Drift and evolutionary forces

  1. Víctor J. Luque
Revista:
Theoria: an international journal for theory, history and foundations of science

ISSN: 0495-4548

Año de publicación: 2016

Volumen: 31

Número: 3

Páginas: 397-410

Tipo: Artículo

DIALNET GOOGLE SCHOLAR lock_openDialnet editor

Otras publicaciones en: Theoria: an international journal for theory, history and foundations of science

Resumen

El presente artículo analiza la visión de la teoría evolutiva como una teoría de fuerzas. La analogía con la mecánica newtoniana se ha puesto en duda debido a las diferencias entre la deriva y el resto de fuerzas evolutivas. En tanto que la deriva genética no tiene dirección, varios autores han tratado de proteger su estatus de fuerza: negando su falta de direccionalidad, extendiendo la noción de fuerza y buscando una fuerza que también carezca de dirección en física. Analizo estas aproximaciones y aunque esta estrategia finalmente tiene éxito, argumento que esta discusión pasa por alto el punto crucial en el debate entre causalistas y estadísticos: el estatus causal de la teoría evolutiva.

Referencias bibliográficas

  • Abrams, Marshall. 2007. How Do Natural Selection and Random Drift Interact? Philosophy of Science 74: 666-679.
  • Brandon, Robert. 2005. The Difference Between Selection and Drift: A Reply to Millstein. Biology and Philosophy 20: 153-170.
  • Brandon, Robert. 2006. The Principle of Drift: Biology’s First Law. Journal of Philosophy 103: 319-335.
  • Brandon, Robert and Grant Ramsey. 2007. What’s Wrong with the Emergentist Statistical Interpretation of Natural Selection and Random Drift? In Cambridge Companion to the Philosophy of Biology, eds. David Hull and Michael Ruse, 66-84. Cambridge: Cambridge University Press.
  • Charlesworth, Brian and Deborah Charlesworth. 2010. Elements of Evolutionary Genetics. Colorado: Roberts and Company Publishers.
  • Clatterbuck, Hayley. 2015. Drift Beyond Wright-Fisher. Synthese 192: 3487-3507.
  • Conner, Jeffrey and Daniel Hartl. 2004. A Primer of Ecological Genetics. Sinauer, Sunderland.
  • Der, Ricky, Charles Epstein and Joshua Plotkin. 2011. Generalized Population Models and the Nature of Genetic Drift. Theoretical Population Biology 80: 80-99.
  • Endler, John. 1986. Natural Selection in the Wild. Princeton: Princeton University Press.
  • Filler, Joshua. 2009. Newtonian Forces and Evolutionary Biology: A Problem and Solution for Extending the Force Interpretation. Philosophy of Science 76: 774-783.
  • Fuchs, Armin. 2013. Nonlinear Dynamics in Complex Systems. Berlin: Springer.
  • Futuyma, Douglas. 2013. Evolution (3rd edition). Sunderland: Sinauer.
  • Gildenhuys, Peter. 2009. An Explication of the Causal Dimension of Drift. British Journal for Philosophy of Science 60: 521-555.
  • Gillespie, John. 2004. Population Genetics: A Concise Guide (2nd edition). Baltimore: The John Hopkins University Press.
  • Goldstein, Herbert, Charles Poole and John Safko. 2000. Classical Mechanics (3rd edition). New York: Allison Wesley.
  • Hartl, Daniel and Andrew Clark. 1997. Principles of Population Genetics (3rd edition). Sunderland: Sinauer.
  • Hitchcock, Christopher and Joel Velasco. 2014. Evolutionary and Newtonian Forces. Ergo 1: 39-77.
  • Huang, Kerson. 2010. Introduction to Statistical Physics (2nd edition). London: Taylor and Francis Group.
  • Kim, Myung-man and Andrew Zydney. 2004. Effect of Electrostatic, Hydrodynamic, and Brownian Forces on Particle Trajectories and Sieving in Normal Flow Filtration. Journal of Colloid and Interface Science 269: 425-431.
