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9 - Information and communication in living matter

Published online by Cambridge University Press:  05 June 2014

By
Bernd-Olaf Küppers
Edited by
Paul Davies  and
Niels Henrik Gregersen
Bernd-Olaf Küppers
Affiliation:
Friedrich Schiller University of Jena
Paul Davies
Affiliation:
Arizona State University
Niels Henrik Gregersen
Affiliation:
University of Copenhagen
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Summary

Ever since the elucidation of the molecular basis of living systems, we have known that all elementary processes of life are governed by information. Thus, information turns out to be a key concept in understanding living matter (Küppers, 1990). More than that: the flow of information at all levels of the living system reveals the properties of communication. This means that the information stored in the genome of the organism is expressed in innumerable feedback loops – a process through which the genetic information is continually re-evaluated by permanent interactions with the physical environment to which it is exposed. In this way, the living organism is built up, step by step, into a hierarchically organized network of unmatched complexity.

The fact that all phenomena of life are based upon information and communication is indeed the principal characteristic of living matter. Without the perpetual exchange of information at all levels of organization, no functional order in the living organism could be sustained. The processes of life would implode into a jumble of chaos if they were not perpetually stabilized by information and communication. In this chapter, I should like to consider some of the consequences that follow from this for our philosophical understanding of reality.

Type
Chapter
Information
Information and the Nature of Reality
From Physics to Metaphysics
 , pp. 217 - 235
Publisher: Cambridge University Press
Print publication year: 2014

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References

Bar-Hillel, Y., and Carnap, R. (1953). Semantic information. British Journal for the Philosophy of Science, 4: 147.CrossRefGoogle Scholar
Blumenberg, H. (2000). Die Lesbarkeit der Welt. Frankfurt/Main: Suhrkamp.Google Scholar
Cassirer, E. (1910). Substanzbegriff und Funktionsbegriff. Berlin: Bruno Cassirer.Google Scholar
Deleuze, G. (2002). À quoi reconnaît-on le structuralisme? In L’Île Déserte et Autres Textes, ed. Lapoujade, D.. Paris: Minuit, 238–269.Google Scholar
Eigen, M. (1979). Sprache und Lernen auf molekularer Ebene. In Der Mensch und seine Sprache, eds Peisl, A. and Mohler, A.. Frankfurt/Main: Propyläen Verlag, 181–218.Google Scholar
Gadamer, H.-G. (1965). Wahrheit und Methode, 2nd ed. Tübingen: J. B. C. Mohr.Google Scholar
Küppers, B.-O. (1990). Information and the Origin of Life. Cambridge, MA: The MIT Press.Google Scholar
Küppers, B.-O. (1992). Understanding complexity. In Emergence or Reduction? eds Beckermann, A., Flohr, H. and Kim, J.. Berlin: de Gruyter, 241–256 [reprinted in Chaos and Complexity, eds R. J. Russell, N. Murphy and A. R. Peacocke (1995). Vatican City State: Vatican Observatory Publications, 93–105].Google Scholar
Küppers, B.-O. (1995). The context-dependence of biological information. In Information. New Questions to a Multidisciplinary Concept, eds Kornwachs, K. and Jacoby, K.. Berlin: Akademie Verlag, 135–145.Google Scholar
Küppers, B.-O. (1996). Der semantische Aspekt von Information und seine evolutionsbiologische Bedeutung. Nova Acta Leopoldina, 294: 195–219.Google Scholar
Küppers, B.-O. (2000a). The world of biological complexity: Origin and evolution of life. In Many Worlds, ed. Dick, S. J.. Pennsylvania: Templeton Foundation Press, 31–43.Google Scholar
Küppers, B.-O. (2000b). Die Strukturwissenschaften als Bindeglied zwischen Natur- und Geisteswissenschaften. In Die Einheit der Wirklichkeit, ed. Küppers, B.-O.. Munich: Fink Verlag, 89–105.Google Scholar
MacKay, D. M. (1969). Information, Mechanism and Meaning. Cambridge, MA: The MIT Press.Google Scholar
Miescher, F. (1897). Die histochemischen und physiologischen Arbeiten. Bd. I. Leipzig: F. C. W. Vogel.
von Goethe, J. W. (1981). Werke, Hamburger edition vol. 12. München: C. H. Beck.Google Scholar

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