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References

  • Abenes, G., Chan, K.R., Lee, M., Haghjoo, E., Zhu, J.M., Zhou, T.H., Zhan, X.Y. & Liu, F.Y. (2004) Murine cytomegalovirus with a transposon insertional mutation at open reading frame M155 is deficient in growth and virulence in mice. Journal of Virology, 78, 68916899.
  • Anderson, R.M. & May, R.M. (1979) Population biology of infectious diseases. Nature, 280, 361367.
  • Arthur, A.D., Pech, R.P. & Singleton, G.R. (2005) Predicting the effect of immunocontraceptive recombinant murine cytomegalovirus on house mouse (Mus musculus domesticus) populations in mallee wheatlands. Wildlife Research, 32, 631637.
  • Barlow, N.D. (1991) A spatially aggregated disease/host model for bovine Tb in New Zealand possum populations. Journal of Applied Ecology, 28, 777793.
  • Barlow, N.D. (1994) Predicting the effect of a novel vertebrate biocontrol agent: a model for viral-vectored immunocontraception of New Zealand possums. Journal of Applied Ecology, 31, 454462.
  • Barlow, N.D. (1997) Modelling immunocontraception in disseminating systems. Reproduction Fertility and Development, 9, 5160.
  • Booth, T.W.M., Scalzo, A.A., Carello, C., Lyons, P.A., Farrell, H.E., Singleton, G.R. & Shellam, G.R. (1993) Molecular and biological characterisation of new strains of murine cytomegalovirus isolated from wild mice. Archives of Virology, 132, 209220.
  • Burnham, K.P. & Anderson, D.R. (1998) Model Selection and Inference: A Practical Information-Theoretic Approach. Springer-Verlag, New York, NY.
  • Chambers, L.K., Singleton, G.R. & Hood, G.M. (1997) Immunocontraception as a potential control method of wild rodent populations. Belgian Journal of Zoology, 127, 145156.
  • Courchamp, F. & Cornell, S.J. (2000) Virus-vectored immunocontraception to control feral cats on islands: a mathematical model. Journal of Applied Ecology, 37, 903913.
  • Cowan, P.E. (1996) Possum biocontrol: prospects for fertility regulation. Reproduction Fertility and Development, 8, 655660.
  • Cowan, P., Pech, R. & Curtis, P. (2003) Field applications of fertility control for wildlife management. Reproductive Science and Integrated Conservation (eds W.V.Holt, A.R.Pickard, J.C.Rodger & D.E.Wildt), pp. 305318. Cambridge University Press, Cambridge, UK.
  • Davis, S.A., Pech, R.P. & Singleton, G.R. (2003) Simulation of fertility control in an eruptive house mouse (Mus domesticus) population in south-eastern Australia. Rats, Mice and People: Rodent Biology and Management (eds G.R.Singleton, L.A.Hinds, C.M.Krebs & D.M.Spratt), pp. 320324. ACIAR Monograph No. 96. Australian Centre for International Agricultural Research, Canberra, Australia.
  • Delsink, A.K., Van Altena, J.J., Kirkpatrick, J., Grobler, D. & Fayrer-Hosken, R.A. (2002) Field applications of immunocontraception in African elephants (Loxodonta africana). Reproduction, 60 (supplement), 117124.
  • Farroway, L.N., Singleton, G.R., Lawson, M.A. & Jones, D.A. (2002) The impact of murine cytomegalovirus (MCMV) on enclosure populations of house mice (Mus domesticus). Wildlife Research, 29, 1117.
  • Grandy, J.W. & Rutberg, A.T. (2002) An animal welfare view of wildlife contraception. Reproduction, 60 (supplement), 17.
  • Hilborn, R. & Mangel, M. (1997) The Ecological Detective. Confronting Models with Data. Princeton University Press, Princeton, NJ.
  • Hood, G.M., Chesson, P. & Pech, R.P. (2000) Biological control using sterilizing viruses: host suppression and competition between viruses in nonspatial models. Journal of Applied Ecology, 37, 914925.
  • De Jong, M., Diekmann, O. & Heesterbeek, H. (1995) How does transmission of infection depend on population size? Epidemic Models: Their Structure and Relation to Data (ed. D.Mollison), pp. 8494. Cambridge University Press, Cambridge, UK.
