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Pacific Conservation Biology Pacific Conservation Biology Society
A journal dedicated to conservation and wildlife management in the Pacific region.
RESEARCH ARTICLE

An analysis of the long-term trends in the records of Friends of the Koala in north-east New South Wales: I. Cause and fate of koalas admitted for rehabilitation (1989–2020)

Daniel Lunney https://orcid.org/0000-0002-5771-0746 A B C * , Holly Cope D , Indrie Sonawane A , Eleanor Stalenberg E and Ron Haering A
+ Author Affiliations
- Author Affiliations

A Department of Planning and Environment, Locked Bag 5022, Parramatta, NSW 2124, Australia.

B Faculty of Science, School of Life and Environmental Sciences, University of Sydney, Sydney, NSW 2006, Australia.

C Australian Museum, 1 William Street, Sydney, NSW 2010, Australia.

D Faculty of Science, Sydney School of Veterinary Science, University of Sydney, Sydney, NSW 2006, Australia.

E Hawkesbury Institute for the Environment, Western Sydney University, Locked Bag 1797, Penrith, NSW 2751, Australia.


Handling Editor: Mike Calver

Pacific Conservation Biology 29(3) 177-196 https://doi.org/10.1071/PC22008
Submitted: 20 February 2022  Accepted: 6 March 2022   Published: 1 April 2022

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing

Abstract

Context: The koala is a threatened species in New South Wales and long-term datasets of koala rehabilitation provide a valuable source of insight into local threats.

Aims: To examine the long-term trends of the cause and fate of koalas admitted for rehabilitation to assist monitoring the recovery of koala populations and provide a new outlook on the limitations and strengths of rehabilitation records for koala conservation.

Methods: We used data from long-term records (1989–2020) of the Friends of the Koala wildlife rehabilitation group in north-east New South Wales to identify spatial and temporal trends in 5051 koala admissions.

Key results: Chlamydiosis was the most common cause of admission, affecting female koalas more often than males. Admissions of female koalas with chlamydiosis showed a two-fold increase over summer, and admissions for motor vehicle collisions and unsuitable environment increased in spring. The rescue locations of admissions show an increasing geographic spread over time, as well as an increasing density of records. Admission body scores were higher in koalas that were eventually released than in non-released koalas. Other main causes of admission were unsuitable environments, dog attacks, abandonment/orphaning and attacks from other species.

Conclusions: We have produced an analysis and interpretation of a long-term dataset of the relative importance of various threats facing the koala population in north-east New South Wales. However, admissions to rehabilitation do not capture all the landscape-scale problems confronting koalas locally, particularly climate change and habitat loss.

Implications: We have provided the baseline necessary to detect future changes in the causes for admission, rates of rehabilitation and post-release survival.

Keywords: animal marking, chlamydia, dingo, disease, dog attack, ear tags, fire, identification, long-term study, monitoring, motor vehicle strike, Phascolarctos cinereus, roadkill, wildlife rescue.


References

Adams-Hosking, C, McBride, MF, Baxter, G, Burgman, M, de Villiers, D, Kavanagh, R, Lawler, I, Lunney, D, Melzer, A, Menkhorst, R, Molsher, R, Moore, BD, Phalen, D, Rhodes, JR, Todd, C, Whisson, D, and McAlpine, CA (2016). Use of expert knowledge to elicit population trends for the koala (Phascolarctos cinereus). Diversity and Distributions 22, 249–262.
Use of expert knowledge to elicit population trends for the koala (Phascolarctos cinereus).Crossref | GoogleScholarGoogle Scholar |

Ashman, KR, Watchorn, DJ, and Whisson, DA (2019). Prioritising research efforts for effective species conservation: a review of 145 years of koala research. Mammal Review 49, 189–200.
Prioritising research efforts for effective species conservation: a review of 145 years of koala research.Crossref | GoogleScholarGoogle Scholar |

Barratt V (2020) Attitudes to wildlife rescue. Master of Science Communication, Centre for Science Communication, University of Otago, Dunedin, New Zealand.

