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Effects of fire regimes on lizards in the wet-dry tropics of Australia

Published online by Cambridge University Press:  10 July 2009

Richard W. Braithwaite
Richard W. Braithwaite
Affiliation:
CSIRO Division of Wildlife and Rangelands Research, Tropical Ecosystems Research Centre, PMB 44, Winnellie, NT 5789, Australia,
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Abstract

A quantitative analysis of the effect of fire regime on the abundance of common lizard species and genera and the species richness of two lizard groups in Kakadu National Park (12° S) is presented. A surprising range of relationships between species abundance and components of fire regimes was revealed. Carlia amax, Heteronotia binoei and Carlia gracilis appear to be fire-sensitive, Diporiphora bilineata and Carlia triacantha are favoured by early hot fires, Cryptoblepharus plagiocephalus seems relatively unaffected, Carlia foliorum seems very tolerant of fires, while Ctenotus and Sphenomorphus spp. are favoured by low intensity, patchy fires with high intensity spots.

Lizard species experiencing the high-frequency fire regimes of the savannas and dry forests of the Australian wet-dry tropics are not able to select habitat at different stages of regeneration after fire but select habitat produced by fires of different types. The implication for management is that no one fire regime is optimal for the fauna as a whole. A range of fire regimes within a park should be maintained in order to retain the whole fauna.

Keywords

Australiafire intensityfire managementhabitat selectionhigh-frequency fireslizardsReptilia
Type
Research Article
Information
Journal of Tropical Ecology , Volume 3 , Issue 3 , August 1987 , pp. 265 - 275
Copyright
Copyright © Cambridge University Press 1987

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References

LITERATURE CITED

Afolayan, T. A. 1978. The effect of fires on the vegetation in Kainji Lake National Park, Nigeria. Oikos 31:376382.CrossRefGoogle Scholar
Braithwaite, R. W. 1984. Problems of scale, complexity and patchiness in sampling vertebrate fauna. Pp. 131–161 in Myers, K., Margules, C. R. & Musto, I. (eds). Survey methods for nature conservation Vol. 1. CSIRO Division of Water and Land Resources, Canberra. 399 pp.Google Scholar
Braithwaite, R. W. & Estbergs, J. A. 1985. Fire Patterns And Woody Vegetation Trends In The Alligator Rivers Region Of Northern Australia. Pp. 359–364 In Tothill, J. C. & Mott, J. D. (Eds). Ecology And Management Of The World'S Savannas. Australian Academy Of Science, Canberra. 384 Pp.Google Scholar
Braithwaite, R. W. & Estbergs, J. A. 1987. Fire-birds of the Top End. Australian Natural History 23.Google Scholar
Braithwaite, R. W., Friend, G. R. & Wombey, J. C. 1987. Reptiles and amphibians. In Ridpath, M. G., Haynes, C. & Williams, M. A. J. (eds). Monsoonal Australia: Landscape, ecology and man. A. A. Balkema, Rotterdam.Google Scholar
Caughley, J. 1985. Effect of fire on the reptile fauna of mallee. Pp. 31–34 in Grigg, G., Shine, R. & Ermann, H. (eds). Biology of Australian frogs and reptiles. Surrey Beatty, Chipping Norton, NSW. 527 pp.Google Scholar
Cogger, H. G. 1983. Reptiles and amphibians of Australia. (3rd edition). A. H. & A. W. Reed, Sydney. 660 pp.Google Scholar
Fyfe, G. 1980. The effect of fire on lizard communities in central Australia. Herpetofauna 12:19.Google Scholar
Gillon, D. 1983. The fire problem in tropical savannas. Pp. 617–641 in Bourliere, F. (ed.). Tropical savannas. Elsevier: Amsterdam, Oxford and New York. 730 pp.Google Scholar
Horner, P. & King, M. 1985. A new species of Ctenotus (Scincidae, Reptilia) from the Northern Territory. The Beagle, Occasional Papers of the Northern Territory Museum of Arts and Sciences 2:143148.Google Scholar
Huey, R. B. & Stevenson, R. D. 1979. Integrating thermal physiology and ecology of ectotherms: a discussion of approaches. American Zoologist 19:357366.CrossRefGoogle Scholar
James, C. D., Morton, S. R., Braithwaite, R. W. & Wombey, J. C. 1984. Dietary pathways through lizards of the Alligator Rivers region, Northern Territory. Supervising Scientist for the Alligator Rivers Region Technical Memo. 6:111.Google Scholar
James, C. & Shine, R. 1985. The seasonal timing of reproduction: a tropical-temperate comparison in Australian lizards. Oecologia (Berlin) 67:464&474.Google Scholar
Nix, H. A. 1983. Climate of tropical savannas. Pp. 37–62 in Bourliere, F. (ed.). Tropical savannas. Elsevier: Amsterdam, Oxford and New York. 730 pp.Google Scholar
Sadlier, R., Wombey, J. C. & Braithwaite, R W. 1985. Ctenotus kurnbudj and Ctenotus gagadju, two lizards (Scincidae) from the Alligator Rivers region of the Northern Territory. The Beagle, Occa sional Papers of the Northern Territory Museum of Arts and Sciences 2:95103.Google Scholar
Tracy, C. R. & Christian, K. A. 1986. Ecological relations among space, time, and thermal niche axes. Ecology 67:609615.CrossRefGoogle Scholar
Walker, J. 1981. Fuel dynamics in Australian vegetation. Pp. 101–127 in Gill, A. M., Groves, R. H. & Noble, I. R. (eds). Fire and the Australian biota. Australian Academy of Science, Canberra. 582 pp.Google Scholar
Walker, J. & Tunstall, B. R. 1981. Field estimation of foliage cover in Australian woody vegetation. CSIRO Division of Land Use Research Technical Memorandum 81–19.Google Scholar