Tree hollow densities reduced by frequent late dry-season wildfires in threatened Gouldian finch (Erythrura gouldiae) breeding habitat
I. J. Radford A B E , S. L. J. Oliveira B , B. Byrne C and L.-A. Woolley B DA Department of Biodiversity, Conservation and Attractions, PO Box 942, Kununurra, WA 6743, Australia.
B Research Institute for the Environment and Livelihoods, Charles Darwin University, Darwin, NT 0815, Australia.
C Botanical North, Cow Bay, Qld 4873, Australia.
D Worldwide Fund for Nature - Australia, Lotteries House, Cable Beach East, Broome, WA 2676, Australia.
E Corresponding author. Email: ian.radford@dbca.wa.gov.au
Wildlife Research - https://doi.org/10.1071/WR20108
Submitted: 30 June 2020 Accepted: 13 February 2021 Published online: 14 April 2021
Journal Compilation © CSIRO 2021 Open Access CC BY
Abstract
Context. Tree hollows are a key habitat resource for hollow-nesting species, including the northern Australian Gouldian finch (Erythrura gouldiae). Certain fire and disturbance regimes limit tree hollow availability in the northern Australian savannas.
Aims. This study investigated the influence of fire regime and vegetation structure on the density of tree hollows at Gouldian finch breeding sites.
Methods. Fire scars were mapped across breeding sites by using LANDSAT images. Vegetation plots within sites were spatially stratified according to three fire-regime attributes, namely, fire frequency, late dry-season wildfire frequency and time since the last fire. Tree hollow and vegetation structural attributes were measured at each vegetation plot. We modelled the relationship among hollow density, fire and vegetation attributes by using general linear mixed models with site as the random factor.
Key results. We found that the highest tree-hollow density was found at plots with high eucalypt tree density and cover and with the lowest frequency of late dry-season wildfires (<1 wildfire over 5 years). Tree-hollow density declined after >2 years without fire. Hollow density was not directly related to total fire frequency.
Conclusions. This study adds to previous work on grass seed resources in highlighting the importance of fire in Gouldian finch ecology. This study particularly highlighted the importance of reducing the impacts of high-intensity late dry-season wildfires because of their negative impacts on tree-hollow density, which is a key resource for breeding Gouldian finches.
Implications. We recommend the use of a network of interconnected annual patchy early dry-season prescribed burns for protecting Gouldian breeding habitat from threat of high-intensity wildfires. We do NOT recommend fire exclusion from Gouldian finch breeding habitats. This is because fire risks to hollow-bearing trees, and grass seed resources, increase with the long-term accumulation of savanna litter fuels in the absence of fire.
Keywords: fire ecology, savanna, obligate hollow nesting, grass finches, threatened species.
References
Andersen, A. N. (2020). Faunal responses to fire in Australian tropical savannas: insights from field experiments and their lessons for conservation management. Diversity & Distributions , .| Faunal responses to fire in Australian tropical savannas: insights from field experiments and their lessons for conservation management.Crossref | GoogleScholarGoogle Scholar |
Andersen, A. N., Cook, G. D., Corbett, L. K., Douglas, M. M., Eager, R. W., Russell-Smith, J., Setterfield, S. A., Williams, R. J., and Woinarski, J. C. Z. (2005). Fire frequency and biodiversity conservation in Australian tropical savannas: implications from the Kapalga fire experiment. Austral Ecology 30, 155–167.
| Fire frequency and biodiversity conservation in Australian tropical savannas: implications from the Kapalga fire experiment.Crossref | GoogleScholarGoogle Scholar |
Andersen, A. N., Ribbons, R. R., Pettit, M., and Parr, C. L. (2014). Burning for biodiversity: highly resilient ant communities respond only to strongly contrasting fire regimes in Australia’s seasonal tropics. Journal of Applied Ecology 51, 1406–1413.
| Burning for biodiversity: highly resilient ant communities respond only to strongly contrasting fire regimes in Australia’s seasonal tropics.Crossref | GoogleScholarGoogle Scholar |
Barton, K. (2019). MuMIn: Multi-Model Inference. R package version 1.43.15. Available at https://CRAN.R-project.org/package=MuMIn [verified 14 October 2020].
