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  1. What are biological species? : the impact of the current debate in taxonomy on the species problem.Nicole Leroux - unknown
    For the past twenty years, taxonomy has been in a state of turmoil. This confusion brings along with it four distinct schools of thought, each of which offers a different concept of biological species. The thesis will show that these concepts are purely operational and have only a weak theoretical force. In turn, it will be argued that a sound definition of species uses the notion of natural kinds, which is itself defined in term of non-causal nomological regularities.
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  • Pattern as Observation: Darwin’s ‘Great Facts’ of Geographical Distribution.Casey Helgeson - 2017 - European Journal for Philosophy of Science 7 (2):337-351.
    Among philosophical analyses of Darwin’s Origin, a standard view says the theory presented there had no concrete observational consequences against which it might be checked. I challenge this idea with a new analysis of Darwin’s principal geographical distribution observations and how they connect to his common ancestry hypothesis.
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  • Norming Normality: On Scientific Fictions and Canonical Visualisations.Lara Huber - 2011 - Medicine Studies 3 (1):41-52.
    Taking the visual appeal of the ‘bell curve’ as an example, this paper discusses in how far the availability of quantitative approaches (here: statistics) that comes along with representational standards immediately affects qualitative concepts of scientific reasoning (here: normality). Within the realm of this paper I shall focus on the relationship between normality, as defined by scientific enterprise, and normativity, that result out of the very processes of standardisation itself. Two hypotheses are guiding this analysis: (1) normality, as it is (...)
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  • Visualizing the order of nature. [REVIEW]Erica Torrens - 2013 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 44 (1):110-113.
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  • Three-Dimensional Phylogeny in Two Dimensions: How Darwin and Other Nineteenth-Century Naturalists Created Three-Dimensional Figures of the Natural System by Combining Trees of Life and Maps of Affinity.Kees van Putten - 2021 - Journal of the History of Biology 54 (4):639-687.
    The two great modern naturalists, Linnaeus and Darwin, expressed their intuition about how best to visualize patterns of affinities, that is, morphological similarities and divergences between taxa. Linnaeus suggested that “all plants show affinities on all sides, like a territory on a geographical map,” while Darwin thought that it was virtually impossible to understand the affinities between living and extinct species without a genealogical tree. Genealogical trees follow the diachronic, evolving logic of a timeline, whereas maps depict a synchronous pattern (...)
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  • Charles Girard: Relationships and Representation in Nineteenth Century Systematics.Aleta Quinn - 2017 - Journal of the History of Biology 50 (3):609-643.
    Early nineteenth century systematists sought to describe what they called the Natural System or the Natural Classification. In the nineteenth century, there was no agreement about the basis of observed patterns of similarity between organisms. What did these systematists think they were doing, when they named taxa, proposed relationships between taxa, and arranged taxa into representational schemes? In this paper I explicate Charles Frederic Girard’s (1822–1895) theory and method of systematics. A student of Louis Agassiz, and subsequently (1850–1858) a collaborator (...)
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  • Telling the tree: narrative representation and the study of evolutionary history.Robert J. O'Hara - 1992 - Biology and Philosophy 7 (2): 135–160.
    Accounts of the evolutionary past have as much in common with works of narrative history as they do with works of science. Awareness of the narrative character of evolutionary writing leads to the discovery of a host of fascinating and hitherto unrecognized problems in the representation of evolutionary history, problems associated with the writing of narrative. These problems include selective attention, narrative perspective, foregrounding and backgrounding, differential resolution, and the establishment of a canon of important events. The narrative aspects of (...)
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  • Telling the tree: Narrative representation and the study of evolutionary history.Robert J. O' Hara - 1992 - Biology and Philosophy 7 (2):135-160.
    Accounts of the evolutionary past have as much in common with works of narrative history as they do with works of science. Awareness of the narrative character of evolutionary writing leads to the discovery of a host of fascinating and hitherto unrecognized problems in the representation of evolutionary history, problems associated with the writing of narrative. These problems include selective attention, narrative perspective, foregrounding and backgrounding, differential resolution, and the establishment of a canon of important events. The narrative aspects of (...)
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