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  1. In What Sense Can There Be Evolution by Natural Selection Without Perfect Inheritance?Pierrick Bourrat - 2019 - International Studies in the Philosophy of Science 32 (1):13-31.
    ABSTRACTIn Darwinian Population and Natural Selection, Peter Godfrey-Smith brought the topic of natural selection back to the forefront of philosophy of biology, highlighting different issues surro...
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  • Descriptions and Models: Some Responses to Abrams.Denis M. Walsh - 2013 - Studies in History and Philosophy of Science Part C 44 (3):302-308.
  • The Logical Structure of Evolutionary Explanation and Prediction: Darwinism’s Fundamental Schema.Neil Tennant - 2014 - Biology and Philosophy 29 (5):611-655.
    We present a logically detailed case-study of Darwinian evolutionary explanation. Special features of Darwin’s explanatory schema made it an unusual theoretical breakthrough, from the point of view of the philosophy of science. The schema employs no theoretical terms, and puts forward no theoretical hypotheses. Instead, it uses three observational generalizations—Variability, Heritability and Differential Reproduction—along with an innocuous assumption of Causal Efficacy, to derive Adaptive Evolution as a necessary consequence. Adaptive Evolution in turn, with one assumption of scale (‘Deep Time’), implies (...)
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  • The Mind, the Lab, and the Field: Three Kinds of Populations in Scientific Practice.Rasmus Grønfeldt Winther, Ryan Giordano, Michael D. Edge & Rasmus Nielsen - 2015 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 52:12-21.
    Scientists use models to understand the natural world, and it is important not to conflate model and nature. As an illustration, we distinguish three different kinds of populations in studies of ecology and evolution: theoretical, laboratory, and natural populations, exemplified by the work of R.A. Fisher, Thomas Park, and David Lack, respectively. Biologists are rightly concerned with all three types of populations. We examine the interplay between these different kinds of populations, and their pertinent models, in three examples: the notion (...)
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  • How to Read ‘Heritability’ in the Recipe Approach to Natural Selection.Pierrick Bourrat - 2015 - British Journal for the Philosophy of Science 66 (4):883-903.
    There are two ways evolution by natural selection is conceptualized in the literature. One provides a ‘recipe’ for ENS incorporating three ingredients: variation, differences in fitness, and heritability. The other provides formal equations of evolutionary change and partitions out selection from other causes of evolutionary changes such as transmission biases or drift. When comparing the two approaches there seems to be a tension around the concept of heritability. A recent claim has been made that the recipe approach is flawed and (...)
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  • Four Pillars of Statisticalism.Denis M. Walsh, André Ariew & Mohan Matthen - 2017 - Philosophy, Theory, and Practice in Biology 9 (1).
    Over the past fifteen years there has been a considerable amount of debate concerning what theoretical population dynamic models tell us about the nature of natural selection and drift. On the causal interpretation, these models describe the causes of population change. On the statistical interpretation, the models of population dynamics models specify statistical parameters that explain, predict, and quantify changes in population structure, without identifying the causes of those changes. Selection and drift are part of a statistical description of population (...)
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  • Group Selection and Group Adaptation During a Major Evolutionary Transition: Insights From the Evolution of Multicellularity in the Volvocine Algae.Deborah E. Shelton & Richard E. Michod - 2014 - Biological Theory 9 (4):452-469.