Bates, D., Maechler, M., Bolker, B., and Walker, S. (2015). Fitting linear mixed-effects models using lme4. Journal of Statistical Software 67, 1–48.
| Fitting linear mixed-effects models using lme4.Crossref | GoogleScholarGoogle Scholar |
Begg, R. J., Martin, K. C., and Price, N. F. (1981). The small mammals of Little Nourlangie Rock, NT. V. The effects of fire. Wildlife Research 8, 515–527.
| The small mammals of Little Nourlangie Rock, NT. V. The effects of fire.Crossref | GoogleScholarGoogle Scholar |
Bowman, D. M. J. S., Price, O., Whitehead, P. J., and Walsh, A. (2001). The ‘wilderness effect’ and the decline of Callitris intratropica on the Arnhem Land Plateau, northern Australia. Australian Journal of Botany 49, 665–672.
| The ‘wilderness effect’ and the decline of Callitris intratropica on the Arnhem Land Plateau, northern Australia.Crossref | GoogleScholarGoogle Scholar |
Brazill-Boast, J., Pryke, S. R., and Griffith, S. C. (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, J. K., Davies, G. T. O., Pryke, S. R., and Griffith, S. C. (2011a). 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., Van Rooij, E., Pryke, S. R., and Griffith, S. C. (2011b). Interference from long-tailed finches constrains reproduction in the endangered Gouldian finch. Journal of Animal Ecology 80, 39–48.
| Interference from long-tailed finches constrains reproduction in the endangered Gouldian finch.Crossref | GoogleScholarGoogle Scholar |
Brazill-Boast, J., Pryke, S. R., and Griffith, S. C. (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 |
Burbidge, A. A., and McKenzie, N. L. (1989). Patterns in the modern decline of Western Australia's vertebrate fauna: causes and conservation implications. Biological Conservation 50, 143–198.
Burrows, G. E. (2013). Buds, bushfires and resprouting in the eucalypts. Australian Journal of Botany 61, 331–349.
| Buds, bushfires and resprouting in the eucalypts.Crossref | GoogleScholarGoogle Scholar |
Clarke, P. J., Lawes, M. J., Murphy, B. F., Russell-Smith, J., Nano, C. E. M., Bradstock, R., Enright, N. J., Fontaine, J. B., Gosper, C. R., Radford, I., Midgley, J. J., and Gunton, R. (2015). A synthesis of postfire recovery traits of woody plants in Australian ecosystems. The Science of the Total Environment 534, 31–42.
| A synthesis of postfire recovery traits of woody plants in Australian ecosystems.Crossref | GoogleScholarGoogle Scholar | 25887372PubMed |
Corey, B., Andersen, A. N., Legge, S., Woinarski, J. C. Z., Radford, I. J., and Perry, J. J. (2020). Better biodiversity accounting is needed to prevent bio-perversity and maximise co-benefits from savanna burning. Conservation Letters 13, e12685.
| Better biodiversity accounting is needed to prevent bio-perversity and maximise co-benefits from savanna burning.Crossref | GoogleScholarGoogle Scholar |
Dawes‐Gromadzki, T. Z. (2007). Short‐term effects of low intensity fire on soil macroinvertebrate assemblages in different vegetation patch types in an Australian tropical savanna. Austral Ecology 32, 663–668.
| Short‐term effects of low intensity fire on soil macroinvertebrate assemblages in different vegetation patch types in an Australian tropical savanna.Crossref | GoogleScholarGoogle Scholar |
Dostine, P. L., and Franklin, D. C. (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, P. L., Johnson, G. C., Franklin, D. C., Zhang, Y., and 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 |
Edwards, A., Kennett, R., Price, O., Russell-Smith, J., Spiers, G., and Woinarski, J. (2003). Monitoring the impacts of fire regimes on vegetation in northern Australia: an example from Kakadu National Park. International Journal of Wildland Fire 12, 427–440.
