Abstract
We present different information theoretic measures of ecosystem maturity. It turns out an interesting contradiction: some authors propose for the mature ecosystem state just the opposite than do others. We introduce as a kind of compromise a new measure containing aspects of both proposed directions of development, thus resolving the contradiction.
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References
Baird D, McGlade JM, Ulanowicz RE (1991) The comparative ecology of six marine ecosystems. Philos Trans R Soc London B 333: 15–29
Bak P (1996) How nature works: the science of self-organized criticality. Copernicus, New York
Brüggemann R, Bartel H-G (1999) A theoretical concept to rank environmentally significant chemicals. J Chem Inf Comput Sci 39: 211 – 217
Gardner MR, Ashby WR (1970) Connectance of large dynamic (cybernetic) systems: critical values for stability. Nature 228: 784
Glansdorff P, Prigogine I (1971) Thermodynamic theory of structure, stability and fluctuations. Wiley, London
Grimm V, Schmidt E, Wissel C (1992) On the application of stability concepts in ecology. Ecol Model 63: 143–161
Heinrich R, Schuster S (1996) The regulation of cellular systems. Chapman and Hall, New York
Heylighen F (1996) The growth of structural and functional complexity during evolution. In:Heylighen F, Aerts D (eds) The evolution of complexity. Kluwer Academic Press
Hirata H, Ulanowicz RE (1984) Information theoretical analysis of ecological networks. Int J Syst Sci 15:261–270
Hutchinson GE (1959) Am Nat 93:145
Jørgensen SE (1997) Integration of ecosystem theories: a pattern. Kluwer, Dordrecht
Lindeman RL (1942) The trophic dynamic aspect of ecology. Ecology 23: 399–418
MacArthur R (1955) Fluctuations of animal populations and a measure of community stability. Ecology 36: 533 – 536
May R (1972) Will a large complex system be stable? Nature 238:413–414
Müller F, Leupelt M (1998) Eco targets, goal functions, and orientors. Springer, Berlin Heidelberg New York
Odum EP (1953) Fundamentals of ecology. Saunders, Philadelphia
Odum EP (1969) The strategy of ecosystem development. Science 164: 262–270
Pahl-Wostl C (1995) The dynamic nature of ecosystems. Wiley, New York
Patten BC (1986) Energy cycling, length of food chains, and direct versus indirect effects in ecosystems. In: Ulanowicz RE, Platt T (eds) Ecosystem theory for biological oceanography. Can Bull Fish Aquat Sci 213:119–138
Pérez-España H, Arreguin-Sánchez F (1999) A measure of ecosystem maturity. Ecol Model 119:79–85
Rejmánck M, Stary P (1979) Connectance in real biotic communities and critical values for stability of model ecosystems. Nature 280: 311–313
Rutledge RW, Basore BL, Mulholland RJ (1976) Ecological stability: an information theory viewpoint. J Theor Biol 57: 355–371
Solomon DL (1979) A comparative approach to species diversity. In: Grassie JF, Patil GP, Smith W, Taillie C (eds) Ecological diversity in theory and practice. Fairland, Maryland: International Cooperative Publishing House, pp 29–35
Sawaragi Y, Nakayama H, Tanino T (1985) Theory of multiobjective optimization. Orlando, Academic Press
Sugihara G (1984) Graph theory, homology and food webs. Proc Symp Appl Math 30:83–101
Sugihara G, Schoenly K, Trombla A (1989) Scale invariance in food web properties. Science 245:48–52
Ulanowicz RE (1979) Complexity, stability and self-organization in natural communities. Oecologia 43: 295–298
Ulanowicz RE (1980) An hypothesis on the development of natural communities. J Theor Biol 85:223–245
Ulanowicz RE (1989) A phenomenology of evolving networks. Systems Res. 6: 209–217
Wilhelm T, Hänggi P (1999) What can be stated by the Glansdorff-Prigogine criterion concerning the stability of mass-action kinetic systems? J Chem Phys 110 (13): 6128–6134
Wilhelm T, Brüggemann R (2000) Goal functions for the development of natural systems. Ecol Model 132: 231–246
Yodzis P (1980) The connectance of real ecosystems. Nature 284: 544–545
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Wilhelm, T., Brüggemann, R. (2001). Information Theoretic Measures for the Maturity of Ecosystems. In: Matthies, M., Malchow, H., Kriz, J. (eds) Integrative Systems Approaches to Natural and Social Dynamics. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-56585-4_18
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DOI: https://doi.org/10.1007/978-3-642-56585-4_18
Publisher Name: Springer, Berlin, Heidelberg
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