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Benjamin Libet (//;1 April 12, 1916, Chicago, Illinois – July 23, 2007, Davis, California) was a pioneering scientist in the field of human consciousness. Libet was a researcher in the physiology department of the University of California, San Francisco. In 2003, he was the first recipient of the Virtual Nobel Prize in Psychology from the University of Klagenfurt, "for his pioneering achievements in the experimental investigation of consciousness, initiation of action, and free will".2
In the 1970s, Libet was involved in research into neural activity and sensation thresholds. His initial investigations involved determining how much activation at specific sites in the brain was required to trigger artificial somatic sensations, relying on routine psychophysical procedures. This work soon crossed into an investigation into human consciousness; his most famous experiment was meant to demonstrate that the unconscious electrical processes in the brain called Bereitschaftspotential (or readiness potential) discovered by Lüder Deecke and Hans Helmut Kornhuber in 19643 precede conscious decisions to perform volitional, spontaneous acts, implying that unconscious neuronal processes precede and potentially cause volitional acts which are retrospectively felt to be consciously motivated by the subject. The experiment has caused controversy not only because it challenges the belief in free will, but because it relies on questionable methods and rather narrow assumptions regarding how free decisions occur. It has also inspired further study of the neuroscience of free will.
- 1 Volitional acts and readiness potential
- 2 Implications of Libet's experiments
- 3 Conscious Mental Field Theory
- 4 Tributes
- 5 See also
- 6 References
- 7 Further reading
- 8 External links
To gauge the relation between unconscious readiness potential and subjective feelings of volition and action, Libet required an objective method of marking the subject's conscious experience of the will to perform an action in time, and afterward comparing this information with data recording the brain's electrical activity during the same interval.45 For this, Libet required specialized pieces of equipment.
The first of these was the cathode ray oscilloscope, an instrument typically used to graph the amplitude and frequency of electrical signals. With a few adjustments, however, the oscilloscope could be made to act as a timer: instead of displaying a series of waves, the output was a single dot that could be made to travel in a circular motion, similar to the movements of a second hand around a clock face. This timer was set so that the time it took for the dot to travel between intervals marked on the oscilloscope was approximately forty-three milliseconds. As the angular velocity of the dot remained constant, any change in distance could easily be converted into the time it took to travel that distance.
To monitor brain activity during the same period, Libet used an electroencephalogram (EEG). The EEG uses small electrodes placed at various points on the scalp that measure neuronal activity in the cortex, the outermost portion of the brain, which is associated with higher cognition. The transmission of electrical signals across regions of the cortex causes differences in measured voltage across EEG electrodes. These differences in voltage reflect changes in neuronal activity in specific areas of the cortex.
To measure the actual time of the voluntary motor act, an electromyograph (EMG) recorded the muscle movement using electrodes on the skin over the activated muscle of the forearm. The EMG time was taken as the zero time relative to which all other times were calculated.
Researchers carrying out Libet’s procedure would ask each participant to sit at a desk in front of the oscilloscope timer. They would affix the EEG electrodes to the participant’s scalp, and would then instruct the subject to carry out some small, simple motor activity, such as pressing a button, or flexing a finger or wrist, within a certain time frame. No limits were placed on the number of times the subject could perform the action within this period.
During the experiment, the subject would be asked to note the position of the dot on the oscilloscope timer when "he/she was first aware of the wish or urge to act" (control tests with Libet's equipment demonstrated a comfortable margin of error of only -50 milliseconds). Pressing the button also recorded the position of the dot on the oscillator, this time electronically. By comparing the marked time of the button's pushing and the subject's conscious decision to act, researchers were able to calculate the total time of the trial from the subject's initial volition through to the resultant action. On average, approximately two hundred milliseconds elapsed between the first appearance of conscious will to press the button and the act of pressing it.
