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References

  • Amarasekare, P. (2000) Coexistence of competing parasitoids on a patchily distributed host: local vs. spatial mechanisms. Ecology, 81, 12861296.
  • Amarasekare, P. (2007) Trade-offs, temporal variation, and species coexistence in communities with intraguild predation. Ecology, 88, 27202728.
  • Bernstein, C. (2000) Host-parasitoid models: the story of a successful failure. Parasitoid Population Biology (eds M.E. Hochberg & A.R. Ives). pp. 4157, Princeton University Press, Princeton, NJ.
  • Bonsall, M.B., Hassell, M.P., Reader, P.M. & Jones, T.H. (2004) Coexistence of natural enemies in a multitrophic host-parasitoid system. Ecological Entomology, 29, 639647.
  • Briggs, C.J. (2009) Host-parasitoid interactions. The Princeton Guide to Ecology (ed S.A. Levin). pp. 213219, Princeton University Press, Princeton, NJ.
  • Caltagirone, L.E. & Doutt, R.L. (1989) The history of the vedalia beetle importation to California and its impact on the development of biological control. Annual Review of Entomology, 34, 116.
  • Childs, D.Z., Bonsall, M.B. & Rees, M. (2004) Periodic local disturbance in host-parasitoid metapopulations: host suppression and parasitoid persistence. Journal of Theoretical Biology, 227, 1323.
  • Ezard, T.H.G., Bullock, J.M., Dalgleish, H.M., Millon, A., Pelletier, F., Ozgul, A. & Koons, D.N. (2010) Matrix models for a changeable world: the importance of transient dynamics in population management. Journal of Applied Ecology, 47, 515523.
  • Hassell, M.P. (1978) The Dynamics of Arthropod Predator-Prey Systems. Princeton University Press, Princeton, NJ.
  • Hassell, M.P. & Varley, G.C. (1969) New inductive population model for insect parasites and its bearing on biological control. Nature, 223, 11331136.
  • Hastings, A. (2004) Transients: the key to long-term ecological understanding? Trends in Ecology & Evolution, 19, 3945.
  • Kidd, D. & Amarasekare, P. (2012) The role of transient dynamics in biological pest control: insights from a host–parasitoid community. Journal of Animal Ecology, 81, 4757.
  • Mills, N.J. (2001) Factors influencing top-down control of insect pest populations in biological control systems. Basic and Applied Ecology, 2, 323332.
  • Mills, N.J. (2006) Accounting for differential success in the biological control of homopteran and lepidopteran pests. New Zealand Journal of Ecology, 30, 6172.
  • Mills, N.J. & Getz, W.M. (1996) Modelling the biological control of insect pests: a review of host-parasitoid models. Ecological Modelling, 92, 121143.
  • Mills, N.J. & Wajnberg, E. (2008) Optimal foraging behaviour and efficient biological control methods. Behavioural Ecology of Insect Parasitoids – From Theoretical Approaches to Field Applications (eds E. Wajnberg, C. Bernstein & J. van Alphen). pp. 330, Blackwell Publishing, Oxford, UK.
  • Murdoch, W.W. (2009) Biological control: theory and practice. The Princeton Guide to Ecology (ed S.A. Levin). pp. 683688, Princeton University Press, Princeton, NJ.
  • Murdoch, W.W., Briggs, C.J. & Nisbet, R.M. (2003) Consumer–Resource Dynamics. Princeton University Press, Princeton, NJ.
  • Nicholson, A.J. & Bailey, V.A. (1935) The balance of animal populations. Proceedings of the Zoological Society of London, 1, 551598.
  • Rosenheim, J.A. (2011) Stochasticity in reproductive opportunity and the evolution of egg limitation in insects. Evolution, 65, 23002312.
  • Thompson, W.R. (1929) On the effect of random oviposition on the action of entomophagous parasites as agents of natural control. Parasitology, 21, 180188.