  • Lemons, Don and Anthony Gythiel. 1997. Paul Langevin’s 1908 Paper “On the Theory of Brownian Motion” [“Sur la théorie du mouvement brownien,” C. R. Acad. Sci. (Paris) 146, 530-533 (1908)]. American Journal of Physics 65 (11): 1079-1081.
  • Luque, Victor J. 2016a. The Principle of Stasis: Why drift is not a Zero-Cause Law. Studies in History and Philosophy of Biological and Biomedical Sciences 57: 71-79.
  • Luque, Victor J. 2016b. One equation to rule them all: a philosophical analysis of the Price equation. Biology and Philosophy. doi:10.1007/s10539-016-9538-y
  • Mahnke, Reinhard, Jevgenijs Kaupuzs and Ihor Lubashevsky. 2009. Physics of stochastic processes. Weinheim: Wiley-VCH.
  • Matthen, Mohan and André Ariew. 2002. Two Ways of Thinking About Fitness and Natural Selection. Journal of Philosophy 99: 55-83.
  • Matthen, Mohan and André Ariew. 2009. Selection and Causation. Philosophy of Science 76: 201-224.
  • Maudlin, Tim. 2004. Causation, Counterfactuals, and the Third Factor. In Causation and Counterfactuals, eds. John Collins, Ned Hall and L. A. Paul, 419-443. Massachusetts: The MIT Press.
  • McShea, Daniel and Robert Brandon. 2010. Biology’s First Law: The Tendency for Diversity and Complexity to Increase in Evolutionary Systems. Chicago: The University of Chicago Press.
  • Millstein, Roberta. 2002. Are Random Drift and Natural Selection Conceptually Distinct? Biology and Philosophy 17: 33-53.
  • Millstein, Roberta. 2005. Selection vs. Drift: A Respons to Brandon’s Reply. Biology and Philosophy 20: 171-175.
  • Millstein, Roberta. 2006. Natural Selection as a Population-Level Causal Process. British Journal for Philosophy of Science 57(4): 627-653.
  • Millstein, Roberta, Robert Skipper and Michael Dietrich. 2009. (Mis)interpreting mathematical models: drift as a physical process. Philosophy and Theory in Biology 1: 1-13.
  • Pence, Charles. 2016. Is Genetic Drift a Force. Synthese. doi:10.1007/s11229-016-1031-2
  • Pigliucci, Massimo and Jonathan Kaplan. 2006. Making Sense of Evolution: The Conceptual Foundations of Evolutionary Biology. Chicago: University of Chicago Press.
  • Radi, Hafez and John Rasmussen. 2013. Principles of Physics. Berlin: Springer.
  • Reisman, Kenneth and Patrick Forber (2005). Manipulation and the Causes of Evolution. Philosophy of Science 72: 1113-1123.
  • Rice, Sean. 2004. Evolutionary theory: mathematical and conceptual foundations. Sunderland: Sinauer.
  • Rosenberg, Alexander and Frederic Bouchard. 2005. Matthen and Ariew’s Obituary for Fitness: Reports of its Demise have been Greatly Exaggerated. Biology and Philosophy 20: 343-353.
  • Sarkar, Sahotra. 2011. Drift and the Causes of Evolution. In Causality in the Sciences, eds. Phyllis Mckay, Federica Russo and Jon Williamson, 444-469. Oxford: Oxford University Press.
  • Schuss, Zeev. 2010. Theory and Applications of Stochastic Processes. London: Springer
  • Sober, Elliott.1984. The Nature of Selection. Cambridge: MIT Press.
  • Stephens, Christopher. 2004. Selection, Drift, and the ‘Forces’ of Evolution. Philosophy of Science 71: 550-570.
  • Stephens, Christopher. 2010. Forces and Causes in Evolutionary Theory. Philosophy of Science 77: 716-727.
  • Templeton, Alan. 2006. Population Genetics and Microevolutionary Theory. New Jersey: Wiley.
  • Walsh, Denis, Tim Lewens and André Ariew. 2002. The Trials of Life: Natural Selection and Random Drift. Philosophy of Science 69: 452-473.
Fuente de los datos: Dialnet