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  1. `What Blood Told Dr Cohn': World War II, Plasma Fractionation, and the Growth of Human Blood Research.Angela N. H. Creager - 1999 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 30 (3):377-405.
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  • What’s so special about model organisms?Rachel A. Ankeny & Sabina Leonelli - 2011 - Studies in History and Philosophy of Science Part A 42 (2):313-323.
    This paper aims to identify the key characteristics of model organisms that make them a specific type of model within the contemporary life sciences: in particular, we argue that the term “model organism” does not apply to all organisms used for the purposes of experimental research. We explore the differences between experimental and model organisms in terms of their material and epistemic features, and argue that it is essential to distinguish between their representational scope and representational target. We also examine (...)
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  • International Culture Collections and the Value of Microbial Life: Johanna Westerdijk’s Fungi and Ernst Georg Pringsheim’s Algae.Charles A. Kollmer - 2022 - Journal of the History of Biology 55 (1):59-87.
    Around the turn of the twentieth century, microbiologists in Western Europe and North America began to organize centralized collections of microbial cultures. Collectors published lists of the strains they cultured, offering to send duplicates to colleagues near and far. This essay explores the history of microbial culture collections through two cases: Johanna Westerdijk’s collection of phytopathogenic fungi in the Netherlands and Ernst Georg Pringsheim’s collection of single-celled algae at the German University in Prague. Historians of science have tended to look (...)
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  • Cooperative Division of Cognitive Labour: The Social Epistemology of Photosynthesis Research.Kärin Nickelsen - 2021 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 53 (1):23-40.
    How do scientists generate knowledge in groups, and how have they done so in the past? How do epistemically motivated social interactions influence or even drive this process? These questions speak to core interests of both history and philosophy of science. Idealised models and formal arguments have been suggested to illuminate the social epistemology of science, but their conclusions are not directly applicable to scientific practice. This paper uses one of these models as a lens and historiographical tool in the (...)
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  • Inbreeding, eugenics, and Helen Dean King.Marilyn Bailey Ogilvie - 2007 - Journal of the History of Biology 40 (3):467-507.
    Helen Dean King's scientific work focused on inbreeding using experimental data collected from standardized laboratory rats to elucidate problems in human heredity. The meticulous care with which she carried on her inbreeding experiments assured that her results were dependable and her theoretical explanations credible. By using her nearly homozygous rats as desired commodities, she also was granted access to venues and people otherwise unavailable to her as a woman. King's scientific career was made possible through her life experiences. She earned (...)
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  • The varied lives of organisms: variation in the historiography of the biological sciences.Gerald L. Geison & Manfred D. Laubichler - 2001 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 32 (1):1-29.
    This paper emphasizes the crucial role of variation, at several different levels, for a detailed historical understanding of the development of the biomedical sciences. Going beyond valuable recent studies that focus on model organisms, experimental systems and instruments, we argue that all of these categories can be accommodated within our approach, which pays special attention to organismal and cultural variation. Our empirical examples are drawn in particular from recent historical studies of nineteenth- and early twentieth-century genetics and physiology. Based on (...)
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  • (1 other version)Model Organisms as Models: Understanding the 'Lingua Franca' of the Human Genome Project.Rachel A. Ankeny - 2001 - Philosophy of Science 68 (S3):S251-S261.
    Through an examination of the actual research strategies and assumptions underlying the Human Genome Project, it is argued that the epistemic basis of the initial model organism programs is not best understood as reasoning via causal analog models. In order to answer a series of questions about what is being modeled and what claims about the models are warranted, a descriptive epistemological method is employed that uses historical techniques to develop detailed accounts which, in turn, help to reveal forms of (...)
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  • From Karl von Frisch to Neuroethology: A Methodological Perspective on the Frischean Tradition's Expansion into Neuroethology*.Kelle Dhein - 2022 - Berichte Zur Wissenschaftsgeschichte 45 (1-2):30-54.
    Berichte zur Wissenschaftsgeschichte, EarlyView.
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  • Inbreeding, Eugenics, and Helen Dean King (1869-1955).Marilyn Bailey Ogilvie - 2007 - Journal of the History of Biology 40 (3):467 - 507.
    Helen Dean King's scientific work focused on inbreeding using experimental data collected from standardized laboratory rats to elucidate problems in human heredity. The meticulous care with which she carried on her inbreeding experiments assured that her results were dependable and her theoretical explanations credible. By using her nearly homozygous rats as desired commodities, she also was granted access to venues and people otherwise unavailable to her as a woman. King's scientific career was made possible through her life experiences. She earned (...)
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  • Physicochemical Biology and Knowledge Transfer: The Study of the Mechanism of Photosynthesis Between the Two World Wars.Kärin Nickelsen - 2022 - Journal of the History of Biology 55 (2):349-377.
    In the first decades of the twentieth century, the process of photosynthesis was still a mystery: Plant scientists were able to measure what entered and left a plant, but little was known about the intermediate biochemical and biophysical processes that took place. This state of affairs started to change between the two world wars, when a number of young scientists in Europe and the United States, all of whom identified with the methods and goals of physicochemical biology, selected photosynthesis as (...)
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  • The diversity of experimental organisms in biomedical research may be influenced by biomedical funding.B. R. Erick Peirson, Heather Kropp, Julia Damerow & Manfred D. Laubichler - 2017 - Bioessays 39 (5):1600258.
    Contrary to concerns of some critics, we present evidence that biomedical research is not dominated by a small handful of model organisms. An exhaustive analysis of research literature suggests that the diversity of experimental organisms in biomedical research has increased substantially since 1975. There has been a longstanding worry that organism‐centric funding policies can lead to biases in experimental organism choice, and thus negatively impact the direction of research and the interpretation of results. Critics have argued that a focus on (...)
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  • Technology in scientific practice: how H. J. Muller used the fruit fly to investigate the X-ray machine.Svit Komel - 2023 - History and Philosophy of the Life Sciences 45 (2):1-34.
    Since the practice turn, the role technologies play in the production of scientific knowledge has become a prominent topic in science studies. Much existing scholarship, however, either limits technology to merely mechanical instrumentation or uses the term for a wide variety of items. This article argues that technologies in scientific practice can be understood as a result of past scientific knowledge becoming sedimented in materials, like model organisms, synthetic reagents or mechanical instruments, through the routine use of these materials in (...)
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  • The organism strikes back: Chlorella algae and their impact on photosynthesis research, 1920s–1960s.Kärin Nickelsen - 2017 - History and Philosophy of the Life Sciences 39 (2).
    Historians and philosophers of twentieth-century life sciences have demonstrated that the choice of experimental organism can profoundly influence research fields, in ways that sometimes undermined the scientists’ original intentions. The present paper aims to enrich and broaden the scope of this literature by analysing the career of unicellular green algae of the genus Chlorella. They were introduced for the study of photosynthesis in 1919 by the German cell physiologist Otto H. Warburg, and they became the favourite research objects in this (...)
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