Building selection by the common brushtail possum (Trichosurus vulpecula)
Yuqing Chen A , Bruce Doran A , Sharyn Sinclair-Hannocks B , John Mangos B and Philip Gibbons A CA Fenner School of Environment and Society, The Australian National University, B141, Linnaeus Way, Acton, ACT 2601, Australia.
B Facilities and Services Division, The Australian National University, 124, Garran Road, Acton, ACT 2601, Australia.
C Corresponding author. Email: philip.gibbons@anu.edu.au
Wildlife Research 47(2) 186-195 https://doi.org/10.1071/WR19106
Submitted: 25 June 2019 Accepted: 26 November 2019 Published: 10 January 2020
Abstract
Context: The common brushtail possum (Trichosurus vulpecula) is a protected native species in Australia that can access buildings in urban areas and cause considerable damage or disruption to building occupants. Although several strategies to discourage this species from entering buildings have been recommended, few have been evaluated empirically.
Aims: Our study aims to analyse how landscaping and building construction influence occupancy of buildings by the common brushtail possum.
Methods: We collated reports of possums occupying 134 buildings over 12 years on the campus of The Australian National University (ANU), in the Australian Capital Territory (ACT). We used generalised linear modelling (GLM) to identify associations between the total number of reported possum-related incidents for buildings and a range of landscape and building characteristics.
Key results: Controlling for the effect of building size, we found that the number of reported possum-related incidents in buildings was positively associated with the percentage of tree and shrub canopy cover within the calculated home-range buffer distance of 49 m from buildings, length of canopy overhanging roofs and building age, and negatively associated with tree species richness and number of trees with natural hollows and nest boxes within 49 m of buildings. There were likely to be more possum-related reports from buildings in areas where the dominant tree genus was native, buildings with parapets (walls extending above the roof), buildings with structures penetrating from the roof, buildings with tile roofs and gable roofs.
Conclusions: A combination of suitable habitat surrounding buildings, suitable access to the roofs of buildings and weak points in building roofs (e.g. parapets, roof penetrations), makes them more vulnerable to occupancy by the common brushtail possum.
Implications: Our results provided clues for managing existing buildings, or designing new buildings, in a way that may reduce the likelihood of occupancy by the common brushtail possum. Our study also demonstrated how building-maintenance records can be used to address human–wildlife conflict over time.
Additional keywords: control, human–wildlife conflict, pest wildlife, urban ecology.
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