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Fitness

In Sahotra Sarkar & Jessica Pfeifer (eds.), The Philosophy of Science: An Encyclopedia. New York: Routledge. pp. 310--315 (2005)

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  1. Fitness: static or dynamic?Peter Takacs & Pierrick Bourrat - 2021 - European Journal for Philosophy of Science 11 (4):1-20.
    The most consistent definition of fitness makes it a static property of organisms. However, this is not how fitness is used in many evolutionary models. In those models, fitness is permitted to vary with an organism’s circumstances. According to this second conception, fitness is dynamic. There is consequently tension between these two conceptions of fitness. One recently proposed solution suggests resorting to conditional properties. We argue, however, that this solution is unsatisfactory. Using a very simple model, we show that it (...)
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  • Handbook of Evolutionary Thinking in the Sciences.Thomas Heams, Philippe Huneman, Guillaume Lecointre & Marc Silberstein (eds.) - 2014 - Springer.
    The Darwinian theory of evolution is itself evolving and this book presents the details of the core of modern Darwinism and its latest developmental directions. The authors present current scientific work addressing theoretical problems and challenges in four sections, beginning with the concepts of evolution theory, its processes of variation, heredity, selection, adaptation and function, and its patterns of character, species, descent and life. The second part of this book scrutinizes Darwinism in the philosophy of science and its usefulness in (...)
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  • A priori causal laws.Darren Bradley - 2017 - Inquiry: An Interdisciplinary Journal of Philosophy 60 (4):358-370.
    Sober and Elgin defend the claim that there are a priori causal laws in biology. Lange and Rosenberg take issue with this on Humean grounds, among others. I will argue that Sober and Elgin don’t go far enough – there are a priori causal laws in many sciences. Furthermore, I will argue that this thesis is compatible with a Humean metaphysics and an empiricist epistemology.
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  • Respuesta al comentario de Caponi, Gustavo. “Ginnobili, Santiago. ‘El estatus fenomenológico de la teoría de la selección natural’”.Santiago Ginnobili - 2014 - Ideas Y Valores 63 (154):307-311.
    Respuesta al comentario de Gustavo Caponi. “Ginnobili, Santiago. ‘El estatus fenomenológico de la teoría de la selección natural’”, Ideas y Valores LXII/152 (2013): 319-322.
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  • Teleosemantics, Infotel-semantics and Circularity.Marc Artiga - 2014 - International Journal of Philosophical Studies 22 (4):583-603.
    Peter Godfrey-Smith and Nicholas Shea have argued that standard versions of teleosemantics render explanations of successful behavior by appealing to true beliefs circular and, consequently, non-explanatory. As an alternative, Shea has recently suggested an original teleosemantic account (that he calls ?Infotel-semantics?), which is supposed to be immune to the problem of circularity. The paper argues that the standard version of teleosemantics has a satisfactory reply to the circularity objection and that, in any case, Infotel-semantics is not better off than standard (...)
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  • Understanding colonial traits using symbiosis research and ecosystem ecology.Frédéric Bouchard - 2009 - Biological Theory 4 (3):240-246.
    E. O. Wilson (1974: 54) describes the problem that social organisms pose: “On what bases do we distinguish the extremely modified members of an invertebrate colony from the organs of a metazoan animal?” This framing of the issue has inspired many to look more closely at how groups of organisms form and behave as emergent individuals. The possible existence of “superorganisms” test our best intuitions about what can count and act as genuine biological individuals and how we should study them. (...)
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  • Fitness “kinematics”: biological function, altruism, and organism–environment development.Marshall Abrams - 2009 - Biology and Philosophy 24 (4):487-504.
    It’s recently been argued that biological fitness can’t change over the course of an organism’s life as a result of organisms’ behaviors. However, some characterizations of biological function and biological altruism tacitly or explicitly assume that an effect of a trait can change an organism’s fitness. In the first part of the paper, I explain that the core idea of changing fitness can be understood in terms of conditional probabilities defined over sequences of events in an organism’s life. The result (...)
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  • Causal processes, fitness, and the differential persistence of lineages.Frédéric Bouchard - 2008 - Philosophy of Science 75 (5):560-570.
    Ecological fitness has been suggested to provide a unifying definition of fitness. However, a metric for this notion of fitness was in most cases unavailable except by proxy with differential reproductive success. In this article, I show how differential persistence of lineages can be used as a way to assess ecological fitness. This view is inspired by a better understanding of the evolution of some clonal plants, colonial organisms, and ecosystems. Differential persistence shows the limitation of an ensemblist noncausal understanding (...)
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  • Function, homology and character individuation.Paul E. Griffiths - 2006 - Philosophy of Science 73 (1):1-25.
    I defend the view that many biological categories are defined by homology against a series of arguments designed to show that all biological categories are defined, at least in part, by selected function. I show that categories of homology are `abnormality inclusive'—something often alleged to be unique to selected function categories. I show that classifications by selected function are logically dependent on classifications by homology, but not vice-versa. Finally, I reject the view that biologists must use considerations of selected function (...)
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