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References

Published online by Cambridge University Press:  02 December 2009

Esa Ranta
Affiliation:
University of Helsinki
Per Lundberg
Affiliation:
Lunds Universitet, Sweden
Veijo Kaitala
Affiliation:
University of Jyväskylä, Finland
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Publisher: Cambridge University Press
Print publication year: 2005

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References

Abrahams, M. V. 1986. Patch choice under perceptual constraints: a cause for departures from the IFD. Behavioral Ecology and Sociobiology 10:409–415.CrossRefGoogle Scholar
Abrams, P. A. 2001. Modelling the adaptive dynamics of traits involved in inter- and intraspecific interactions: an assessment of three methods. Ecology Letters 4:166–175.CrossRefGoogle Scholar
Acosta, C. A. 2002. Spatially explicit dispersal dynamics and equilibrium population sizes in marine harvest refuges. ICES Journal of Marine Science 59:458–468.CrossRefGoogle Scholar
Aikio, S., Ranta, E., Kaitala, V. and Lundberg, P. 2002. Seed bank in annuals: competition between banker and non-banker morphs. Journal of Theoretical Biology 217:341–349.CrossRefGoogle ScholarPubMed
Allen, J. C., Schaffer, W. M. and Rosko, D. 1993. Chaos reduces species extinction by amplifying local population noise. Nature 364:229–232.,CrossRefGoogle ScholarPubMed
Alonso, J. C., Martin, E., Alonso, J. A. and Morales, M. B. 1998. Proximate and ultimate causes of natal dispersal in the great bustard Otis tarda. Behavioral Ecology 9:243–252.CrossRefGoogle Scholar
Anderson, H. M., Hutson, V. and Law, R. 1992. On the conditions for permanence of species in ecological communities. American Naturalist 139:663–668.CrossRefGoogle Scholar
Andrewartha, H. G. and Birch, L. C. 1954. The Distribution and Abundance of Animals. Chicago, Iu: University of Chicago Press.Google Scholar
Anholt, B. R. 1997. Sexual size dimorphism and sex-specific survival in adults of the damselfly Lestes disjunctus. Ecological Entomology 22:127–132.CrossRefGoogle Scholar
Arendt, J. D. and Wilson, D. S. 1997. Optimistic growth: competition and an ontogenetic niche-shift select for rapid growth in pumpkinseed sunfish (Lepomis gibbosus). Evolution 51:1946–1954.Google Scholar
Axelrod, R. 1984. The Evolution of Co-operation. London: Penguin Books.Google Scholar
Axelrod, R. and Hamilton, W. D. 1981. The evolution of cooperation. Science 211:1390–1396.CrossRefGoogle ScholarPubMed
Bascompte, J. and Solé, R. V. eds. 1997. Modeling Spatiotemporal Dynamics in Ecology. Berlin: Springer-Verlag.,Google Scholar
Bascompte, J., Solé, R. V. and Martinez, N. 1997. Population cycles and spatial patterns in snowshoe hares: an individual-oriented simulation. Journal of Theoretical Biology 187:213–222.CrossRefGoogle Scholar
Baskin, C. C. and Baskin, J. M. 1998. Seeds – Ecology, Biogeography, and Evolution of Dormancy and Germination. London: Academic Press.Google Scholar
Batzli, G. O. 1992. Dynamics of small mammal populations: a review. In McCullough, D. R. and Barrett, R. H. eds. Wildlife 2001: Populations. London: Elsevier, pp. 831–850.CrossRefGoogle Scholar
Beckerman, A., Benton, T., Ranta, E., Kaitala, V. and Lundberg, P. 2001. Population dynamic consequences of delayed life history effects. Trends in Ecology and Evolution 70:590–599.,Google Scholar
Beddington, J. R. and May, R. M. 1977. Harvesting natural populations in a randomly fluctuating environment. Science 197:463–465.CrossRefGoogle Scholar
Begon, M., Harper, J. L. and Townsend, C. R. 1996. Ecology. Oxford: Blackwell Science.Google Scholar
Benado, M. 1997. Second-order density-dependence in a Drosophilid community in La Florida, Santiago, Chile. Revista Chilena de Historia Natural 70:415–420.Google Scholar
Benton, T. G., Ranta, E., Kaitala, V. and Beckerman, A. P. 2001. Maternal effects and the stability of population dynamics in noisy environments. Journal of Animal Ecology 70:590–599.CrossRefGoogle Scholar
Bereczkei, T. and Dunbar, R. I. M. 1997. Female-biased reproductive strategies in a Hungarian Gypsy population. Proceedings of the Royal Society of London B 264:17–22.CrossRefGoogle Scholar
Berger, J. and Cunningham, C. 1995. Predation, sensitivity and sex: why female black rhinoceroses outlive males. Behavioral Ecology 6:57–64.CrossRefGoogle Scholar
Bernardo, J. 1996. The particular maternal effect of propagule size, especially egg size: patterns, models, quality of evidence and interpretations. American Zoologist 36:216–236.CrossRefGoogle Scholar
Berryman, A. A. 1996. What causes population cycles of forest Lepidoptera? Trends in Ecology and Evolution 11:28–32.CrossRefGoogle ScholarPubMed
Berryman, A. A. 2002. Population: a central concept for ecology? Oikos 97:439–442.,CrossRefGoogle Scholar
Berryman, A. A. and Turchin, P. 1997. Detection of delayed density dependence: comment. Ecology 78:318–320.CrossRefGoogle Scholar
Berryman, A. A. and Turchin, P. 2001. Identifying the density-dependent structure underlying ecological time series. Oikos 92:265–270.,CrossRefGoogle Scholar
Beverton, R. J. H. and Holt, S. J. 1957. On the dynamics of exploited fish populations. Fisheries Investigation Series 2 19:1–533.,Google Scholar
Bisonette, J. A. ed. 1997. Wildlife and Landscape Ecology: Effects of Pattern and Scale. New York: Springer.CrossRefGoogle Scholar
Bjørnstad, O. N. and Bascompte, J. 2001. Synchrony and second-order correlation in host-parasitoid systems. Journal of Animal Ecology 70:924–933.CrossRefGoogle Scholar
Bjørnstad, O. N., Falck, W. and Stenseth, N. C. 1995. Geographic gradient in small rodent density-fluctuations – a statistical modelling approach. Proceedings of the Royal Society of London B 262:127–133.CrossRefGoogle ScholarPubMed
Bjørnstad, O. N., Begon, M., Stenseth, N. C., Falck, W., Sait, S. M. and Thompson, D. J. 1998. Population dynamics of the Indian meal moth: demographic stochasticity and delayed regulatory mechanisms. Journal of Animal Ecology 67:110–126.CrossRefGoogle Scholar
Bjørnstad, O. N., Ims, R. A. and Lambin, X. 1999a. Spatial population dynamics: analysing patterns and processes of population synchrony. Trends in Ecology and Evolution 14:427–432.,CrossRefGoogle Scholar
Bjørnstad, O. N., Stenseth, N. C. and Saitoh, T. 1999b. Synchrony and scaling in dynamics of voles and mice in northern Japan. Ecology 80:622–637.CrossRefGoogle Scholar
Bjørnstad, O. N., Sait, S. M., Stenseth, N. C., Thompson, D. J. and Begon, M. 2001. The impact of specialized enemies on the dimensionality of host dynamics. Nature 409:1001–1006.,CrossRefGoogle ScholarPubMed
Bjørnstad, O. N., Finkenstaedt, B. F. and Grenfell, B. T. 2002a. Dynamics of measles epidemics: estimating scaling of transmission rates using a time series SIR model. Ecological Monographs 72:169–184.CrossRefGoogle Scholar
Bjørnstad, O. N., Peltonen, M., Liebhold, A. M. and Baltensweiler, W. 2002b. Waves of larch budmoth outbreaks in the European Alps. Science 298:1020–1023.CrossRefGoogle Scholar
Blasius, B. and Stone, L. 2000. Nonlinearity and the Moran effect. Nature 406:846–847.Google ScholarPubMed
Blumstein, D. and Armitage, K. 1999. Cooperative breeding in marmots. Oikos 84:369–382.CrossRefGoogle Scholar
Boer, P. J. and Reddingius, J. 1996. Regulation and Stabilization Paradigms in Ecology. London: Chapman and Hall.Google Scholar
Bolker, B. and Pacala, S. W. 1999. Spatial moment equations for plant competition: understanding spatial strategies and the advantage of short dispersal. American Naturalist 153:572–602.CrossRefGoogle Scholar
Boonstra, R., Krebs, C. J. and Stenseth, N. C. 1998. Population cycles in small mammals: the problem of explaining the low phase. Ecology 79:1479–1488.CrossRefGoogle Scholar
Borrvall, C., Ebenman, B. and Johnson, T. 2000. Biodiversity lessens the risk of cascading extinction in model food webs. Ecology Letters 3:131–136.CrossRefGoogle Scholar
Botsford, L. W., Method, R. D. and Johnston, W. E. 1983. Effort dynamics of the northern California Dungeness crab (Cancer magister) fishery. Canadian Journal of Fisheries and Aquatic Sciences 40:337–346.CrossRefGoogle Scholar
Botsford, L. W., Castilla, J. C. and Peterson, C. H. 1997. The management of fisheries and marine ecosystems. Science 277:509–515.CrossRefGoogle Scholar
Box, G. E. P., Jenkins, G. M. and Reinsel, G. C. 1994. Time Series Analysis: Forecasting and Control. Englewood Cliffs, N. J.: Prentice Hall.Google Scholar
Boyce, M. S., Sinclair, A. R. E. and White, G. A. 2000. Seasonal compensation of predation and harvesting. Oikos 87:419–426.CrossRefGoogle Scholar
Bradbury, R. B. and Blakey, J. K. 1998. Diet, maternal condition, and offspring sex ratio in the zebra finch, Poephila guttata. Proceedings of the Royal Society of London B 265:895–899.CrossRefGoogle Scholar
Bremen, H. F., Udwadia, F. E. and Proskurowski, W. 1997. An efficient QR based method for the computation of Lyapunov exponents. Physica D 101:1–16.,CrossRefGoogle Scholar
Brommer, J. E., Kokko, H. and Pietiäinen, H. 2000. Reproductive effort and reproductive value in periodic environments. American Naturalist 155:454–472.CrossRefGoogle ScholarPubMed
Brown, J. H. 1984. On the relationship between abundance and distribution of species. American Naturalist 124:255–279.CrossRefGoogle Scholar
Brown, J. L. 1987. Helping and Communal Breeding in Birds: Ecology and Evolution. Princeton, N. J.: Princeton University Press.CrossRefGoogle Scholar
Brown, J. S. and Vincent, T. L. 1992. Organization of predator-prey communities as an evolutionary game. Evolution 46:1269–1283.CrossRefGoogle ScholarPubMed
Bulmer, M. G. 1974. A statistical analysis of the 10-year cycle in Canada. Journal of Animal Ecology 43:701–718.CrossRefGoogle Scholar
Bulmer, M. G. 1984. Delayed germination of seeds: Cohen's model revisited. Theoretical Population Biology 26:367–377.CrossRefGoogle Scholar
Bulmer, M. G. 1985. Selection of iteroparity in a variable environment. American Naturalist 126:63–71.CrossRefGoogle Scholar
Bulmer, M. G. 1994. Theoretical Evolutionary Ecology. Sunderland, Mass.: Sinauer Associates.Google Scholar
Buonaccorsi, J. P., Elkinton, J., Evans, S. R. and Liebhold, A. M. 2001. Measuring and testing for spatial synchrony. Ecology 82:1668–1679.CrossRefGoogle Scholar
Burgman, M. A., Freson, S. and Akcakaya, H. R. 1993. Risk Assessment in Conservation Biology. London: Chapman & Hall.Google Scholar
Burnham, K. P. and Andersson, D. R. 1984. Tests of compensatory vs. additive hypothesis of mortality in mallards. Ecology 65:105–112.CrossRefGoogle Scholar
Burnham, K. P. and Anderson, D. R. 1998. Model Selection and Inference: A Practical Information- theoretic Approach. New York: Springer-Verlag.,CrossRefGoogle Scholar
Burroughs, W. J. 1992. Weather Cycles: Real or Imaginary? Cambridge: Cambridge University Press.,Google Scholar
Butler, L. 1953. The nature of cycles in populations of Canadian mammals. Canadian Journal of Zoology 31:242–262.,CrossRefGoogle Scholar
Byholm, P., Ranta, E., Kaitala, V., Lindén, H., Saurola, P. and Wikman, M. 2002. Resource availability and goshawk offspring sex ratio: a large-scale ecological phenomenon. Journal of Animal Ecology 71:994–1001.CrossRefGoogle Scholar
Cassinello, J. and Gomedino, M. 1996. Adaptive variation in litter size and sex ratio at birth in a sexually dimorphic ungulate. Proceedings of the Royal Society of London B 264:1461–1466.CrossRefGoogle Scholar
Castillo-Chavez, C. and Huang, W. 1995. the logistic equation revisited: the two-sex case. Mathematical Bioscience 128:299–316.CrossRefGoogle ScholarPubMed
Caswell, H. 2001. Matrix Population Models, 2nd edn. Sunderland, Mass.: Sinauer.Google Scholar
Caswell, H. and Weeks, D. E. 1986. Two-sex models: chaos, extinction, and other dynamic consequences of sex. American Naturalist 128:707–735.CrossRefGoogle Scholar
Cattadori, I. M. and Hudson, P. J. 1999. Temporal dynamics of grouse populations at the southern edge of their distribution: the Dolomitic Alps. Ecography 22:374–3874.CrossRefGoogle Scholar