Beyer, HL, de Villiers, D, Loader, J, Robbins, A, Stigner, M, Forbes, N, and Hanger, J (2018). Management of multiple threats achieves meaningful koala conservation outcomes. Journal of Applied Ecology 55, 1966–1975.
Management of multiple threats achieves meaningful koala conservation outcomes.Crossref | GoogleScholarGoogle Scholar |

Biolink (2017) Final koala habitat & population assessment Lismore local government area (part). Available at https://lismore.nsw.gov.au/files/Final_Koala_Habitat_and_Population_Assessment_2017.pdf. [Accessed 14 June 2021]

Black, KH, Price, GJ, Archer, M, and Hand, SJ (2014). Bearing up well? Understanding the past, present and future of Australia’s koalas. Gondwana Research 25, 1186–1201.
Bearing up well? Understanding the past, present and future of Australia’s koalas.Crossref | GoogleScholarGoogle Scholar |

Blackney J (2008) ‘Rescued! 43 wonderful stories about the rescue and rehabilitation of native wildlife.’ (Avocado Press Ltd: Porirua, New Zealand)

Brown, G, McAlpine, C, Rhodes, J, Lunney, D, Goldingay, R, Fielding, K, Hetherington, S, Hopkins, M, Manning, C, Wood, M, Brace, A, and Vass, L (2018). Assessing the validity of crowdsourced wildlife observations for conservation using public participatory mapping methods. Biological Conservation 227, 141–151.
Assessing the validity of crowdsourced wildlife observations for conservation using public participatory mapping methods.Crossref | GoogleScholarGoogle Scholar |

Brown, G, McAlpine, C, Rhodes, J, Lunney, D, Goldingay, R, Fielding, K, Hetherington, S, Hopkins, M, Manning, C, Wood, M, Brace, A, Vass, L, and Swankie, L (2019a). Integration of social spatial data to assess conservation opportunities and priorities. Biological Conservation 236, 452–463.
Integration of social spatial data to assess conservation opportunities and priorities.Crossref | GoogleScholarGoogle Scholar |

Brown, G, Rhodes, J, Lunney, D, Goldingay, R, Fielding, K, Garofano, N, Hetherington, S, Hopkins, M, Green, J, McNamara, S, Brace, A, Vass, L, Swankie, L, and McAlpine, C (2019b). The influence of sampling design on spatial data quality in a geographic citizen science project. Transactions in GIS 23, 1184–1203.
The influence of sampling design on spatial data quality in a geographic citizen science project.Crossref | GoogleScholarGoogle Scholar |

Burton, E, and Tribe, A (2016). The rescue and rehabilitation of koalas (Phascolarctos cinereus) in southeast Queensland. Animals 6, 56.
The rescue and rehabilitation of koalas (Phascolarctos cinereus) in southeast Queensland.Crossref | GoogleScholarGoogle Scholar |

Charalambous, R, and Narayan, E (2020). A 29-year retrospective analysis of koala rescues in New South Wales, Australia. PLoS ONE 15, e0239182.
A 29-year retrospective analysis of koala rescues in New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar | 33112860PubMed |

DAWE (2021a) ‘National Recovery plan for the Koala: Phascolarctos cinereus (combined populations of Queensland, New South Wales and the Australian Capital Territory), Draft June 2021.’ (Department of Agriculture, Water and the Environment, Canberra, ACT)

DAWE (2021b) ‘Consultation on species listing eligibility and conservation actions Phascolarctos cinereus (Koala).’ (Department of Agriculture, Water and the Environment: Canberra, ACT)

Dique, DS, Thompson, J, Preece, HJ, Penfold, GC, de Villiers, DL, and Leslie, RS (2003). Koala mortality on roads in south-east Queensland: the koala speed-zone trial. Wildlife Research 30, 419–436.
Koala mortality on roads in south-east Queensland: the koala speed-zone trial.Crossref | GoogleScholarGoogle Scholar |

DPIE (2020a) ‘NSW volunteer wildlife rehabilitation sector strategy 2020-2023.’ (Environment, Energy and Science Department of Planning, Industry and Environment: Parramatta, NSW)

DPIE (2020b) ‘Guidelines for the initial treatment and care of rescued koalas.’ (Environment, Energy and Science Department of Planning, Industry and Environment: Parramatta, NSW)

DPIE (2020c) ‘Koala rehabilitation training standards for the volunteer wildlife rehabilitation sector.’ (NSW Department of Planning, Industry and Environment: Parramatta, NSW)

DPIE (2020d) ‘Best practice guidelines for the use of koalas in scientific research.’ (NSW Department of Planning, Industry and Environment: Parramatta, NSW)

