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  1. Of stirps and chromosomes: Generality through detail.Charles H. Pence - 2022 - Studies in History and Philosophy of Science Part A 94 (C):177-190.
    One claim found in the received historiography of the biometrical school (comprised primarily of Francis Galton, Karl Pearson, and W. F. R. Weldon) is that one of the biometricians' great flaws was their inability to look past their population-focused, statistical, gradualist understanding of evolutionary change – which led, in part, to their ignoring developments in cellular biology around 1900. I will argue, on the contrary, that the work of the biometricians was, from its earliest days, fundamentally concerned with connections between (...)
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  • Whatever Happened to Reversion?Charles H. Pence - 2022 - Studies in History and Philosophy of Science Part A 92 (C):97-108.
    The idea of ‘reversion’ or ‘atavism’ has a peculiar history. For many authors in the latenineteenth and early-twentieth centuries – including Darwin, Galton, Pearson, Weismann, and Spencer, among others – reversion was one of the central phenomena which a theory of heredity ought to explain. By only a few decades later, however, Fisher and others could look back upon reversion as a historical curiosity, a non-problem, or even an impediment to clear theorizing. I explore various reasons that reversion might have (...)
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  • Presidential address: Experimenting with the scientific past.Gregory Radick - 2016 - British Journal for the History of Science 49 (2):153-172.
    When it comes to knowing about the scientific pasts that might have been – the so-called ‘counterfactual’ history of science – historians can either debate its possibility or get on with the job. The latter course offers opportunities for engaging with some of the most general questions about the nature of science, history and knowledge. It can also yield fresh insights into why particular episodes in the history of science unfolded as they did and not otherwise. Drawing on recent research (...)
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  • Innateness as a natural cognitive kind.Muhammad Ali Khalidi - 2016 - Philosophical Psychology 29 (3):319-333.
    Innate cognitive capacities are widely posited in cognitive science, yet both philosophers and scientists have criticized the concept of innateness as being hopelessly confused. Despite a number of recent attempts to define or characterize innateness, critics have charged that it is associated with a diverse set of properties and encourages unwarranted inferences among properties that are frequently unrelated. This criticism can be countered by showing that the properties associated with innateness cluster together in reliable ways, at least in the context (...)
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  • Ethischer Diskurs zu Epigenetik und Genomeditierung: die Gefahr eines (epi-)genetischen Determinismus und naturwissenschaftlich strittiger Grundannahmen.Karla Karoline Sonne Kalinka Alex & Eva C. Winkler - 2021 - In Boris Fehse, Ferdinand Hucho, Sina Bartfeld, Stephan Clemens, Tobias Erb, Heiner Fangerau, Jürgen Hampel, Martin Korte, Lilian Marx-Stölting, Stefan Mundlos, Angela Osterheider, Anja Pichl, Jens Reich, Hannah Schickl, Silke Schicktanz, Jochen Taupitz, Jörn Walter, Eva Winkler & Martin Zenke (eds.), Fünfter Gentechnologiebericht: Sachstand und Perspektiven für Forschung und Anwendung. pp. 299-323.
    Slightly modified excerpt from the section 13.4 Zusammenfassung und Ausblick (translated into englisch): This chapter is based on an analysis of ethical debates on epigenetics and genome editing, debates, in which ethical arguments relating to future generations and justice play a central role. The analysis aims to contextualize new developments in genetic engineering, such as genome and epigenome editing, ethically. At the beginning, the assumptions of "genetic determinism," on which "genetic essentialism" is based, of "epigenetic determinism" as well as "genetic" (...)
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  • A work in progress: William Bateson’s vibratory theory of repetition of parts.Alan R. Rushton - 2024 - History and Philosophy of the Life Sciences 46 (1):1-22.
    In 1891 Cambridge biologist William Bateson (1861–1926) announced his idea that the symmetrical segmentation in living organisms resulted from energy peaks of some vibratory force acting on tissues during morphogenesis. He also demonstrated topographically how folding a radially symmetric organism could produce another with bilateral symmetry. Bateson attended many lectures at the Cambridge Philosophical Society and viewed mechanical models prepared by eminent physicists that illustrated how vibrations affected materials. In his subsequent research, Bateson utilized analogies and metaphors based upon his (...)
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