Cattadori, I. M., Merler, S. and Hudson, P. J. 2000. Searching for mechanisms of synchrony in spatially structured gamebird populations. Journal of Animal Ecology 69:620–638.CrossRefGoogle Scholar
Caughley, G. 1994. Directions in conservation biology. Journal of Animal Ecology 63:215–244.CrossRefGoogle Scholar
Charlesworth, B. 1971. Selection in density-regulated populations. Ecology 52:469–474.CrossRefGoogle Scholar
Charlesworth, B. 1994. Evolution in Age-structured Populations. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Charnov, E. L. and Schaffer, W. M. 1973. Life-history consequences of natural selection: Cole's result revisited. American Naturalist 107:791–793.CrossRefGoogle Scholar
Chatfield, C. 1999. The Analysis of Time Series, 5th edn. London: Chapman & Hall.Google Scholar
Chesson, P. L. 1986. Environmental variation and the coexistence of species. In Diamond, J. and Case, T. J. eds. Community Ecology. New York: Harper and Row, pp. 240–256.Google Scholar
Clark, C. J. 1990. Mathematical Bioeconomics, 2nd edn. New York: Wiley.Google Scholar
Clauss, M. J. and Venable, D. L. 2000. Seed germination in desert annuals: an empirical test of adaptive bet hedging. American Naturalist 155:168–186.CrossRefGoogle ScholarPubMed
Clinton, W. L. and LeBoeuf, B. J. 1993. Sexual selection's effects on male life-history and the pattern of male mortality. Ecology 74:1884–1892.CrossRefGoogle Scholar
Clutton-Brock, T. H. 1991. The Evolution of Parental Care. Princeton, N. J.: Princeton University Press.,Google Scholar
Clutton-Brock, T. H. 2002. Behavioral ecology: breeding together. Kin selection and mutualism in cooperative vertebrates. Science 296:69–72.CrossRefGoogle Scholar
Clutton-Brock, T. and Parker, G. A. 1995. Punishment in animal societies. Nature 373:209–216.CrossRefGoogle ScholarPubMed
Clutton-Brock, T. H., Illius, A. W., Wilson, K., Grenfell, B. T., MacColl, A. D. C. and Albon, S. D. 1997. Stability and instability in ungulate populations: an empirical analysis. American Naturalist 149:195–219.CrossRefGoogle Scholar
Cockburn, A., Scott, M. P. and Scotts, D. J. 1985. Inbreeding avoidance and male-biased dispersal in Antechinus spp (Marsupialia, Dasyuridae). Animal Behavior 33:908–915.CrossRefGoogle Scholar
Cody, M. L. and Diamond, J. M. 1975. Ecology and Evolution of Communities. Cambridge, Mass.: Harvard University Press.Google Scholar
Cohen, D. 1966. Optimizing reproduction in a randomly varying environment. Journal of Theoretical Biology 12:110–126.CrossRefGoogle Scholar
Cohen, J. E. 1995. Unexpected dominance of high frequencies in chaotic nonlinear population models. Nature 378:610–612.CrossRefGoogle ScholarPubMed
Cohen, Y., Vincent, T. L. and Brown, J. S. 1999. A G-function approach to fitness minima, fitness maxima, evolutionarily stable strategies, and adaptive landscapes. Evolutionary Ecology Research 1:923–942.Google Scholar
Cole, L. C. 1954. The population consequences of life history phenomena. Quarterly Reviews of Biology 29:103–137.CrossRefGoogle ScholarPubMed
Comins, H. N., Hassell, M. P. and May, R. M. 1992. The spatial dynamics of host-parasitoid system. Journal of Animal Ecology 61:735–748.CrossRefGoogle Scholar
Connell, J. H. 1980. Diversity and the coevolution of competitors, or the ghost of competition past. Oikos 35:131–138.CrossRefGoogle Scholar
Connor, R. C. 1995. Altruism among non-relatives – alternatives to prisoners dilemma. Trends in Ecology and Evolution 10:84–86.CrossRefGoogle Scholar
Cooch, E. G., Lank, D. B. and Cooke, F. 1996. Intraseasonal variation in the development of sexual size dimorphism in a precocial bird: evidence from the lesser snow goose. Journal of Animal Ecology 65:439–450.CrossRefGoogle Scholar
Cooper, A. B. and Mangel, M. S. 1999. The dangers of undetected metapopulation structure for the conservation of salmonids. Fishery Bulletin 97:213–226.Google Scholar
Costantino, R. F., Cushing, J. M., Dennis, B. and Desharnais, R. A. 1995. Experimentally induced transitions in the dynamic behaviour of insect populations. Nature 375:227–230.CrossRefGoogle Scholar
Costantino, R. F., Desharnais, R. A., Cushing, J. M. and Dennis, B. 1997. Chaotic dynamics in an insect population. Science 275:389–391.CrossRefGoogle Scholar
Costantino, R. F., Cushing, J. M., Dennis, B., Desharnais, R. A. and Henson, S. M. 1998. Resonant population cycles in temporally fluctuating habitats. Bulletin of Mathematical Biology 60:247–273.CrossRefGoogle ScholarPubMed
Coyne, J. A., Barton, N. H. and Turelli, M. 1997. Perspective: a critique of Sewall Wright's shifting balance theory of evolution. Evolution 51:643–671.CrossRefGoogle ScholarPubMed
Creel, S. R. and Macdonald, D. W. 1995. Sociality, group size and reproductive suppression among carnivores. Advances in Studies of Behavior 24:203–257.CrossRefGoogle Scholar
Crone, E. E. 1997. Parental environmental effects and cyclical dynamics in plant populations. American Naturalist 150:708–729.CrossRefGoogle ScholarPubMed
Crone, E. E. and Taylor, D. R. 1996. Complex dynamics in experimental populations of an annual plant, Cardamine pensylvanica. Ecology 77:289–299.CrossRefGoogle Scholar
Curry, R. 1989. Geographic variation in social organization of Galapagos mockingbirds: ecological correlates of group territoriality and cooperative breeding. Behavioral Ecology and Sociobiology 25:147–160.CrossRefGoogle Scholar
Cushing, J. M., Costantino, R. F., Dennis, B., Desharnais, R. A. and Henson, S. M. 1998a. Non-linear population dynamics: models, experiments, and data. Journal of Theoretical Biology 194:1–9.CrossRefGoogle Scholar
Cushing, J. M., Dennis, B., Desharnais, R. A. and Costantino, R. F. 1998b. Moving toward an unstable equilibrium: saddle nodes in population systems. Journal of Animal Ecology 67:298–306.CrossRefGoogle Scholar
Das Gupta, P. 1972. On two-sex models leading to stable populations. Theoretical Population Biology 3:358–375.CrossRefGoogle ScholarPubMed
Dash, A. T. and Cressman, R. 1988. Polygamy in human and animal species. Mathematical Bioscience 88:49–66.CrossRefGoogle Scholar
Davies, N. B. 1991. Mating systems. In Krebs, J. R. and Davies, N. B. eds. Behavioural Ecology: An Evolutionary Approach. Oxford: Blackwell, pp. 263–294.Google Scholar
Dawkins, R. 1976. The Selfish Gene. Oxford: Oxford University Press.Google Scholar
DeAngelis, D. and Gross, L. eds. 1992. Individual-based Models and Approaches in Ecology. New York: Chapman and Hall.CrossRefGoogle Scholar
Dennis, B., Desharnais, R. A., Cushing, J. M. and Costantino, R. F. 1997. Transitions in population dynamics: equilibria to periodic cycles to aperiodic cycles. Journal of Animal Ecology 66:704–729.CrossRefGoogle Scholar
Dennis, B., Desharnais, R. A., Cushing, J. M., Henson, S. M. and Costantino, R. F. 2001. Estimating chaos and complex dynamics in an insect population. Ecological Monographs 71:277–303.CrossRefGoogle Scholar
Diamond, J. M. 1975. Assembly of species communities. In Cody, M. L. and Diamond, J. M. eds. Ecology and Evolution of Communities. Cambridge, Mass.: Harvard University Press, pp. 460–490.Google Scholar
Diamond, J. M. and Case, T. J. 1986. Community Ecology. New York: Harper and Row.Google Scholar
Dieckmann, U. 1997. Can adaptive dynamics invade? Trends in Ecology and Evolution 12:128–131.CrossRefGoogle ScholarPubMed
Dieckmann, U. and Law, R. 1996. The dynamical theory of coevolution: a derivation from stochastic ecological processes. Journal of Mathematical Biology 34:579–612.CrossRefGoogle ScholarPubMed
Diffendorfer, J. E. 1998. Testing models of source-sink dynamics and balanced dispersal. Oikos 81:417–433.CrossRefGoogle Scholar
Doebeli, M. 1995. Dispersal and dynamics. Theoretical Population Biology 47:82–106.CrossRefGoogle Scholar
Doebeli, M. 1996. Quantitative genetics and population dynamics. Evolution 50:532–546.CrossRefGoogle ScholarPubMed
Doebeli, M. 1997. Genetic variation and persistence of predator-prey interactions in the Nicholson-Bailey model. Journal of Theoretical Biology 188:109–120.CrossRefGoogle Scholar
Doebeli, M. and Koella, J. C. 1994. Sex and population dynamics. Proceedings of the Royal Society of London B 257:17–23.CrossRefGoogle Scholar
Doncaster, C. P., Pound, G. E. and Cox, S. J. 2000. The ecological cost of sex. Nature 404:281–285.CrossRefGoogle ScholarPubMed
Drake, J. A. 1991. Community-assembly mechanics and the structure of an experimental species ensemble. American Naturalist 137:1–26.CrossRefGoogle Scholar
Dugatkin, L. A. 1997. Cooperation Among Animals: an Evolutionary Perspective. Oxford: Oxford University Press.Google Scholar
Dugatkin, L. A. 1998. Game theory and cooperation. In Dukatkin, L. A. and Reeve, H. K. eds. Game Theory and Animal Behaviour. Oxford: Oxford University Press, pp. 38–63.Google Scholar
Dugatkin, L. A. and Reeve, H. K. 1998. Game Theory and Animal Behaviour. Oxford: Oxford University Press.Google Scholar
Earn, D. J. D., Rohani, P., Bolker, B. M. and Grenfell, B. T. 2000. A simple model for complex dynamical transitions in epidemics. Science 287:667–670.CrossRefGoogle ScholarPubMed
Easterling, M. R. and Ellner, S. P. 2000. Dormancy strategies in a random environment: comparing structured and unstructured models. Evolutionary Ecology Research 2:387–407.Google Scholar
Edelstein-Keshet, L. 1988. Mathematical Models in Biology. New York: Random House.,Google Scholar
Efron, B. and Tbshirani, R. J. 1983. An Introduction to Bootstrap. London: Chapman & Hall.Google Scholar
Ellegren, H., Gustafsson, L. and Sheldon, B. C. 1996. Sex ratio adjustment in relation to paternal attractiveness in a wild bird population. Proceedings of the National Academy of Science USA 93:11 723–11 728.CrossRefGoogle Scholar
Elton, C. S. 1924. Periodic fluctuations in the numbers of animals: their causes and effects. British Journal of Experimental Biology 2:119–163.Google Scholar
Elton, C. S. and Nicholson, M. 1942. The ten-year cycle in numbers of the lynx in Canada. Journal of Animal Ecology 11:215–244.CrossRefGoogle Scholar
Emlen, J. M. 1984. Population Biology. The Coevolution of Population Dynamics and Behavior. New York: Macmillan Publishing Company.Google Scholar
Engen, S., Bakke, Ø. and Islam, A. 1998. Demographic and environmental stochasticity – concepts and definitions. Biometrics 54:840–846.CrossRefGoogle Scholar
Erb, J., Boyce, M. S. and Stenseth, N. C. 2001. Population dynamics of large and small mammals. Oikos 92:3–12.CrossRefGoogle Scholar
Fagen, R. 1987. A generalized habitat matching rule. Evolutionary Ecology 1:5–10.CrossRefGoogle Scholar
Farnsworth, K. D. and Beecham, J. A. 1997. Beyond the ideal free distribution: more general models of predator distribution. Journal of Theoretical Biology 1187:389–396.CrossRefGoogle Scholar
Felsenstein, J. 1976. The theoretical population genetics of variable selection and migration. Annual Review of Genetics 10:253–280.CrossRefGoogle ScholarPubMed
Fisher, R. A. 1930. The Genetical Theory of Natural Selection. Oxford: Oxford University Press.CrossRefGoogle Scholar
Fowler, J. and Cohen, L. 1990. Practical Statistics for Field Biology. Chichester: Wiley.Google Scholar
Frank, S. A. 1990. Sex allocation theory for birds and mammals. Annual Review of Ecology and Systematics 21:13–55.CrossRefGoogle Scholar
Frean, M. and Abraham, E. R. 2001. Rock-scissors-paper and the survival of the weakest. Proceedings of the Royal Society, London, B 268:1323–1327.CrossRefGoogle ScholarPubMed
Fretwell, S. D. 1972. Populations in a Seasonal Environment. Princeton, N. J.: Princeton University Press.Google Scholar
Fretwell, S. D. and Lucas, H. L. 1970. On territorial behavior and other factors influencing habitat distribution in birds. I. Theoretical development. Acta Biotheoretica 19:16–36.,CrossRefGoogle Scholar
Fritts, H. C. 1976. Three Rings and Climate. London: Academic Press.Google Scholar
