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Is genetic drift a force?

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  1. Barros D. Benjamin, Natural Selection as a Mechanism*, 10.1086/593075
  2. Batterman Robert W., Theories between theories: Asymptotic limiting intertheoretic relations, 10.1007/bf01090047
  3. Butts Robert E., Philosophy of Science: 1934-1984, 10.1086/289159
  4. Beatty, J. H. (1992). Random drift. In E. F. Keller & E. A. Lloyd (Eds.), Keywords in evolutionary biology (pp. 273–281). Cambridge, MA: Harvard University Press.
  5. Bigelow John, Ellis Brian, Pargetter Robert, Forces, 10.1086/289464
  6. Brandon Robert N., The Difference Between Selection and Drift: A Reply to Millstein, 10.1007/s10539-004-1070-9
  7. Brandon Robert N., , The Principle of Drift : Biology’s First Law, 10.5840/jphil2006103723
  8. Brandon Robert N., A Non-Newtonian Newtonian Model of Evolution: The ZFEL View, 10.1086/656901
  9. Brandon Robert N., Carson Scott, The Indeterministic Character of Evolutionary Theory: No "No Hidden Variables Proof" but No Room for Determinism Either, 10.1086/289915
  10. Carroll, S. B., Grenier, J., & Weatherbee, S. (2001). From DNA to diversity: Molecular genetics and the evolution of animal design. Malden, MA: Blackwell.
  11. Creary, L. G. (1981). Causal explanation and the reality of natural component forces. Pacific Philosophical Quarterly, 62, 148–157.
  12. Crow, J. F., & Kimura, M. (1970). An introduction to population genetics theory. Caldwell, NJ: Blackburn Press.
  13. De Jong G., The Fitness of Fitness Concepts and the Description of Natural Selection, 10.1086/418431
  14. Depew David, Conceptual Change and the Rhetoric of Evolutionary Theory: ‘Force Talk’ as a Case Study and Challenge for Science Pedagogy, The Philosophy of Biology (2013) ISBN:9789400765368 p.121-144, 10.1007/978-94-007-6537-5_7
  15. DesAutels Lane, Toward a propensity interpretation of stochastic mechanism for the life sciences, 10.1007/s11229-015-0694-4
  16. Earman J., Friedman M., The Meaning and Status of Newton's Law of Inertia and the Nature of Gravitational Forces, 10.1086/288536
  18. Ellis Brian, The existence of forces, 10.1016/0039-3681(76)90015-7
  19. Filler Joshua, Newtonian Forces and Evolutionary Biology: A Problem and Solution for Extending the Force Interpretation, 10.1086/605799
  20. Forber Patrick, Reisman Kenneth, Can There Be Stochastic Evolutionary Causes?, 10.1086/525608
  21. Forster Malcolm R., Unification, explanation, and the composition of causes in Newtonian mechanics, 10.1016/0039-3681(88)90020-9
  22. Gildenhuys P., An Explication of the Causal Dimension of Drift, 10.1093/bjps/axp019
  23. Glennan Stuart, Productivity, relevance and natural selection, 10.1007/s10539-008-9137-7
  24. Hartl, D. L., & Clark, A. G. (1997). Principles of population genetics (3rd ed.). Sunderland, MA: Sinauer Associates.
  25. Heil, J. (1999). Multiple realizability. American Philosophical Quarterly, 36(3), 189–208. doi: 10.2307/20009964 .
  26. Heil John, Levels of Reality, 10.1111/1467-9329.00218
  27. HESSE MARY B., REVIEWS, 10.1093/bjps/x.37.69
  28. Hitchcock Christopher, Velasco Joel D., Evolutionary and Newtonian Forces, 10.3998/ergo.12405314.0001.002
  29. Hodge, M. J. S. (1987). Natural selection as a causal, empirical, and probabilistic theory, Volume 2: Ideas in the sciences. In L. Krüger, G. Gigerenzer, & M. S. Morgan (Eds.), The probabilistic revolution (pp. 233–270). Cambridge, MA: Bradford Books.
  30. Huilgol, R. R., & Phan-Thien, N. (1997). Fluid mechanics of viscoelasticity. Amsterdam: Elsevier.
  31. Huneman Philippe, Natural Selection: A Case for the Counterfactual Approach, 10.1007/s10670-011-9306-y
  32. Hüttemann, A. (2009). Dispositions in physics. In G. Damschen, R. Schnepf, & K. Stueber (Eds.), Debating dispositions (pp. 223–237). Berlin: Walter de Gruyter.
  33. Jablonski David, Mass extinctions and macroevolution, 10.1666/0094-8373(2005)031[0192:meam];2
  34. Jammer, M. (1957). Concepts of force: A study in the foundations of dynamics. Cambridge, MA: Harvard University Press.
  35. Kim Jaegwon, The Layered Model: Metaphysical Considerations, 10.1080/10002002018538719
  36. Lemons Don S., Gythiel Anthony, 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)], 10.1119/1.18725
  37. Lewens Tim, Natural selection then and now, 10.1111/j.1469-185x.2010.00128.x
  38. Lewis, R. (1997). Life. Boston: WCB/McGraw-Hill.
  39. Lewontin, R. C. (1964). The interaction of selection and linkage: I. General considerations; heterotic models. Genetics, 49(1), 49–67.
