SEARCH

SEARCH BY CITATION

References

  • Bjornstad, O.N. & Hansen, T.F. (1994) Individual variation and population dynamics. Oikos, 69, 167171.
  • Briese, D.T. (1984) A survey to evaluate the long-term relationship between Chrysolina quadrigemina and its host-weed St John's wort in south-eastern Australia. VIth International Symposium on the Biological Control of Weeds (ed. E.S.Delfosse), pp. 691708. Agriculture Canada, Vancouver, Canada.
  • Briese, D.T. (1996) Biological control of weeds and fire management in protected natural areas: are they compatible strategies? Biological Conservation, 77, 135141.
  • Briese, D.T. (1997a) Biological control of St John's wort in Australia: past, present and future. Plant Protection Quarterly, 12, 7380.
  • Briese, D.T. (1997b) Population dynamics of St John's wort in south-eastern Australia. Plant Protection Quarterly, 12, 5963.
  • Buckley, Y.M., Briese, D.T. & Rees, M. (2003) Demography and management of the invasive plant species Hypericum perforatum. I. Using multi-level mixed-effects models for characterizing growth, survival and fecundity in a long-term data-set. Journal of Applied Ecology, 40, 481493 .
  • Buckley, Y.M., Hinz, H.L., Matthies, D. & Rees, M. (2001) Interactions between density-dependent processes, population dynamics and control of an invasive plant species, Tripleurospermum perforatum (scentless camomile). Ecology Letters, 4, 551558.
  • Campbell, M.H. (1985) Germination, emergence and seedling growth of Hypericum perforatum L. Weed Research, 25, 259266.
  • Campbell, M.H. (1997) Control of Hypericum perforatum L. (St John's wort) by grazing management. Plant Protection Quarterly, 12, 9799.
  • Campbell, M.H. & Nicol, H.I. (1997) Improving herbicide effectiveness on Hypericum perforatum L. (St John's wort) and replacing it with pastures sown on non-arable land. Plant Protection Quarterly, 12, 9396.
  • Campbell, M.H. & Nicol, H.I. (2000) Effect of split applications of herbicides on the control of Hypericum perforatum L. (St John's wort) and regeneration of native grasses and annual clovers on non-arable land. Plant Protection Quarterly, 15, 119122.
  • Caswell, H. (1989) Matrix Population Models. Sinauer Associates, Sunderland, MA.
  • Centre for International Economics (2001) The CRC for Weed Management Systems: An Impact Assessment. Technical Series No. 6. CRC for Weed Management Systems, Adelaide, Australia.
  • Coulson, T., Mace, G.M., Hudson, E. & Possingham, H. (2001) The use and abuse of population viability analysis. Trends in Ecology and Evolution, 16, 219221.
  • Cousens, R. (1995) Can we determine the intrinsic dynamics of real plant populations? Functional Ecology, 9, 1520.
  • Crawley, M.J. (1989a) Insect herbivores and plant population dynamics. Annual Review of Entomology, 34, 531564.
  • Crawley, M.J. (1989b) The successes and failures of weed biocontrol using insects. Biocontrol News and Information, 10, 213223.
  • Crawley, M.J. (1993) GLIM for Ecologists. Blackwell Science, Oxford, UK.
  • Crawley, M.J. (2002) Statistical Computing. An Introduction to Data Analysis Using S-Plus. John Wiley & Sons Ltd, Chichester, UK.
  • DeAngelis, D.L. & Gross, L.J. (1992) Individual-Based Models and Approaches in Ecology: Populations, Communities and Ecosystems. Routledge, Chapman & Hall, New York, London.
  • Dieckmann, U., Herben, T. & Law, R. (1997) Spatio-Temporal Processes in Plant Communities. Institute for Advanced Study, Berlin, Germany.
  • Firbank, L.G. & Watkinson, A.R. (1986) Modelling the population dynamics of an arable weed and its effects upon crop yield. Journal of Applied Ecology, 23, 147159.
  • Freckleton, R.P. & Watkinson, A.R. (1998) Predicting the determinants of weed abundance: a model for the population dynamics of Chenopodium album in sugar beet. Journal of Applied Ecology, 35, 904920.
