Intervalos de cuasi-descomponibilidad y propiedades emergentes

  1. Emilio Cáceres Vázquez
  2. Cristian Saborido
Aldizkaria:
Theoria: an international journal for theory, history and foundations of science

ISSN: 0495-4548

Argitalpen urtea: 2017

Alea: 32

Zenbakia: 1

Orrialdeak: 89-108

Mota: Artikulua

DOI: 10.1387/THEORIA.15718 DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Beste argitalpen batzuk: Theoria: an international journal for theory, history and foundations of science

Laburpena

The notion of emergence has accompanied philosophy of science since the late xix century, claiming that in some systems there are properties in certain levels that cannot be deduced from properties of their components as seen in more fundamental levels. Throughout the xx century, emergence has been characterized by four pillars: unpredictability, novelty, restriction and downward causation. These four pillars have been related to the assumption of a hierarchical order of reality in different levels of organization. In this paper, we show that it is possible to explain the nature of the (apparent) emergent properties through the nearly-decomposability criterion introduced by Herbert Simon.

Erreferentzia bibliografikoak

  • Alegre-Cebollada, Jorge, Pallav Kosuri, Jason Feng, Anna Kaplan, Alvaro Inglés-Prieto, Carmen L. Badilla, Jose M. Stockwell, Arne Holmgren, Fernández, y Brent R. Sánchez-Ruiz. 2012. Protein Folding Drives Disulfide Formation. Cell, n.o 151: 794-806.
  • Alexander, Samuel. 1920. Space, Time, and Deity. Vol 2. London: Mcmillan.
  • Baylis, Charles A. 1929. The Philosophic Functions of Emergence. The Philosophical Review 38 (4): 372-84.
  • Blitz, David. 1992. Emergent Evolution: Qualitative Novelty and the Levels of Reality. Springer-Science + Business Media, B.V.
  • Broad, Charlie D. 1925. The Mind and Its Place in Nature. London: Routledge.
  • Bunge, Mario. 1973. La metafísica, epistemología y metodología de los niveles. En Las estructuras jerárquicas, editado por Lancelot Law Whyte, Albert G. Wilson, y Donna Wilson. Madrid: Alianza Universidad.
  • Bunge, Mario. 2004. Emergencia y convergencia. Barcelona: Gedisa.
  • Campbell, Donald T. 1974. Downward Causation in Hierarchically Organized Biological Systems. In F. A yala and T. Dobzhansky (eds.), Studies in the Philosophy of Biology, Berkeley, University of California Press, 179-86.
  • Campbell, Richard J. y Mark H. Bickhard. 2011. Physicalism, emergence and downward causation. Axiomathes, n.o 21: 33-56.
  • Churchland, Patricia S. 2012. El cerebro moral. Lo que la neurociencia nos cuenta sobre la moralidad. Barcelona: Paidós.
  • Craver, Carl F. y William Bechtel. 2007. Top-Down causation without top-down causes. Biology and Philosophy 22: 547-63.
  • Dirac, Paul A. 1929. Quantum mechanics of many-electron systems. Proceedings of the Royal Society of London A 123: 714-33.
  • Emmeche, Clauss, Simo Köppe y Frederik Stjernfelt. 1997. Explaining Emergence: Towards an Ontology of Levels. Journal for General Philosophy of Science 28: 83-119.
  • Etxeberría, Arantza y Jon Umerez. 2006. Organismo y organización en la Biología Teórica: ¿Vuelta al organicismo? Ludus vitalis XIV (14): 3-38.
  • Garrison, Fielding H. 1922. Historia de la medicina. Tomo II. Madrid: Calpe.
  • Glennan, Stuart S. 1996. Mechanisms and the Nature of Causation. Erkenntnis 44: 49-71.
  • Hervás, Manuel y José A Navarro. 2011. Transferencia electrónica al fotosistema I: in vivo versus in vitro. En Actas del XXXIV Congreso SEBBM, p, 89. Barcelona.
  • Kauffman, Stuart A. 1993. Origins of Order: Self-Organization and Selection in Evolution. Oxford University Press.
  • Kavanaugh, J.S., P.H. Rogers, D.A. Case y A. Arnone. 1992. High-resolution X-ray study of deoxyhemoglobin Rothschild 37 beta Trp-Arg: a mutation that creates an intersubunit chloride-binding site. Biochemistry 31(16): 4111-21.
  • Kekes, John. 1966. Physicalism. The identity theory and the doctrine of emergence. Phiylosophy of Science 33: 360-75.