DPIE (2021a) NSW Koala Monitoring Framework: a statewide cross-tenure framework to monitor koalas. (NSW Department of Planning, Industry and Environment: Parramatta, NSW) Available at https://www.environment.nsw.gov.au/research-and-publications/publications-search/nsw-koala-monitoring-framework

DPIE (2021b) NSW Wildlife Rehabilitation 2019–20 Annual Report. Available at https://www.environment.nsw.gov.au/-/media/OEH/Corporate-Site/Documents/Animals-and-plants/Native-animals/wildlife-rehabilitation-annual-report-201920-200336.pdf. [Accessed 4 October 2021]

Englefield, B, Starling, M, and McGreevy, P (2018). A review of roadkill rescue: who cares for the mental, physical and financial welfare of Australian wildlife carers? Wildlife Research 45, 103–118.
A review of roadkill rescue: who cares for the mental, physical and financial welfare of Australian wildlife carers?Crossref | GoogleScholarGoogle Scholar |

Fielding, K, Lunney, D, Rhodes, J, Goldingay, R, Hetherington, S, Brace, A, Vass, L, Hopkins, M, Swankie, L, Garofano, N, Goulding, W, and McAlpine, C (2022). What predicts community members’ intentions to take action to protect koalas? Pacific Conservation Biology , .
What predicts community members’ intentions to take action to protect koalas?Crossref | GoogleScholarGoogle Scholar |

Gentle, M, Allen, BL, Oakey, J, Speed, J, Harriott, L, Loader, J, Robbins, A, de Villiers, D, and Hanger, J (2019). Genetic sampling identifies canid predators of koalas (Phascolarctos cinereus) in peri-urban areas. Landscape and Urban Planning 190, 103591.
Genetic sampling identifies canid predators of koalas (Phascolarctos cinereus) in peri-urban areas.Crossref | GoogleScholarGoogle Scholar |

Gonzalez-Astudillo, V, Allavena, R, McKinnon, A, Larkin, R, and Henning, J (2017). Decline causes of koalas in south-east Queensland, Australia: a 17-year retrospective study of mortality and morbidity. Scientific Reports 7, 42587.
Decline causes of koalas in south-east Queensland, Australia: a 17-year retrospective study of mortality and morbidity.Crossref | GoogleScholarGoogle Scholar | 28218272PubMed |

Griffith, JE, and Higgins, DP (2012). Diagnosis, treatment and outcomes for koala chlamydiosis at a rehabilitation facility (1995–2005). Australian Veterinary Journal 90, 457–463.
Diagnosis, treatment and outcomes for koala chlamydiosis at a rehabilitation facility (1995–2005).Crossref | GoogleScholarGoogle Scholar | 23106328PubMed |

Griffith, JE, Dhand, NK, Krockenberger, MB, and Higgins, DP (2013). A retrospective study of admission trends of koalas to a rehabilitation facility over 30 years. Journal of Wildlife Diseases 49, 18–28.
A retrospective study of admission trends of koalas to a rehabilitation facility over 30 years.Crossref | GoogleScholarGoogle Scholar | 23307368PubMed |

Guy, AJ, Curnoe, D, and Banks, PB (2013). A survey of current mammal rehabilitation and release practices. Biodiversity and Conservation 22, 825–837.
A survey of current mammal rehabilitation and release practices.Crossref | GoogleScholarGoogle Scholar |

Guy, AJ, Curnoe, D, and Banks, PB (2014). Welfare based primate rehabilitation as a potential conservation strategy: does it measure up? Primates 55, 139–147.
Welfare based primate rehabilitation as a potential conservation strategy: does it measure up?Crossref | GoogleScholarGoogle Scholar | 24132600PubMed |

Hadley, J (2006). The duty to aid nonhuman animals in dire need. Journal of Applied Philosophy 23, 445–451.

Haering, R, Wilson, V, Zhuo, A, and Stathis, P (2020). Towards a more effective model of wildlife care and rehabilitation: a survey of volunteers in New South Wales, Australia. Australian Zoologist 40, 605–627.
Towards a more effective model of wildlife care and rehabilitation: a survey of volunteers in New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |

Haering, R, Wilson, V, Zhuo, A, and Stathis, P (2021). A survey of veterinary professionals about their interactions with free-living native animals and the volunteer wildlife rehabilitation sector in New South Wales, Australia. Australian Zoologist 41, 254–282.
A survey of veterinary professionals about their interactions with free-living native animals and the volunteer wildlife rehabilitation sector in New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |

Hill, AG, Keogh, S, and Anderson, B (2019). Case study: Cattle-associated traumatic injuries in koalas (Phascolarctos cinereus), 2010–2016. Journal of Wildlife Rehabilitation 39, 11–15.

