Brazill-Boast J, Pryke SR, Griffith SC (2013) Provisioning habitat with custom-designed nest-boxes increases reproductive success in an endangered finch. Austral Ecology 38, 405–412.
| Provisioning habitat with custom-designed nest-boxes increases reproductive success in an endangered finch.Crossref | GoogleScholarGoogle Scholar |
Burnham KP, Anderson DR (2002) ‘Model selection and multimodel inference: a practical information-theoretic approach.’ (Springer: New York)
Craig A (1992) Aspects of post-fire regeneration in soft spinifex (Triodia pungens) communities near Newman, Western Australia. Western Australian Department of Agriculture. (Kununurra, WA)
Craig R, Heath B, Raisbeck-Brown N, Steber M, Marsden J, Smith R (2002) The distribution, extent and seasonality of large fires in Australia, April 1998–March 2000, as mapped from NOAA-AVHRR imagery. Department of Land Administration. (Perth, WA)
Crowley G, Garnett S (1999) Seeds of the annual grasses Schizachyrium spp. as a food resource for tropical granivorous birds. Australian Journal of Ecology 24, 208–220.
| Seeds of the annual grasses Schizachyrium spp. as a food resource for tropical granivorous birds.Crossref | GoogleScholarGoogle Scholar |
Department of the Environment (2016) Erythrura gouldiae, in Species profile and threats database. Available at http://www.environment.gov.au/sprat [Accessed 8 June 2016].
Dostine PL, Franklin DC (2002) A comparison of the diet of three finch species in the Yinberrie Hills area, Northern Territory. Emu 102, 159–164.
| A comparison of the diet of three finch species in the Yinberrie Hills area, Northern Territory.Crossref | GoogleScholarGoogle Scholar |
Dostine PL, Johnson GC, Franklin DC, Zhang Y, Hempel C (2001) Seasonal use of savanna landscapes by the Gouldian finch, Erythrura gouldiae, in the Yinberrie Hills area, Northern Territory. Wildlife Research 28, 445–458.
| Seasonal use of savanna landscapes by the Gouldian finch, Erythrura gouldiae, in the Yinberrie Hills area, Northern Territory.Crossref | GoogleScholarGoogle Scholar |
Elliott LP, Franklin DC, Bowman DMJS (2009) Frequency and season of fires varies with distance from settlement and grass composition in Eucalyptus miniata savannas of the Darwin region of northern Australia. International Journal of Wildland Fire 18, 61–70.
| Frequency and season of fires varies with distance from settlement and grass composition in Eucalyptus miniata savannas of the Darwin region of northern Australia.Crossref | GoogleScholarGoogle Scholar |
Exelis Visual Information Solutions (2014) ‘ENVI 5.2.’ (Exelis Visual Information Solutions: Boulder, CO)
Fisher DO, Johnson CN, Lawes MJ, Fritz SA, McCallum H, Blomberg SP, VanDerWal J, Abbott B, Frank A, Legge S, Letnic M, Thomas CR, Fisher A, Gordon IJ, Kutt A (2014) The current decline of tropical marsupials in Australia: is history repeating? Global Ecology and Biogeography 23, 181–190.
| The current decline of tropical marsupials in Australia: is history repeating?Crossref | GoogleScholarGoogle Scholar |
Franklin DC (1999) Evidence of disarray amongst granivorous bird assemblages in the savannas of northern Australia, a region of sparse human settlement. Biological Conservation 90, 53–68.
| Evidence of disarray amongst granivorous bird assemblages in the savannas of northern Australia, a region of sparse human settlement.Crossref | GoogleScholarGoogle Scholar |
Franklin DC, Whitehead PJ, Pardon G, Matthews J, McMahon P, McIntyre D (2005) Geographic patterns and correlates of the decline of granivorous birds in northern Australia. Wildlife Research 32, 399–408.
| Geographic patterns and correlates of the decline of granivorous birds in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Gibson DJ (2009) ‘Grasses and grassland ecology.’ (Oxford University Press Inc.: New York)
Kelly LT, Nimmo DG, Spence‐Bailey LM, Taylor RS, Watson SJ, Clarke MF, Bennett AF (2012) Managing fire mosaics for small mammal conservation: a landscape perspective. Journal of Applied Ecology 49, 412–421.
