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  1. Specialisation, Interdisciplinarity, and Incommensurability.Vincenzo Politi - 2017 - International Studies in the Philosophy of Science 31 (3):301-317.
    Incommensurability may be regarded as driving specialisation, on the one hand, and as posing some problems to interdisciplinarity, on the other hand. It may be argued, however, that incommensurability plays no role in either specialisation or interdisciplinarity. Scientific specialties could be defined as simply 'different' (that is, about different things), rather than 'incommensurable' (that is, competing for the explanation of the same phenomena). Interdisciplinarity could be viewed as the co- ordinated effort of scientists possessing complemetary and interlocking skills, and not (...)
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  • The “Greenberg Controversy” and the Interdisciplinary Study of Global Linguistic Relationships.Judith R. H. Kaplan - 2023 - Berichte Zur Wissenschaftsgeschichte 46 (1):114-132.
    This paper examines the controversy that followed the 1987 publication of Joseph Greenberg's book, Language in the Americas, attending to the role of language and linguistic research within overlapping disciplinary traditions. With this text, Greenberg presented a macro‐level tripartite classification that opposed then dominant fine‐grained analyses recognizing anywhere from 150 to 200 distinct language families. His proposal was the subject of a landmark conference, examining strengths and weaknesses, the unpublished proceedings of which are presented here for the first time. For (...)
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  • A hapless mathematical contribution to biology: Chromosome inversions in Drosophila, 1937–1941.Eric Tannier - 2022 - History and Philosophy of the Life Sciences 44 (3):1-22.
    This is the story, told in the light of a new analysis of historical data, of a mathematical biology problem that was explored in the 1930s in Thomas Morgan’s laboratory at the California Institute of Technology. It is one of the early developments of evolutionary genetics and quantitative phylogeny, and deals with the identification and counting of chromosomal inversions in Drosophila species from comparisons of genetic maps. A re-analysis of the data produced in the 1930s using current mathematics and computational (...)
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  • Disciplinary Fields in the Life Sciences: Evolving Divides and Anchor Concepts.Alessandro Minelli - 2020 - Philosophies 5 (4):34.
    Recent and ongoing debates in biology and in the philosophy of biology reveal widespread dissatisfaction with the current definitions or circumscriptions, which are often vague or controversial, of key concepts such as the gene, individual, species, and homology, and even of whole disciplinary fields within the life sciences. To some extent, the long growing awareness of these conceptual issues and the contrasting views defended in their regard can be construed as a symptom of the need to revisit traditional unchallenged partitions (...)
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  • Framing the Epistemic Schism of Statistical Mechanics.Javier Anta - 2021 - Proceedings of the X Conference of the Spanish Society of Logic, Methodology and Philosophy of Science.
    In this talk I present the main results from Anta (2021), namely, that the theoretical division between Boltzmannian and Gibbsian statistical mechanics should be understood as a separation in the epistemic capabilities of this physical discipline. In particular, while from the Boltzmannian framework one can generate powerful explanations of thermal processes by appealing to their microdynamics, from the Gibbsian framework one can predict observable values in a computationally effective way. Finally, I argue that this statistical mechanical schism contradicts the Hempelian (...)
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  • The bacteriophage, its role in immunology: how Macfarlane Burnet’s phage research shaped his scientific style.Neeraja Sankaran - 2010 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 41 (4):367-375.
    The Australian scientist Frank Macfarlane Burnet—winner of the Nobel Prize in 1960 for his contributions to the understanding of immunological tolerance—is perhaps best recognized as one of the formulators of the clonal selection theory of antibody production, widely regarded as the ‘central dogma’ of modern immunology. His work in studies in animal virology, particularly the influenza virus, and rickettsial diseases is also well known. Somewhat less known and publicized is Burnet’s research on bacteriophages, which he conducted in the first decade (...)
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  • The proactive historian: Methodological opportunities presented by the new archives documenting genomics.Miguel García-Sancho - 2016 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 55 (C):70-82.
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  • Integration of specialties: An institutional and organizational view.Elihu M. Gerson - 2013 - Studies in History and Philosophy of Science Part C: Studies in History and Philosophy of Biological and Biomedical Sciences 44 (4a):515-524.
    By what mechanisms of organizational and institutional change do different specialties succeed in accommodating and working with one another? How do these mechanisms function over time to support and retard the emergence and stability of new knowledge? This paper considers two such mechanisms, metawork and common knowledge. These mechanisms integrate specialties by making the activities of multiple specialties dependent upon one another, and by segmenting the common effort from the parent specialties. Integration of specialties can lead to the development of (...)
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  • From field to laboratory: the institutionalization of molecular biology in Argentine.Pablo Ariel Pellegrini - 2013 - Scientiae Studia 11 (3):531-556.
    Este artículo tiene por objetivo general indagar acerca de los procesos de institucionalización de una nueva disciplina científica. En particular, se analizan los desplazamientos que se producen entre disciplinas al emerger una nueva: la biología molecular. Se presenta en este artículo el caso del Instituto Nacional de Tecnología Agropecuaria (INTA) de Argentina, institución creada en 1956 para realizar investigaciones, innovaciones y extensionismo para el sector agropecuario. De esa manera, el trabajo presenta los cambios en las disciplinas de las que provienen (...)
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