Fromentin, J. M., Myers, R. A., Bjørnstad, O. N., Stenseth, N. C., Gjosaeter, J. and Christie, H. 2001. Effects of density-dependent and stochastic processes on the regulation of cod populations. Ecology 82:567–579.CrossRefGoogle Scholar
Fryxell, J. M. and Lundberg, P. 1993. Optimal patch use and metapopulation dynamics. Evolutionary Ecology 7:379–393.,CrossRefGoogle Scholar
Fryxell, J. M. and Lundberg, P. 1997. Individual Behavior and Community Dynamics. London: Chapman & Hall.CrossRefGoogle Scholar
Gabriel, W. and Bürger, R. 1992. Survival of small populations under demographic stochasticity. Theoretical Population Biology 41:44–71.CrossRefGoogle ScholarPubMed
Gaillard, J.-M., Boutin, J.-M., Delorme, D., Laere, G., Duncan, P. and Lebreton, J.-D. 1997. Early survival in roe deer: causes and consequences of cohort variation in two contrasted populations. Oecologia 112:502–513.CrossRefGoogle ScholarPubMed
Gaston, K. 1996. The multiple forms of the interspecific abundance-distribution relationship. Oikos 76:211–220.CrossRefGoogle Scholar
Gaston, K. J., Blackburn, T. M. and Lawton, J. H. 1997. Interspecific abundance-range size relationships: an appraisal of mechanisms. Journal of Animal Ecology 66:579–601.CrossRefGoogle Scholar
Gauch, H. G. 1982. Multivariate Analysis in Community Ecology. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Gause, G. F. 1934. The Struggle for Existence. Baltimore, Md.: Williams and Wilkins.CrossRefGoogle ScholarPubMed
Gelman, A., Carlin, J. B., Stern, H. S. and Rubin, D. B. 1995. Bayesian Data Analysis. London: Chapman & Hall.Google Scholar
Getz, W. M. and Kaitala, V. 1993. Ecogenetic analysis and evolutionary stable strategies in harvested populations. In Stokes, T. K., McGlade, J. M. and Law, R. eds. The Exploitation of Evolving Resources, Lecture Notes in Biomathematics, vol. 99, pp. 187–203. Berlin: Springer-Verlag.CrossRefGoogle Scholar
Gillman, M. P. and Dodd, M. 2000. Detection of delayed density dependence in an orchid population 11. Journal of Ecology 88:204–212.CrossRefGoogle Scholar
Gilpin, M. and Hanski, I. eds. 1991. Metapopulation Dynamics: Empirical and Theoretical Investigations. London: Academic Press.Google Scholar
Ginzburg, L. R. and Taneyhill, D. E. 1994. Population cycles of forest Lepidoptera – a maternal effect hypothesis. Journal of Animal Ecology 63:79–92.CrossRefGoogle Scholar
Gonzalez-Andujar, J. L. 1998. Effect of immigration on a chaotic insect population. Ecological Research 13:259–261.CrossRefGoogle Scholar
Gonzales-Andujar, J. L. and Hughes, G. 2000. Complex dynamics in weed populations. Functional Ecology 14:524–526.Google Scholar
Goodman, D. 1974. Natural selection and a cost ceiling on reproductive effort. American Naturalist 108:247–268.CrossRefGoogle Scholar
Gotelli, N. J. 1995. A Primer of Ecology. Sunderland, Mass.: Sinauer Associates.Google Scholar
Grebogi, C., Ott, E. and Yorke, J. A. 1987. Chaos, strange attractors, and fractal basin boundaries in nonlinear dynamics. Science 238:632–638.CrossRefGoogle ScholarPubMed
Greenman, J. V. and Benton, T. G. 2001. The impact of stochasticity on the behaviour of nonlinearpopulation models: synchrony and the Moran effect. Oikos 93:343–351.,CrossRefGoogle Scholar
Grenfell, B. T. and Bolker, B. M. 1998. Cities and villages: infection hierarchies in a measles metapopulation. Ecology Letters 1:63–70.CrossRefGoogle Scholar
Grenfell, B. T. and Harwood, J. 1997. (Meta)population dynamics of infectious diseases. Trends in Ecology and Evolution 12:395–399.CrossRefGoogle ScholarPubMed
Grenfell, B. T., Wilson, K., Finkenstädt, B. F., Coulson, T. N., Murray, S., Albon, S. D., Pemberton, J. M., Clutton-Brock, T. H. and Crawley, M. J. 1998. Noise and determinism in synchronized sheep dynamics. Nature 394:674–677.CrossRefGoogle Scholar
Grenfell, B. T., Finkenstädt, B. F., Wilson, K. T., Coulson, T. N. and Crawley, M. J. 2000. Reply: nonlinearity and the Moran effect. Nature 406:847.CrossRefGoogle Scholar
Grenfell, B. T., Bjørnstad, O. N. and Kappey, J. 2001. Travelling waves and spatial hierarchies in measles epidemics. Nature 414:716–723.,CrossRefGoogle ScholarPubMed
Grenfell, B. T., Bjørnstad, O. N. and Finkenstaedt, B. F. 2002. Dynamics of measles epidemics: scaling noise, determinism, and predictability with the TSIR model. Ecological Monographs 72:185–202.CrossRefGoogle Scholar
Gurney, W. S. C. and Nisbet, R. M. 1998. Ecological Dynamics. New York: Oxford University Press.Google Scholar
Hall, A. J., McConnell, B. J. and Barker, R. J. 2001. Factors affecting first-year survival in grey seals and their implications for life history strategy. Journal of Animal Ecology 70:138–149.Google Scholar
Halley, J. M. 1995. Ecology, evolution and 1/f noise. Trends in Ecolology and Evolution 11:33–38.,CrossRefGoogle Scholar
Halley, J. M. and Iwasa, Y. 1998. Extinction rate of a population under both demographic and environmental stochasticity. Theoretical Population Biology 53:1–15.CrossRefGoogle ScholarPubMed
Halme, E. and Niemelä, J. 1993. Carabid beetles in fragments of coniferous forests. Annales Zoologici Fennici 30:17–30.Google Scholar
Hamilton, W. D. 1964a. The genetical evolution of social behaviour. I. Journal of Theoretical Biology 7:1–16.,CrossRefGoogle Scholar
Hamilton, W. D. 1964b. The genetical evolution of social behaviour. II. Journal of Theoretical Biology 7:17–32.,CrossRefGoogle Scholar
Hamilton, W. D. 1967. Extraordinary sex ratios. Science 156:477–488.CrossRefGoogle ScholarPubMed
Hanski, I. 1999a. Metapopulation Ecology. Oxford Series in Ecology and Evolution. Oxford: Oxford University Press.,Google Scholar
Hanski, I. 1999b. Habitat connectivity, habitat continuity, and metapopulations in dynamic landscapes. Oikos 87:209–219.CrossRefGoogle Scholar
Hanski, I. and Gilpin, M. 1991. Metapopulation dynamics: brief history and conceptual domain. Biological Journal of the Linnean Society 42:3–16.CrossRefGoogle Scholar
Hanski, I. and Woiwod, I. P. 1993. Spatial synchrony in the dynamics of moth and aphid populations. Journal of Animal Ecology 62:656–668.CrossRefGoogle Scholar
Hanski, I., Hansson, L. and Henttonen, H. 1991. Specialist predators, generalist predators, and the microtine rodent cycles. Journal of Animal Ecology 60:353–367.CrossRefGoogle Scholar
Hanski, I., Turchin, P., Korpimäki, E. and Henttonen, H. 1993. Population oscillations of boreal rodents: regulation by mustelid predators leads to chaos. Nature 364:232–235.CrossRefGoogle Scholar
Hansson, L. 1999. Interspecific variation in dynamics: small rodents between food and predation in changing landscapes. Oikos 86:159–169.CrossRefGoogle Scholar
Hansson, L. and Henttonen, H. 1985. Gradients in density variations of small rodents: the importance of latitude and snow cover. Oecologia 67:394–402.,CrossRefGoogle ScholarPubMed
Hansson, L. and Henttonen, H. 1988. Rodent dynamics as community processes. Trends in Ecology and Evolution 3:195–200.CrossRefGoogle ScholarPubMed
Hassell, M. P. 2000. Host-parasitoid population dynamics. Journal of Animal Ecology 69:543–566.CrossRefGoogle Scholar
Hassell, M. P. and May, R. M. 1973. Stability in insect host-parasite models. Journal of Animal Ecology 42:693–726.CrossRefGoogle Scholar
Hassell, M. P., Comins, H. N. and May, R. M. 1991. Spatial structure and chaos in insect population dynamics. Nature 353:255–258.CrossRefGoogle Scholar
Hassell, M. P., Comins, H. N. and May, R. M. 1994. Species coexistence and self-organizing spatial dynamics. Nature 370:290–292.CrossRefGoogle Scholar
Hastings, A. 1990. Spatial heterogeneity and ecological models. Ecology 71:426–428.CrossRefGoogle Scholar
Hastings, A. 1993. Complex interaction between dispersal and dynamics: lessons from coupled logistic equations. Ecology 74:1362–1372.CrossRefGoogle Scholar
Hastings, A. 1997. Population Biology. New York: Springer-Verlag.CrossRefGoogle Scholar
Hastings, A. and Higgins, K. 1994. Persistence of transients in spatially structured ecological models. Science 263:1133–1136.CrossRefGoogle ScholarPubMed
Hawkins, B. A. and Holyoak, M. 1998. Transcontinental crashes of insect populations? American Naturalist 152:480–484.CrossRefGoogle ScholarPubMed
Heino, M. 1998. Management of evolving fish stocks. Canadian Journal of Fisheries and Aquatic Sciences 55:1971–1982.CrossRefGoogle Scholar
Heino, M., Kaitala, V., Ranta, E. and Lindström, J. 1997a. Synchronous dynamics and rates of extinction in spatially structured populations. Proceedings of the Royal Society, London, B 264:481–486.CrossRefGoogle Scholar
Heino, M., Metz, J. A. J. and Kaitala, V. 1997b. Evolution of mixed maturation strategies in semelparous life histories: the crucial role of dimensionality of the feedback environment. Philosophical Transactions of the Royal Society, London, B 352:1647–1655.CrossRefGoogle Scholar
Heino, M., Metz, J. A. J. and Kaitala, V. 1998. The enigma of frequence-dependent selection. Trends in Ecology and Evolution 13:367–370.CrossRefGoogle Scholar
Heino, M., Ripa, J. and Kaitala, V. 2000. Extinction risk under coloured environmental noise. Ecography 23:177–184.CrossRefGoogle Scholar
Heino, R. 1994. Climate in Finland During the Period of Meteorological Observations. Finnish Meteorological Institute Contributions No. 12.
Henttonen, H. 1985. Predation causing extended low densities in microtine cycles: further evidence from shrew dynamics. Oikos 45:156–157.,CrossRefGoogle Scholar
Hilborn, R. and Mangel, M. 1997. The Ecological Detective. Princeton, N. J.: Princeton University Press.Google Scholar
Hilborn, R. and Walters, C. J. 1992. Quantitative Fisheries Stock Assessment. London: Chapman & Hall.CrossRefGoogle Scholar
Hofbauer, J. and Sigmund, K. 1998. Evolutionary Games and Population Dynamics. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Holt, R. D. 1983a. Immigration and the dynamics of peripheral populations. In Miyata, K. and Rhodin, A. eds. Advances in Herpetology and Evolutionary Biology. Harvard University, Mass.: Museum of Comparative Zoology, pp. 680–694.Google Scholar
Holt, R. D. 1983b. Models for peripheral populations: the role of immigration. In Freeman, H. I. and Strobeck, C. eds. Lecture Notes in Biomathematics, pp. 25–32. Berlin: Springer-Verlag.Google Scholar
Holt, R. D. 1997. On the evolutionary stability of sink populations. Evolutionary Ecology 11:723–731.CrossRefGoogle Scholar
Holt, R. D. 2002. Food webs in space: on the interplay of dynamic instability and spatial processes. Ecological Research 17:261–273.CrossRefGoogle Scholar
Horn, H. S. 1978. Optimal tactics of reproduction and life-history. In Krebs, J. R. and Davies, N. B. eds. Behavioural Ecology: An Evolutionary Approach. Oxford: Blackwell Scientific Publications, pp. 411–429.Google Scholar
Hörnfeldt, B. 1994. Delayed density dependence a determinant of vole cycles. Ecology 75:791–806.CrossRefGoogle Scholar
Hubbell, S. P. 2001. The Unified Neutral Theory of Biodiversity and Biogeography. Princeton, N. J.: Princeton University Press.Google Scholar
Hudson, P. J. 1992. Grouse in Space and Time. Fordingbridge: Game Conservancy Trust.Google Scholar
Hudson, P. J. and Cattadori, I. M. 1999. The Moran effect: a cause of population synchrony. Trends in Ecology and Evolution. 14:1–2.CrossRefGoogle ScholarPubMed
Hudson, P. J., Dobson, A. P. and Newbor, D. 1998. Prevention of population cycles by parasite removal. Science 282:2256–2258.CrossRefGoogle ScholarPubMed
Hughes, N. F. 1992. Ranking of feeding positions by drift-feeding Arctic grayling (Thymallus arcticus) in dominance hierarchies. Canadian Journal of Fisheries and Aquatic Sciences 49:1994–1998.CrossRefGoogle Scholar
Huntingford, F. A. and Turner, A. K. 1987. Animal Conflict. London: Chapman & Hall.CrossRefGoogle Scholar
Hutchings, J. A. 2000. Collapse and recovery of marine fishes. Nature 406:882–885.CrossRefGoogle ScholarPubMed
Hutchinson, G. E. 1961. The paradox of the plankton. American Naturalist 95:137–145.CrossRefGoogle Scholar
ICES. 1999. Cooperative Research Report. No. 236. Report of the Advisory Committee on Fisheries Management.
