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  1. Axiomatic Natural Philosophy and the Emergence of Biology as a Science.Hein van den Berg & Boris Demarest - 2020 - Journal of the History of Biology 53 (3):379-422.
    Ernst Mayr argued that the emergence of biology as a special science in the early nineteenth century was possible due to the demise of the mathematical model of science and its insistence on demonstrative knowledge. More recently, John Zammito has claimed that the rise of biology as a special science was due to a distinctive experimental, anti-metaphysical, anti-mathematical, and anti-rationalist strand of thought coming from outside of Germany. In this paper we argue that this narrative neglects the important role played (...)
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  • Axes, planes and tubes, or the geometry of embryogenesis.Sabine Brauckmann - 2011 - Studies in History and Philosophy of Science Part A 42 (4):381-390.
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  • Biology and Theology in Malebranche's Theory of Organic Generation.Karen Detlefsen - 2014 - In Ohad Nachtomy & Justin E. H. Smith (eds.), The Life Sciences in Early Modern Philosophy. New York, NY: Oup Usa. pp. 137-156.
    This paper has two parts: In the first part, I give a general survey of the various reasons 17th and 18th century life scientists and metaphysicians endorsed the theory of pre-existence according to which God created all living beings at the creation of the universe, and no living beings are ever naturally generated anew. These reasons generally fall into three categories. The first category is theological. For example, many had the desire to account for how all humans are stained by (...)
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  • Defining the Boundaries of Development with Plasticity.Antonine Nicoglou - 2011 - Biological Theory 6 (1):36-47.
    The concept of plasticity has always been present in the history of developmental biology, both within the theory of epigenesis and within morphogenesis studies. However this tradition relies also upon a genetic conception of plasticity. Founded upon the concepts of ‘‘phenotypic plasticity’’ and ‘‘reaction norm,’’ this genetic conception focuses on the array of possible phenotypic change in relation to diversified environments. Another concept of plasticity can be found in recent publications by some developmental biologists (Gilbert, West-Eberhard). I argue that these (...)
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  • The Boundaries of Development.Thomas Pradeu, Lucie Laplane, Michel Morange, Antonine Nicoglou & Michel Vervoort - 2011 - Biological Theory 6 (1):1 - 3.
    This special issue of Biological Theory is focused on development; it raises the problem of the temporal and spatial boundaries of development. From a temporal point of view, when does development start and stop? From a spatial point of view, what is it exactly that "develops", and is it possible to delineate clearly the developing entity? This issue explores the possible answers to these questions, and thus sheds light on the definition of development itself.
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  • Teleology without regrets. The transformation of physiology in Germany: 1790–1847.Timothy Lenoir - 1981 - Studies in History and Philosophy of Science Part A 12 (4):293-354.
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  • The Ecology of Form.Devin Griffiths - 2021 - Critical Inquiry 48 (1):68-93.
    This article intervenes in recent formalist and ecocritical debates, drawing on the philosophy of Charles Darwin and Édouard Glissant to develop an ecopoetic theory of relational form. Gathering perspectives from ecocriticism and new materialism, literary criticism and comparative literature, the history and philosophy of science, postcolonial theory, critical race theory, and Black studies, it reads form as an interdisciplinary object that is part of the world, rather than an imposed feature of human language or perception. In this way, it produces (...)
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  • ‘This inscrutable principle of an original organization’: epigenesis and ‘looseness of fit’ in Kant’s philosophy of science.John H. Zammito - 2003 - Studies in History and Philosophy of Science Part A 34 (1):73-109.
    Kant’s philosophy of science takes on sharp contour in terms of his interaction with the practicing life scientists of his day, particularly Johann Blumenbach and the latter’s student, Christoph Girtanner, who in 1796 attempted to synthesize the ideas of Kant and Blumenbach. Indeed, Kant’s engagement with the life sciences played a far more substantial role in his transcendental philosophy than has been recognized hitherto. The theory of epigenesis, especially in light of Kant’s famous analogy in the first Critique, posed crucial (...)
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  • The Lenoir thesis revisited: Blumenbach and Kant.John H. Zammito - 2012 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 43 (1):120-132.
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  • Introduction: sketches of a conceptual history of epigenesis.Antonine Nicoglou & Charles T. Wolfe - 2018 - History and Philosophy of the Life Sciences 40 (4):64.
    This is an introduction to a collection of articles on the conceptual history of epigenesis, from Aristotle to Harvey, Cavendish, Kant and Erasmus Darwin, moving into nineteenth-century biology with Wolff, Blumenbach and His, and onto the twentieth century and current issues, with Waddington and epigenetics. The purpose of the topical collection is to emphasize how epigenesis marks the point of intersection of a theory of biological development and a theory of active matter. We also wish to show that the concept (...)
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  • Organisms-Mechanisms: Stahl, Wolff, and the Case against Reductionist Exclusion.Alfred Gierer - 1996 - Science in Context 9 (4):511-528.
    Unlike Aristotelian physics with its teleological notions, modern physics was developed exclusively in relation to the nonliving domain. This raised the question as to whether mechanics applies to organisms, and if so, to what extent. From the seventeenth century on, mechanistic ideas became prominent in biological and medical theory. Contemporary biology explains essential features of life on the basis of physical laws and processes. This does not prove, however, that the early mechanists were essentially right. In the eighteenth century, following (...)
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  • Form – A Matter of Generation: The Relation of Generation, Form, and Function in the Epigenetic Theory of Caspar F. Wolff.Elke Witt - 2008 - Science in Context 21 (4):649-664.
    ArgumentThe question, how organisms obtain their specific complex and functional forms, was widely discussed during the eighteenth century. The theory of preformation, which was the dominant theory of generation, was challenged by different alternative epigenetic theories. By the end of the century it was the vitalist approach most famously advocated by Johann Friedrich Blumenbach that prevailed. Yet the alternative theory of generation brought forward by Caspar Friedrich Wolff was an important contribution to the treatment of this question. He turned his (...)
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