  40. Lewontin, R. C., & Kojima, K. (1960). The evolutionary dynamics of complex polymorphisms. Evolution, 14(4), 458–472.
  41. Lynch Michael, Conery John, Burger Reinhard, Mutation Accumulation and the Extinction of Small Populations, 10.1086/285812
  42. Lyttle Terrence W., Cheaters sometimes prosper: distortion of mendelian segregation by meiotic drive, 10.1016/0168-9525(93)90120-7
  43. Machamer Peter, Darden Lindley, Craver Carl F., Thinking about Mechanisms, 10.1086/392759
  44. Mani G. S., Clarke B. C., Mutational Order: A Major Stochastic Process in Evolution, 10.1098/rspb.1990.0025
  45. MASSIN Olivier, The Metaphysics of Forces : The Metaphysics of Forces, 10.1111/j.1746-8361.2009.01213.x
  46. Matthen Mohan, Ariew André, , Two Ways of Thinking About Fitness and Natural Selection : , 10.2307/3655552
  47. Matthen Mohan, Ariew André, Selection and Causation*, 10.1086/648102
  48. Maudlin, T. (2004). Causation, counterfactuals, and the third factor. In J. D. Collins, N. Hall, & L. A. Paul (Eds.), Causation and counterfactuals (pp. 419–443). Cambridge, MA: MIT Press.
  49. McShea, D. W. (1996). Metazoan complexity and evolution: Is there a trend? Evolution, 50(2), 477–492.
  50. McShea Daniel W., The evolution of complexity without natural selection, a possible large-scale trend of the fourth kind, 10.1666/0094-8373(2005)031[0146:teocwn];2
  51. McShea Daniel W., Brandon Robert N., Biology's First Law : The Tendency for Diversity and Complexity to Increase in Evolutionary Systems, ISBN:9780226562261, 10.7208/chicago/9780226562278.001.0001
  52. Merlin Francesca, Evolutionary Chance Mutation: A Defense of the Modern Synthesis' Consensus View, 10.3998/ptb.6959004.0002.003
  53. Millstein Roberta L., Are Random Drift and Natural Selection Conceptually Distinct?, 10.1023/a:1012990800358
  54. Millstein Roberta L., Selection vs. Drift: A Response to Brandon’s Reply, 10.1007/s10539-004-6047-1
  55. Millstein Roberta L., Natural Selection as a Population-Level Causal Process, 10.1093/bjps/axl025
  56. Millstein Roberta L., Natural Selection and Causal Productivity, Mechanism and Causality in Biology and Economics (2013) ISBN:9789400724532 p.147-163, 10.1007/978-94-007-2454-9_8
  57. Pence C. H., Ramsey G., A New Foundation for the Propensity Interpretation of Fitness, 10.1093/bjps/axs037
  58. Perrin, J. B. (1909). Mouvement brownien et réalité moléculaire. Annales de Chimie et de Physique, VIII(18), 5–114.
  59. Pigliucci Massimo, Okasha’s evolution and the levels of selection: toward a broader conception of theoretical biology : Oxford University Press, Oxford, 10.1007/s10539-010-9197-3
  60. Pigliucci Massimo, Kaplan Jonathan, Making Sense of Evolution : The Conceptual Foundations of Evolutionary Biology, ISBN:9780226668376, 10.7208/chicago/9780226668352.001.0001
  61. Ramsey Grant, Driftability, 10.1007/s11229-012-0232-6
  62. Reisman Kenneth, Forber Patrick, Manipulation and the Causes of Evolution, 10.1086/508120
  63. Rosenberg Alex, Discussion Note: Indeterminism, Probability, and Randomness in Evolutionary Theory, 10.1086/392941
  64. Rupert Robert D., Ceteris ParibusLaws, Component Forces, and the Nature of Special-Science Properties1, 10.1111/j.1468-0068.2008.00685.x
  65. Shapiro, L., & Sober, E. (2007). Epiphenomenalism-The dos and the don’ts. In G. Wolters & P. Machamer (Eds.), Thinking about causes: From Greek philosophy to modern physics (pp. 235–264). Pittsburgh, PA: University of Pittsburgh Press.
  66. Shpaka Max, Proulx Stephen R., The Role of Life Cycle and Migration in Selection for Variance in Offspring Number, 10.1007/s11538-006-9164-y
  67. Sober, E. (1984). The nature of selection. Cambridge, MA: The MIT Press.
  68. Stephens Christopher, Selection, Drift, and the “Forces” of Evolution*, 10.1086/423751
  69. Stephens Christopher, Forces and Causes in Evolutionary Theory, 10.1086/656821
  70. Sterelny Kim, Last Will and Testament: Stephen Jay Gould’s The Structure of Evolutionary TheoryStephen Jay  Gould, The Structure of Evolutionary Theory. Cambridge, MA: Harvard University Press, (2002), xxii + 1433., 10.1086/375466
  71. Strickberger, M. W. (1968). Genetics. New York: Macmillan.
  72. Fraassen Bas. C. van, The Scientific Image, ISBN:9780198244271, 10.1093/0198244274.001.0001
  73. Walsh D. M., The Pomp of Superfluous Causes: The Interpretation of Evolutionary Theory*, 10.1086/520777
  74. Walsh Denis M., Not a Sure Thing: Fitness, Probability, and Causation*, 10.1086/651320
  75. Walsh Denis , Lewins Tim , Ariew André, The Trials of Life: Natural Selection and Random Drift*, 10.1086/342454
  76. Werndl C., What Are the New Implications of Chaos for Unpredictability?, 10.1093/bjps/axn053
  77. Wilson J., Newtonian Forces, 10.1093/bjps/axm004
  78. WILSON Jessica, The Causal Argument Against Component Forces : The Causal Argument Against Component Forces, 10.1111/j.1746-8361.2009.01216.x
  79. Woodward James, Hitchcock Christopher, Explanatory Generalizations, Part I: A Counterfactual Account, 10.1111/1468-0068.00426
Référence bibliographique Pence, Charles H.. Is genetic drift a force?. In: Synthese, Vol. 194, no.6, p. 1967-1988 (2016)