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RESEARCH ARTICLE
Contents Vol 22(7)

Acid frogs can stand the heat: amphibian resilience to wildfire in coastal wetlands of eastern Australia

Katrin Lowe A C , J. Guy Castley B and Jean-Marc Hero A
+ Author Affiliations
- Author Affiliations

A Environmental Futures Centre, Griffith School of Environment, Griffith University, Gold Coast campus, Qld 4222, Australia.

B International Centre for Ecotourism Research, Griffith School of Environment, Griffith University, Gold Coast campus, Qld 4222, Australia.

C Corresponding author. Email: k.lowe@griffith.edu.au

International Journal of Wildland Fire 22(7) 947-958 https://doi.org/10.1071/WF12128
Submitted: 2 September 2012  Accepted: 7 March 2013   Published: 15 July 2013

Abstract

Fire has varying effects on species ecology. Knowledge of amphibian responses to fire is particularly limited, with variable responses reported amongst studies. Variability is attributed to differences in fire regimes, sampling methodologies, historical exposure to fire and species traits. Acid frogs, a group of amphibians restricted to acidic coastal heath wetlands of eastern Australia, occupy a discrete ecological niche that is exposed to regular and intense fires. Visual encounter surveys conducted monthly over 2 years revealed different short- and long-term responses to fire in three threatened acid frog species (Litoria olongburensis, Litoria freycineti and Crinia tinnula). Fires altered the thermal properties of habitats by increasing substrate temperature and widening daily temperature ranges. Acid frog populations did not suffer adversely from moderate intensity fires as suitable refuges, including standing water, were available. All species were present shortly after fire with subsequent successful reproduction occurring once wetlands were sufficiently inundated. Time since fire was a strong predictor of landscape scale differences in average relative abundance of acid frogs, yet the relationships varied among species. This highlights the importance of assessing community-wide responses to fire at the landscape scale. The dynamic and adaptive responses observed within acid frog populations demonstrate substantial resilience to fire processes in these fire prone environments.

Additional keywords: abundance, adaptation, disturbance, Litoria olongburensis, mixed effect models, thermal, wallum.


References

Akaike H (1973) Information theory and extension of the maximum likelihood principle. In ‘Proceedings of the 2nd International Symposium on Information Theory’, 2–8 September 1971, Tsahkadsor, Armenia. (Eds BN Petrov, F Caski), (Akadémiai Kiadó: Budapest, Hungary)

Andersen AN, Cook GD, Corbett KL, Douglas MM, Eager RW, Russell-Smith J, Setterfield SA, Williams RJ, Woinarski JCZ (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 |

Babbitt KJ, Barber MJ, Tarr TL (2003) Patterns of larval amphibian distribution along a wetland hydroperiod gradient. Canadian Journal of Zoology 81, 1539–1552.
Patterns of larval amphibian distribution along a wetland hydroperiod gradient.Crossref | GoogleScholarGoogle Scholar |

Bamford MJ (1992) The impact of fire and increasing time after fire upon Heleioporus eyrei, Limnodynastes dorsalis and Myobatrachus gouldii (Anura, Leptodactylidae) in Banksia woodland near Perth, Western Australia. Wildlife Research 19, 169–178.
The impact of fire and increasing time after fire upon Heleioporus eyrei, Limnodynastes dorsalis and Myobatrachus gouldii (Anura, Leptodactylidae) in Banksia woodland near Perth, Western Australia.Crossref | GoogleScholarGoogle Scholar |

Barton K (2012) ‘MuMIn: Multi-model inference’, R package, version 1.7.2. Available at http://CRAN.R-project.org/package=MuMIn [Verified 29 April 2013]

Bradstock RA (2008) Effects of large fires on biodiversity in south-eastern Australia: disaster or template for diversity? International Journal of Wildland Fire 17, 809–822.
Effects of large fires on biodiversity in south-eastern Australia: disaster or template for diversity?Crossref | GoogleScholarGoogle Scholar |

Bradstock RA, Bedward M, Gill AM, Cohn JS (2005) Which mosaic? A landscape ecological approach for evaluating interactions between fire regimes, habitat and animals. Wildlife Research 32, 409–423.
Which mosaic? A landscape ecological approach for evaluating interactions between fire regimes, habitat and animals.Crossref | GoogleScholarGoogle Scholar |

