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References

  • Abramsky, Z., Strauss, E., Subach, A., Kotler, B.P. & Riechman, A. (1996) The effect of barn owls (Tyto alba) on the activity and microhabitat selection of Gerbillus allenbyi and G. pyramidum. Oecologia, 105, 313319.
  • Arthur, A.D. (2001) Effects of predation and habitat structure on the population dynamics of prey: experiments in a model, field-based system. PhD Thesis. The University of Sydney, Sydney, Australia.
  • Arthur, A.D. & Pech, R.P. (2003) The non-lethal impacts of predation on mouse behaviour and reproduction – implications for pest population dynamics. Rats, Mice and People: Rodent Biology and Management (eds G.R. Singleton, L.A. Hinds, C.J. Krebs & D.M. Spratt), pp. 329333. ACIAR Monograph No. 96. Australian Centre for International Agricultural Research, Canberra.
  • Banks, P.B., Hume, I.D. & Crowe, O. (1999) Behavioural, morphological and dietary response of rabbits to predation risk from foxes. Oikos, 85, 247256.
  • Bartholomew, G.A. (1977) Energy metabolism. Animal Physiology: Principles and Adaptations (ed. M.S. Gordon), pp. 57110. Macmillan, New York.
  • Bouskila, A. (1995) Interactions between predation risk and competition – a field study of kangaroo rats and snakes. Ecology, 76, 165178.
  • Bronson, F.H. (1989) Mammalian Reproductive Biology. The University of Chicago Press, Chicago.
  • Brown, J.S. (1988) Patch use as an indicator of habitat preference, predation risk, and competition. Behavioral Ecology and Sociobiology, 22, 3747.
  • Brown, J.S. (1992) Patch use under predation risk. I. Models and predictions. Annales Zoologici Fennici, 29, 301309.
  • Brown, J.S., Kotler, B.P., Smith, R.J. & Wirtz, W.O.I.I. (1988) The effects of owl predation on the foraging behaviour of heteromyid rodents. Oecologia, 76, 408415.
  • Carlsen, M., Lodal, J., Leirs, H. & Jensen, T.S. (1999) The effect of predation risk on body weight in the field vole, Microtus agrestis. Oikos, 87, 277285.
  • Desy, E.A. & Batzli, G.O. (1989) Effects of food availability and predation on prairie vole demography – a field experiment. Ecology, 70, 411421.
  • Dickman, C.R. (1992) Predation and habitat shift in the house mouse Mus domesticus. Ecology, 73, 313322.
  • Hik, D.S. (1995) Does risk of predation influence population dynamics? – Evidence from the cyclic decline of snowshoe hares. Wildlife Research, 22, 115129.
  • Hodges, K.E., Stefan, C.I. & Gillis, E.A. (1999) Does body condition affect fecundity in a cyclic population of snowshoe hares? Canadian Journal of Zoology, 77, 16.
  • Ives, A.R. & Dobson, A.P. (1987) Antipredator behavior and the population dynamics of simple predator-prey systems. American Naturalist, 130, 431447.
  • Karels, T.J., Byrom, A.E., Boonstra, R. & Krebs, C.J. (2000) The interactive effects of food and predators on reproduction and overwinter survival of Arctic ground squirrels. Journal of Animal Ecology, 69, 235247.
  • Klemola, T., Koivula, M., Korpimäki, E. & Norrdahl, K. (1997) Small mustelid predation slows population growth of Microtus voles: a predator reduction experiment. Journal of Animal Ecology, 66, 607614.
  • Kotler, B.P., Brown, J.S. & Hasson, O. (1991) Factors affecting gerbil foraging behaviour and rates of owl predation. Ecology, 72, 22492260.
  • Kotler, B.P., Brown, J.S., Slotow, R.H., Goodfriend, W.L. & Strauss, M. (1993) The influence of snakes on the foraging behavior of gerbils. Oikos, 67, 309316.
  • Kotler, B.P., Brown, J.S., Smith, R.J. & Wirtz, W.O.I.I. (1988) The effects of morphology and body size on rates of owl predation on desert rodents. Oikos, 53, 145152.
  • Krebs, C.J. (1999) Ecological Methodology, 2nd edn. Benjamin/Cummings, Menlo Park, CA.