  • Godfray, H.C.J. & Waage, J.K. (1991) Predictive modeling in biological control – the mango mealy bug (Rastrococcus invadens) and its parasitoids. Journal of Applied Ecology, 28, 434453.
  • Higgins, S.I., Richardson, D.M. & Cowling, R.M. (2000) Using a dynamic landscape model for planning the management of alien plant invasions. Ecological Applications, 10, 18331848.
  • Hoffman, J.H. & Moran, V.C. (1998) The population dynamics of an introduced tree, Sesbania punicea, in South Africa, in response to long-term damage caused by different combinations of three species of biological control agents. Oecologia, 114, 343348.
  • Huffaker, C.B. (1966) A comparison of the status of biological control of St John's wort in California and Australia. Mushi, 29, 5173.
  • Judson, O.P. (1994) The rise of the individual-based model in ecology. Trends in Ecology and Evolution, 9, 914.
  • Jupp, P.W. & Cullen, J.M. (1996) Expected and observed effects of the mite Aculus hyperici on St John's wort Hypericum perforatum, in Australia. IX International Symposium on Biological Control of Weeds (eds V.C.Moran & J.H.Hoffman), pp. 365370. University of Cape Town, Stellenbosch, South Africa.
  • Lomnicki, A. (1999) Individual-based models and the individual-based approach to population ecology. Ecological Modelling, 115, 191198.
  • McKay, M.D., Conover, W.J. & Beckman, R.J. (1979) A comparison of three methods for selecting values of input variables in the analysis of output from a computer code. Technometrics, 21, 239245.
  • Mahr, F.A., Kwong, R.M., McLaren, D.A. & Jupp, P.W. (1997) Redistribution and present status of the mite, Aculus hyperici, for the control of St John's wort, Hypericum perforatum, in Australia. Plant Protection Quarterly, 12, 8488.
  • Moore, R.M. & Cashmore, A.B. (1942) The Control of St John's Wort (Hypericum perforatum var. angustifolium D.C.) by Competing Pasture Plants Report No. 151. Council for Scientific and Industrial Research, Melbourne, Australia.
  • Neeser, C., Aguero, R. & Swanton, C. (1998) A mechanistic model of purple nutsedge (Cyperus rotundus) population dynamics. Weed Science, 46, 673681.
  • Renshaw, E. (1991) Modelling Biological Populations in Space and Time. Cambridge University Press, Cambridge, UK.
  • Rice, W.R. (1989) Analyzing tables of statistical tests. Evolution, 43, 223225.
  • Rushton, S.P., Barreto, G.W., Cormack, R.M., Macdonald, D.W. & Fuller, R. (2000) Modelling the effects of mink and habitat fragmentation on the water vole. Journal of Applied Ecology, 37, 475490.
  • Shea, K. & Kelly, D. (1998) Estimating biocontrol agent impact with matrix models: Carduus nutans in New Zealand. Ecological Applications, 8, 824832.
  • Shepherd, R.C.H. (1983) Distribution and abundance of St John's wort, Hypericum perforatum L. and its introduced biological control agents in Victoria. Australian Weeds, 2, 144155.
  • Simberloff, D. & Stiling, P. (1996) How risky is biological control? Ecology, 77, 19651974.
  • The R Development Core Team (2002) The R Environment for Statistical Computing and Graphics. Reference Index, Version 1·3·1. The R Development Core Team, http://www.r-project.org
  • Uchmanski, J. (2000) Individual variability and population regulation: an individual-based model. Oikos, 90, 539548.
  • Wapshere, A.J. (1984) Recent work in the biological control of Hypericum perforatum (Guttiferae) for Australia. Entomophaga, 29, 145156.
  • Watkinson, A.R. (1980) Density-dependence in single-species populations of plants. Journal of Theoretical Biology, 83, 345357.
  • Williamson, M. (1998) Measuring the impact of plant invaders in Britain. Plant Invasions: Ecological Mechanisms and Human Responses (eds U.Starfinger, K.Edwards, I.Kowarik & M.Williamson), pp. 5768. Backhuys, Leiden, the Netherlands.
  • Willis, A.J., Ash, J.E. & Groves, R.H. (1995) The effects of herbivory by a mite, Aculus hyperici, and nutrient deficiency on growth in Hypericum species. Australian Journal of Botany, 43, 305316.