Broström G, Holmberg H (2011) ‘glmmML: generalized linear models with clustering’, R package, version 0.82-1. Available at http://CRAN.R-project.org/package=glmmML [Verified 29 April 2013]

Brown MJ, Podger FD (1982) Floristics and fire regimes of a vegetation sequence from sedgeland-heath to rainforest at Bathurst Harbour, Tasmania. Australian Journal of Botany 30, 659–676.
Floristics and fire regimes of a vegetation sequence from sedgeland-heath to rainforest at Bathurst Harbour, Tasmania.Crossref | GoogleScholarGoogle Scholar |

Burnham KP, Anderson DR (2002) ‘Model Selection and Multimodel Inference: A Practical Information-Theoretic Approach’ (Springer-Verlag: New York)

Bury RB (2004) Wildfire, fuel reduction, and herpetofaunas across diverse landscape mosaics in northwestern forests. Conservation Biology 18, 968–975.
Wildfire, fuel reduction, and herpetofaunas across diverse landscape mosaics in northwestern forests.Crossref | GoogleScholarGoogle Scholar |

deMaynadier PG, Hunter ML (1995) The relationship between forest management and amphibian ecology: a review of the North American literature. Environmental Review 3, 230–261.
The relationship between forest management and amphibian ecology: a review of the North American literature.Crossref | GoogleScholarGoogle Scholar |

Driscoll DA, Lindenmayer DB (2010) Fire management for biodiversity conservation: key research questions and out capacity to answer them. Biological Conservation 143, 1928–1939.
Fire management for biodiversity conservation: key research questions and out capacity to answer them.Crossref | GoogleScholarGoogle Scholar |

Driscoll DA, Roberts JD (1997) Impact of fuel-reduction burning on the frog Geocrinia lutea in southwest Western Australia. Australian Journal of Ecology 22, 334–339.
Impact of fuel-reduction burning on the frog Geocrinia lutea in southwest Western Australia.Crossref | GoogleScholarGoogle Scholar |

Fakheran S, Paul-Victor C, Heichinger C, Schmid B, Grossniklaus U, Turnbull LA (2010) Adaptation and extinction in experimentally fragmented landscapes. Proceedings of the National Academy of Sciences of the United States of America 107, 19120–19125.
Adaptation and extinction in experimentally fragmented landscapes.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXhsVClu7fN&md5=477c4d9a3e22c38484b7db1025ed5327CAS | 20956303PubMed |

Ford WM, Menzel MA, McGill DW, Laerm J, McCay TS (1999) Effects of a community restoration fire on small mammals and herpetofauna in the southern Appalachians. Forest Ecology and Management 114, 233–243.
Effects of a community restoration fire on small mammals and herpetofauna in the southern Appalachians.Crossref | GoogleScholarGoogle Scholar |

Friend GR (1993) Impact of fire on small vertebrates in mallee woodlands and heathlands of temperate Australia - a review. Biological Conservation 65, 99–114.
Impact of fire on small vertebrates in mallee woodlands and heathlands of temperate Australia - a review.Crossref | GoogleScholarGoogle Scholar |

Garden JG, McAlpine CA, Possingham HP (2010) Multi-scaled habitat considerations for conserving urban biodiversity: native reptiles and small mammals in Brisbane, Australia. Landscape Ecology 25, 1013–1028.
Multi-scaled habitat considerations for conserving urban biodiversity: native reptiles and small mammals in Brisbane, Australia.Crossref | GoogleScholarGoogle Scholar |

Gardner TA, Barlow J, Peres CA (2007) Paradox, presumption and pitfalls in conservation biology: the importance of habitat change for amphibians and reptiles. Biological Conservation 138, 166–179.
Paradox, presumption and pitfalls in conservation biology: the importance of habitat change for amphibians and reptiles.Crossref | GoogleScholarGoogle Scholar |

Gillon D (1983) The fire problem in tropical savannas. In ‘Tropical Savannas‘ (Ed. F Bourliere) pp. 617–641. (Elsevier: Amsterdam)

Griffith SJ, Bale C, Adam P, Wilson R (2003) Wallum and related vegetation on the NSW North Coast: description and phytosociological analysis. Cunninghamia 8, 202–252.

