Research, Connect, Protect




Drought-driven change in wildlife distribution and numbers: a case study of koalas in south west Queensland

Leonie Seabrook
A,E, Clive McAlpineA,B, Greg BaxterA,B, Jonathan RhodesA,B, Adrian BradleyC and Daniel LunneyD

AThe University of Queensland, Landscape Ecology and Conservation Group, School of Geography, Planning & Environmental Management, Brisbane, Queensland 4072, Australia.

BThe University of Queensland, The Ecology Centre, Brisbane, Queensland 4072, Australia.
CThe University of Queensland, School of Biomedical Sciences, Brisbane, Queensland 4072, Australia.
DOffice of Environment and Heritage NSW, PO Box 1967, Hurstville, New SouthWales 2220, Australia and School of Biological Sciences and Biotechnology, Murdoch University, Murdoch, Western Australia 6150, Australia.
ECorresponding author. Email:

Context. Global climate changewill lead to increased climate variability, includingmorefrequent drought and heatwaves, in many areas of the world. This will affect the distribution and numbers of wildlife populations. In south-west Queensland, anecdotal reports indicated that a low density but significant koala population had been impacted by drought from 20012009, in accord with the predicted effects of climate change.
Aims. The study aimed to compare koala distribution and numbers in south-west Queensland in 2009 with pre-drought estimates from 19951997.
Methods. Community surveys and faecal pellet surveys were used to assess koala distribution. Population densities were estimated using the Faecal Standing Crop Method. From these densities, koala abundance in 10 habitat units was interpolated across the study region. Bootstrapping was used to estimate standard error. Climate data and land clearing were examined as possible explanations for changes in koala distribution and numbers between the two time periods.
Key results. Although there was only aminor change in distribution, there was an 80% decline in koala numbers across the study region, from amean population of 59 000 in 1995 to 11 600 in 2009. Most summers between 2002 and 2007 were hotter and drier than average. Vegetation clearance was greatest in the eastern third of the study region, with the majority of clearing being in mixed eucalypt/acacia ecosystems and vegetation on elevated residuals.
Conclusions. Changes in the area of occupancy and numbers of koalas allowed us to conclude that drought significantly reduced koala populations and that they contracted to critical riparian habitats. Land clearing in the eastern part of the region may reduce the ability of koalas to move between habitats.
Implications. The increase in hotter and drier conditions expected with climate change will adversely affect koala populations in south-west Queensland and may be similar in other wildlife species in arid and semiarid regions. The effect of climate change on trailing edge populations may interact with habitat loss and fragmentation to increase extinction risks. Monitoring wildlife population dynamics at themargins of their geographic ranges will help tomanage the impacts of climate change.

  • All
  • 2013
  • Biogeography
  • Biology
  • Chlamydia
  • Diet
  • Disease
  • Ecology
  • Ellis
  • Eucalyptus
  • Genetics
  • Habitat
  • Infection
  • Interventions
  • Koala
  • Lunney
  • Threats
  • Timms
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