#12 — ”The Brain is Embodied and the Body is Embedded” w/ Magician Mark Mitton *On Consciousness*

On Consciousness & the Brain with Bernard Baars - A podcast by Bernard Baars, PhD | Nautilus Press Publishing Group

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"Consciousness can be firmly embedded in biology, based on the fact that all kinds of [demonstrably biological] processes that are not [by themselves] conscious are important for conscious process[ing].”   - David Edelman, PhD, A neuroscientist and a Visiting Scholar in the Department of Psychological and Brain Sciences at Dartmouth College     Episode 12: "Consciousness in Context - The Brain is Embodied and the Body is Embedded"   In the 12th episode of ‘On Consciousness,’ psychobiologist Bernard Baars and neuroscientist David Edelman are joined by renowned master of misdirection and sleight of hand, professional magician Mark Mitton, as they consider the problem of consciousness within the larger scope of biology.   Talking Points: 00:03 – Introduction by Bernard Baars. 02:42 – Mark Mitton introduces himself. 04:55 – David Edelman introduces himself. 06:47 – David discusses cephalopods and their behavior. 09:15 – How is magic connected to consciousness? 13:20 – What are the boundaries of one’s knowledge? 18:32 – Limitations of brain imaging technologies. 21:14 – Perception and awareness. 26:05 – How does paleontology compare to hard sciences? 32:20 – The biological complexity of individuality. 39:20 – How do antibodies interact with antigens? 48:14 – Deception beyond language. 52:50 – Are simple organisms conscious? 01:01:47 - Non-conscious processes. 01:05:27 - Is consciousness a biological process?   Summary of the Conversation: Starting with the example of magic as it has recently been used by some neuroscientists to explore conscious and unconscious processing in the brain, Mitton highlights the problem of reconciling two nomenclatures and the fact that magicians and neuroscientists think about the processes they manipulate and exploit in some very different ways. This leads to a poignant and topical question, first posed by Mitton and then echoed by Edelman: What are the boundaries of our knowledge? Most magicians think of what they do as craft, and in thinking this way, are willing to afford a degree of mystery to the realm in which they ply their craft. But what about neuroscientists? It can probably be said without exaggeration that many neuroscientists are not necessarily comfortable with the limits of their own knowledge.   Baars, Edelman, and Mitton mull over the relatively recent appreciation of the richness of biological complexity and how this must necessarily alter our view of how consciousness and other aspects of natural phenomena can be woven into a unified view of biology. The complexity of myriad processes across all levels of biological organization seems to stymie our best efforts at formulating a grand theoretical framework that integrates all that we observe in nature.   In confronting the problem of biological complexity, Baars makes the point that, at least in the case of consciousness, the role of the individual hasn’t been well understood or appreciated. Once individual variation is taken into account, the notion of what adaptation means at all levels of biological organization changes radically.   Mitton offers the example of the immune response. How does the immune system recognize a foreign invader it hasn’t encountered before — or, for that matter, a chemical compound that has never existed in the history of the planet — and mount a successful defense of the body? The key to an effective immune response is a vast preexisting (and ever diversifying) repertoire of different kinds of antibodies.   Edelman contrasts this with the case of the digital computer, in which the actions of a machine are instructed by an extrinsic program. Though the example of the immune response seems quite far from the problem of conscious brain function, the role of individual variability and selectional interactions — whether between antibody and antigen or brain and the world it perceives — may be common to both biological processes.   The trio consider how we should proceed in conscious science, k

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