Griffith SJ, Bale C, Adam P (2008) Environmental correlates on coastal heath and allied vegetation. Australian Journal of Botany 56, 512–526.
Environmental correlates on coastal heath and allied vegetation.Crossref | GoogleScholarGoogle Scholar |

Griffiths AD, Christian KA (1996) The effect of fire on the frillneck lizard (Chlamydosaurus kingii) in northern Australia. Australian Journal of Ecology 21, 386–398.
The effect of fire on the frillneck lizard (Chlamydosaurus kingii) in northern Australia.Crossref | GoogleScholarGoogle Scholar |

Hennessy KJ, Lucas C, Nicholls N, Bathols J, Suppiah R, Ricketts J (2005) ‘Climate Change Impacts on Fire-weather in South-east Australia.’ (CSIRO Marine and Atmospheric Research: Melbourne, Australia)

Heyer WR, Donnelly MA, McDiarmid RW, Hayek LC, Foster MS (1994) ‘Measuring and Monitoring Biological Diversity: Standard Methods for Amphibians.’ (Ed. MS Foster) (Smithsonian Institution Press: Washington, DC)

Hossack BR, Corn PS (2007) Responses of pond-breeding amphibians to wildfire: Short-term patterns in occupancy and colonization. Ecological Applications 17, 1403–1410.
Responses of pond-breeding amphibians to wildfire: Short-term patterns in occupancy and colonization.Crossref | GoogleScholarGoogle Scholar | 17708217PubMed |

Hossack BR, Corn PS (2008) Wildfire effects on water temperature and selection of breeding sites by the boreal toad (Bufo boreas) in seasonal wetlands. Herpetological Conservation and Biology 3, 46–54.

Hurvich CM, Tsai C-L (1989) Regression and time series model selection in small samples. Biometrika 76, 297–307.
Regression and time series model selection in small samples.Crossref | GoogleScholarGoogle Scholar |

Ingram GJ, Corben CJ (1975) The frog fauna of North Stradbroke Island, with comments on the ‘acid’ frogs of the wallum. Proceedings of the Royal Society of Queensland 86, 49–54.

Kikkawa J, Ingram GJ, Dwyer PD (1979) The vertebrate fauna of Australian heathlands: an evolutionary perspective. In ‘Ecosystems of the World. 9A. Heathlands and Related Shrublands’. (Ed. RL Specht) pp. 231–279. (Elsevier: Amsterdam)

Kirkland GL, Snoddy HW, Amsler TL (1996) Impact of fire on small mammals and amphibians in a central Appalachian deciduous forest. American Midland Naturalist 135, 253–260.
Impact of fire on small mammals and amphibians in a central Appalachian deciduous forest.Crossref | GoogleScholarGoogle Scholar |

Lemckert FL, Brassil T, Haywood A (2004) Effects of a low intensity fire on populations of pond breeding anurans in mid-northern New South Wales, Australia. Applied Herpetology 1, 183–195.

Lewis BD, Goldingay RL (2005) Population monitoring of the vulnerable wallum sedge frog (Litoria olongburensis) in north-eastern New South Wales. Australian Journal of Zoology 53, 185–194.
Population monitoring of the vulnerable wallum sedge frog (Litoria olongburensis) in north-eastern New South Wales.Crossref | GoogleScholarGoogle Scholar |

Main AR (1981) Fire tolerance of heathland animals. In ‘Ecosystems of the World. 9B. Heathlands and Related Shrublands: Analytical Studies’. (Ed. RL Specht) pp. 85–90. (Elsevier: Amsterdam)

Mazerolle MJ, Desrochers A, Rochefort L (2005) Landscape characteristics influence pond occupancy by frogs after accounting for detectability. Ecological Applications 15, 824–834.
Landscape characteristics influence pond occupancy by frogs after accounting for detectability.Crossref | GoogleScholarGoogle Scholar |

Meyer E, Hero JM, Shoo L, Lewis B (2006) National recovery plan for the wallum sedgefrog and other wallum-dependent frog species. Queensland Parks and Wildlife Service, Brisbane, Report to Department of the Environment and Water Resources. (Canberra)

Moseley KR, Castleberry SB, Schweitzer SH (2003) Effects of prescribed fire on herpetofauna in bottomland hardwood forests. Southeastern Naturalist 2, 475–486.
Effects of prescribed fire on herpetofauna in bottomland hardwood forests.Crossref | GoogleScholarGoogle Scholar |

Papp MG, Papp COG (2000) Decline in a population of the treefrog Phyllodytes luteolus after fire. Herpetological Review 31, 93–95.

