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Alados, C. L., J. M. Escos, and J. M. Emlen (1996) “Fractal Structure of Sequential Behavior Patterns: An Indicator of Stress,” Animal Behavior 51:437-43; Cole, B. J. (1995) “Fractal Time in Animal Behavior: The Movement Activity of Drosophila,” Animal Behavior 50:1317-24; Erlandsson, J., and V. Kostylev (1995) “Trail Following, Speed, and Fractal Dimension of Movement in a Marine Prosobranch, Littorina littorea, During a Mating and a Non-Mating Season,” Marine Biology 122:87-94; Sole, R. V., O. Miramontes, and B. C. Goodwin (1993) “Oscillations and Chaos in Ant Societies,” ]ournal of Theoretical Biology 161:343-57; Fourcassie, V., D. Coughlin, and J. F. A. Traniello (1992) “Fractal Analysis of Search Behavior in Ants,” Naturwissenschaften 79:87-89; Camazine, S. (1991) “Self-Organizing Pattern Formation on the Combs of Honey Bee Colonies,” Behavioral Ecology and Sociobiology 28:61-76; Cole, B. J. (1991) “Is Animal Behavior Chaotic? Evidence from the Activity of Ants,” Proceedings of the Royal Society of London, Series B 244:253-59.

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Gleick, Chaos: Making a New Science; Botkin, D. B. (1990) Discordant Harmonies: A New Ecology for the Twenty-first Century (New York: Oxford University Press).

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Savalli, U. M. (1995) “The Evolution of Bird Coloration and Plumage Elaboration: A Review of Hypotheses,” in D. M. Power, ed., Current Ornithology, vol. 12, pp. 141-90 (New York: Plenum Press).

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For a promising direction of research in this regard, see the proposal that a wide range of animal coat patterns may be generable from a single, simple mathematical equation (based on the work of Alan Turing): Murray, J. D. (1988) “How the Leopard Gets Its Spots,” Scientific American 258(3):80-87.

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Goerner, S. (1995) “Chaos, Evolution, and Deep Ecology,” in Robertson and Combs, Chaos Theory in Psychology and the Life Sciences, pp. 17-38; Worster, “The Ecology of Chaos and Harmony,” p. 14; Haldane, J. B. S. (1928) Possible Worlds and Other Papers, p. 298 (New York: Harper & Brothers).

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Goerner, “Chaos, Evolution, and Deep Ecology,” p. 24.

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Lovelock, J. E. (1988) “The Earth as a Living Organism,” in E. O. Wilson, ed., BioDiversity, pp. 486-489 (Washington, D.C.: National Academy Press).

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Lovelock, J. E. (1979) Gaia: A New Look at Life on Earth (Oxford: Oxford University Press); Margulis, L., and D. Sagan (1986) Microcosmos: Four Billion Years of Microbial Evolution (New York: Summit Books); Bunyard, P., and E. Goldsmith, eds., (1988) Gaia: The Thesis, the Mechanisms, and the Implications, Proceedings of the First Annual Camelford Conference on the Implications of the Gaia Hypothesis (Camelford: Wadebridge Ecological Centre); Lovelock, J. E. (1988) The Ages of Gaia: A Biography of Our Living Earth (New York: W. W. Norton and Company); Bunyard and Goldsmith, Gaia and Evolution; Schneider, S. H., and P. J. Boston, eds., (1991) Scientists on Gaia, Proceedings of the American Geophysical Union’s Annual Chapman Conference (Cambridge, Mass.: MIT Press); Williams, G. R. (1996) The Molecular Biology of Gaia (New York: Columbia University Press).

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Lambert, D., and R. Newcomb (1989) “Gaia, Organisms, and a Structuralist View of Nature,” in Bunyard and Goldsmith, Gaia and Evolution, pp. 75-76.

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Lovelock, “The Earth as a Living Organism,” p. 488.

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Tilman, D., and J. A. Downing (1994) “Biodiversity and Stability in Grasslands,” Nature 367:363-65.

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