| Managing fire mosaics for small mammal conservation: a landscape perspective.Crossref | GoogleScholarGoogle Scholar |
Lawes MJ, Fisher DO, Johnson CN, Blomberg SP, Frank AS, Fritz SA, McCallum H, VanDerWal J, Abbott BN, Legge S (2015a) Correlates of recent declines of rodents in northern and southern Australia: habitat structure is critical. PLoS One 10, e0130626
| Correlates of recent declines of rodents in northern and southern Australia: habitat structure is critical.Crossref | GoogleScholarGoogle Scholar | 26111037PubMed |
Lawes MJ, Murphy BP, Fisher A, Woinarski JC, Edwards A, Russell-Smith J (2015b) Small mammals decline with increasing fire extent in northern Australia: evidence from long-term monitoring in Kakadu National Park. International Journal of Wildland Fire 24, 712–722.
| Small mammals decline with increasing fire extent in northern Australia: evidence from long-term monitoring in Kakadu National Park.Crossref | GoogleScholarGoogle Scholar |
Lazarides M, Hacker J, Andrew M (1991) Taxonomy, cytology and ecology of indigenous Australian sorghums (Sorghum Moench: Andropogoneae: Poaceae). Australian Systematic Botany 4, 591–635.
| Taxonomy, cytology and ecology of indigenous Australian sorghums (Sorghum Moench: Andropogoneae: Poaceae).Crossref | GoogleScholarGoogle Scholar |
Legge S, Murphy S, Kingswood R, Maher B, Swan D (2011) EcoFire: restoring the biodiversity values of the Kimberley region by managing fire. Ecological Management & Restoration 12, 84–92.
| EcoFire: restoring the biodiversity values of the Kimberley region by managing fire.Crossref | GoogleScholarGoogle Scholar |
Legge S, Garnett S, Maute K, Heathcote J, Murphy S, Woinarski JC, Astheimer L (2015) A landscape-scale, applied fire management experiment promotes recovery of a population of the threatened Gouldian Finch, Erythrura gouldiae, in Australia’s tropical savannas. PLoS One 10, e0137997
| A landscape-scale, applied fire management experiment promotes recovery of a population of the threatened Gouldian Finch, Erythrura gouldiae, in Australia’s tropical savannas.Crossref | GoogleScholarGoogle Scholar | 26445496PubMed |
Lewis M (2007) Foraging responses of the endangered Gouldian finch to temporal differences in seed availability in northern Australian savanna grasslands. In ‘Temporal dimensions of landscape ecology’. (Eds JA Bissonette, I Storch) pp. 218–235. (Springer US: New York)
Lindstrom MJ, Bates DM (1990) Non-linear mixed effects models for repeated measures data. Biometrics 46, 673–687.
| Non-linear mixed effects models for repeated measures data.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DyaK3M%2FlsFSktA%3D%3D&md5=e1a877890784ddfa0b28c82071acea28CAS |
Ludwig JA, Reynolds JF (1988) ‘Statistical ecology: a primer in methods and computing.’ (John Wiley & Sons: New York)
Mott J (1978) Dormancy and germination in five native grass species from savannah woodland communities of the Northern Territory. Australian Journal of Botany 26, 621–631.
| Dormancy and germination in five native grass species from savannah woodland communities of the Northern Territory.Crossref | GoogleScholarGoogle Scholar |
Mott JJ, Andrew MH (1985) The effect of fire on the population dynamics of native grasses in tropical savannas of north-west Australia. Proceedings of the Ecological Society of Australia 13, 231–239.
Nimmo DG, Kelly LT, Spence-Bailey LM, Watson SJ, Taylor RS, Clarke MF, Bennett AF (2013) Fire mosaics and reptile conservation in a fire-prone region. Conservation Biology 27, 345–353.
| Fire mosaics and reptile conservation in a fire-prone region.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BC3sblsFGrtw%3D%3D&md5=b88ac52c5fb1172842568d77ef42913fCAS | 23163245PubMed |
O’Malley C (2006) National recovery plan for the Gouldian finch (Erythrura gouldiae). WWF Australia, Sydney, and Parks and Wildlife NT, Department of Natural Resources, Environment and the Arts. (NT Government, Palmerston, NT). Available at http://www.territorystories.nt.gov.au/bitstream/10070/214471/1/Gouldian_Finch_nrp.pdf [Verified 3 October 2016]
Olson DM, Dinerstein E, Wikramanayake ED, Burgess ND, Powell GVN, Underwood EC, D’Amico JA, Itoua I, Strand HE, Morrison JC, Loucks CL, Allnutt TF, Ricketts TH, Kura Y, Lamoreux JF, Wettengel WW, Hedao P, Kassem KR (2001) Terrestrial ecoregions of the world: a new map of life on Earth. Bioscience 51, 933–938.
| Terrestrial ecoregions of the world: a new map of life on Earth.Crossref | GoogleScholarGoogle Scholar |
Palmer C, Taylor R, Burbidge AA (2004) Recovery plan for the Golden Bandicoot Isoodon auratus and Golden-backed Tree-rat Mesembriomys macrurus 2004–2009. Northern Territory Department of Infrastructure, Planning and Environment. (Darwin, NT).
