Abstract
Whether one is dealing with variations in the size of populations, changes in landscapes, or modifications in the composition of species, all these phenomena are characterized by their temporal structures. Although, like geology, ecology is a historical science, it is also a science of processes like physiology. It is in the combination of these two aspects, and by using both of these paradigms, that the present paper looks for the conceptions of time specific to ecology. Thus, overall representations of ecological phenomena have brought several conceptions of time into play, which can be distinguished in terms of the timescale, its rhythm and its structure. Schematically, descriptions of ecological processes have been founded successively on the idea of a cycle, then on the idea of organic growth, before coming around to unpredictability and chaos. At a more detailed level, this succession of paradigms goes hand in hand with the continued use of concepts that were characteristic of a previous paradigm. The success of some classical concepts can thus be measured by their ability to be inscribed into a new theoretical framework.
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Acot, P. 1988. Histoire de l’écologie. Paris: Presses Universitaires de France.
Acot, P. (ed.). 1998. The European origins of scientific ecology, 2 vols. Amsterdam: Overseas Publishers Association/Gordon and Breach Publishers/Editions des Archives Contemporaines.
Aubin, D., and A. Dahan Dalmedico. 2002. Writing the history of dynamical systems and chaos: Longue durée and revolution, disciplines and cultures. Historia Mathematica 29: 273–339.
Barrué-Pastor, M., and G. Bertrand (eds.). 2000. Les temps de l’environnement. Toulouse: Presses Universitaires du Mirail.
Begon, M., and M. Mortimer. 1986. Population ecology. A unified study of animals and plants. Oxford: Blackwell Scientific Publications.
Bergandi, D. 2007. Niveaux d’organisation: Evolution, écologie et transaction. In Le tout et les parties dans les systèmes naturels, ed. T. Martin, 47–55. Paris: Vuibert.
Bergson, H. 1907/1911. Creative evolution. Trans. A. Mitchell. New York: Henry Holt and Company. 1st French ed., published by Les Presses universitaires de France, Paris.
Bertola, C., C. Goumand, and J.-F. Rubin (eds.). 1999. Découvrir le Léman, 100 ans après François-Alphonse Forel. Geneva: Slatkine, Musée du Léman.
Bertrand, C., and G. Bertand. 2000. Le géosystème: un espace-temps anthropisé. Esquisse d’une temporalité environnementale. In Les temps de l’environnement, eds. M. Barrué-Pastor and G. Bertand, 65–76. Toulouse: Presses Universitaires du Mirail.
Blandin, P., and D. Bergandi. 2000. L’homme et la nature: les sciences changent de role. In Nature vive, ed. C. Larrère, 88–99. Paris: Muséum National d’Histoire Naturelle, Nathan.
Boutot, A. 1993. L’invention des formes. Chaos, catastrophes, fractales, attracteurs étranges et structures dissipatives. Paris: Odile Jacob.
Braudel, F. 1949/1996. The Mediterranean and the Mediterranean world in the age of Philip II. Trans. S. Reynolds, 2 vols. Berkeley: University of California Press. 1st French ed., published by A. Colin, Paris.
Caswell, H. 1989. Matrix population models: Construction, analysis and interpretation. Sunderland: Sinauer Associates.
Clements, F.E. 1916. Plant succession: An analysis of the development of vegetation. Washington, DC: Carnegie Institution of Washington.
Cooper, W.S. 1926. The fundamentals of vegetational change. Ecology 7: 391–413.
Couloubaritsis, L., and J.-J. Wunenburger (eds.). 1997. Les figures du temps. Strasbourg: Presses Universitaires de Strasbourg.
Cowles, H.C. 1899. The ecological relations of the vegetation on the sand dunes of Lake Michigan. Botanical Gazette 27: 95–117, 167–202, 281–308.
Dahan Dalmedico, A. 2000. L’image ‘fin de siècle’ des sciences. La théorie du chaos a-t-elle engendré une révolution scientifique ? La Recherche 327: 58–61.
Deléage, J.-P. 1991. Une histoire de l’écologie. Paris: Editions du Seuil.
Drouin, J.-M. 1991/1993. Réinventer la nature. L’écologie et son histoire. Paris: Desclée de Brouwer. Repr., L’écologie et son histoire. Réinventer la nature. Paris: Flammarion.
Drouin, J.-M. 1994. Histoire et écologie végétale: les origines du concept de succession. Ecologie 25: 147–155.
Drouin, J.-M. 2008. L’herbier des philosophes. Paris: Editions du Seuil.
Drouin, J.-M., and R. Fox. 1999. Corolles et crinolines: le mélange des genres dans l’œuvre d’Henri Lecoq. Revue de Synthèse 4: 581–599.
Dureau de La Malle, A. 1825. Mémoire sur l’alternance ou sur ce problème: la succession alternative dans la reproduction des espèces végétales vivant en société, est-elle une loi générale de la nature? Annales des sciences naturelles 5: 353–381.
Egerton, F.N. 1973. Changing concepts of the balance of nature. The Quarterly Review of Biology 48: 322–350.
Egerton, F.N. 2000. Ecology. In Reader’s guide to the history of science, ed. A. Hessenbruch, 190–192. London/Chicago: Fitzroy Dearborn Publishers.
