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  1. Being Emergence vs. Pattern Emergence: Complexity, Control, and Goal-Directedness in Biological Systems.Jason Winning & William Bechtel - 2018 - In Sophie Gibb, Robin Findlay Hendry & Tom Lancaster (eds.), The Routledge Handbook of Philosophy of Emergence. New York: Routledge. pp. 134-144.
    Emergence is much discussed by both philosophers and scientists. But, as noted by Mitchell (2012), there is a significant gulf; philosophers and scientists talk past each other. We contend that this is because philosophers and scientists typically mean different things by emergence, leading us to distinguish being emergence and pattern emergence. While related to distinctions offered by others between, for example, strong/weak emergence or epistemic/ontological emergence (Clayton, 2004, pp. 9–11), we argue that the being vs. pattern distinction better captures what (...)
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  • Microorganisms as scaffolds of host individuality: an eco-immunity account of the holobiont.Lynn Chiu & Gérard Eberl - 2016 - Biology and Philosophy 31 (6):819-837.
    There is currently a great debate about whether the holobiont, i.e. a multicellular host and its residential microorganisms, constitutes a biological individual. We propose that resident microorganisms have a general and important role in the individuality of the host organism, not the holobiont. Drawing upon the Equilibrium Model of Immunity, we argue that microorganisms are scaffolds of immune capacities and processes that determine the constituency and persistence of the host organism. A scaffolding perspective accommodates the contingency and heterogeneity of resident (...)
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  • Holobionts and the ecology of organisms: Multi-species communities or integrated individuals?Derek Skillings - 2016 - Biology and Philosophy 31 (6):875-892.
    It is now widely accepted that microorganisms play many important roles in the lives of plants and animals. Every macroorganism has been shaped in some way by microorganisms. The recognition of the ubiquity and importance of microorganisms has led some to argue for a revolution in how we understand biological individuality and the primary units of natural selection. The term “holobiont” was introduced as a name for the biological unit made up by a host and all of its associated microorganisms, (...)
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  • Autopoiesis and Cognition: The Realization of the Living.Humberto Muturana, H. R. Maturana & F. J. Varela - 1973/1980 - Springer.
    What makes a living system a living system? What kind of biological phenomenon is the phenomenon of cognition? These two questions have been frequently considered, but, in this volume, the authors consider them as concrete biological questions. Their analysis is bold and provocative, for the authors have constructed a systematic theoretical biology which attempts to define living systems not as objects of observation and description, nor even as interacting systems, but as self-contained unities whose only reference is to themselves. The (...)
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  • The problem of the emergence of functional diversity in prebiotic evolution.Alvaro Moreno & Kepa Ruiz-Mirazo - 2009 - Biology and Philosophy 24 (5):585-605.
    Since Darwin it is widely accepted that natural selection (NS) is the most important mechanism to explain how biological organisms—in their amazing variety—evolve and, therefore, also how the complexity of certain natural systems can increase over time, creating ever new functions or functional structures/relationships. Nevertheless, the way in which NS is conceived within Darwinian Theory already requires an open, wide enough, functional domain where selective forces may act. And, as the present paper will try to show, this becomes even more (...)
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  • From Biological Determination to Entangled Causation.Davide Vecchi, Paul-Antoine Miquel & Isaac Hernández - 2019 - Acta Biotheoretica 67 (1):19-46.
    Biologists and philosophers often use the language of determination in order to describe the nature of developmental phenomena. Accounts in terms of determination have often been reductionist. One common idea is that DNA is supposed to play a special explanatory role in developmental explanations, namely, that DNA is a developmental determinant. In this article we try to make sense of determination claims in developmental biology. Adopting a manipulationist approach, we shall first argue that the notion of developmental determinant is causal. (...)
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  • Organisational closure in biological organisms.Matteo Mossio & Alvaro Moreno - 2010 - History and Philosophy of the Life Sciences.
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  • Problems of multi-species organisms: endosymbionts to holobionts.David C. Queller & Joan E. Strassmann - 2016 - Biology and Philosophy 31 (6):855-873.
    The organism is one of the fundamental concepts of biology and has been at the center of many discussions about biological individuality, yet what exactly it is can be confusing. The definition that we find generally useful is that an organism is a unit in which all the subunits have evolved to be highly cooperative, with very little conflict. We focus on how often organisms evolve from two or more formerly independent organisms. Two canonical transitions of this type—replicators clustered in (...)
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  • Foundations of Biophilosophy.Martin Mahner & Mario Bunge - 2013 - Springer Verlag.
    Over the past three decades, the philosophy of biology has emerged from the shadow of the philosophy of physics to become a respectable and thriving philosophical subdiscipline. The authors take a fresh look at the life sciences and the philosophy of biology from a strictly realist and emergentist-naturalist perspective. They outline a unified and science-oriented philosophical framework that enables the clarification of many foundational and philosophical issues in biology. This book will be of interest both to life scientists and philosophers.
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  • Constraint.Jon Umerez & Matteo Mossio - 2013 - In W. Dubitzky O. Wolkenhauer & K. Cho H. Yokota (eds.), Encyclopedia of Systems Biology. Springer. pp. 490-493.
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