Jiang, A, Tribe, A, Phillips, CJC, and Murray, PJ (2021). Do livestock injure and kill koalas? Insights from wildlife hospital and rescue group admissions and an online survey of livestock–koala conflicts. Animals 11, 2684.
Do livestock injure and kill koalas? Insights from wildlife hospital and rescue group admissions and an online survey of livestock–koala conflicts.Crossref | GoogleScholarGoogle Scholar | 34573651PubMed |

Johnson R (2008) Thirty years of rehab – experiences of a wildlife veterinarian. In ‘Too close for comfort: contentious issues in human-wildlife encounters’. (Eds D Lunney, A Munn, W Meikle) pp. 15–21. (Royal Zoological Society of New South Wales: Mosman, NSW, Australia)

Kwok, ABC, Haering, R, Travers, SK, and Stathis, P (2021). Trends in wildlife rehabilitation rescues and animal fate across a six-year period in New South Wales, Australia. PLoS ONE 16, e0257209.
Trends in wildlife rehabilitation rescues and animal fate across a six-year period in New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar | 34506558PubMed |

Lindenmayer, D (2018). Why is long-term ecological research and monitoring so hard to do? (And what can be done about it). Australian Zoologist 39, 576–580.
Why is long-term ecological research and monitoring so hard to do? (And what can be done about it).Crossref | GoogleScholarGoogle Scholar |

Lunney D (2012a) Charismatic megafauna. In ‘The encyclopedia of sustainability: ecosystem management and sustainability. Vol. 5’. (Eds RK Craig, B Pardy, JC Nagle, OJ Schmitz, W Smith) pp. 63–66. (Berkshire Publishing: Great Barrington, MA, USA)

Lunney, D (2012b). Ethics and Australian mammalogy: reflections on 15 years (1991-2006) on an animal ethics committee. Australian Mammalogy 34, 1–17.
Ethics and Australian mammalogy: reflections on 15 years (1991-2006) on an animal ethics committee.Crossref | GoogleScholarGoogle Scholar |

Lunney, D (2012c). Wildlife management and the debate on the ethics of animal use. I. Decisions within a State wildlife agency. Pacific Conservation Biology 18, 5–21.
Wildlife management and the debate on the ethics of animal use. I. Decisions within a State wildlife agency.Crossref | GoogleScholarGoogle Scholar |

Lunney, D (2012d). Wildlife management and the debate on the ethics of animal use. II. A challenge for the animal protection movement. Pacific Conservation Biology 18, 81–99.
Wildlife management and the debate on the ethics of animal use. II. A challenge for the animal protection movement.Crossref | GoogleScholarGoogle Scholar |

Lunney, D (2013). Wildlife roadkill: illuminating and overcoming a blind spot in public perception. Pacific Conservation Biology 19, 233–249.
Wildlife roadkill: illuminating and overcoming a blind spot in public perception.Crossref | GoogleScholarGoogle Scholar |

Lunney, D (2019). Can a critical reading of Zoopolis by Donaldson and Kymlicka lead to advocating dialogue between animal rights theorists and zoologists? Pacific Conservation Biology 25, 72–91.
Can a critical reading of Zoopolis by Donaldson and Kymlicka lead to advocating dialogue between animal rights theorists and zoologists?Crossref | GoogleScholarGoogle Scholar |

Lunney D, Matthews A (1997) ‘Guidelines and conditions for koala care in New South Wales.’ (NSW National Parks and Wildlife Service: Hurstville, NSW)

Lunney D, Coburn D, Matthews A, Moon C (2001) Community perceptions of koala populations and their management in Port Stephens and Coffs Harbour Local Government Areas, New South Wales. In ‘The research and management of non-urban koala populations’. (Eds K Lyons, A Melzer, F Carrick, D Lamb) pp. 48–70. (Koala Research Centre of Central Queensland, Central Queensland University: Rockhampton)

Lunney, D, O’Neill, L, Matthews, A, and Sherwin, WB (2002). Modelling mammalian extinction and forecasting recovery: koalas at Iluka (NSW, Australia). Biological Conservation 106, 101–113.
Modelling mammalian extinction and forecasting recovery: koalas at Iluka (NSW, Australia).Crossref | GoogleScholarGoogle Scholar |

