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RESEARCH ARTICLE
Contents Vol 28(2)

Conservation status of common wombats in Tasmania I: incidence of mange and its significance

Michael M. Driessen https://orcid.org/0000-0003-2553-0027 A C , Elise Dewar A , Scott Carver B and Rosemary Gales A
+ Author Affiliations
- Author Affiliations

A Department of Primary Industries, Parks, Water and Environment, PO Box 44, Hobart, Tas. 7001, Australia.

B Department of Biological Sciences, University of Tasmania, Private Bag 55, Hobart, Tas. 7001, Australia.

C Corresponding author. Email: Michael.Driessen@dpipwe.tas.gov.au

Pacific Conservation Biology 28(2) 103-114 https://doi.org/10.1071/PC21007
Submitted: 7 February 2021  Accepted: 9 June 2021   Published: 1 July 2021

Abstract

Sarcoptic mange is an infectious disease impacting over 100 mammalian species around the world, including Australia’s common wombat (Vombatus ursinus). A 94% decline in a localised population attributed to mange has raised concerns for the status of the two subspecies endemic to the island state of Tasmania, Australia. We provide the first broad-scale assessment of sarcoptic mange distribution and prevalence in wombats in Tasmania. Mange-affected wombats are widespread in Tasmania from sea level to 960 m above sea level, although there are no confirmed cases from the western region of Tasmania or Maria Island. It has been recorded in most major vegetation groups, but particularly in agricultural areas. Mange prevalence estimated from night-time spotlight observation and camera surveys varied between regions (0.0–17.6%) with an overall prevalence of 4.4% for observation surveys and 0.6% for camera surveys. Time of day, survey method, and distance from observer can influence mange assessments. Local reductions in wombat numbers and animal welfare impacts due to sarcoptic mange are concerning and warrant on-going monitoring of wombats and mange, and the development and trials of effective disease management options.

Keywords: bare-nosed wombat, ectoparasite, habitat, mange prevalence, monitoring, Sarcoptes scabiei, Tasmania.


References

Beeton, N. J., Carver, S., and Forbes, L. K. (2019). A model for the treatment of environmentally transmitted sarcoptic mange in bare-nosed wombats (Vombatus ursinus). Journal of Theoretical Biology 462, 466–474.
A model for the treatment of environmentally transmitted sarcoptic mange in bare-nosed wombats (Vombatus ursinus).Crossref | GoogleScholarGoogle Scholar | 30502410PubMed |

Borchard, P., Eldridge, D. J., and Wright, I. A. (2012). Sarcoptes mange (Sarcoptes scabiei) increases diurnal activity of bare-nosed wombats (Vombatus ursinus) in an agricultural riparian environment. Mammalian Biology 77, 244–248.
Sarcoptes mange (Sarcoptes scabiei) increases diurnal activity of bare-nosed wombats (Vombatus ursinus) in an agricultural riparian environment.Crossref | GoogleScholarGoogle Scholar |

Buchan, A., and Goldney, D. C. (1998). The common wombat Vombatus ursinus in a fragmented landscape. In ‘Wombats’. (Eds R. T. Wells and P. A. Pridmore.) pp. 251–261. (Surrey Beatty & Sons: Chipping Norton, NSW.)

DPIPWE (2017). Wombat Monitoring and Mange Scoring Guidelines. (Department of Primary Industries, Parks, Water and Environment: Hobart, Tas.)

Driessen, M. M., and Mallick, S. A. (2003). The vertebrate fauna of the Tasmanian Wilderness World Heritage Area. Pacific Conservation Biology 9, 187–206.
The vertebrate fauna of the Tasmanian Wilderness World Heritage Area.Crossref | GoogleScholarGoogle Scholar |

Driessen, M. M., Jarman, P. J., Troy, S., and Callander, S. (2017). Animal detections vary among commonly used camera trap models. Wildlife Research 44, 291–297.
Animal detections vary among commonly used camera trap models.Crossref | GoogleScholarGoogle Scholar |

Driessen, M. M., Gales, R., Visoiu, M., Dewar, E., and Hehn, K. (2018). The prevalence of wombat mange at Cape Portland, northeast Tasmania. Department of Primary Industries, Parks, Water and Environment, Nature Conservation Report No. 18/7. Department of Primary Industries Parks Water and Environment, Hobart, Tas.