Pastro LA, Dickman CR, Letnic M (2011) Burning for biodiversity or burning biodiversity? Prescribed burn vs wildfire impacts on plants, lizards, and mammals. Ecological Applications 21, 3238–3253.
| Burning for biodiversity or burning biodiversity? Prescribed burn vs wildfire impacts on plants, lizards, and mammals.Crossref | GoogleScholarGoogle Scholar |
R Core Team (2015) ‘R: A language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna, Austria)
Radford IJ, Gibson LA, Corey B, Carnes K, Fairman R (2015) Influence of fire mosaics, habitat characteristics and cattle disturbance on mammals in fire-prone savanna landscapes of the northern Kimberley. PLoS One 10, e0130721
| Influence of fire mosaics, habitat characteristics and cattle disturbance on mammals in fire-prone savanna landscapes of the northern Kimberley.Crossref | GoogleScholarGoogle Scholar | 26121581PubMed |
Reside AE, VanDerWal J, Kutt A, Watson I, Williams S (2012) Fire regime shifts affect bird species distributions. Diversity & Distributions 18, 213–225.
| Fire regime shifts affect bird species distributions.Crossref | GoogleScholarGoogle Scholar |
Richards SA (2005) Testing ecological theory using the information-theoretic approach: examples and cautionary results. Ecology 86, 2805–2814.
| Testing ecological theory using the information-theoretic approach: examples and cautionary results.Crossref | GoogleScholarGoogle Scholar |
Rosenberg MS, Anderson CD (2011) PASSaGE: pattern analysis, spatial statistics and geographic exegesis. Version 2. Methods in Ecology and Evolution 2, 229–232.
| PASSaGE: pattern analysis, spatial statistics and geographic exegesis. Version 2.Crossref | GoogleScholarGoogle Scholar |
Rossiter NA, Setterfield SA, Douglas MM, Hutley LB (2003) Testing the grass-fire cycle: alien grass invasion in the tropical savannas of northern Australia. Diversity & Distributions 9, 169–176.
| Testing the grass-fire cycle: alien grass invasion in the tropical savannas of northern Australia.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith J, Yates CP (2007) Australian savanna fire regimes: context, scale, patchiness. Fire Ecology 3, 48–63.
| Australian savanna fire regimes: context, scale, patchiness.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith J, Whitehead PJ, Cook GD, Hoare JL (2003a) Response of eucalyptus-dominated savanna to frequent fires: lessons from Munmarlary, 1973–1996. Ecological Monographs 73, 349–375.
| Response of eucalyptus-dominated savanna to frequent fires: lessons from Munmarlary, 1973–1996.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith J, Yates C, Edwards A, Allan GE, Cook GD, Cooke P, Craig R, Heath B, Smith R (2003b) Contemporary fire regimes of northern Australia, 1997–2001: change since Aboriginal occupancy, challenges for sustainable management. International Journal of Wildland Fire 12, 283–297.
| Contemporary fire regimes of northern Australia, 1997–2001: change since Aboriginal occupancy, challenges for sustainable management.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith J, Cook GD, Cooke PM, Edwards AC, Lendrum M, Meyer C, Whitehead PJ (2013) Managing fire regimes in north Australian savannas: applying Aboriginal approaches to contemporary global problems. Frontiers in Ecology and the Environment 11, e55–e63.
| Managing fire regimes in north Australian savannas: applying Aboriginal approaches to contemporary global problems.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith J, Edwards AC, Woinarski JCZ, Fisher A, Murphy BP, Lawes MJ, Crase B (2014) North Australian tropical savannas: the three parks savanna fire-effects plot network. In ‘Biodiversity and environmental change: monitoring, challenges and direction’. (Eds D Lindenmayer, E Burns, N Thurgate and A Lowe) pp. 335–378 (CSIRO Publishing: Melbourne).