Ims, R. A. and Andreassen, H. P. 2000. Spatial synchronization of vole population dynamics by predatory birds. Nature 408:194–196.CrossRefGoogle ScholarPubMed
Ims, R. A. and Steen, H. 1990. Geographical synchrony in microtine population cycles: a theoretical evaluation of the role of the nomadic avian predators. Oikos 57:381–387.CrossRefGoogle Scholar
Inchausti, P. and Ginzburg, L. R. 1998. Small mammals cycles in northern Europe: patterns and evidence for a maternal effect hypothesis. Journal of Animal Ecology 67:180–194.CrossRefGoogle Scholar
Ives, A. R., Gross, K. and Jansen, V. A. A. 2000. Periodic mortality events in predator-prey systems. Ecology 81:3330–3340.Google Scholar
Jackson, A. L., Ranta, E., Lundberg, P., Kaitala, V. and Ruxton, G. D. 2004. Consumer-resource matching in a food chain when both predators and prey are free to move. Oikos 106:445–450.CrossRefGoogle Scholar
Jansen, V. A. A. 2001. The dynamics of two diffusively coupled predator-prey populations. Theoretical Population Biology 59:119–131.CrossRefGoogle ScholarPubMed
Jeffrey, H. J. 1992. Chaos game visualization of sequences. Computer Graphics 16:25–33.CrossRefGoogle Scholar
Jenkins, D. G. and Buikema, A. L. 1998. Do similar communities develop in similar sites? A test with zooplankton structure and function. Ecological Monographs 68:421–443.CrossRefGoogle Scholar
Johnson, C. N. 1998. Species extinction and the relationship between distribution and abundance. Nature 394:272–274.CrossRefGoogle Scholar
Johnson, S. D. 1994. Sex ratio and population stability. Oikos 69:172–176.CrossRefGoogle Scholar
Jonzén, N. and Lundberg, P. 1999. Temporally structured density-dependence and population management. Annales Zoologici Fennici 36:39–44.Google Scholar
Jonzén, N., Lundberg, P., Ranta, E. and Kaitala, V. 2002a. The irreducible uncertainty of the demography-environment interaction in ecology. Proceedings of the Royal Society of London B 269:221–226.CrossRefGoogle Scholar
Jonzén, N., Ripa, J. and Lundberg, P. 2002b. A theory of stochastic harvesting in stochastic environments. American Naturalist 159:427–437.CrossRefGoogle Scholar
Jonzén, N., Ranta, E., Lundberg, P., Kaitala, V. and Lindén, H. 2003. Harvesting induced population fluctuations? Wildlife Biology 9:59–65.CrossRefGoogle Scholar
Jordan, D. W. and Smith, P. 1997. Mathematical Techniques, 2nd edn. Oxford: Oxford University Press.Google Scholar
Jorgenson, J. T., Festa-Bianchet, M., Gaillard, J. M. and Wishart, W. D. 1997. Effects of age, sex, disease, and density on survival of bighorn sheep. Ecology 78:1019–1032.CrossRefGoogle Scholar
Joshi, N. V. and Gadgil, M. 1991. On the role of refugia in promoting prudent use of biological resources. Theoretical Population Biology 40:211–229.CrossRefGoogle Scholar
Kaitala, V. 2002. Travelling waves in spatial population dynamics. Annales Zoologici Fennici 39:161–171.Google Scholar
Kaitala, V. and Getz, W. M. 1995. Population dynamics and harvesting of semelparous species with phenotypic and genotypic variability in reproductive age, Journal of Mathematical Biology 33:521–556.CrossRefGoogle Scholar
Kaitala, V. and Heino, M. 1996. Complex nonuniqueness in ecological interactions. Proceedings of the Royal Society of London B 263:1011–1013.CrossRefGoogle Scholar
Kaitala, V. and Ranta, E. 1996. Red/blue chaotic power spectra. Nature 381:198–199.CrossRefGoogle ScholarPubMed
Kaitala, V. and Ranta, E. 1998. Travelling wave dynamics and self-organization in spatio-temporally structured populations. Ecology Letters 1:186–192.CrossRefGoogle Scholar
Kaitala, V. and Ranta, E. 2001. Is the impact of environmental noise visible in the dynamics of age-structured populations? Proceedings of the Royal Society of London B 268:1769–1774.,CrossRefGoogle ScholarPubMed
Kaitala, V., Ranta, E. and Lindström, J. 1996a. Cyclic population dynamics and random perturbations. Journal of Animal Ecology 65:249–251.,CrossRefGoogle Scholar
Kaitala, V., Ranta, E. and Lindström, J. 1996b. External perturbations and cyclic dynamics in stable populations. Annales Zoologici Fennici 33:275–282.Google Scholar
Kaitala, V., Lundberg, P., Ripa, J. and Ylikarjula, J. 1997a. Red, blue and green – dyeing population dynamics. Annales Zoologici Fennici 34:217–228.Google Scholar
Kaitala, V., Ylikarjula, J., Ranta, E. and Lundberg, P. 1997b. Population dynamics and the colour of environmental noise. Proceedings of the Royal Society of London B 264:943–948.CrossRefGoogle Scholar
Kaitala, V., Ylikarjula, J. and Heino, M. 1999. Dynamic complexities in host-parasitoid interaction. Journal of theoretical Biology 197:331–341.CrossRefGoogle ScholarPubMed
Kaitala, V., Ylikarjula, J. and Heino, M. 2000. Non-unique population dynamics: basic patterns. Ecological Modelling 135:127–134.CrossRefGoogle Scholar
Kaitala, V., Ranta, E. and Lundberg, P. 2001a. Self-organised dynamics in spatially structured populations. Proceedings of the Royal Society of London B 268:1655–1660.CrossRefGoogle Scholar
Kaitala, V., Alaja, S. and Ranta, E. 2001b. Temporal self-similarity created by spatial individual-based population dynamics. Oikos 94:273–278.CrossRefGoogle Scholar
Kaitala, V., Tesar, D. and Ranta, E. 2002. Semelparity vs. iteroparity and the number of age groups, Evolutionary Ecology Research 4:169–179.Google Scholar
Kaitala, V., Jonzén, N. and Enberg, K. 2003. Harvesting strategies in a fish stock dominated by low-frequency variability: the Norwegian spring spawning herring (Clupea harengus). Marine Resourse Economics 18:263–274.CrossRefGoogle Scholar
Kaitala, V., Enberg, K. and Ranta, E. 2004. Harvesting, conservation reserves, and distribution of individuals over space. Biological Letters 41:3–10.Google Scholar
Kalela, O. 1962. On the fluctuations in the numbers of arctic and boreal small rodents as a problem of population biology. Annales Academiae Scientiarum Fennicae, Series A IV 66:1–38.Google Scholar
Kareiva, P. 1990. Population dynamics in spatially complex environments: theory and data. Philosophical Transactions of the Royal Society of London, B 330:175–190.CrossRefGoogle Scholar
Karlin, S. and Lessard, S. 1986. Theoretical Studies on Sex Ratio Evolution. Princeton, N. J.: Princeton University Press.Google ScholarPubMed
Kauffman, S. A. 1993. The Origins of Order. Oxford: Oxford University Press.Google Scholar
Kelly, D. 1994. The evolutionary ecology of mast seeding. Trends in Ecology and Evolution 9:465–470.CrossRefGoogle ScholarPubMed
Kendall, B. E. and Fox, G. A. 1998. Spatial structure, environmental heterogeneity, and population dynamics: analysis of the coupled logistic map. Theoretical Population Biology 54:11–37.,CrossRefGoogle ScholarPubMed
Kendall, B. E., Prendergast, J. and Bjørnstad, O. N. 1998. The macroecology of population dynamics: taxonomic and biogeographic patterns in population cycles. Ecology Letters 1:160–164.CrossRefGoogle Scholar
Kendall, B. E., Bjørnstad, O. N., Bascompte, J., Keitt, T. H. and Fagan, W. F. 2000. Dispersal, environmental correlation, and spatial synchrony in population dynamics. American Naturalist 155:628–636.CrossRefGoogle ScholarPubMed
Kennedy, M. and Gray, R. D. 1993. Can ecological theory predict the distribution of foraging animals? A critical analysis of experiments on the Ideal Free Distribution. Oikos 68:158–166.CrossRefGoogle Scholar
Killingback, T. and Doebeli, M. 1998. Self-organized criticality in spatial evolutionary game theory. Journal of Theoretical Biology 199:135–140.Google Scholar
Koenig, W. D. and Knops, J. M. 1998. Testing for spatial autocorrelation in ecological studies. Ecography 21:423–429.CrossRefGoogle Scholar
Koenig, W. D. and Knops, J. M. 2000a. Scale of mast-seeding and three-ring growth. Nature 396:225–226.CrossRefGoogle Scholar
Koenig, W. D. and Knops, J. M. 2000b. Patterns of annual seed production by northern hemisphere trees: a global perspective. American Naturalist 155:59–69.CrossRefGoogle Scholar
Kokko, H. and Eberhardt, T. 1996. Measuring the strength of demographic stochasticity. Journal of Theoretical Biology 183:169–178.CrossRefGoogle Scholar
Kokko, H. and Lindström, J. 1998. Seasonal density dependence, timing of mortality and sustainable harvesting. Ecological Modelling 110:293–304.CrossRefGoogle Scholar
Kokko, H., Helle, E., Lindström, J., Ranta, E., Sipilä, T. and Courchamp, F. 1999. Backcasting population sizes of ringed and grey seals in the Baltic and Lake Saimaa during the 20th century. Annales Zoologici Fennici 36:65–73.Google Scholar
Kokko, H., Lindström, J. and Ranta, E. 2001. Life histories and sustainable harvesting. In Reynolds, J. D., Mace, G. M., Redford, K. H. and Robinson, J. G. eds. Conservation of Exploited Species. Cambridge: Cambridge University Press, pp. 301–322.Google Scholar
Kokko, H., Ranta, E., Ruxton, G. and Lundberg, P. 2002. Sexually transmitted disease and the evolution of mating systems. Evolution 56:1091–1100.CrossRefGoogle ScholarPubMed
Komdeur, J. and Hatchwell, B. J. 1999. Kin recognition: function and mechanism in avian societies. Trends in Ecology and Evolution 14:237–241.CrossRefGoogle ScholarPubMed
Komdeur, J., Daan, S. and Tinbergen, J. 1997. Extreme adaptive modification in sex ratio of the Seychelles warbler's eggs. Nature 358:522–525.CrossRefGoogle Scholar
Korpimäki, E. 1987. Clutch size, breeding success and brood size experiments in Tengmalm's owl Aegolius funereus: a test of hypotheses. Ornis Scandinavica 18:277–284.CrossRefGoogle Scholar
Korpimäki, E. and Hakkarainen, H. 1991. Fluctuating food supply affects the clutch size of Tengmalm's owl independent of laying date. Oecologia 85:543–552.CrossRefGoogle ScholarPubMed
Korpimäki, E. and Norrdahl, K. 1991. Do breeding nomadic avian predators dampen population fluctuations of small mammals? Oikos 62:195–208.CrossRefGoogle Scholar
Korpimäki, E. and Norrdahl, K. 1998. Experimental reduction of predators reverses the crash phase of small-rodent cycles. Ecology 79:2448–2455.,CrossRefGoogle Scholar
Kot, M. 1992. Discrete-time travelling waves – ecological examples. Journal of Mathematical Biology 30:413–436.CrossRefGoogle ScholarPubMed
Krebs, C. J. 1972. Ecology. The Experimental Analysis of Distribution and Abundance. New York: Harper and Row.Google Scholar
Krebs, C. J., Boutin, S., Boonstra, R., Sinclair, A. R. E., Smith, J. N. M., Dale, M. R. T. and Turkington, R. 1995. Impact of food and predation on the snowshoe hare cycle. Science 269:1112–1115.CrossRefGoogle ScholarPubMed
Krebs, C. J., Boonstra, R., Boutin, S. and Sinclair, A. R. E. 2001. What drives the 10-year cycle of snowshoe hares? Bioscience 51:25–35.CrossRefGoogle Scholar
Kruuk, L. E. B., Clutton-Brock, T. H., Albon, S. D., Pemberton, J. M. and Guinness, F. E. 1999. Population density affects sex ratio variation in red deer. Nature 399:459–461.CrossRefGoogle ScholarPubMed
Kuikka, S., Hildén, M., Gislason, H., Hansson, S., Sparholt, H. and Varis, O. 1999. Modelling environmentally driven uncertainties in Baltic cod (Gadus morhua) management by Bayesian influence diagrams. Canadian Journal of Fisheries and Aquatic Sciences 56:629–641.CrossRefGoogle Scholar
Kvarnemo, C., Moore, G. I., Jones, A. G., Nelson, W. S. and Avise, J. C. 2000. Monogamous pair bonds and mate switching in the Western Australian seahorse Hippocampus subelongatus. Journal of Evolutionary Biology 13:882–888.CrossRefGoogle Scholar
Laakso, J., Kaitala, V. and Ranta, E. 2001. How does environmental variation translate into biological processes? Oikos 92:119–122.,CrossRefGoogle Scholar
Lack, D. 1968. Ecological Adaptations for Breeding in Birds. London: Chapman and Hall.Google Scholar
Lambin, X., Elston, D. A., Petty, S. J. and MacKinnon, J. L. 1998. Spatial asynchrony and periodic travelling waves in cyclic populations of field voles. Proceedings of the Royal Society of London B 265:1491–1496.CrossRefGoogle ScholarPubMed
Lande, R. 1987. Extinction thresholds in demographic models of territorial populations. American Naturalist 130:624–635.CrossRefGoogle Scholar
Lande, R. 1993. Risk of population extinction from demographic and environmental stochasticity, and random catastrophes. American Naturalist 142:911–927.,CrossRefGoogle ScholarPubMed
Lande, R. 1998. Demographic stochasticity and Allee effect on a scale with isotropic noise. Oikos 83:353–358.CrossRefGoogle Scholar