Franklin, D. C. (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, D. C., Whitehead, P. J., Pardon, G., Matthews, J., McMahon, P., and 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 |
Fraser, B. F., Lawson, V., Morrison, S., Christophersen, P., McGreggor, S., and Rawlinson, M. (2003). Fire management experiment for the declining partridge pigeon, Kakadu National Park. Ecological Management & Restoration 4, 94–102.
| Fire management experiment for the declining partridge pigeon, Kakadu National Park.Crossref | GoogleScholarGoogle Scholar |
Griffiths, A. D., Garnett, S. T., and Brook, B. W. (2015). Fire frequency matters more than fire size: testing the pyrodiversity–biodiversity paradigm for at-risk small mammals in an Australian tropical savanna. Biological Conservation 186, 337–346.
| Fire frequency matters more than fire size: testing the pyrodiversity–biodiversity paradigm for at-risk small mammals in an Australian tropical savanna.Crossref | GoogleScholarGoogle Scholar |
Johnson, C. (2006). ‘Australia’s mammal extinctions: a 50,000-year history.’ (Cambridge University Press.)
Lawes, M. J., Murphy, B. P., Fisher, A., Woinarski, J. C., Edwards, A. C., and Russell-Smith, J. (2015). 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 |
Leahy, L., Legge, S. M., Tuft, K., McGregor, H. W., Barmuta, L. A., Jones, M. E., and Johnson, C. N. (2015). Amplified predation after fire suppresses rodent populations in Australia’s tropical savannas. Wildlife Research 42, 705–716.
| Amplified predation after fire suppresses rodent populations in Australia’s tropical savannas.Crossref | GoogleScholarGoogle Scholar |
Legge, S., Murphy, S., Heathcote, J., Flaxman, E., Augusteyn, J., and Crossman, M. (2008). The short-term effects of an extensive and high-intensity fire on vertebrates in the tropical savannas of the central Kimberley, northern Australia. Wildlife Research 35, 33–43.
| The short-term effects of an extensive and high-intensity fire on vertebrates in the tropical savannas of the central Kimberley, northern Australia.Crossref | GoogleScholarGoogle Scholar |
Legge, S., Garnett, S., Maute, K., Heathcote, J., Murphy, S., Woinarski, J. C., and 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 |
Lindsey, A. A., Barton, J. D., and Miles, S. R. (1958). Field efficiencies of forest sampling methods. Ecology 39, 428–444.
| Field efficiencies of forest sampling methods.Crossref | GoogleScholarGoogle Scholar |
McGregor, H. W., Legge, S., Jones, M. E., and Johnson, C. N. (2014). Landscape management of fire and grazing regimes alters the fine-scale habitat utilisation by feral cats. PLoS One 9, e109097.
| Landscape management of fire and grazing regimes alters the fine-scale habitat utilisation by feral cats.Crossref | GoogleScholarGoogle Scholar | 25329902PubMed |
McKenzie, N. L., Burbidge, A. A., Baynes, A., Brereton, R. N., Dickman, C. R., Gordon, G., Gibson, L. A., Menkhorst, P. W., Robinson, A. C., Williams, M. R., and Woinarski, J. C. Z. (2007). Analysis of factors implicated in the recent decline of Australia’s mammal fauna. Journal of Biogeography 34, 597–611.
| Analysis of factors implicated in the recent decline of Australia’s mammal fauna.Crossref | GoogleScholarGoogle Scholar |
Murphy, S. A., Legge, S. M., Heathcote, J., and Mulder, E. (2010). The effects of early and late-season fires on mortality, dispersal, physiology and breeding of red-backed fairy-wrens (Malurus melanocephalus). Wildlife Research 37, 145–155.
| The effects of early and late-season fires on mortality, dispersal, physiology and breeding of red-backed fairy-wrens (Malurus melanocephalus).Crossref | GoogleScholarGoogle Scholar |
Murphy, B. P., Cochrane, M. A., and Russell‐Smith, J. (2015). Prescribed burning protects endangered tropical heathlands of the Arnhem Plateau, northern Australia. Journal of Applied Ecology 52, 980–991.
| Prescribed burning protects endangered tropical heathlands of the Arnhem Plateau, northern Australia.Crossref | GoogleScholarGoogle Scholar |
Oliveira, S. L., Campagnolo, M. L., Price, O. F., Edwards, A. C., Russell-Smith, J., and Pereira, J. M. (2015). Ecological implications of fine-scale fire patchiness and severity in tropical savannas of Northern Australia. Fire Ecology 11, 10–31.
| Ecological implications of fine-scale fire patchiness and severity in tropical savannas of Northern Australia.Crossref | GoogleScholarGoogle Scholar |
Penton, C., Woolley, L.-A., Radford, I. J., and Murphy, B. P. (2020). Blocked-off: termitaria cause the overestimation of tree hollow availability by ground-based surveys in northern Australia. Forest Ecology and Management , .
