Event Detail

Tissue and Organ Types Within and Across Species

Matthew SLATER (Bucknell University & KLI)

May 04, 2017 | 16:30

Organized by: KLI

Topic Description

Biologists and medical researchers have well-developed physiological taxonomies for organisms that span quite broad swaths of multicellular life. Animals, for example, are generally thought to be built from four basic types of tissue: muscle, epithelial, connective, and nervous tissue; plants exhibit different but likewise highly-conserved tissue typology. These taxonomies are hierarchical; within these broad classes, many more varieties can be identified. Organs, in turn, are functional assemblages of these tissues and other structures. Tissues and organ systems are in many ways ideal test cases for philosophical theories of biological classification and natural kinds; for their physiological typographies are well-developed pieces of consensus science that play important inferential and explanatory roles in our understanding and control of the biological world. I will focus on their role in cross-species inference in medical research and make some suggestions concerning our general approach to biological kinds that such practice encourages.

Biographical note:

Matthew H. Slater is an Associate Professor of Philosophy at Bucknell University in the USA. He is the author of *Are Species Real?* (Palgrave, 2013), has co-edited a number of volumes on metaphysics and the philosophy of science (including, from MIT Press, *Carving Nature at its Joints* (2011), *The Environment: Science and Ethics* (2012), and from Oxford University Press *Metaphysics and the Philosophy of Science*). He has written widely on metaphysics, philosophy of biology, and social epistemology. His recent essay, “Natural Kindness” won the 2015 Karl Popper Prize from the British Society for the Philosophy of Science. He is currently working on two book projects: one focusing on biological classification at various levels of generality and another, co-authored with Matthew Barker, on the role that norms play in scientific classification in general.