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Ecology, management and conservation in natural and modified habitats
RESEARCH ARTICLE

Benefits and feasibility of local elimination of possum populations

D. R. Morgan A B , G. Nugent A and B. Warburton A
+ Author Affiliations
- Author Affiliations

A Landcare Research, PO Box 69, Lincoln 8152, New Zealand.

B Corresponding author. Email: morgand@landcareresearch.co.nz

Wildlife Research 33(7) 605-614 https://doi.org/10.1071/WR06055
Submitted: 28 September 2006  Accepted: 18 October 2006   Published: 15 November 2006

Abstract

Introduction of the brushtail possum (Trichosurus vulpecula) to New Zealand has resulted in serious ecological and economic impacts and considerable control efforts. Recovery of possum populations after control occurs through immigration from adjacent areas and breeding of survivors and immigrants. If complete local elimination can be achieved, the recovery of populations will depend solely on immigration and therefore should be substantially slowed (particularly in very large areas). To compare the cost-effectiveness of four control strategies over the long term (60 years), we constructed a deterministic bioeconomic model based on 23 variables describing population characteristics, sizes of the sink (i.e. area controlled) and source (of reinfestation) areas, and costs. Sensitivity analysis showed that the most influential variables related primarily to cost and effectiveness of control, whereas factors describing immigration after control had relatively little influence. When the most influential variables were varied, the model predicted that local elimination of possums followed by ‘perimeter’ control is likely to be a more cost-effective control strategy under most scenarios than the current ‘knockdown-then-maintenance-control’ approach. Possum-control technology and its application have improved greatly in the last three decades such that it now appears that local elimination is, technically, a realistic goal, and is possibly already being achieved occasionally. Constraining factors include unreliable monitoring/detection at ultralow densities, inappropriate selection and use of control options, lack of incentive under the present contracting system, initial cost, contracting capacity, and the future regulatory status of poisons. However, these difficulties can be overcome, facilitating the adoption of long-term local elimination strategies that are better suited to managing possum populations in perpetuity.


Acknowledgments

We thank staff from regional councils and the Department of Conservation who supplied operational data; Roger Pech and Nigel Jollands for helpful discussion; and Wendy Ruscoe, Guy Forrester, Christine Bezar, Penny Fisher, and two referees for improving the manuscript. The work was conducted as part of FRST contract 10351-ECOS-LCR on multispecies pest elimination.


References

Barlow, N. D. , and Clout, M. N. (1983). A comparison of 3-variable, single-species population models, in relation to the management of brushtail possums in New Zealand. Oecologia 60, 250–258.
Crossref | GoogleScholarGoogle Scholar | Batcheler C. L. (1978). Compound 1080. Its properties, effectiveness, dangers and use. Report to the Minister of Forests and Minister of Agriculture and Fisheries. New Zealand Forest Service, Wellington.

Bowen, L. H. , Morgan, D. R. , and Eason, C. T. (1995). Persistence of sodium monofluoroacetate (1080) in baits under simulated rainfall. New Zealand Journal of Agricultural Research 38, 529–531.
Butcher S. (2000). Impact of possums on primary production. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 111–125. (Manaaki Whenua Press: Lincoln, New Zealand.)

Brockie R. E., Bell B. D., and White A. J. (1981). Age structure and mortality of possum Trichosurus vulpecula populations from New Zealand. In ‘Zoology Publications from Victoria University of Wellington 74’. (Ed. B. D. Bell.) pp. 63–86.

Clout M., and Ericksen K. (2000). Anatomy of a disastrous success: the brushtail possum as an invasive species. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 1–9. (Manaaki Whenua Press: Lincoln, New Zealand.)

Cowan P. E. (1990). Brushtail possum. In ‘The Handbook of New Zealand Mammals’. (Ed. C. M. King.) pp.68–98. (Oxford University Press: Auckland.)

Cowan, P. E. , and Waddington, D. C. (1990). Suppression of fruit production of the endemic forest tree, Elaeocarpus dentatus, by introduced marsupial brushtail possums, Trichosurus vulpecula. New Zealand Journal of Botany 28, 217–224.
Cowan P. E., and Clout M. (2000). Possums on the move: activity patterns, home ranges, and dispersal. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 24–34. (Manaaki Whenua Press: Lincoln, New Zealand.)

Crawley, M. C. (1973). A live-trapping study of Australian brush-tailed possums, Trichosurus vulpecula (Kerr), in the Orongorongo Valley, Wellington, New Zealand. New Zealand Journal of Botany 28, 217–224.
Efford M. (2000). Possum density, population structure, and dynamics. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 47–61. (Manaaki Whenua Press: Lincoln, New Zealand.)

Henderson R. J., Morgan D. R., and Eason C. T. (1999). Manual of best practice for ground control of possums. Landcare Research Contract Report, No. LC9899/84. Lincoln, New Zealand.