| Blocked-off: termitaria cause the overestimation of tree hollow availability by ground-based surveys in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Price, O. F., Russell-Smith, J., and Watt, F. (2012). The influence of prescribed fire on the extent of wildfire in savanna landscapes of western Arnhem Land, Australia. International Journal of Wildland Fire 21, 297–305.
| The influence of prescribed fire on the extent of wildfire in savanna landscapes of western Arnhem Land, Australia.Crossref | GoogleScholarGoogle Scholar |
R Core Team (2020). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Available at https://www.R-project.org/ [verified 14 October 2020].
Radford, I. J. (2012). Threatened mammals become more predatory after small‐scale prescribed fires in a high‐rainfall rocky savanna. Austral Ecology 37, 926–935.
| Threatened mammals become more predatory after small‐scale prescribed fires in a high‐rainfall rocky savanna.Crossref | GoogleScholarGoogle Scholar |
Radford, I. J., Grice, A. C., Abbott, B. N., Nicholas, D. M., and Whiteman, L. (2008). Impacts of wet and dry season prescribed burning on invasive Cryptostegia grandiflora populations and on associated tropical woodland, and riparian forest in north Queensland, Australia. Austral Ecology 33, 151–167.
| Impacts of wet and dry season prescribed burning on invasive Cryptostegia grandiflora populations and on associated tropical woodland, and riparian forest in north Queensland, Australia.Crossref | GoogleScholarGoogle Scholar |
Radford, I. J., Gibson, L. A., Corey, B., Carnes, K., and 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 |
Radford, I. J., Woolley, L.-A., Corey, B., Vigilante, T., Wunambal Gaambera Aboriginal Corporation Hatherley, E., Fairman, R., Carnes, K., and Start, A. N. (2020). Prescribed burning benefits threatened mammals in northern Australia. Biodiversity and Conservation 29, 2985–3007.
| Prescribed burning benefits threatened mammals in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith, J., and Bowman, D. M. J. S. (1992). Conservation of monsoon rainforest isolates in the Northern Territory, Australia. Biological Conservation 59, 51–63.
| Conservation of monsoon rainforest isolates in the Northern Territory, Australia.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith, J., and Yates, C. P. (2007). Australian savanna fire regimes: context, scales, patchiness. Fire Ecology 3, 48–63.
| Australian savanna fire regimes: context, scales, patchiness.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith, J., Ryan, P. G., and Cheal, D. C. (2002). Fire regimes and the conservation of sandstone heath in monsoonal northern Australia: frequency, interval, patchiness. Biological Conservation 104, 91–106.
| Fire regimes and the conservation of sandstone heath in monsoonal northern Australia: frequency, interval, patchiness.Crossref | GoogleScholarGoogle Scholar |
Russell-Smith, J., Yates, C., Edwards, A., Allan, G. E., Cook, G. D., Cooke, P., Craig, R., Heath, B., and Smith, R. (2003a). 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., Whitehead, P. J., Cook, G. D., and Hoare, J. L. (2003b). 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., Edwards, A. C., Sangha, K. K., Yates, C. P., and Gardener, M. R. (2020). Challenges for prescribed fire management in Australia’s fire-prone rangelands–the example of the Northern Territory. International Journal of Wildland Fire 29, 339–353.
| Challenges for prescribed fire management in Australia’s fire-prone rangelands–the example of the Northern Territory.Crossref | GoogleScholarGoogle Scholar |
Skroblin, A., and Legge, S. (2012). Influence of fine‐scale habitat requirements and riparian degradation on the distribution of the purple‐crowned fairy‐wren (Malurus coronatus coronatus) in northern Australia. Austral Ecology 37, 874–884.
| Influence of fine‐scale habitat requirements and riparian degradation on the distribution of the purple‐crowned fairy‐wren (Malurus coronatus coronatus) in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Stobo-Wilson, A. M., Stokeld, D., Einoder, L. D., Davies, H. F., Fisher, A., Hill, B. M., Mahney, T., Murphy, B. P., Scroggie, M. P., Stevens, A., and Woinarski, J. C. Z. (2020). Bottom-up and top-down processes influence contemporary patterns of mammal species richness in Australia’s monsoonal tropics. Biological Conservation 247, 108638.