  • Lloyd, M.L., Shellam, G.R., Papadimitriou, J.M. & Lawson, M.A. (2003) Immunocontraception is induced in BALB/c mice inoculated with murine cytomegalovirus expressing mouse zona pellucida 3. Biology of Reproduction, 68, 20242032.
  • McCallum, H., Barlow, N. & Hone, J. (2001) How should pathogen transmission be modelled? Trends in Ecology and Evolution, 16, 295300.
  • Mcleod, S.R. & Twigg, L.E. (2006) Predicting the efficacy of virally-vectored immunocontraception for managing rabbits. New Zealand Journal of Ecology, 30, 103120.
  • Moro, D., Lloyd, M.L., Smith, A.L., Shellam, G.R. & Lawson, M.A. (1999) Murine viruses in an island population of introduced house mice and endemic short-tailed mice in western Australia. Journal of Wildlife Diseases, 35, 301310.
  • Osborn, J.E. (1982) Cytomegalovirus and other herpesviruses. The Mouse in Biomedical Research (eds H.L.Foster, J.G.Fox, & J. D.Small), Vol. II, pp. 267288. Academic Press Inc., New York, NY.
  • R Development Core Team (2004) R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria.
  • Robinson, A.J., Jackson, R., Kerr, P., Merchant, J., Parer, I. & Pech, R. (1997) Progress towards using recombinant myxoma virus as a vector for fertility control in rabbits. Reproduction Fertility and Development, 9, 7783.
  • Shellam, G.R. (1994) The potential of murine cytomegalovirus as a viral vector for immunocontraception. Reproduction, Fertility and Development, 6, 401409.
  • Singer, P. (1997) Neither human nor natural: ethics and feral animals. Reproduction, Fertility and Development, 9, 157162.
  • Singleton, G.R. (1989) Population dynamics of an outbreak of house mice (Mus domesticus) in the mallee wheatlands of Australia: hypothesis of plague formation. Journal of Zoology, 219, 495515.
  • Singleton, G.R. (1997) Integrated management of rodents: a southeast Asian and Australian perspective. Belgian Journal of Zoology, 127, 157169.
  • Singleton, G.R., Farroway, L.N., Chambers, L.K., Lawson, M.A., Smith, A.L. & Hinds, L.A. (2002) Ecological basis for fertility control in the house mouse (Mus domesticus) using immunocontraceptive vaccines. Reproduction, 60 (supplement), 3139.
  • Singleton, G., Krebs, C.J., Davis, S., Chambers, L. & Brown, P. (2001) Reproductive changes in fluctuating house mouse populations in southeastern Australia. Proceedings of the Royal Society of London, Series B, Biological Sciences, 268, 17411748.
  • Singleton, G.R., Smith, A.L. & Krebs, C.J. (2000) The prevalence of viral antibodies during a large population fluctuation of house mice in Australia. Epidemiology and Infection, 125, 719727.
  • Smith, A.L., Singleton, G.R., Hansen, G.M. & Shellam, G.R. (1993) A serological survey for viruses and Mycoplasma pulmonis among wild house mice (Mus domesticus) in southeastern Australia. Journal of Wildlife Diseases, 29, 219229.
  • Stenseth, N.C., Leirs, H., Skonhoft, A., Davis, S.A., Pech, R.P., Andreassen, H.P., Singleton, G.R., Lima, M., Machang’u, R.S., Makundi, R.H., Zhang, Z.B., Brown, P.R., Shi, D.Z. & Wan, X.R. (2003) Mice, rats, and people: the bio-economics of agricultural rodent pests. Frontiers in Ecology and the Environment, 1, 367375.
  • Towns, D.R., Atkinson, I.A.E. & Daugherty, C.H. (2006) Have the harmful effects of introduced rats on islands been exaggerated? Biological Invasions, 8, 863891.
  • Tyndale-Biscoe, C.H. (1994) Virus-vectored immunocontraception of feral mammals. Reproduction Fertility and Development, 6, 281287.
  • Williams, C.K. (2002) Risk assessment for the release of genetically modified organisms: a virus to reduce the fertility of introduced wild mice, Mus domesticus. Reproduction, 60 (supplement), 8188.
  • Yanagihara, R. (1990) Hantavirus infection in the United States: epizootiology and epidemiology. Reviews of Infectious Diseases, 12, 449457.