Egerton, F.N., and L.D. Walls. 1997. Rethinking Thoreau and the history of American Ecology. The Concord Saunterer 5(new series):5–20
Ekeland, I. 1984. Le calcul, l’imprévu. Les figures du temps de Kepler à Thom. Paris: Editions du Seuil.
Emerson, R.W. 2003. Selected writings. With an introduction by C. Johnson. New York: Signet Classic, Penguin.
Gleason, H.A. 1926. The individualistic concept of the plant association. Bulletin of the Torrey Botanical Club 53(1): 7–26.
Gleick, J. 1987. Chaos. New York: Viking.
Hume, D. 1991. In Dialogues concerning natural religion, ed. S. Tweyman. London: Routledge.
Israel, G., and A.M. Gasca. 2002. The biology of numbers. The correspondence of Vito Volterra on mathematical biology. Basel: Birkhaüser Verlag.
Kingsland, S.E. 1985. Modelling nature. Episodes in the history of population ecology. Chicago: University of Chicago Press.
Kuhn, T. 1962. The structure of scientific revolutions. Chicago: Chicago University Press.
Lacroix, H.J. 1987. Tables de survie et matrices de Leslie. In Une approche mathématique de la biologie, ed. R.V. Jean, 39–70. Chicoutimi: Gaëtan Morin.
Lecoq, H. 1844. Traité des plantes fourragères ou Flore des prairies naturelles et artificielles de la France. Paris: H. Cousin Libraire-Éditeur.
Legay, J.-M. 2000. Les temps de l’environnement. In Les temps de l’environnement, eds. M. Barrué-Pastor and G. Bertrand, 19–32. Toulouse: Presses Universitaires du Mirail.
Lepart, J., and J. Escarre. 1983. La succession végétale, mécanismes et modèles: analyse bibliographique. Bulletin d’Ecologie 14(3): 133–178.
Leslie, P.H. 1945. On the use of matrices in certain population mathematics. Biometrika 33: 183–212.
Linné, C. 1972. L’équilibre de la nature. With an introduction by C. Limoges and trans. by B. Jasmin. Paris: J. Vrin.
Lotka, A.J. 1925/1956. Elements of physical biology. Baltimore: Williams & Wilkins. Repr., Elements of mathematical biology. New York: Dover.
Lotka, A.J. 1934. Théorie analytique des associations biologiques. Première partie. Principes. Paris: Hermann.
Lucretius. 1982. De rerum natura. Trans. W.H.D. Rouse, rev. M.F. Smith. Cambridge, MA: Harvard University Press.
May, R.M. 1974. Biological populations with non-overlapping generations: Stable points, stable cycles, and chaos. Science 186: 645–647.
May, R.M. 1976. Simple mathematical models with very complicated dynamics. Nature 261: 459–467.
Pénicaud, P. 2002. Henri Lecoq. Les fortunes d’un naturaliste à Clermont-Ferrand. Clermont-Ferrand: Mémoires de l’Académie des sciences, belles lettres et arts de Clermont-Ferrand.
Plato. 1925. The Statesman. Philebus. Ion. Trans. H.N. Fowler and W.R.M. Lamb. Cambridge, MA: Harvard University Press.
Prigogine, I., and I. Stengers. 1992. Entre le temps et l’éternité. Paris: Flammarion.
Robinet, A. 1957. In Correspondance Leibniz-Clarke, ed. A. Robinet. Paris: Presses Universitaires de France.
Tansley, A.G. 1935. The use and abuse of vegetational concepts and terms. Ecology 16(3): 284–307.
Thoreau, H.D. 1860/1906. The succession of forest trees. In The writings of Henry David Thoreau, vol. V, 184–204. Boston: Houghton, Mifflin. An address read to the Middlesex Agricultural Society in Concord, Sept. 1860.
Usher, M.B. 1979. Markovian approaches to ecological succession. Journal of Animal Ecology 48: 413–426.
Usher, M.B. 1981. Modelling ecological succession, with particular reference to Markovian models. Vegetatio 46: 11–18.
Virgil. 1916/1999. Eclogues, Georgics, Æneid I-VI. Trans. H.R. Fairclough, rev. G.P. Goold. Cambridge, MA: Harvard University Press.
Volterra, V., and U. D’Ancona. 1935. Les associations biologiques au point de vue mathématique. Paris: Hermann.
von Humboldt, A. 1807. Essai sur la géographie des plantes. Paris: Levrault.
Worster, D. 1985. Nature’s economy: A history of ecological ideas. Cambridge/New York: Cambridge University Press.
Zaragüeta-Bagils, R., and E. Bourdon. 2005. Pithecanthropus erectus. Sciences et Avenir 142(hors-série): 58–63.
Zaragüeta-Bagils, R., H. Lelièvre, and P. Tassy. 2004. Temporal paralogy, cladograms and the quality of the fossil record. Geodiversitas 26(3): 381–389.
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I would like to thank Jonathan Simon for correcting my English.
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Drouin, JM. (2012). Some Conceptions of Time in Ecology. In: Bergandi, D. (eds) The Structural Links between Ecology, Evolution and Ethics. Boston Studies in the Philosophy and History of Science, vol 296. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-5067-8_4
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