  • Kim, Jaegwon. 1978. Supervenience and nomological incommensurables. American Philosophical Quarterly 15: 149-56.
  • Kim, Jaegwon. 2006. Emergence: Core ideas and issues. Synthese 151: 547-59.
  • Klee, Robert. 1984. Micro-Determinism and Concepts of Emergence. Philosophy of Science 51: 44-63.
  • Lewes, George Henry. 1874. Problems of Life and Mind, first series, 2 vols. London: Truebner & Co.
  • Lewes, George Henry. 1877. Problems of Life and Mind, second series. Boston: J. R. Osgood.
  • López Corredoira, Martín. 2004. Contra el libre albedrío en el marco de las Ciencias Naturales contemporáneas. Thémata, revista de Filosofía, n.o 32: 227-305.
  • Machamer, Peter, Lindley Darden y Carl F. Craver. 2000. Thinking about Mechanisms. Philosophy of Science 67 (1): 1-25.
  • Maturana, Humberto, y Francisco Varela. 1973. De máquinas y seres vivos. Autopoiesis: la organización de lo vivo. Editado por Editorial Lumen. 2a Edicion. 1993. Buenos Aires.
  • Mayr, Ernst. 2005. Así es la biología. Barcelona: Debate.
  • Mayr, Ernst. 2006. Por qué es única la biología. Buenos Aires: Katz.
  • Meehl, Paul E. y Wilfrid Sellars. 1956. The concept of emergence. En Minnesota studies in the philosophy of science, editado por Herbert Feigl y Michael Scriven, pp. 239-52. University of Minnesota Press.
  • Mill, John Stuart. 1843. A system of logic: ratiocinative and inductive. [8th, 1872] ed. London: Longmans, Green, Reader, and Dyer.
  • Mitchell, Sandra D. 2012. Emergence: logical, functional and dynamical. Synthese 185: 171-86.
  • Morgan, C. Lloyd. 1923. Emergent evolution. Editado por Williams y Norgate. 2o edition (1927). London.
  • Nagel, Ernest. 1961. La estructura de la ciencia. Editado por Paidós. 1.a ed. 2006. Barcelona: Surcos.
  • O’Connor, Timothy. 1994. Emergent Properties. American Philosophical Quarterly, n.o 31: 91-104.
  • Park, Jeong-Hyuck. 2013. How many is different? Answer from ideal Bose gas. Journal of Physics. arXiv:1310.5580.
  • Pattee, Howard H. 1971. Physical theories of biological co-ordination. Quarterly Reviews of biophysics 4 (2-3): 255-76.
  • Pattee, Howard H. 1982. Cell Psychology: An Evolutionary Approach to the Symbol-Matter Problem. Cognition and brain theory 5(4): 325-34.
  • Penrose, Roger. 1991. La nueva mente del emperador. Barcelona: Grijalbo.
  • Pepper, Stephen C. 1926. Emergence. Journal of Philosophy, n.o 23: 241-45.
  • Piiroinen, Tero. 2014. Three Senses of «Emergence»: On the Term’s History, Functions, and Usefulness in Social Theory. Prolegomena: časopis za filozofiju 13(1): 141-61.
  • Polanyi, Michael. 1968. Life’s Irreducible Structure. Science, New Series, 160 (3834): 1308-12.
  • Rosenberg, Alex. 2007. Reductionism in Biology. En Philosophy of Biology, editado por Dov M. Gabbay, Paul Thagard, y John Woods, pp 349-68. Amsterdam: Elsevier.
  • Rosen, Robert. 1985. Anticipatory Systems. Oxford: Pergamon Press.
  • Schaffner, Kenneth. 1974. Reductionism in Biology. Proceedings of the Biennial Meeting of the Philosophy of Science Association 1974: 613-32.
  • Silberstein, Michael, y John McGeever. 1999. The Search for Ontological Emergence. The Philosophical Quarterly 49 (195): 182-200.
  • Simon, Herbert A. 1962. The Architecture of Complexity. Proceedings of the American Philosophical Society 106 (6): 467-82.
  • Spaulding, Edward G. 1912. The New Realism: Cooperative Studies in Philosophy. New York: The Macmillan Company.
  • Spaulding, Edward G. 1918. The New Rationalism: The Development of a Constructive Realism upon the Basis of Modern Logic and Science Through the Criticism of Opposed Philosophical Systems. New York: H. Holt and Company.
  • Weiss, Paul. 1970. The living system: determinism stratified». En Beyond Reductionism, editado por Smythies y Koestler, 3-55. New York: The Macmillan Company.
  • Wimsatt, William C. 2000. Emergence as Non-Aggregativity and the Biases of Reductionism. Foundations of Science 5 (3): 269-97.
Datuen iturria: Dialnet