Lunney, D, Gresser, S, O’neill, LE, Matthews, A, and Rhodes, J (2007). The impact of fire and dogs on koalas at Port Stephens, New South Wales, using population viability analysis. Pacific Conservation Biology 13, 189–201.
The impact of fire and dogs on koalas at Port Stephens, New South Wales, using population viability analysis.Crossref | GoogleScholarGoogle Scholar |

Lunney, D, Crowther, MS, Shannon, I, and Bryant, JV (2009). Combining a map-based public survey with an estimation of site occupancy to determine the recent and changing distribution of the koala in New South Wales. Wildlife Research 36, 262–273.
Combining a map-based public survey with an estimation of site occupancy to determine the recent and changing distribution of the koala in New South Wales.Crossref | GoogleScholarGoogle Scholar |

Lunney D, Close R, Crowther MS, Bryant J, Shannon I, Madden K, Ward S (2010) The koalas of Campbelltown, south-western Sydney: does their natural history foretell of an unnatural future? In ‘The natural history of Sydney’. (Eds D Lunney, P Hutchings, D Hochuli) pp. 339–370. (Royal Zoological Society of New South Wales: Mosman, NSW)

Lunney, D, Predavec, M, Miller, I, Shannon, I, Fisher, M, Moon, C, Matthews, A, Turbill, J, and Rhodes, JR (2016). Interpreting patterns of population change in koalas from long-term datasets in Coffs Harbour on the north coast of New South Wales. Australian Mammalogy 38, 29–43.
Interpreting patterns of population change in koalas from long-term datasets in Coffs Harbour on the north coast of New South Wales.Crossref | GoogleScholarGoogle Scholar |

Lunney, D, Dickman, CR, and Predavec, M (2018). The critical value of long-term field studies and datasets: an editorial perspective. Australian Zoologist 39, 559–567.
The critical value of long-term field studies and datasets: an editorial perspective.Crossref | GoogleScholarGoogle Scholar |

Lunney, D, Sonawane, I, Shannon, I, Hope, B, and Crowther, MS (2021). Combining cameras and citizen science to define the distribution and behaviour of dingoes and foxes in New South Wales. Australian Zoologist 41, 608–642.
Combining cameras and citizen science to define the distribution and behaviour of dingoes and foxes in New South Wales.Crossref | GoogleScholarGoogle Scholar |

Lunney, D, Cope, H, Sonawane, I, and Haering, R (2022a). A state-wide picture of koala rescue and rehabilitation in NSW during the 2019-2020 bushfires. Australian Zoologist , .

Lunney, D, Cope, H, Sonawane, I, Stalenberg, E, and Haering, R (2022b). An analysis of the long-term koala rehabilitation records of Friends of the Koala in north-east New South Wales: II. post-release survival. Pacific Conservation Biology , .
An analysis of the long-term koala rehabilitation records of Friends of the Koala in north-east New South Wales: II. post-release survival.Crossref | GoogleScholarGoogle Scholar |

Lunney, D, Moon, C, Sonawane, I, Predavec, M, and Rhodes, JR (2022c). A 6-year study of mitigating koala roadkill during an upgrade of the Pacific Highway at Lindsay’s cutting, Coffs Harbour New South Wales. Australian Mammalogy , .
A 6-year study of mitigating koala roadkill during an upgrade of the Pacific Highway at Lindsay’s cutting, Coffs Harbour New South Wales.Crossref | GoogleScholarGoogle Scholar |

Lunney, D, Predavec, M, Sonawane, I, Moon, C, and Rhodes, JR (2022d). Factors that drive koala roadkill: an analysis across multiple scales in New South Wales, Australia. Australian Mammalogy , .
Factors that drive koala roadkill: an analysis across multiple scales in New South Wales, Australia.Crossref | GoogleScholarGoogle Scholar |

McAlpine, C, Lunney, D, Melzer, A, Menkhorst, P, Phillips, S, Phalen, D, Ellis, W, Foley, W, Baxter, G, de Villiers, D, Kavanagh, R, Adams-Hosking, C, Todd, C, Whisson, D, Molsher, R, Walter, M, Lawler, I, and Close, R (2015). Conserving koalas: a review of the contrasting regional trends, outlooks and policy challenges. Biological Conservation 192, 226–236.
Conserving koalas: a review of the contrasting regional trends, outlooks and policy challenges.Crossref | GoogleScholarGoogle Scholar |