Driessen, M., Dewar, E., Carver, S., Lawrence, C., and Gales, R. (2021). Conservation status of common wombats in Tasmania II: population distribution and trends, and the incidence and significance of roadkill. Pacific Conservation Biology , .
Conservation status of common wombats in Tasmania II: population distribution and trends, and the incidence and significance of roadkill.Crossref | GoogleScholarGoogle Scholar |

Escobar, L. E., Carver, S., Cross, P. C., Rossi, L., Almberg, E. S., Yabsley, M. J., Niedringhaus, K. D., Van Wick, P., Dominguez-Villegas, E., Gakuya, F., Xie, Y., Angelone, S., Gortázar, C., and Astorga, F. (2021). Sarcoptic mange: an emerging panzootic in wildlife. Transboundary and Emerging Diseases , .
Sarcoptic mange: an emerging panzootic in wildlife.Crossref | GoogleScholarGoogle Scholar | 33756055PubMed |

Fraser, T. A., Charleston, M., Martin, A., Polkinghorne, A., and Carver, S. (2016). The emergence of sarcoptic mange in Australian wildlife: an unresolved debate. Parasites and Vectors 9, 1–11.
The emergence of sarcoptic mange in Australian wildlife: an unresolved debate.Crossref | GoogleScholarGoogle Scholar |

Fraser, T. A., Martin, A., Polkinghorne, A., and Carver, S. (2018). Comparative diagnostics reveals PCR assays on skin scrapings is the most reliable method to detect Sarcoptes scabiei infestations. Veterinary Parasitology 251, 119–124.
Comparative diagnostics reveals PCR assays on skin scrapings is the most reliable method to detect Sarcoptes scabiei infestations.Crossref | GoogleScholarGoogle Scholar | 29426467PubMed |

Gray, D. (1937). Sarcoptic mange affecting wild fauna in New South Wales. Australian Veterinary Journal 13, 154–155.
Sarcoptic mange affecting wild fauna in New South Wales.Crossref | GoogleScholarGoogle Scholar |

Hartley, M., and English, A. (2005). Sarcoptes scabei var. wombati infection in the common wombat (Vombatus ursinus). Eurasian Journal of Wildlife Research 51, 117–121.
Sarcoptes scabei var. wombati infection in the common wombat (Vombatus ursinus).Crossref | GoogleScholarGoogle Scholar |

Jarman, P. J., and Driessen, M. M. (2019). Quantitative interpretation of images of long-nosed potoroos at baited camera-traps: defining a ‘visit’. Australian Mammalogy 41, 147–149.
Quantitative interpretation of images of long-nosed potoroos at baited camera-traps: defining a ‘visit’.Crossref | GoogleScholarGoogle Scholar |

Kitchener, A. and Harris, S. (2013). ‘From forest to fjaeldmark: descriptions of Tasmania’s vegetation’, 2nd edn. (Department of Primary Industries, Parks, Water and Environment: Hobart, Tas.)

Martin, R. W., Handasyde, K. A., and Skerratt, L. F. (1998). Current distribution of sarcoptic mange in wombats. Australian Veterinary Journal 76, 411–414.
Current distribution of sarcoptic mange in wombats.Crossref | GoogleScholarGoogle Scholar | 9673766PubMed |

Martin, A., Fraser, T. A., Lesku, J. A., Simpson, K., Roberts, G. L., Garvey, J., Polkinghorne, A., Burridge, C. P., and Carver, S. (2018a). The cascading pathogenic consequences of Sarcoptes scabiei infection that manifest in host disease. Royal Society Open Science 5, 1–14.
The cascading pathogenic consequences of Sarcoptes scabiei infection that manifest in host disease.Crossref | GoogleScholarGoogle Scholar |

Martin, A. M., Burridge, C. P., Ingram, J., Fraser, T. A., and Carver, S. (2018b). Invasive pathogen drives host population collapse: Effects of a travelling wave of sarcoptic mange on bare-nosed wombats. Journal of Applied Ecology 55, 331–341.
Invasive pathogen drives host population collapse: Effects of a travelling wave of sarcoptic mange on bare-nosed wombats.Crossref | GoogleScholarGoogle Scholar |

Martin, A. M., Carver, S., Proft, K., Fraser, T. A., Polkinghorne, A., Banks, S., and Burridge, C. P. (2019a). Isolation, marine transgression and translocation of the bare-nosed wombat (Vombatus ursinus). Evolutionary Applications , 1–10.
Isolation, marine transgression and translocation of the bare-nosed wombat (Vombatus ursinus).Crossref | GoogleScholarGoogle Scholar |

Martin, A. M., Richards, S. A., Fraser, T. A., Polkinghorne, A., Burridge, C. P., and Carver, S. (2019b). Population‐scale treatment informs solutions for control of environmentally transmitted wildlife disease. Journal of Applied Ecology , 1–13.
Population‐scale treatment informs solutions for control of environmentally transmitted wildlife disease.Crossref | GoogleScholarGoogle Scholar |

Old, J. M., Sengupta, C., Narayan, E., and Wolfenden, J. (2017). Sarcoptic mange in wombats – a review and future research. Transboundary and Emerging Diseases 2017, 1–9.