Lande, R., Engen, S. and Sæther, B.-E. 1995. Optimal harvesting of fluctuating populations with a risk of extinction. American Naturalist 145:728–745.CrossRefGoogle Scholar
Lande, R., Sæther, B.-E. and Engen, S. 1997. Threshold harvesting for sustainability of fluctuating resources. Ecology 78:1341–1350.CrossRefGoogle Scholar
Lande, R., Engen, S. and Sæther, B.-E. 1999. Spatial scale of population synchrony: environmental correlation versus dispersal and density regulation. American Naturalist 154:271–281.CrossRefGoogle ScholarPubMed
Lande, R., Sæther, B.-E. and Engen, S. 2001. Sustainable exploitation of fluctuating populations. In Reynolds, J. D., Mace, G. M., Redford, K. H. and Robinson, J. G. eds. Conservation of Exploited Species. Cambridge: Cambridge University Press, pp. 67–86.Google Scholar
Lauck, T., Clark, C. W., Mangel, M. and Munro, G. R. 1998. Implementing the precautionary principle in fisheries management through marine reserves. Ecological Applications 8:72–78.CrossRefGoogle Scholar
Law, R. 1999. Theoretical aspects of community assembly. In McGlade, J. ed. Advanced Ecological Theory. Oxford: Blackwell Science, pp. 143–171.CrossRefGoogle Scholar
Law, R. 2000. Fishing, selection, and phenotypic evolution. ICES Journal of Marine Science 57:659–669.CrossRefGoogle Scholar
Law, R. 2001. Phenotypic and genetic changes due to selective exploitation. In Reynolds, J. D., Mace, G. M., Redford, K. H. and Robinson, J. G. eds. Conservation of Exploited Species. Cambridge: Cambridge University Press, pp. 323–342.Google Scholar
Law, R. and Grey, D. R. 1989. Evolution of yields from populations with age-specific cropping. Evolutionary Ecology 3:343–359.CrossRefGoogle Scholar
Law, R. and Morton, R. D. 1996. Permanence and the assembly of ecological communities. Ecology 77:762–775.CrossRefGoogle Scholar
Law, R., Weatherby, A. J. and Warren, P. H. 2000. On the invasibility of persistent protist communities. Oikos 88:319–326.CrossRefGoogle Scholar
Lawton, J. H., Nee, S., Letcher, A. J. and Harvey, P. H. 1994. In Edwards, P. J., May, R. M. and Webb, N. R. eds. Large-scale Ecology and Conservation Biology. London: Blackwell Scientific, pp. 41–58.Google Scholar
Lefkovitch, L. P. 1965. The study of population growth in organisms grouped by stages. Biometrics 21:1–18.CrossRefGoogle Scholar
Legendre, P. and Fortin, M.-J. 1989. Spatial pattern and ecological analysis. Vegetatio 80:107–138.CrossRefGoogle Scholar
Leimar, O. and Hammerstein, P. 2001. Evolution of cooperation through indirect reciprocity. Proccedings of the Royal Society, London, B 268:745–753.CrossRefGoogle ScholarPubMed
Leopold, A. 1933. Game Management. New York: Charles Scribner's Sons.Google Scholar
Leslie, P. H. 1945. On the use of matrices in certain population mathematics. Biometrika 33:183–212.,CrossRefGoogle ScholarPubMed
Leslie, P. H. 1948. Some further notes on the use of matrices in population mathematics. Biometrika 35:213–245.,CrossRefGoogle Scholar
Leslie, P. H. 1959. The properties of a certain lag type of population growth and the influence of an external random factor on a number of such populations. Physiological Zoology 32:151–159.CrossRefGoogle Scholar
Leslie, P. H. and Gower, J. C. 1958. The properties of a stochastic model for two competing species. Biometrika 45:316–330.CrossRefGoogle Scholar
Leslie, P. H. and Gower, J. C. 1960. The properties of a stochastic model for the predator-prey type of interaction between two species. Biometrika 47:219–234.CrossRefGoogle Scholar
Levins, R. 1968. Evolution in Changing Environments. Princeton, N.J.: Princeton University Press.Google Scholar
Levins, R. 1969. Some demographic and genetic consequences of environmental heterogeneity for biological control. Bulletin Entomological Society of America 15:237–240.CrossRefGoogle Scholar
Liebholt, A., Koenig, W. D. and Bjørnstad, O. N. 2004. Spatial synchrony in population dynamics. Annual Review of Ecology, Evolution, and Systematics 35:467–490.CrossRefGoogle Scholar
Lima, S. L. and Zollner, P. A. 1996. Towards a behavioural ecology of ecological landscapes. Trends in Ecology and Evolution 11:131–135.CrossRefGoogle ScholarPubMed
Lindén, H. 1981. Changes in Finnish tetraonid populations and some factors influencing mortality. Finnish Game Research 30:3–11.,Google Scholar
Lindén, H. 1988. Latitudinal gradients in predator-prey interactions, cyclicity and synchronism in voles and small game populations in Finland. Oikos 52:341–349.CrossRefGoogle Scholar
Lindén, H. 1989. Characteristics of tetraonid cycles in Finland. Finnish Game Research 46:34–42.Google Scholar
Lindén, H. 1991. Patterns of grouse shooting in Finland. Ornis Scandinavica 22:241–244.CrossRefGoogle Scholar
Lindén, H. and Rajala, P. 1981. Fluctuations in long-term trends in the relative densities of tetraonid populations in Finland, 1964–77. Finnish Game Research 39:13–34.,Google Scholar
Lindström, J. 1994. Tetraonid population studies – state of the art. Annales Zoologici Fennici 31:347–364.Google Scholar
Lindström, J. 1996. Modelling grouse population dynamics. Ph.D.thesis. Finland: University of Helsinki.Google Scholar
Lindström, J. 1999. Early development and fitness in birds and mammals. Trends in Ecology and Evolution 14:343–347.CrossRefGoogle ScholarPubMed
Lindström, J. and Kokko, H. 1998. Sexual reproduction and population dynamics: the role of polygyny and demographic sex differences. Proceedings of the Royal Society of London B 265:483–488.CrossRefGoogle ScholarPubMed
Lindström, J., Ranta, E., Kaitala, V. and Lindén, H. 1995. The clockwork of Finnish tetraonid population dynamics. Oikos 74:185–194.CrossRefGoogle Scholar
Lindström, J., Ranta, E. and Lindén, H. 1996. Large-scale synchrony in the dynamics of Capercaillie, Black Grouse and Hazel Grouse populations in Finland. Oikos 76:221–227.CrossRefGoogle Scholar
Lindström, J., Kokko, H. and Ranta, E. 1997a. Detecting periodicity in short and noisy time series data. Oikos 78:406–410.CrossRefGoogle Scholar
Lindström, J., Ranta, E., Lindén, M. and Lindén, H. 1997b. Reproductive output, population structure and cyclic dynamics in Capercaillie, Black Grouse and Hazel Grouse. Journal of Avian Biology 28:1–8.CrossRefGoogle Scholar
Lindström, J., Kokko, H., Ranta, E. and Lindén, H. 1999. Density dependence and the response surface methodology. Oikos 85:40–52.CrossRefGoogle Scholar
Lindström, J., Ranta, E., Kokko, H., Lundberg, P. and Kaitala, V. 2001. From arctic lemmings to adaptive dynamics: Charles Elton's legacy in population ecology. Biological Reviews 76:129–158.CrossRefGoogle ScholarPubMed
Lloyd, A. L. 1995. The coupled logistic map – a simple model for the effects of population dynamics. Journal of Theoretical Biology 173:217–230.CrossRefGoogle Scholar
Lockwood, D. R., Hastings, A. and Botsford, L. W. 2002. The effects of dispersal patterns on marine reserves: does the tail wag the dog? Theoretical Population Biology 61:297–309.CrossRefGoogle ScholarPubMed
Ludwig, D. 1996. The distribution of population survival times. American Naturalist 147:506–526.,CrossRefGoogle Scholar
Ludwig, D. 1998. Management of stocks that may collapse. Oikos 83:397–402.CrossRefGoogle Scholar
Lummaa, V., Merilä, J. and Kause, A. 1998. Adaptive sex ratio varation in pre-industrial human (Homo sapiens) populations? Proceedings of the Royal Society of London B 265:563–568.CrossRefGoogle Scholar
Lundberg, P. and Jonzén, N. 1999a. Optimal population harvesting in a source-sink environment. Evolutionary Ecology Research 1:719–729.Google Scholar
Lundberg, P. and Jonzén, N. 1999b. Spatial population dynamics and the design of marine reserves. Ecology Letters 2:129–134.CrossRefGoogle Scholar
Lundberg, P., Ranta, E., Ripa, J. and Kaitala, V. 2000a. Population variability in space and time. Trends in Ecology and Evolution 15:460–464.CrossRefGoogle Scholar
Lundberg, P., Ranta, E., Kaitala, V. and Jonzén, N. 2000b. Coexistence and resource competition. Nature 407:694.CrossRefGoogle Scholar
Lundberg, P., Ranta, E. and Kaitala, V. 2000c. Species loss leads to community closure. Ecology Letters 3:465–468.CrossRefGoogle Scholar
Lundberg, P., Ripa, J., Kaitala, V. and Ranta, E. 2001. Visibility of demography-modulating noise in population dynamics. Oikos 96:379–382.,CrossRefGoogle Scholar
MacArthur, R. H. 1972. Geographical Ecology. Princeton, N. J.: Princeton University Press.Google Scholar
MacCall, A. D. 1990. Dynamic Geography of Marine Fish Populations. University of Washington Press, Seattle: Washington Sea Grant Program, pp. 153.Google Scholar
Mackenzie, J. M. D. 1952. Fluctuations in the numbers of British tetraonids. Journal of Animal Ecology 21:128–153.CrossRefGoogle Scholar
Mackinnon, J. L., Petty, S. J., Elston, D. A., Thomas, C. J., Sherratt, T. N. and Lambin, X. 2001. Scale invariant spatio-temporal patterns of field vole density. Journal of Animal Ecology 70:101–111.CrossRefGoogle Scholar
Mangel, M. 1994. Spatial patterning in resource exploitation and conservation. Philosophical Transactions of the Royal Society, London B 343:93–98.CrossRefGoogle Scholar
Mangel, M. 1998. No-take areas for sustainability of harvested species and a conservation invariant for marine reserves. Ecology Letters 1:87–90.CrossRefGoogle Scholar
Mangel, M. 2000a. On the fraction of habitat allocated to marine reserves. Ecology Letters 3:15–22.CrossRefGoogle Scholar
Mangel, M. 2000b. Irreducible uncertainties, sustainable fisheries and marine reserves. Evolutionary Ecology Research 2:547–557.Google Scholar
Marcström, V., Höglund, N. and Krebs, C. 1990. Periodic fluctuations in small mammals at Boda, Sweden from 1961 to 1988. Journal of Animal Ecology 59:753–761.CrossRefGoogle Scholar
Matter, S. F. 1996. Interpatch movement of the red milkweed beetle, Tetraopes tetraophthalmus – individual responses to patch size and isolation. Oecologia 105:447–453.CrossRefGoogle ScholarPubMed
May, R. M. 1974. Biological populations with non-overlapping generations: stable points, stable cycles, and chaos. Science 186:645–747.,CrossRefGoogle Scholar
May, R. M. 1975. Stability and Complexity in Model Ecosystems, 2nd edn. Princeton, N. J.: Princeton University Press.,Google Scholar
May, R. M. 1976. Simple mathematical models with very complicated dynamics. Nature 261:459–467.CrossRefGoogle ScholarPubMed
May, R. M. 1981. The evolution of cooperation. Nature 292:291–292.CrossRefGoogle ScholarPubMed
May, R. M. 1987. More evolution of cooperation. Nature 327:15–16.CrossRefGoogle Scholar
May, R. M., Beddington, J. R., Horwood, J. W. and Shepherd, J. G. 1978. Exploiting natural populations in an uncertain world. Mathematical Biosciences 42:219–252.CrossRefGoogle Scholar
Maynard Smith, J. M. 1974. Models in Ecology. Cambridge: Cambridge University Press.Google Scholar
Maynard Smith, J. M. 1982. Evolution and the Theory of Games. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Maynard Smith, J. and Price, G. R. 1973. The logic of animal conflict. Nature 246:15–18.CrossRefGoogle Scholar
McCallum, H. I. 1992. Effects of immigration on chaotic population dynamics. Journal of Theoretical Biology 154:177–184.CrossRefGoogle Scholar
McCullough, D. R. 1996. Spatially structured populations and harvest theory. Journal of Wildlife Management 60:1–9.CrossRefGoogle Scholar
Meszéna, G. and Metz, J. A. J. 1999. Species diversity and population regulation: the importance of environmental feedback dimensionality. IIASA Report IR–99–045. Laxenburg, Austria: IAASA.Google Scholar
Metcalfe, N. B. and Monaghan, P. 2001. Compensation of a bad start: grow now, pay later? Trends in Ecology and Evolution 16:254–260.CrossRefGoogle ScholarPubMed
Metz, J. A. J. and Diekmann, O. 1986. The Dynamics of Physiologically Structured Populations. New York: Springer-Verlag.CrossRefGoogle Scholar
Metz, J. A. J., Nisbet, R. M. and Gertiz, S. A. H. 1992. How should we define “fitness” for general ecological scenarios? Trends in Ecology and Evolution 7:198–202.,CrossRefGoogle ScholarPubMed
Milinski, M. 1979. Evolutionarily stable feeding strategy in sticklebacks. Zeitschrift für Tierpsychologie 51:36–40.CrossRefGoogle Scholar
Milinski, M. 1994. Ideal free theory predicts more than only input matching – critique of Kennefy and Gray's review. Oikos 71:163–166.CrossRefGoogle Scholar
Milinski, M. and Parker, G. A. 1991. Competition for resources. In Krebs, J. R. and Davies, N. B. eds. Behavioural Ecology. Oxford: Blackwell Scientific Publications, pp. 137–168.Google Scholar