| Bottom-up and top-down processes influence contemporary patterns of mammal species richness in Australia’s monsoonal tropics.Crossref | GoogleScholarGoogle Scholar |
Tidemann, S. C., Boyden, J., Elvish, R., Elvish, J., and Ogorman, B. (1992). Comparison of the breeding sites and habitat of 2 hole-nesting estrilid finches, one endangered, in northern Australia. Journal of Tropical Ecology 8, 373–388.
| Comparison of the breeding sites and habitat of 2 hole-nesting estrilid finches, one endangered, in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Tidemann, S. C., Lawson, C., Elvish, R., Boyden, J., and 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 |
Trimble, T. (2011). ‘ECognition Developer 8.7 Reference Book.’ (Trimble Germany GmbH: Munich, Germany.)
Weier, A., Radford, I. J., Oliveira, S. L. J., and Lawes, M. J. (2016). Recently but infrequently burnt breeding sites favoured by Threatened Gouldian Finches. International Journal of Wildland Fire 25, 1281–1290.
| Recently but infrequently burnt breeding sites favoured by Threatened Gouldian Finches.Crossref | GoogleScholarGoogle Scholar |
Weier, A., Radford, I. J., Manson, A., Durrans, L. J., and Lawes, M. J. (2017). Frequent fires reduce the nutritional quality of Sorghum stipoideum seed, a keystone food resource for the Gouldian finch (Erythrura gouldiae). The Rangeland Journal 39, 105–112.
| Frequent fires reduce the nutritional quality of Sorghum stipoideum seed, a keystone food resource for the Gouldian finch (Erythrura gouldiae).Crossref | GoogleScholarGoogle Scholar |
Weier, A., Radford, I. J., Woolley, L.-A., and Lawes, M. J. (2018). Fire regime effects on annual grass seeds as food for threatened grass-finch. Fire Ecology 14, 8.
| Fire regime effects on annual grass seeds as food for threatened grass-finch.Crossref | GoogleScholarGoogle Scholar |
Weier, A., Radford, I. J., Bellairs, S. M., and Lawes, M. J. (2019). Seed set in Sorghum stipoideum and not fire determines the timing of breeding by Gouldian finches (Erythrura gouldiae). Austral Ecology 44, 151–162.
| Seed set in Sorghum stipoideum and not fire determines the timing of breeding by Gouldian finches (Erythrura gouldiae).Crossref | GoogleScholarGoogle Scholar |
Williams, R. J., Cook, G. D., Gill, A. M., and Moore, P. H. R. (1999). Fire regime, fire intensity and tree survival in a tropical savanna in northern Australia. Australian Journal of Ecology 24, 50–59.
| Fire regime, fire intensity and tree survival in a tropical savanna in northern Australia.Crossref | GoogleScholarGoogle Scholar |
Woinarski, J. C., and Legge, S. (2013). The impacts of fire on birds in Australia’s tropical savannas. Emu-Austral Ornithology 113, 319–352.
| The impacts of fire on birds in Australia’s tropical savannas.Crossref | GoogleScholarGoogle Scholar |
Woinarski, J. C. Z., Risler, J., and 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 |
Woinarski, J. C. Z., Legge, S., Fitzsimons, J. A., Traill, B. J., Burbidge, A. A., Fisher, A., Firth, R. S. C., Gordon, I. J., Griffiths, A. D., Johnson, C., McKenzie, N. L., Palmer, C., Radford, I., Rankmore, B., Ritchie, E., Ward, S., and Ziembicki, M. (2011). The disappearing mammal fauna of northern Australia: context, cause, and response. Conservation Letters 4, 192–201.
| The disappearing mammal fauna of northern Australia: context, cause, and response.Crossref | GoogleScholarGoogle Scholar |
Woolley, L.-A., Murphy, B. P., Radford, I. J., Westaway, J., and Woinarski, J. C. Z. (2018). Cyclones, fire and termites: the drivers of tree hollow abundance in northern Australia’s mesic tropical savanna. Forest Ecology and Management 419–420, 146–159.
| Cyclones, fire and termites: the drivers of tree hollow abundance in northern Australia’s mesic tropical savanna.Crossref | GoogleScholarGoogle Scholar |
Yates, C. P., Edwards, A. C., and 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 |