McAlpine, C, Brearley, G, Rhodes, J, Bradley, A, Baxter, G, Seabrook, L, Lunney, D, Liu, Y, Cottin, M, Smith, AG, and Timms, P (2017). Time-delayed influence of urban landscape change on the susceptibility of koalas to chlamydiosis. Landscape Ecology 32, 663–679.
Time-delayed influence of urban landscape change on the susceptibility of koalas to chlamydiosis.Crossref | GoogleScholarGoogle Scholar |

McCallum, H, Kerlin, DH, Ellis, W, and Carrick, F (2018). Assessing the significance of endemic disease in conservation—koalas, chlamydia, and koala retrovirus as a case study. Conservation Letters 11, e12425.
Assessing the significance of endemic disease in conservation—koalas, chlamydia, and koala retrovirus as a case study.Crossref | GoogleScholarGoogle Scholar |

Melzer, A, and Black, L (2022). Koala road kills are linked to landscape attributes on Central Queensland’s Peak Downs Highway. Australian Mammalogy , .
Koala road kills are linked to landscape attributes on Central Queensland’s Peak Downs Highway.Crossref | GoogleScholarGoogle Scholar |

Narayan, E, and Vanderneut, T (2019). Physiological stress in rescued wild koalas are influenced by habitat demographics, environmental stressors, and clinical intervention. Frontiers in Endocrinology 10, 18.
Physiological stress in rescued wild koalas are influenced by habitat demographics, environmental stressors, and clinical intervention.Crossref | GoogleScholarGoogle Scholar | 30761085PubMed |

NPWF (2021) Wildlife heroes podcast. Available at https://wildlifeheroes.org.au/wildlife-heroes-podcast/. [Accessed 24 August 2021]

OEH (2011) ‘Code of practice for injured, sick and orphaned protected fauna.’ (Office of Environment and Heritage NSW: Goulburn Street, Sydney)

OEH (2018a) ‘NSW koala strategy.’ (Office of Environment and Heritage on behalf of the NSW Government: Sydney, NSW)

OEH (2018b) ‘Code of practice for injured, sick and orphaned koalas.’ (NSW Office of Environment and Heritage: Sydney, NSW)

OLG (2021) Number of dog attack incidents reported by all councils from 1 July 2020 to 30 September 2020 (1st Quarter 2020/21). Available at https://www.olg.nsw.gov.au/wp-content/uploads/2020/11/Council-Report-Dog-Attack-Incidents-1st-quarter-report-2020-21.pdf. [Accessed 14 June 2021]

Palmer, A (2018). Kill, incarcerate, or liberate? Ethics and alternatives to orangutan rehabilitation. Biological Conservation 227, 181–188.
Kill, incarcerate, or liberate? Ethics and alternatives to orangutan rehabilitation.Crossref | GoogleScholarGoogle Scholar |

Palmieri, C, Hulse, L, Pagliarani, S, Larkin, R, Higgins, DP, Beagley, K, and Johnston, S (2019). Chlamydia pecorum infection in the male reproductive system of koalas (Phascolarctos cinereus). Veterinary Pathology 56, 300–306.
Chlamydia pecorum infection in the male reproductive system of koalas (Phascolarctos cinereus).Crossref | GoogleScholarGoogle Scholar | 30381016PubMed |

Parliament NSW (2020) Koala populations and habitat in New South Wales. Portfolio Committee No. 7 – Planning and Environment, Report no. 3. New South Wales Parliament Legislative Council: Sydney.

Predavec, M, Lunney, D, Hope, B, Stalenberg, E, Shannon, I, Crowther, M, Miller, I, Turbill, J, and Faulkner, B (2016). The contribution of community wisdom to conservation ecology. Conservation Biology 30, 496–505.
The contribution of community wisdom to conservation ecology.Crossref | GoogleScholarGoogle Scholar | 27110657PubMed |

Pyke, GH, and Szabo, JK (2018a). Conservation and the 4 Rs, which are rescue, rehabilitation, release, and research. Conservation Biology 32, 50–59.
Conservation and the 4 Rs, which are rescue, rehabilitation, release, and research.Crossref | GoogleScholarGoogle Scholar | 28328146PubMed |