Milinski, M., Seemann, D., Bakker, T. C. M. and Krambeck, H.-J. 2001. Cooperation through indirect reciprocy: image scoring or standing strategy? Proceedings from the Royal Society London B 268:2495–2501.CrossRefGoogle ScholarPubMed
Moran, P. A. P. 1950a. Some remarks on animal population dynamics. Biometrika 6:250–258.CrossRefGoogle Scholar
Moran, P. A. P. 1950b. Notes on continuous stochastic phenomena. Biometrika 37:17–23.CrossRefGoogle Scholar
Moran, P. A. P. 1953a. The statistical analysis of the Canadian lynx cycle. I. Structure and prediction. Australian Journal of Zoology 1:163–173.CrossRefGoogle Scholar
Moran, P. A. P. 1953b. The statistical analysis of the Canadian lynx cycle. II. Synchronization and meteorology. Australian Journal of Zoology 1:291–298.CrossRefGoogle Scholar
Morris, D. W. 1988. Habitat-dependent population regulation and community structure. Evolutionary Ecology 2:253–269.CrossRefGoogle Scholar
Morris, D. W. 1994. Habitat matching: alternatives and implications to populations and communities. Evolutionary Ecology 8:387–406.CrossRefGoogle Scholar
Morris, D. W., Lundberg, P. and Ripa, J. 2001. Hamilton's rule confronts ideal free habitat selection. Proceedings of the Royal Society London B 268:921–924.CrossRefGoogle ScholarPubMed
Morton, R. D., Law, R., Pimm, S. L. and Drake, J. A. 1996. On models for assembling ecological communities. Oikos 75:493–499.CrossRefGoogle Scholar
Moss, R., Elston, D. A. and Watson, A. 2000. Spatial asynchrony and demographic travelling waves during Red Grouse population cycles. Ecology 81:981–989.CrossRefGoogle Scholar
Mousseau, T. A. and Fox, C. W. 1998. The adaptive significance of maternal effect. Trends in Ecology and Evolution 13:403.CrossRefGoogle Scholar
Murphy, G. I. 1968. Pattern in life history and the environment. American Naturalist 102:391–403.CrossRefGoogle Scholar
Murray, B. G. Jr. 1999. Can the population regulation controversy be buried and forgotten? Oikos 84:148–152.CrossRefGoogle Scholar
Murray, B. G. Jr. 2001. Are ecological and evolutionary theories scientific? Biological Reviews 76:255–289.CrossRefGoogle ScholarPubMed
Myers, J. H. 1998. Synchrony in outbreaks of forest lepidoptera: a possible example of the Moran effect. Ecology 79:1111–1117.CrossRefGoogle Scholar
Myers, R. A. and Hoenig, J. M. 1997. Direct estimates of gear selectivity from multiple tagging experiments. Canadian Journal of Fisheries and Aquatic Sciences 54:1–9.Google Scholar
Myers, R. A., Mertz, G. and Birdson, J. 1997a. Spatial scales of interannual recruitmen variations of marine, anadromous, and freshwater fish. Canadian Journal of Fisheries and Aquatic Sciences 54:1400–1407.,CrossRefGoogle Scholar
Myers, R. A., Bradford, M. J., Bridson, J. M. and Mertz, G. 1997b. Estimating delayed density-dependent mortality in sockeye salmon (Oncorhynchus nerka): a meta-analytic approach. Canadian Journal of Fisheries and Aquatic Sciences 54:2449–2462.CrossRefGoogle Scholar
Myers, R. A., Hutchings, J. A. and Barrowman, N. J. 1997c. Why do fish stocks collapse? Ecological Applications 7:91–106.CrossRefGoogle Scholar
Nakano, S. 1995. Individual differences in resource use, growth and emigration under the influence of a dominance hierarchy in fluvial red-spotted masu salmon in a natural habitat. Journal of Animal Ecology 64:75–84.CrossRefGoogle Scholar
Nason, G. P. and Sachs, R. 1999. Wavelets in time series analysis. Philosophical Transactions of the Royal Society of London A 357:2511–2526.CrossRefGoogle Scholar
Nicholson, A. J. and Bailey, V. A. 1935. The balance of animal populations. Proceedings of the Zoological Society of London 3:551–598.CrossRefGoogle Scholar
Nisbet, R. M. and Gurney, W. S. C. 1982. Modelling Fluctuating Populations. Chichester: John Wiley and Sons.Google Scholar
Nowak, M. A. and May, R. M. 1992. Evolutionary games and spatial chaos. Nature 359:826–829.CrossRefGoogle Scholar
Nowak, M. A. and Sigmund, K. 1998. Evolution of indirect reciprocity by image scoring. Nature 393:573–577.CrossRefGoogle ScholarPubMed
Olsen, E. M., Heino, M., Lilly, G. R., Morgan, M. J., Brattey, J., Ernande, B. and Dieckmann, U. 2004. Maturation trends indicative of rapid evolution preceded the collapse of northern cod. Nature 428:32–935.CrossRefGoogle ScholarPubMed
O'Riain, M., Bennett, N., Brotherton, P., McIlrath, G. and Clutton-Brock, T. H. 2000. Reproductive suppression and inbreeding avoidance in wild populations of co-operatively breeding meerkats (Suricata suricatta). Behavioral Ecology and Sociobiology 48:471–477.CrossRefGoogle Scholar
Palmer, A. R. 2000. Quasi-replication and the contract of error: lessons from sex ratios, heritabilities, and fluctuating asymmetry. Annual Review of Ecology and Systematics 31:441–480.CrossRefGoogle Scholar
Palmqvist, E., Lundberg, P. and Jonzén, N. 2000. Linking resource matching and dispersal. Evolutionary Ecology 14:1–12.,CrossRefGoogle Scholar
Paradis, E. 1997. Metapopulations and chaos: on the stabilizing influence of dispersal. Journal of Theoretical Biology 186:261–266.CrossRefGoogle Scholar
Paradis, E., Baillie, S., Sutherland, W. and Gregory, R. D. 2000. Spatial synchrony in populations of birds: effects of habitat, population trend, and spatial scale. Ecology 81:2112–2125.CrossRefGoogle Scholar
Park, T. 1948. Experimental studies of interspecific competition. 1. Competition between populations of the flour beetle Tribolium confusum Duval and Tribolium castaneoum Herbst. Ecological Monographs 18:267–307.CrossRefGoogle Scholar
Parker, G. A. 1974. The reproductive behaviour and the nature of sexual selection in Scatophaga stercoraria L. (Diptera: Scatophagia). IX. Spatial distribution of fertilization rates and evolution of male search strategy within the reproductive area. Evolution 28:93–108.CrossRefGoogle Scholar
Parker, G. A. and Sutherland, W. J. 1986. Ideal free distributions when individuals differ in competitive ability: phenotype-limited ideal free models. Animal Behaviour 34:1222–1242.CrossRefGoogle Scholar
Patterson, K. R. 1999. Evaluating uncertainty in harvest control law catches using Bayesian Markov chain Monte Carlo virtual population analysis with adaptive rejection resampling and including structural uncertainty. Canadian Journal of Fisheries and Aquatic Sciences 56:208–221.CrossRefGoogle Scholar
Petersen, C. W. and Levitan, D. R. 2001. The Allee effect: a barrier to recovery by exploited species. In Reynolds, J. D., Mace, G. M., Redford, K. H. and Robinson, J. G. eds. Conservation of Exploited Species. Cambridge: Cambridge University Press, pp. 281–300.Google Scholar
Peterson, R. 1997. Ecological studies of wolves on Isle Royale. Annual Report 1996–1997. Houghton, Mich.: Isle Royale Natural History Association.Google Scholar
Pielou, E. C. 1974. Population and Community Ecology. New York: Gordon and Breach Science Publishers.Google Scholar
Pimm, S. L. 1980. Food web design and the effect of species deletion. Oikos 35:139–149.CrossRefGoogle Scholar
Pimm, S. L. 1982. Food Webs. London: Chapman & Hall.CrossRefGoogle Scholar
Pimm, S. L. 1991. The Balance of Nature? Chicago, Ill.: The University of Chicago Press.Google Scholar
Pimm, S. L. and Redfearn, A. 1988. The variability of animal populations. Nature 334:616–614.CrossRefGoogle Scholar
Plaistow, S. and Siva-Jothy, M. T. 1999. The ontogenetic switch between odonate life history stages: effects on fitness when time and food are limited. Animal Behaviour 58:659–667.CrossRefGoogle ScholarPubMed
Poethke, H. J. and Hovestadt, T. 2002. Evolution of density- and patch-size-dependent dispersal rates. Proceedings of the Royal Society of London B 269:637–645.CrossRefGoogle ScholarPubMed
Pollard, E. 1991. Synchrony in population fluctuations: the dominant influence of widespread factors on local butterfly populations. Oikos 60:7–10.CrossRefGoogle Scholar
Poole, R. W. 1974. An Introduction to Quantitative Ecology. London: McGraw-Hill.Google Scholar
Post, E. and Stenseth, N. C. 1999. Climatic variability, plant phenology and northern ungulates. Ecology 80:1322–1339.CrossRefGoogle Scholar
Post, E., Forchhammer, M. C., Stenseth, N. C. and Callaghan, T. V. 2001. The timing of life-history events in changing climate. Proceedings of the Royal Society London B 268:15–23.CrossRefGoogle ScholarPubMed
Post, W. M. and Pimm, S. L. 1983. Community assembly and food web stability. Mathematical Biosciences 64:169–192.CrossRefGoogle Scholar
Potts, G. R., Tapper, S. C. and Hudson, P. J. 1984. Population fluctuations in red grouse: analysis of bag records and a simulation model. Journal of Animal Ecology 53:21–36.CrossRefGoogle Scholar
Powell, T. M. and Steel, J. H. eds. 1995. Ecological Time Series. New York: Chapman and Hall.Google Scholar
Priestly, M. B. 1981. Spectral Analysis and Time Series. London: Academic Press.Google Scholar
Pulliam, H. R. 1988. Sources, sinks and population regulation. American Naturalist 132:652–661.CrossRefGoogle Scholar
Pulliam, H. R. and Caraco, T. 1984. Living in groups: is there an optimal group size? In Krebs, J. R. and Davies, N. B. eds. Behavioural Ecology, 2nd edn. Oxford: Blackwell Scientific Publications, pp. 122–147.Google Scholar
Quinn, T. J. II and Deriso, R. B. 1999. Quantitative Fish Dynamics. Oxford: Oxford University Press.,Google Scholar
Ranta, E. and Kaitala, V. 1997. Travelling waves in vole population dynamics. Nature 390:456.CrossRefGoogle Scholar
Ranta, E. and Kaitala, V. 1999. Punishment of polygyny. Proceedings of the Royal Society of London B 266:2337–2341.CrossRefGoogle Scholar
Ranta, E. and Kaitala, V. 2000. Resource matching and population dynamics in a two-patch system. Oikos 91:507–511.,CrossRefGoogle Scholar
Ranta, E., Kaitala, V., Lindström, J. and Lindén, H. 1995a. Synchrony in population dynamics. Proceedings of the Royal Society London B 262:113–118.,CrossRefGoogle Scholar
Ranta, E., Lindström, J. and Lindén, H. 1995b. Synchrony in tetraonid population dynamics. Journal of Animal Ecology 64:767–776.CrossRefGoogle Scholar
Ranta, E., Kaitala, V. and Lundberg, P. 1997a. The spatial dimension of population fluctuations. Science 278:1621–1623.CrossRefGoogle Scholar
Ranta, E., Kaitala, V. and Lindström, J. 1997b. Dynamics of Canadian lynx populations in space and time. Ecography 20:454–460.CrossRefGoogle Scholar
Ranta, E., Kaitala, V. and Lindström, J. 1997c. Spatial dynamics of populations. In Bascompte, J. and Solé, R. V. eds. Modelling Spatiotemporal Dynamics in Ecology. New York: Springer-Verlag, pp. 45–60.Google Scholar
Ranta, E., Lindström, J., Kaitala, V., Kokko, H., Lindén, H. and Helle, E. 1997d. Solar activity and hare dynamics – a cross-continental comparison. American Naturalist 149:765–775.CrossRefGoogle Scholar
Ranta, E., Kaitala, V., Lindström, J. and Helle, E. 1997e. Moran effect and synchrony in population dynamics. Oikos 78:136–142.,CrossRefGoogle Scholar
Ranta, E., Kaitala, V. and Lindström, J. 1997f. External disturbances and population dynamics. Annales Zoologici Fennici 34:127–132.Google Scholar
Ranta, E., Kaitala, V. and Lundberg, P. 1998. Population variability in space and time: the dynamics of synchronous population fluctuations. Oikos 83:376–382.,CrossRefGoogle Scholar
Ranta, E., Kaitala, V. and Lindström, J. 1999a. Spatially autocorrelated disturbances and patterns in population synchrony. Proceedings of the Royal Society London B 266:1851–1956.,CrossRefGoogle Scholar
Ranta, E., Kaitala, V. and Lindström, J. 1999b. Synchronicity in population dynamics: cause and consequence mixed. Trends in Evolution and Ecology 14:400–401.,CrossRefGoogle Scholar
Ranta, E., Lundberg, P. and Kaitala, V. 1999c. Resource matching with limited knowledge. Oikos 86:383–385.CrossRefGoogle Scholar
Ranta, E., Kaitala, V. and Lindström, J. 1999d. Sex in space: population dynamic consequences. Proceedings of the Royal Society of London B 266:1155–1160.CrossRefGoogle Scholar
Ranta, E., Lundberg, P., Kaitala, V. and Laakso, J. 2000a. Visibility of the environmental noise modulating population dynamics. Proceedings of the Royal Society of London B 267:1851–1856.,CrossRefGoogle Scholar
Ranta, E., Lundberg, P. and Kaitala, V. 2000b. Size of environmental grain and resource matching. Oikos 89:573–576.CrossRefGoogle Scholar
Ranta, E., Lummaa, V., Kaitala, V. and Merilä, J. 2000c. Spatial dynamics of adaptive sex ratios. Ecology Letters 3:30–34.CrossRefGoogle Scholar
