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References

  • Aberg, P., Svensson, C.J., Caswell, H. & Pavia, H. (2009) Environment-specific elasticity and sensitivity analysis of the stochastic growth rate. Ecological Modelling, 220, 605610.
  • Beissinger, S.R. & McCullough, D.R. (2002) Population viability analysis. University of Chicago Press, Chicago, USA.
  • Boyce, M.S., Haridas, C.V. & Lee, C.T. (2006) Demography in an increasingly variable world. Trends Ecol. Evol., 21, 141148.
  • Caswell, H. (2001) Matrix Population Models, vol. 2nd. Sinauer Associates, Sunderland, USA.
  • Caswell, H. (2005) Sensitivity analysis of the stochastic growth rate: Three extensions. Australian & New Zealand Journal of Statistics, 47, 7585.
  • Cohen, J.E. (1979) Ergodic theorems in demography. Bulletin (New Series) of the American Mathematical Society, 1, 275295.
  • Dennis, B., Munholland, P.L. & Scott, J.M. (1991) Estimation of growth and extinction parameters for endangered species. Ecological Monographs, 61, 115143.
  • Doak, D.F., Kareiva, P. & Kleptetka, B. (1994) Modeling population viability for the desert tortoise in the western mojave desert. Ecological Applications, 4, 446460.
  • Durner, G.M., Amstrup, S.C., Neilson, R. & McDonald, T. (2004) The use of sea ice habitat by female polar bears in the Beaufort Sea. OSC Report.
  • Ellner, S.P. & Rees, M. (2006) Integral projection models for species with complex demography. The American Naturalist, 167, 410428.
  • Engen, S., Lande, R., Saether, B.E. & Bregnballe, T. (2005) Estimating the pattern of synchrony in fluctuating populations. Journal of Animal Ecology, 74, 601611.
  • Engen, S., Lande, R., Saether, B.E. & Gienapp, P. (2010) Estimating the ratio of effective to actual size of an age-structured population from individual demographic data. Journal of Evolutionary Biology, 23, 11481158.
  • Ezard, T.H.G., Gaillard, J., Crawley, M.J. & Coulson, T. (2008) Habitat dependence and correlations between elasticities of longterm growth rates. The American Naturalist, 172, 424430.
  • Hunter, C.M., Caswell, H., Runge, M.C., Regehr, E.V., Amstrup, S.C.and Stirling, I. (2007) Polar bears in the southern Beaufort Sea II: demography and population growth in relation to sea ice conditions. Administrative report, US Geological Survey.
  • Hunter, C.M., Caswell, H., Runge, M.C., Regehr, E.V., Amstrup, S.C. & Stirling, I. (2010) Climate change threatens polar bear populations: a stochastic demographic analysis. Ecology, 91, 28832897.
  • Lande, R., Engen, S., Saether, B.-E. & Coulson, T. (2006) Estimating density dependence from time series of population age structure. The American Naturalist, 168, 7687.
  • Lande, R., Engen, S. & Saether, B.-E. (2003) Stochastic Population Dynamics in Ecology and Conservation. Oxford University Press, Oxford.
  • Lande, R. & Orzack, S.H. (1988) Extinction dynamics of age-structured populations in a fluctuating environment. Proceedings of the National Academy of Sciences, 85, 74187421.
  • Lange, K. & Holmes, W. (1981) Stochastic stable population growth. Journal of Applied Probability, 18, 325334.
  • Lebreton, J. (1996) Demographic models for subdivided populations: The renewal equation approach. Theoretical Population Biology, 49, 291313.
  • Lee, R.D. & Tuljapurkar, S.D. (1994) Stochastic population forecasts for the united states: Beyond high, medium, and low. Journal of the American Statistical Association, 89, 11751189.
  • Lewontin, R.C. & Cohen, D. (1969) On population growth in a randomly varyingenvironment. Proceedings of the National Academy of Sciences of the United States of America, 62, 10561066.
  • Morris, W.F. & Doak, D.F. (2002) Quantitative conservation biology: theory and practice of population viability analysis. Sinauer Associates, Sunderland, USA.
  • Morris, W.F., Pfister, C.A., Tuljapurkar, S., Haridas, C.V., Boggs, C.L., Boyce, M.S., Bruna, E.M., Church, D.R., Coulson, T., Doak, D.F., Forsyth, S., Gaillard, J.M., Horvitz, C.C., Kalisz, S., Kendall, B.E., Knight, T.M., Lee, C.T. & Menges, E.S. (2008) Longevity can buffer plant and animal populations against changing climatic variability. Ecology, 89, 1925.
  • Saether, B.E., Lillegard, M., Grotan, V., Filli, F. & Engen, S. (2007) Predicting fluctuations of reintroduced ibex populations: the importance of density dependence, environmental stochasticity and uncertain population estimates. Journal of Animal Ecology, 76, 326336.
  • Steinsaltz, D., Tuljapurkar, S. & Horvitz, C. (2011) Derivatives of the stochastic growth rate. Theoretical Population Biology, 80, 115.
  • Stirling, I., Lunn, N.J., Iacozza, J., Elliott, C. & Obbard, M. (2004) Polar bear distribution and abundance on the southwestern hudson bay coast during open water season, in relation to population trends and annual ice patterns. Arctic, 57, 1526.
  • Tuljapurkar, S. (1990) Population Dynamics in Variable Environments. Springer-Verlag, Berlin.
  • Tuljapurkar, S., Gaillard, J.-M. & Coulson, T. (2009) From stochastic environments to life histories and back. Biological Sciences, 364, 14991509.
  • Tuljapurkar, S. & Horvitz, C.C. (2006) From stage to age in variable environments: Life expectancy and survivorship. Ecology, 87, 14971509.
  • Tuljapurkar, S., Horvitz, C.C. & Pascarella, J.B. (2003) The many growth rates and elasticities of populations in random environments. American Naturalist, 162, 489502.
  • Tuljapurkar, S. & Orzack, S.H. (1980) Population dynamics in variable environments. I. Long-run growth rates and extinction. Theoretical Population Biology, 18, 314342.
  • Tuljapurkar, S.D. (1982) Population dynamics in variable environments. III. Evolutionary dynamics of r-selection. Theoretical Population Biology, 21, 141165.