Pyke, GH, and Szabo, JK (2018b). What can we learn from untapped wildlife rescue databases? The masked lapwing as a case study. Pacific Conservation Biology 24, 148–156.
What can we learn from untapped wildlife rescue databases? The masked lapwing as a case study.Crossref | GoogleScholarGoogle Scholar |

Quigley, BL, and Timms, P (2020). Helping koalas battle disease – recent advances in Chlamydia and koala retrovirus (KoRV) disease understanding and treatment in koalas. FEMS Microbiology Reviews 44, 583–605.
Helping koalas battle disease – recent advances in Chlamydia and koala retrovirus (KoRV) disease understanding and treatment in koalas.Crossref | GoogleScholarGoogle Scholar | 32556174PubMed |

Quigley, BL, and Timms, P (2021). The koala immune response to chlamydial infection and vaccine development—advancing our immunological understanding. Animals 11, 380.
The koala immune response to chlamydial infection and vaccine development—advancing our immunological understanding.Crossref | GoogleScholarGoogle Scholar | 33546104PubMed |

Quigley, BL, Carver, S, Hanger, J, Vidgen, ME, and Timms, P (2018). The relative contribution of causal factors in the transition from infection to clinical chlamydial disease. Scientific Reports 8, 8893.
The relative contribution of causal factors in the transition from infection to clinical chlamydial disease.Crossref | GoogleScholarGoogle Scholar | 29891934PubMed |

Reed P, Lunney D, Walker P (1990) Survey of the koala Phascolarctos cinereus (Goldfuss) in New South Wales (1986-87), with an ecological interpretation of its distribution. In ‘Biology of the koala.’ (Eds AK Lee, KA Handasyde, GD Sanson) pp. 55–74. (Surrey Beatty and Sons: Chipping Norton, NSW)

Rhodes, JR, Lunney, D, Callaghan, J, and McAlpine, CA (2014). A few large roads or many small ones? How to accommodate growth in vehicle numbers to minimise impacts on wildlife. PLoS ONE 9, e91093.
A few large roads or many small ones? How to accommodate growth in vehicle numbers to minimise impacts on wildlife.Crossref | GoogleScholarGoogle Scholar | 24646891PubMed |

Saran, KA, Parker, G, Parker, R, and Dickman, CR (2011). Rehabilitation as a conservation tool: a case study using the common wombat. Pacific Conservation Biology 17, 310–319.
Rehabilitation as a conservation tool: a case study using the common wombat.Crossref | GoogleScholarGoogle Scholar |

Schlagloth, R, Santamaria, F, Melzer, A, Keatley, MR, and Houston, W (2022). Vehicle collisions and dog attacks on Victorian koalas as evidenced by a retrospective analysis of sightings and admission records 1997–2011. Australian Zoologist , .

Stratford, E, Mazur, N, Lunney, D, and Bennett, D (2000). Managing the koala problem: interdisciplinary perspectives. Conservation Biology 14, 610–618.
Managing the koala problem: interdisciplinary perspectives.Crossref | GoogleScholarGoogle Scholar |

Taylor-Brown, A, Booth, R, Gillett, A, Mealy, E, Ogbourne, SM, Polkinghorne, A, and Conroy, GC (2019). The impact of human activities on Australian wildlife. PLoS ONE 14, e0206958.
The impact of human activities on Australian wildlife.Crossref | GoogleScholarGoogle Scholar | 30673712PubMed |

Tisdell, CA, Preece, HJ, Abdullah, S, and Beyer, HL (2017). Strategies to conserve the koala: cost-effectiveness considerations. Australasian Journal of Environmental Management 24, 302–318.
Strategies to conserve the koala: cost-effectiveness considerations.Crossref | GoogleScholarGoogle Scholar |

Wilks SL (2008) Different portrayals of koalas on Kangaroo Island: what gets whose attention (and what doesn’t). In ‘Too close for comfort: contentious issues in human-wildlife encounters’. (Eds D Lunney, A Munn, W Meikle) pp. 22−32. (Royal Zoological Society of New South Wales: Mosman, NSW, Australia)

Zieger, M, and Springer, S (2021). Can Google Trends data confirm the need for charismatic species to generate interest in conservation? Pacific Conservation Biology 27, 296–298.
Can Google Trends data confirm the need for charismatic species to generate interest in conservation?Crossref | GoogleScholarGoogle Scholar |