Ranta, E., Kaitala, V., Tesar, D. and Alaja, S. 2000d. Complex dynamics and evolution of semelparous and iteroparous reproductive strategies. American Naturalist 155:294–300.CrossRefGoogle Scholar
Ranta, E., Tesar, D., Alaja, S. and Kaitala, V. 2000e. Does evolution of iteroparous and semelparous reproduction call for spatially structured systems? Evolution 54:145–150.CrossRefGoogle Scholar
Ranta, E., Tesar, D. and Kaitala, V. 2001. Local extinctions promote coexistence of semelparous and iteroparous life histories. Evolutionary Ecology Research 3:759–766.Google Scholar
Ratner, S. and Lande, R. 2001. Demographic and evolutionary responses to selective harvesting in populations with discrete generations. Ecology 82:3093–3104.CrossRefGoogle Scholar
Rees, M. 1994. Delayed germination of seeds: a look at the effects of adult longevity, the timing of reproduction. and population age/stage structure. American Naturalist 144:43–64.CrossRefGoogle Scholar
Rees, M. and Long, M. J. 1992. Germination biology and the ecology of annual plants. American Naturalist 139:484–508.CrossRefGoogle Scholar
Restrepo, V. R., Hoenig, J. M., Powers, J. E., Baird, J. W. and Turner, S. C. 1992. A simple simulation approach to risk and cost analysis, with applications to swordfish and cod fisheries. Fishery Bulletin 90:736–748.Google Scholar
Reynolds, J. D., Mace, G. M., Redford, K. H. and Robinson, J. G. eds. 2001. Conservation of Exploited Species. Cambridge: Cambridge University Press.Google Scholar
Ricker, W. E. 1954. Stock and recruitment. Journal of the Fisheries Board of Canada 2:559–623,CrossRefGoogle Scholar
Rijnsdorp, A. D. 1993. Fisheries as a large-scale experiment on life-history evolution: disentangling phenotypic and genetic effects in changes in maturation and reproduction of North Sea plaice, Pleuronectes platessa L. Oecologia 96:391–401.CrossRefGoogle ScholarPubMed
Riolo, R. L., Cohen, M. D. and Axelrod, R. 2001. Evolution of cooperation without reciprocity. Nature 414:441–443.CrossRefGoogle ScholarPubMed
Ripa, J. 2000. Analysing the Moran effect and dispersal: their significance and interaction in synchronous population dynamics. Oikos 89:175–187.CrossRefGoogle Scholar
Ripa, J. and Heino, M. 1999. Linear analysis solves two puzzles in population dynamics: the route to extinction and extinction in coloured environments. Ecology Letters 2:219–222.,CrossRefGoogle Scholar
Ripa, J. and Lundberg, P. 1996. Noise colour and the risk of population extinctions. Proceedings of the Royal Society of London B 263:1751–1753,CrossRefGoogle Scholar
Ripa, J. and Lundberg, P. 2000. The route to extinction in variable environments. Oikos 90:89–96.,CrossRefGoogle Scholar
Ripa, J., Lundberg, P. and Kaitala, V. 1998. A general theory of environmental noise in ecological food webs. American Naturalist 151:256–263.CrossRefGoogle ScholarPubMed
Roff, D. A. 1992. The Evolution of Life Histories. New York: Chapman & Hall.Google Scholar
Rohani, P. and Miramontes, O. 1995a. Immigration and the persistence of chaos in population models. Journal of Theoretical Biology 175:203–206.CrossRefGoogle Scholar
Rohani, P. and Miramontes, O. 1995b. Host-parasitoid metapopulations – the consequences of parasitoid aggregation on spatial dynamics and searching efficiency. Proceedings of the Royal Society of London B 260:335–342.CrossRefGoogle Scholar
Rohner, C. 1996. The numerical response of great horned owls during a peak and decline of the snowshoe hare cycle. Journal of Animal Ecology 65:359–370.CrossRefGoogle Scholar
Roos, A. M., Diekmann, O. and Metz, J. A. J. 1992. Studying the dynamics of structured population models: a versatile technique and its applications to Daphnia. American Naturalist 139:123–147.CrossRefGoogle Scholar
Rose, M. R. and Bradley, T. J. 1998. Evolutionary physiology of the cost of reproduction. Oikos 83:443–451.CrossRefGoogle Scholar
Roughgarden, J. 1971. Density-dependent natural selection. Ecology 52:453–468.CrossRefGoogle Scholar
Roughgarden, J. 1998. Primer of Theoretical Ecology. Princeton, N. J.: Prentice-Hall.,Google Scholar
Royama, T. 1981. Fundamental concepts and methodology for the analysis of animal population dynamics, with particular reference to univoltine species. Ecological Monographs 51:473–493.CrossRefGoogle Scholar
Royama, T. 1992. Analytical Population Dynamics. New York: Chapman & Hall.,CrossRefGoogle Scholar
Rusak, J. A., Norman, D. Y., Somers, K. M. and McQueen, D. J. 1999. The temporal coherence of zooplankton population abundances in neighboring north-temperate lakes. American Naturalist 153:46–58.Google ScholarPubMed
Ruxton, G. D. 1994. Low levels of immigration between chaotic populations can reduce system extinction by reducing asynchronous regular cycles. Proceedings of the Royal Society of London B 256:189–193.CrossRefGoogle Scholar
Ruxton, G. D. 1995a. The effect of emigration and immigration on the dynamics of a discrete-generation population. Journal of Bioscience 20:397–407.CrossRefGoogle Scholar
Ruxton, G. D. 1995b. Population models with sexual reproduction show a reduced propensity to exhibit chaos. Journal of Theoretical Biology 175:595–601.CrossRefGoogle Scholar
Ruxton, G. D. 1996a. Density-dependent migration and stability in a system of linked populations. Bulletin of Mathematical Biology 58:643–660.CrossRefGoogle Scholar
Ruxton, G. D. 1996b. Synchronisation between individuals and the dynamics of linked populations. Journal of Theoretical Biology 183:47–54.CrossRefGoogle Scholar
Ruxton, G. D. and Doebeli, M. 1996. Spatial self-organization and persistence of transients in a metapopulation model. Proceedings of the Royal Society of London B 263:1153–1158.CrossRefGoogle Scholar
Ruxton, G. D. and Humphries, S. 1999. Multiple ideal free distributions of unequal competitors. Evolutionary Ecology Research 1:635–640.Google Scholar
Ruxton, G. D. and Rohani, P. 1998. Population floors and the persistence of chaos in ecological models. Theoretical Population Biology 53:175–183.CrossRefGoogle ScholarPubMed
Ruxton, G. D., Gonzales-Andujar, J. L. and Perry, J. N. 1997. Mortality during dispersal and the stability of a metapopulation. Journal of Theoretical Biology 186:389–396.CrossRefGoogle ScholarPubMed
Ruxton, G. D., Armstrong, J. D. and Humphries, S. 1999. Modelling territorial behaviour of animals in variable environments. Animal Behaviour 58:113–120.CrossRefGoogle ScholarPubMed
Sæther, B.-E., Engen, S. and Lande, R. 1996. Density-dependence and optimal harvesting of fluctuating populations. Oikos 76:40–46.CrossRefGoogle Scholar
Sæther, B.-E., Ringsby, T. H., Bakke, O. and Solberg, E.-J. 1999. Spatial and temporal variation in demography of a house sparrow metapopulation. Journal of Animal Ecology 68:628–637.CrossRefGoogle Scholar
Satake, A. and Iwasa, Y. 2000. Pollen coupling of forest trees: forming synchronized and periodic reproduction out of chaos. Journal of Theoretical Biology 203:63–84.CrossRefGoogle Scholar
Savill, N. J. and Hogeweg, P. 1999. Competition and dispersal in predator-prey waves. Journal of Theoretical Biology 56:243–263.CrossRefGoogle ScholarPubMed
Schmitz, O. J., Beckerman, A. P. and O'Brien, K. M. 1997. Behaviourally mediated trophic cascades: effects of predation risk on food web interactions. Ecology 78:1388–1399.CrossRefGoogle Scholar
Schoen, R. 1983. Relationships in a simple harmonic mean two-sex fertility model. Journal of Mathematical Biology 18:201–211.CrossRefGoogle Scholar
Scott, F. A. M. & Grant, A. 2004 Visibility of the impact of environmental noise: a response to Kaitala and Ranta. Proceedings of the Royal Society of London B 271:1119–1124.CrossRefGoogle ScholarPubMed
Sherratt, J. A. 2001. Periodic travelling waves in cyclic predator-prey system. Ecology Letters 4:30–37.CrossRefGoogle Scholar
Sherratt, J. A., Lambin, X., Thomas, C. J. and Sherratt, T. N. 2002. Generation of periodic waves by landscape features in cyclic predator-prey system. Proceedings of the Royal Society of London B 269:327–334.CrossRefGoogle Scholar
Sherratt, T. N., Lambin, X., Petty, S. J., Mackinnon, J. L., Coles, C. F. and Thomas, C. J. 2000. Use of coupled oscillator models to understand synchrony and travelling waves in populations of the field vole Microtus agrestis in northern England. Journal of Applied Ecology 37:148–158.CrossRefGoogle Scholar
Shigesada, N., Kawasaki, K. and Teramoto, E. 1986. Travelling periodic waves in heterogeneous environments. Theoretical Population Biology 30:143–160.CrossRefGoogle Scholar
Shikesada, N. and Kawasaki, K. 1997. Biological Invasions: Theory and Practice. Oxford: Oxford University Press.Google Scholar
Sigmund, K. 1993. Games of Life: Explorations in Ecology, Evolution and Behaviour. Oxford: Oxford University Press.Google Scholar
Silvertown, J. 1988. The demographic and evolutionary consequences of seed dormancy. In Davy, A. J., Hutchings, M. J. and Watkinson, A. R. eds. Plant Population Ecology. Oxford: Blackwell Scientific Publication, pp. 205–219.Google Scholar
Silvertown, J. and Doust, Lovett J. 1993. Introduction to Plant Population Biology. Oxford: Blackwell Scientific Publication.Google Scholar
Sinervo, B. and Lively, C. M. 1996. The rock-paper-scissors game and the evolution of alternative male strategies. Nature 380:240–243.CrossRefGoogle Scholar
Sinervo, B., Svensson, E. and Comendant, T. 2000. Density cycles and an offspring quality and quantity game driven by natural selection. Nature 406:985–988.CrossRefGoogle Scholar
Sinha, S. and Parthasarathy, S. 1996. Unusual dynamics of extinction in an unusual ecological model. Proceedings of the National Academy of Sciences 93:1504–1508.CrossRefGoogle Scholar
Small, R. J., Marcström, V. and Willebrand, T. 1993. Synchronous and non- synchronous population fluctuations of some predators and their prey in central Sweden. Ecography 16:360–364.CrossRefGoogle Scholar
Smith, C. H. 1983. Spatial trends in Canadian snowshoe hare, Lepus americanus, population cycles. Canadian Field-Naturalist 97:151–160.Google Scholar
Sokal, R. R. and Oden, F. M. L. S. 1978. Spatial autocorrelation in biology. 1. Methodology. Biological Journal of the Linnean Society 10:199–228.CrossRefGoogle Scholar
Solé, R. V. and Bascompte, J. 1993. Chaotic Turing structures. Physics Letters A 179:325–331.CrossRefGoogle Scholar
Solé, R. V. and Gamarra, J. G. P. 1998. Chaos, dispersal and extinction in coupled ecosystems. Journal of Theoretical Biology 193:539–541.CrossRefGoogle ScholarPubMed
Solé, R. V. and Valls, J. 1991. Order and chaos in a 2D Lotka-Volterra coupled map lattice. Physics Letters A 153:330–336.CrossRefGoogle Scholar
Solé, R. V., Bascompte, J. and Valls, J. 1992a. Stability and complexity of extended 2-species competition. Journal of Theoretical Biology 159:469–480.CrossRefGoogle Scholar
Solé, R. V., Valls, J. and Bascompte, J. 1992b. Spiral waves, chaos and multiple attractors in lattice models of interacting populations. Physics Letters A 166:123–128.CrossRefGoogle Scholar
Stearns, S. C. 1976. Life history tactics: a review of the ideas. Quarterly Review of Biology 51:3–47.CrossRefGoogle ScholarPubMed
Stearns, S. 1992. The Evolution of Life Histories. Oxford: Oxford University Press.Google Scholar
Stearns, S. C. 2000. Life history evolution: successes, limitations, and prospects. Naturwissenshaften 87:476–486.CrossRefGoogle ScholarPubMed
Steel, J. H. 1985. A comparison of terrestrial and marine ecological systems. Nature 313:355–358.CrossRefGoogle Scholar
Steen, H., Yoccoz, N. G. and Ims, R. A. 1990. Predators and small rodent cycles: an analysis of 79-year time series of small rodent population fluctuations. Oikos 59:115–120.CrossRefGoogle Scholar
Stenseth, N. C. 1977. Evolutionary aspects of demographic cycles: the relevance of some models of cycles for microtine fluctuations. Oikos 29:525–538.CrossRefGoogle Scholar
Stenseth, N. C. 1999. Population cycles in voles and lemmings: density dependence and phase dependence in a stochastic world. Oikos 87:427–461.,CrossRefGoogle Scholar
Stenseth, N. C., Chan, K.-S., Framstad, E. and Tong, H. 1998a. Phase- and density-dependent population dynamics in Norwegian lemmings: interaction between deterministic and stochastic processes. Proceedings from the Royal Society of London B 265:1957–1968.,CrossRefGoogle Scholar