Parr CL, Andersen AN (2006) Patch mosaic burning for biodiversity conservation: a critique of the pyrodiversity paradigm. Conservation Biology 20, 1610–1619.
Patch mosaic burning for biodiversity conservation: a critique of the pyrodiversity paradigm.Crossref | GoogleScholarGoogle Scholar | 17181796PubMed |

Penman TD, Lemckert F, Mahony MJ (2006) A preliminary investigation into the potential impacts of fire on a forest dependent burrowing frog species. Pacific Conservation Biology 12, 78–83.

Pilliod DS, Bury RB, Hyde EJ, Pearl CA, Corn PS (2003) Fire and amphibians in North America. Forest Ecology and Management 178, 163–181.
Fire and amphibians in North America.Crossref | GoogleScholarGoogle Scholar |

Pinheiro J, Bates D, DebRoy S, Sarkar D, and the R Development Core Team (2012) ‘nlme: linear and nonlinear mixed effects models’, R package, version 3.1-102. Available at http://cran.r-project.org/web/packages/nlme/index.html [Verified 16 June 2013]

R Core Development Team (2012) ‘R: a language and environment for statistical computing.’ (R Foundation for Statistical Computing: Vienna, Austria) Available at http://www.R-project.org/ [Verified 29 April 2013]

Richards SA, Possingham HP, Tizard J (1999) Optimal fire management for maintaining community diversity. Ecological Applications 9, 880–892.
Optimal fire management for maintaining community diversity.Crossref | GoogleScholarGoogle Scholar |

Russell KR, Van Lear DH, Guynn DC (1999) Prescribed fire effects on herpetofauna: review and management implications. Wildlife Society Bulletin 27, 374–384.

Schurbon JM, Fauth JE (2003) Effects of prescribed burning on amphibian diversity in a southeastern US national forest. Conservation Biology 17, 1338–1349.
Effects of prescribed burning on amphibian diversity in a southeastern US national forest.Crossref | GoogleScholarGoogle Scholar |

Skelly DK (1996) Pond drying, predators, and the distribution of Pseudacris tadpoles. Copeia 1996, 599–605.
Pond drying, predators, and the distribution of Pseudacris tadpoles.Crossref | GoogleScholarGoogle Scholar |

Specht RL (1981) Conservation: Australian heathlands. In ‘Ecosystems of the World. 9B. Heathlands and Related Shrublands: Analytical Studies’. (Ed. RL Specht) pp. 235–240. (Elsevier: Amsterdam)

Watson P (2001) The role and use of fire for biodiversity conservation in Southeast Queensland: Fire management guidelines derived from ecological research. Southeast Queensland Fire and Biodiversity Consortium. (Brisbane)

Westerling AL, Hidalgo HG, Cayan DR, Swetnam TW (2006) Warming and earlier spring increase western US forest wildfire activity. Science 313, 940–943.
Warming and earlier spring increase western US forest wildfire activity.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XotFCitbo%3D&md5=308417c344ec067b31725c73724340afCAS | 16825536PubMed |

Westgate MJ, Driscoll DA, Lindenmayer DB (2012) Can the intermediate disturbance hypothesis and information on species traits predict anuran responses to fire? Oikos 121, 1516–1524.
Can the intermediate disturbance hypothesis and information on species traits predict anuran responses to fire?Crossref | GoogleScholarGoogle Scholar |

Whelan RJ (2002) ‘The Ecology of Fire.’ (Cambridge University Press: Cambridge, New York)

Williams AA, Karoly DJ, Tapper N (2001) The sensitivity of Australian fire danger to climate change. Climatic Change 49, 171–191.
The sensitivity of Australian fire danger to climate change.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXktVOht7c%3D&md5=0013432585efd6ccc9a567d197fd6bc2CAS |