Hickling, G. J. , and Pekelharing, C. J. (1989). Intrinsic rate of increase for a brushtail possum population in rata/kamahi forest, Westland. New Zealand Journal of Ecology 12, 117–120.
MAF (2006). Agricultural economies of Australia and New Zealand: past, present, future. Ministry of Agriculture and Forestry, Wellington, New Zealand.

Montague T., and Warburton B. (2000). Non-toxic techniques for possum control. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 164–174. (Manaaki Whenua Press: Lincoln, New Zealand.)

Morgan, D. R. (1994). Improving the efficiency of aerial sowing of baits for possum control. New Zealand Journal of Agricultural Research 37, 199–206.
Morgan D. R. (2004a). Maximising the effectiveness of aerial 1080 control of possums (Trichosurus vulpecula). Ph.D. Thesis, Lincoln University, New Zealand.

Morgan, D. R. (2004b). Enhancing maintenance control of possum populations using long-life baits. New Zealand Journal of Zoology 31, 271–282.
Morgan D. R., and Eason C. T. (2004). 1080: a review of its properties, lethal and sub-lethal effects, and primary and secondary non-target poisoning risks. In ‘Advances in Vertebrate Pest Management III’. (Eds C. J. Feare and D. P. Cowan.) pp. 123–150. (Filander Verlag: Fürth, Germany.)

Morgan D., and Hickling G. (2000). Techniques used for poisoning possums. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 143–153. (Manaaki Whenua Press: Lincoln, New Zealand.)

Morgan D., Coleman J. D., and Sweetapple P. (2000). Effectiveness of aerial baiting of possums in different seasons and different forest types. Science for Conservation No. 152. (Department of Conservation: Wellington, NZ.)

Morgan D. R., Milne L., and O’Connor C. (2002). Learned bait-shyness by possums (Trichosurus vulpecula) towards baits containing cyanide, 1080, cholecalciferol, or brodifacoum. In ‘Proceedings of the 20th Vertebrate Pest Conference, Reno, Nevada’. pp. 282–289.

Morriss G. A., Nugent G., Lorigan R., and Speedy C. (2006). Development and testing of a deer-repellent cereal bait for possum control. Part III. Landcare Research Contract Report, No. LC0506/044, Lincoln, New Zealand.

NPCA (2005). Protocol for possum population monitoring using the trap-catch method. National Possum Control Agencies, Wellington, New Zealand.

National Science Strategy Committee (2002). Draft National Science Strategy. National Science Strategy Committee, Possum and Bovine Tuberculosis Control. Wellington, New Zealand.

Nugent G., Sweetapple P., Coleman J., and Suistead P. (2000). Possum feeding patterns: dietary tactics of a reluctant folivore. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 10–23. (Manaaki Whenua Press: Lincoln, New Zealand.)

Parkes J. (2005). Eradication of vertebrate pests: are there any general lessons? In ‘Advances in Vertebrate Pest Management. IV’. (Eds C. J. Feare and D. P. Cowan.) pp. 91–110. (Filander Verlag: Furth, Germany.)

Parkes, J. , and Murphy, E. (2003). Management of introduced animals in New Zealand. New Zealand Journal of Zoology 30, 335–359.
Payton I. (2000). Damage to forests. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 111–125. (Manaaki Whenua Press: Lincoln, New Zealand.)

Pulliam, H. R. (1988). Sources, sinks and population regulation. American Naturalist 132, 652–661.
Crossref | GoogleScholarGoogle Scholar | Sadleir R. (2000). Evidence of possums as predators of native animals. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 126–131. (Manaaki Whenua Press: Lincoln, New Zealand.)

SensIt (2002). ‘Sensitivity Analysis Add-in for Excel 97 and Later Versions.’ University of San Francisco. http://www.decisiontoolpak.com/sensit.htm [verified 26 October 2006].

Speedy C. (2003). Hatepe trial – comparison of ground and aerial Tb vector control methods. Contract report. Epro Ltd, Taupo, New Zealand.

Spurr E. B. (2000). Impacts of possum control on non-target species. In ‘Possums in New Zealand: Biology, Impact and Management of an Introduced Marsupial’. (Ed. T. Montague.) pp. 175–186. (Manaaki Whenua Press: Lincoln, New Zealand.)

Thomas M. D. (1998). Optimising the use of bait stations to control possums in New Zealand native forests. In ‘Proceedings of the 11th Australian Vertebrate Pest Conference, Bunbury, Western Australia’. pp. 337–340.

Thomas, M. D. , Brown, J. A. , Maddigan, F. W. , and Sessions, L. A. (2003). Comparison of trap-catch and bait interference methods for estimating possum densities. New Zealand Plant Protection 56, 81–85.


Veltman, C. J. , and Pinder, D. N. (2001). Brushtail possum mortality and ambient temperatures following aerial poisoning using 1080. Journal of Wildlife Management 65, 476–481.