Stenseth, N. C., Falck, W., Chan, K. S., Bjørnstad, O. N., O'Donoghue, M., Tong, H., Boonstra, R., Boutin, S., Krebs, C. J. and Yoccoz, N. G. 1998b. From patterns to processes: phase and density dependencies in the Canadian lynx cycle. Proceedings of the National Academy of Sciences of the USA 95:15430–15435.,CrossRefGoogle Scholar
Stenseth, N. C., Bjørnstad, O. N. and Saitoh, T. 1998c. Seasonal forcing on the dynamics of Clethrionomys rufocanus: modeling geographic gradients in population dynamics. Research on Population Ecology 40:85–95.CrossRefGoogle Scholar
Stenseth, N. C., Chan, K.-S., Tong, H., Boonstra, R., Boutin, S., Krebs, C. J., Post, E., O'Donoghue, M., Yoccoz, N. G., Forchhammer, M. C. and Hurrell, J. W. 1999. Common dynamic structure of Canada lynx populations within three climatic regions. Science 285:1071–1073.,CrossRefGoogle ScholarPubMed
Stephens, P. A., Sutherland, W. J. and Freckleton, R. P. 1999. What is the Allee effect? Oikos 87:185–190.CrossRefGoogle Scholar
Stokes, T. K., McGlade, J. M. and Law, R. eds. 1993. The Exploitation of Evolving Resources. Lecture Notes in Biomathematics 99. Berlin: Springer-Verlag.CrossRefGoogle Scholar
Stone, L. and Hart, D. 1999. Effects of immigration on the dynamics of simple population models. Theoretical Population Biology 55:227–234.CrossRefGoogle ScholarPubMed
Strong, D. R., Simberloff, D., Abele, L. G. and Thistle, A. B. 1984. Ecological Communities. Princeton, N. J.: Princeton University Press.CrossRefGoogle Scholar
Sutcliffe, O. L., Thomas, C. D. and Moss, D. 1996. Spatial synchrony and asynchrony in butterfly population dynamics. Journal of Animal Ecology 65:85–95.CrossRefGoogle Scholar
Sutherland, W. J. 1983. Aggregation and the “ideal free” distribution. Journal of Animal Ecology 52:821–828.CrossRefGoogle Scholar
Sutherland, W. J. 1996. From Individual Behaviour to Population Ecology. Oxford: Oxford University Press.Google Scholar
Sutherland, W. J. and Parker, G. A. 1985. Distribution of unequal competitors. In Sibly, R. M. and Smith, R. H. eds. Behavioural Ecology: Ecological Consequences of Adaptive Behaviour. Oxford: Blackwell Scientific Publications. pp. 255–274.Google Scholar
Supriatna, A. K. and Possingham, H. P. 1998. Optimal harvesting for a predator-prey metapopulation. Bulletin of Mathematical Biology 60:49–65.CrossRefGoogle Scholar
Svensson, E. and Nilsson, J.-Å. 1996. Mate quality affects offspring sex ratio in blue tits. Proceedings of the Royal Society of London B 263:357–361.CrossRefGoogle Scholar
Svensson, E. and Sinervo, B. 2000. Experimental excursions on adaptive landscapes: density-dependent selection on egg-size. Evolution 54:1396–1403.CrossRefGoogle ScholarPubMed
Svensson, E., Sinervo, B. and Comendant, T. 2001a. Condition, genotype-by-environment interaction, and correlational selection in lizard life-history morphs. Evolution 55:2053–2069.CrossRefGoogle Scholar
Svensson, E., Sinervo, B. and Comendant, T. 2001b. Density-dependent competition and selection on immune function in genetic lizard morphs. Proceedings from the National Academy of Science 98:12561–12565.CrossRefGoogle Scholar
Templeton, A. R. and Lawlor, L. R. 1981. The fallacy of averages in ecological optimization theory. American Naturalist 117:390–393.CrossRefGoogle Scholar
Tesar, D., Kaitala, V. and Ranta, E. 2002. Stochasticity and spatial coexistence of semelparity and iteroparity as life histories. Evolutionary Ecology 15:193–204.CrossRefGoogle Scholar
Thomas, C. D. 1991. Spatial and temporal variability in a butterfly population. Oecologia 87:577–580.CrossRefGoogle Scholar
Thomas, C. D. and Kunin, W. E. 1999. The spatial structure of populations. Journal of Animal Ecology 68:647–657.CrossRefGoogle Scholar
Tilman, D. 1999. The ecological consequences of changes in biodiversity: a search for general principles. Ecology 80:1455–1474.Google Scholar
Tilman, D. and Kareiva, P. eds. 1997. Spatial Ecology. The Role of Space in Population Dynamics and Interspecific Interactions. Princeton, N. J.: Princeton University Press.,Google Scholar
Tokeshi, M. 1999. Species Coexistence. Oxford: Blackwell Science.Google Scholar
Tregenza, T. 1995. Building on the ideal free distribution. Advances in Ecological Research 26:253–307.CrossRefGoogle Scholar
Trivers, R. 1971. The evolution of reciprocal altruism. Quaterly Review in Biology 46:35–57.CrossRefGoogle Scholar
Trivers, R. L. and Williard, D. E. 1973. Natural selection of parental ability to vary the sex ratio of offspring. Science 191:249–263.CrossRefGoogle Scholar
Tuck, G. N. and Possingham, H. P. 1994. Optimal harvesting strategies for a metapopulation. Bulletin of Mathematical Biology 56:107–127.CrossRefGoogle Scholar
Tuck, G. N. and Possingham, H. P. 2000. Marine protected areas for spatially structured exploited stocks. Marine Ecology Progress Series 192:89–101.CrossRefGoogle Scholar
Tuljapurkar, S. and Caswell, H. eds. 1997. Structured Population Models in Marine, Terrestrial, and Freshwater Systems. London: Chapman & Hall.CrossRefGoogle Scholar
Turchin, P. 1990. Rarity of density dependence or population regulation with lags? Nature 344:660–663.CrossRefGoogle Scholar
Turchin, P. 1998. Quantitative Analysis of Movement. Measuring and Modeling Population Redistribution in Animals and Plants. Sunderland, Mass: Sinauer Associates.Google Scholar
Turchin, P. 1999. Population regulation: a synthetic view. Oikos 84:153–159.,CrossRefGoogle Scholar
Turchin, P. 2001. Does population ecology have general laws? Oikos 94:17–26.CrossRefGoogle Scholar
Turchin, P. and Batzli, G. O. 2001. Availability of food and population dynamics of arvicoline rodents. Ecology 82:1521–1534.CrossRefGoogle Scholar
Turchin, P. and Hanski, I. 1997. An empirically based model for latitudinal gradient in vole population dynamics. American Naturalist 149:842–874.CrossRefGoogle ScholarPubMed
Turchin, P., Taylor, A. D. and Reeve, J. D. 1999. Dynamical role of predators in population cycles of forest insects: an experimental test. Science 285:1068–1071.,CrossRefGoogle ScholarPubMed
Veiga, J. P. 1990. Sexual conflict in the house sparrow: interference between polygynously mated females versus asymmetric male investment. Behavioral Ecology and Sociobiology 27:345–350.CrossRefGoogle Scholar
Wade, M. J. and Goodnight, C. J. 1998. Perspective. The theories of Fisher and Wright in the context of metapopulations: when nature does many small experiments. Evolution 52:1537–1553.CrossRefGoogle ScholarPubMed
Wade, M. J. and Kalisz, S. 1990. The causes of natural selection. Evolution 44:1947–1955.CrossRefGoogle ScholarPubMed
Wade, P. R. 2001. The conservation of species in an uncertain world: novel methods and the failure of traditional techniques. In Reynolds, J. D., Mace, G. M., Redford, K. H. and Robinson, J. G. eds. Conservation of Exploited Species. Cambridge: Cambridge University Press, pp. 110–143.Google Scholar
Walters, C. J. and Parma, A. M. 1996. Fixed exploitation rate strategies for coping with effects of climate change. Canadian Journal of Fisheries and Aquatic Sciences 53:148–158.CrossRefGoogle Scholar
Waser, P. M., Elliot, L. F., Creel, N. M. and Creel, S. R. 1995. Habitat variation and mongoose demography. In Sinclair, A. R. E. and Arcese, P. eds. Serengeti II: Dynamics, Management and Conservation of an Ecosystem. Chicago, Ill.: University of Chicago Press, pp. 421–447.Google Scholar
Watkinson, A. R. and Sutherland, W. J. 1995. Sources, sinks and pseudosinks. Journal of Animal Ecology 64:126–130.CrossRefGoogle Scholar
Watson, A., Moss, R. and Rae, S. 1998. Population dynamics of Scottish Rock Ptarmigan cycles. Ecology 79:1174–1192.CrossRefGoogle Scholar
Watson, A., Moss, R. and Rothery, P. 2000. Weather and synchrony in 10-year population cycles of Rock Ptarmigan and Red Grouse in Scotland. Ecology 81:2126–2136.CrossRefGoogle Scholar
Watt, K. E. F. 1968. Ecology and Resource Management. Toronto: McCraw-Hill Book Company.Google Scholar
Weiher, E. and Keddy, P. A. 1999. Ecological Assembly Rules. Cambridge: Cambridge University Press.CrossRefGoogle Scholar
Wellborn, G. A., Skelly, D. K. and Werner, E. E. 1996. Mechanisms creating community structure across a freshwater habitat gradient. Annual Review of Ecology and Systematics 27:337–363.CrossRefGoogle Scholar
Werner, E. E. and Anholt, B. R. 1993. Ecological consequences of the trade-off between growth and mortality rates mediated by foraging activity. American Naturalist 142:242–272.CrossRefGoogle ScholarPubMed
Werner, E. E. and Gilliam, J. F. 1984. The ontogenetic niche and species interactions in size structured populations. Annual Review of Ecology and Systematics 15:393–425.CrossRefGoogle Scholar
White, T. C. R. 2001. Opposing paradigms: regulation and limitation of populations. Oikos 93:148–152.CrossRefGoogle Scholar
Wilbur, H. M. 1980. Complex life cycles. Annual Review of Ecology and Systematics 11:67–93.CrossRefGoogle Scholar
Wilbur, H. M. 1996. Multistage life cycles. In Rhodes, O. J., Chesser, R. K. and Smith, M. H. eds. Population Dynamics in Ecological Space and Time. Chicago, Ill.: University of Chicago Press, pp. 754–108.Google Scholar
Williams, G. C. 1966. Adaptation and Natural Selection: A Critique of Some Current Evolutionary Thought. Princeton, N. J.: Princeton University Press.Google Scholar
Williams, D. W. and Liebhold, A. M. 2000. Spatial synchrony of spruce budworm outbreaks in Eastern North America. Ecology 81:2753–2766.CrossRefGoogle Scholar
Wilson, D. S. 1975. The adequacy of body size as a niche difference. American Naturalist 109:769–784.CrossRefGoogle Scholar
Wilson, D. S. 1980. The Natural Selection of Populations and Communities. Menlo Park: Benjamin Cummings.Google Scholar
Wilson, D. S. 1983. The group selection controversy: history and current status. Annual Review of Ecology and Systematics 14:159–187.CrossRefGoogle Scholar
Wilson, W. G., Lundberg, P., Vázquez, D. P., Shurin, J. P., Smith, M., Langford, W., Gross, K. L. and Mittelbach, G. G. 2003. Biodiversity and species interactions: extending Lotka-Volterra community theory. Ecology Letters 6:944–952. .CrossRefGoogle Scholar
Wood, S. N. 1997. Inverse problems and structured-population dynamics. In Tuljapurkar, S. and Caswell, H. eds. Structured Population Models in Marine, Terrestrial, and Freshwater Systems. London: Chapman & Hall, pp. 555–586CrossRefGoogle Scholar
Wood, S. N. and Thomas, M. B. 1996. Space, time and persistence of virulent pathogens. Proceedings of the Royal Society of London B 263:673–680.CrossRefGoogle ScholarPubMed
Wright, S. 1932. The roles of mutation, inbreeding, crossbreeding and selection in evolution. Proceedings from the 6th International Congress of Genetics 1:356–366.Google Scholar
Wright, S. 1948. On the roles of directed and random changes in gene frequency in the genetics of populations. Evolution 2:279–294.CrossRefGoogle ScholarPubMed
Wynne-Edwards, V. C. 1962. Animal Dispersion in Relation to Social Behaviour. Edinburgh: Oliver and Boyd,Google Scholar
Ydenberg, R. C. 1987. Nomadic predators and geographical synchrony in microtine population cycles. Oikos 50:270–272.CrossRefGoogle Scholar
Ylikarjula, J., Alaja, S., Laakso, J. and Tesar, D. 2000. Effects of patch number and dispersal patterns on population dynamics and synchrony. Journal of Theoretical Biology 207:377–387.,CrossRefGoogle ScholarPubMed
Yodzis, P. 1989. Introduction to Theoretical Ecology. New York: Harper and Row.,Google Scholar

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  • References
  • Esa Ranta, University of Helsinki, Per Lundberg, Lunds Universitet, Sweden, Veijo Kaitala, University of Jyväskylä, Finland
  • Book: Ecology of Populations
  • Online publication: 02 December 2009
  • Chapter DOI: https://doi.org/10.1017/CBO9780511610752.015
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  • References
  • Esa Ranta, University of Helsinki, Per Lundberg, Lunds Universitet, Sweden, Veijo Kaitala, University of Jyväskylä, Finland
  • Book: Ecology of Populations
  • Online publication: 02 December 2009
  • Chapter DOI: https://doi.org/10.1017/CBO9780511610752.015
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  • References
  • Esa Ranta, University of Helsinki, Per Lundberg, Lunds Universitet, Sweden, Veijo Kaitala, University of Jyväskylä, Finland
  • Book: Ecology of Populations
  • Online publication: 02 December 2009
  • Chapter DOI: https://doi.org/10.1017/CBO9780511610752.015
Available formats
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