  • Krebs, C.J. & Singleton, G.R. (1993) Indexes of condition for small mammals. Australian Journal of Zoology, 41, 317323.
  • Lima, S.L. (1992) Strong preferences for apparently dangerous habitats – a consequence of differential escape from predators. Oikos, 64, 597600.
  • Lima, S.L. (1998a) Stress and decision making under the risk of predation: recent developments from behavioral, reproductive, and ecological perspectives. Advances in the Study of Behavior, 27, 215290.
  • Lima, S.L. (1998b) Nonlethal effects in the ecology of predator–prey interactions – what are the ecological effects of anti-predator decision-making? Bioscience, 48, 2534.
  • Lima, S.L. & Dill, L.M. (1989) Behavioral decisions made under the risk of predation: a review and prospectus. Canadian Journal of Zoology, 68, 619640.
  • Longland, W.S. & Price, M.V. (1991) Direct observations of owls and heteromyid rodents – can predation risk explain microhabitat use? Ecology, 72, 22612273.
  • Mappes, T., Koskela, E. & Ylönen, H. (1998) Breeding suppression in voles under predation risk of small mustelids: laboratory or methodological artifact? Oikos, 82, 365369.
  • McNamara, J.M. & Houston, A.I. (1987) Starvation and predation as factors limiting population size. Ecology, 68, 15151519.
  • Mutze, G.J., Green, B. & Newgrain, K. (1991) Water flux and energy use in wild house mice (Mus domesticus) and the impact of seasonal aridity on breeding and population levels. Oecologia, 88, 529538.
  • Norrdahl, K. & Korpimäki, E. (2000) The impact of predation risk from small mustelids on prey populations. Mammal Review, 30, 147156.
  • Otis, D.L., Burnham, K.P., White, G.C. & Anderson, R. (1978) Statistical inference from capture data on closed animal populations. Wildlife Monographs, 62, 135 pp.
  • Payne, R.W. (1993) Genstat 5, Release 3, Reference Manual. R.W. Payne, Chairman Genstat 5 Committee. Oxford University Press, Oxford.
  • Peckarsky, B.L., Cowan, C.A., Penton, M.A. & Anderson, C. (1993) Sublethal consequences of stream-dwelling predatory stoneflies on mayfly growth and fecundity. Ecology, 74, 18361846.
  • Schooley, R.L., Sharpe, P.B. & Vanhorne, B. (1996) Can shrub cover increase predation risk for a desert rodent? Canadian Journal of Zoology-Revue Canadienne de Zoologie, 74, 157163.
  • Scrimgeour, G.J. & Culp, J.M. (1994) Feeding while evading predators by a Lotic mayfly – linking short-term foraging behaviors to long-term fitness consequences. Oecologia, 100, 128134.
  • Sih, A. (1987) Predators and prey lifestyles: an evolutionary and ecological overview. Predation and Indirect Impacts on Aquatic Communities (eds W.C. Kerfoot & A. Sih), pp. 203224. University Press of New England, Hanover.
  • Sinclair, A.R.E. & Arcese, P. (1995) Population consequences of predation-sensitive foraging – the Serengeti wildebeest. Ecology, 76, 882891.
  • 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.
  • Vanbuskirk, J. & Yurewicz, K.L. (1998) Effects of predators on prey growth rate – relative contributions of thinning and reduced activity. Oikos, 82, 2028.
  • Werner, E.E., Gilliam, J.F., Hall, D.J. & Mittelbach, G.G. (1983) An experimental test of the effects of predation risk on habitat use in fish. Ecology, 64, 15401548.
  • Werner, E.E. & Hall, D.J. (1988) Ontogenetic habitat shifts in bluegill: the foraging rate-predation risk trade-off. Ecology, 69, 13521366.
  • Wolff, J.O. & Davisborn, R. (1997) Response of gray-tailed voles to odours of a mustelid predator: a field test. Oikos, 79, 543548.
  • Ylönen, H. (1989) Weasels Mustela nivalis suppress reproduction in cyclic back voles Clethrionomys glareolus. Oikos, 55, 138140.
  • Ylönen, H. & Ronkainen, H. (1994) Breeding suppression in the bank vole as antipredatory adaptation in a predictable environment. Evolutionary Ecology, 8, 658666.
  • Zar, J.H. (1984) Biostatistical Analysis, 2nd edn. Prentice Hall, New Jersey.