Quinn, G. P., and Keough, M. J. (2009). ‘Experimental Design and Data Analysis for Biologists.’ (Cambridge University Press: Cambridge.)

Rounsevell, D. (1989). Managing offshore island reserves for nature conservation in Tasmania. In ‘Australian and New Zealand Islands: nature conservation values and management’. (Ed. A. Burbidge.) pp. 157–161. (Department of Conservation and Land Management: Perth, WA.)

Ruykys, L., Taggart, D. A., Breed, W. G., and Schultz, D. (2009). Sarcoptic mange in southern hairy-nosed wombats (Lasiorhinus latifrons): distribution and prevalence in the Murraylands of South Australia. Australian Journal of Zoology 57, 129–138.
Sarcoptic mange in southern hairy-nosed wombats (Lasiorhinus latifrons): distribution and prevalence in the Murraylands of South Australia.Crossref | GoogleScholarGoogle Scholar |

Simpson, K., Johnson, C. N., and Carver, S. (2016). Sarcoptes scabiei: the mange mite with mighty effects on the common wombat (Vombatus ursinus). PloS One 11, 1–17.
Sarcoptes scabiei: the mange mite with mighty effects on the common wombat (Vombatus ursinus).Crossref | GoogleScholarGoogle Scholar |

Skerratt, L. F. (1998). Diseases and parasites of the common wombat, Vombatus ursinus, in the Healesville area of Victoria. In ‘Wombats’. (Eds R. T. Wells and P. A. Pridmore.) pp. 317–328. (Surrey Beatty & Sons: Chipping North, NSW.)

Skerratt, L. F. (1999). Distribution of life cycles stages of Sarcoptes scabiei var wombati and effects of severe mange on common wombats in Victoria. Journal of Wildlife Diseases 35, 633–646.
Distribution of life cycles stages of Sarcoptes scabiei var wombati and effects of severe mange on common wombats in Victoria.Crossref | GoogleScholarGoogle Scholar | 10574522PubMed |

Skerratt, L. F. (2001). Sarcoptic mange in the common wombat, Vombatus ursinus (Shaw, 1800). PhD thesis, The University of Melbourne, Parkville, Vic.

Skerratt, L. F., Martin, R. W., and Handasyde, K. A. (1998). Sarcoptic mange in wombats. Australian Veterinary Journal 76, 408–410.
Sarcoptic mange in wombats.Crossref | GoogleScholarGoogle Scholar | 9673765PubMed |

Smales, L. (1987). Parasites of the wombat Vombatus ursinus from the Gippsland region, Victoria. Transactions of the Royal Society of South Australia 111, 129–130.

Stannard, H. J., Wolfenden, J., Hermsen, E. M., Vallin, B. T., Hunter, N. E., and Old, J. M. (2021). Incidence of sarcoptic mange in bare-nosed wombats. Australian Mammalogy 43, 85–95.
Incidence of sarcoptic mange in bare-nosed wombats.Crossref | GoogleScholarGoogle Scholar |

Thorley, R. K., and Old, J. M. (2020). Distribution, abundance and threats to bare-nosed wombats (Vombatus ursinus). Australian Mammalogy 42, 249–256.
Distribution, abundance and threats to bare-nosed wombats (Vombatus ursinus).Crossref | GoogleScholarGoogle Scholar |

Tompkins, D. M., Carver, S., Jones, M. E., Krkosek, M., and Skerratt, L. F. (2015). Emerging infectious diseases of wildlife: a critical perspective. Trends in Parasitology 31, 149–159.
Emerging infectious diseases of wildlife: a critical perspective.Crossref | GoogleScholarGoogle Scholar | 25709109PubMed |

Wildlife Health Australia (2021). ‘Sarcoptic mange in Australian wildlife: fact sheet.’ (Wildlife Health Australia: Mossman, NSW.)