Scott KA, Setterfield SA, Andersen AN, Douglas MM (2009) Correlates of grass-species composition in a savanna woodland in northern Australia. Australian Journal of Botany 57, 10–17.
| Correlates of grass-species composition in a savanna woodland in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Scott KA, Setterfield SA, Douglas MM, Andersen AN (2010) Environmental factors influencing the establishment, height and fecundity of the annual grass Sorghum intrans in an Australian tropical savanna. Journal of Tropical Ecology 26, 313–322.
| Environmental factors influencing the establishment, height and fecundity of the annual grass Sorghum intrans in an Australian tropical savanna.Crossref | GoogleScholarGoogle Scholar |
Taylor RS, Watson SJ, Nimmo DG, Kelly LT, Bennett AF, Clarke MF (2012) Landscape-scale effects of fire on bird assemblages: does pyrodiversity beget biodiversity? Diversity & Distributions 18, 519–529.
| Landscape-scale effects of fire on bird assemblages: does pyrodiversity beget biodiversity?Crossref | GoogleScholarGoogle Scholar |
Tidemann SC, Boyden J, Elvish R, Elvish J, Ogorman B (1992) Comparison of the breeding sites and habitat of two hole-nesting estrilid finches, one endangered, in northern Australia. Journal of Tropical Ecology 8, 373–388.
| Comparison of the breeding sites and habitat of two hole-nesting estrilid finches, one endangered, in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Tidemann SC, Lawson C, Elvish R, Boyden J, Elvish J (1999) Breeding biology of the Gouldian finch Erythrura gouldiae, an endangered finch of northern Australia. Emu 99, 191–199.
| Breeding biology of the Gouldian finch Erythrura gouldiae, an endangered finch of northern Australia.Crossref | GoogleScholarGoogle Scholar |
Trauernicht C, Murphy BP, Prior LD, Lawes MJ, Bowman DM (2016) Human-imposed, fine-grained patch burning explains the population stability of a fire-sensitive conifer in a frequently burnt northern Australia savanna. Ecosystems 19, 896–909.
| Human-imposed, fine-grained patch burning explains the population stability of a fire-sensitive conifer in a frequently burnt northern Australia savanna.Crossref | GoogleScholarGoogle Scholar |
Trimble (2011) ‘Ecognition Developer 8.7 user guide.’ (Trimble: Munich, Germany)
Watkinson AR, Lonsdale WM, Andrew MH (1989) Modelling the population dynamics of an annual plant Sorghum intrans in the wet-dry tropics. Journal of Ecology 77, 162–181.
| Modelling the population dynamics of an annual plant Sorghum intrans in the wet-dry tropics.Crossref | GoogleScholarGoogle Scholar |
Watson SJ, Taylor RS, Nimmo DG, Kelly LT, Clarke MF, Bennett AF (2012) The influence of unburnt patches and distance from refuges on post-fire bird communities. Animal Conservation 15, 499–507.
| The influence of unburnt patches and distance from refuges on post-fire bird communities.Crossref | GoogleScholarGoogle Scholar |
Woinarski J (1990) Effects of fire on the bird communities of tropical woodlands and open forests in northern Australia. Australian Journal of Ecology 15, 1–22.
| Effects of fire on the bird communities of tropical woodlands and open forests in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Woinarski J (1999) Prognosis and framework for the conservation of biodiversity in rangelands: building on the north Australian experience. In ‘People and rangelands; building the future. Proceedings of the VI International Rangelands Congress’, 19–23 July 1999, Townsville, Qld. (Eds D Eldridge, D Freudenberger) pp. 639–645. (VI International Rangelands Congress: Aitkenvale, Qld)
Woinarski J, Tidemann S (1992) Survivorship and some population parameters for the endangered Gouldian finch Erythrura gouldiae and two other finch species at two sites in tropical northern Australia. Emu 92, 33–38.
| Survivorship and some population parameters for the endangered Gouldian finch Erythrura gouldiae and two other finch species at two sites in tropical northern Australia.Crossref | GoogleScholarGoogle Scholar |
Woinarski J, Risler J, Kean L (2004) Response of vegetation and vertebrate fauna to 23 years of fire exclusion in a tropical Eucalyptus open forest, Northern Territory, Australia. Austral Ecology 29, 156–176.
| Response of vegetation and vertebrate fauna to 23 years of fire exclusion in a tropical Eucalyptus open forest, Northern Territory, Australia.Crossref | GoogleScholarGoogle Scholar |
Yates CP, Edwards AC, Russell-Smith J (2008) Big fires and their ecological impacts in Australian savannas: size and frequency matters. International Journal of Wildland Fire 17, 768–781.
| Big fires and their ecological impacts in Australian savannas: size and frequency matters.Crossref | GoogleScholarGoogle Scholar |