Researchers also analyzed EEG recordings for each trial with respect to the timing of the action. It was noted that brain activity involved in the initiation of the action, primarily centered in the secondary motor cortex, occurred, on average, approximately five hundred milliseconds before the trial ended with the pushing of the button. That is to say, researchers recorded mounting brain activity related to the resultant action as many as three hundred milliseconds before subjects reported the first awareness of conscious will to act. In other words, apparently conscious decisions to act were preceded by an unconscious buildup of electrical activity within the brain - the change in EEG signals reflecting this buildup came to be called Bereitschaftspotential or readiness potential. As of 2008, the upcoming outcome of a decision could be found in study of the brain activity in the prefrontal and parietal cortex up to 7 seconds before the subject was aware of their decision.6
Libet's experiments suggest to some7 that unconscious processes in the brain are the true initiator of volitional acts, and free will therefore plays no part in their initiation. If unconscious brain processes have already taken steps to initiate an action before consciousness is aware of any desire to perform it, the causal role of consciousness in volition is all but eliminated, according to this interpretation. For instance, Susan Blackmore's interpretation is "that conscious experience takes some time to build up and is much too slow to be responsible for making things happen."8
Libet finds that conscious volition is exercised in the form of 'the power of veto' (sometimes called "free won't"910); the idea that conscious acquiescence is required to allow the unconscious buildup of the readiness potential to be actualized as a movement. While consciousness plays no part in the instigation of volitional acts, Libet suggested that it may still have a part to play in suppressing or withholding certain acts instigated by the unconscious. Libet noted that everyone has experienced the withholding from performing an unconscious urge. Since the subjective experience of the conscious will to act preceded the action by only 200 milliseconds, this leaves consciousness only 100-150 milliseconds to veto an action (this is because the final 20 milliseconds prior to an act are occupied by the activation of the spinal motor neurones by the primary motor cortex, and the margin of error indicated by tests utilizing the oscillator must also be considered).
Libet's experiments have received support from other research related to the Neuroscience of free will.
It has been suggested that consciousness is merely a side-effect of neuronal functions, an epiphenomenon of brain states. Libet's experiments are proffered in support of this theory; our reports of conscious instigation of our own acts are, in this view, a mistake of retrospection. However, some dualist philosophers have disputed this conclusion:
In short, the [neuronal] causes and correlates of conscious experience should not be confused with their ontology [...] the only evidence about what conscious experiences are like comes from first-person sources, which consistently suggest consciousness to be something other than or additional to neuronal activity.11
A more general criticism from a dualist-interactionist perspective has been raised by Alexander Batthyany12 who points out that Libet asked his subjects to merely "let the urge [to move] appear on its own at any time without any pre-planning or concentration on when to act".13 According to Batthyany, neither reductionist nor non-reductionist agency theories claim that urges which appear on their own are suitable examples of (allegedly) consciously caused events because one cannot passively wait for an urge to occur while at the same time being the one who is consciously bringing it about. Libet's results thus cannot be interpreted to provide empirical evidence in favour of agency reductionism, since non-reductionist theories, even including dualist interactionism, would predict the very same experimental results.
Daniel Dennett argues that no clear conclusion about volition can be derived from Libet's experiment because of ambiguities in the timings of the different events involved. Libet tells when the readiness potential occurs objectively, using electrodes, but relies on the subject reporting the position of the hand of a clock to determine when the conscious decision was made. As Dennett points out, this is only a report of where it seems to the subject that various things come together, not of the objective time at which they actually occur.
Suppose Libet knows that your readiness potential peaked at millisecond 6,810 of the experimental trial, and the clock dot was straight down (which is what you reported you saw) at millisecond 7,005. How many milliseconds should he have to add to this number to get the time you were conscious of it? The light gets from your clock face to your eyeball almost instantaneously, but the path of the signals from retina through lateral geniculate nucleus to striate cortex takes 5 to 10 milliseconds — a paltry fraction of the 300 milliseconds offset, but how much longer does it take them to get to you. (Or are you located in the striate cortex?) The visual signals have to be processed before they arrive at wherever they need to arrive for you to make a conscious decision of simultaneity. Libet's method presupposes, in short, that we can locate the intersection of two trajectories: • the rising-to-consciousness of signals representing the decision to flick • the rising to consciousness of signals representing successive clock-face orientations so that these events occur side-by-side as it were in place where their simultaneity can be noted.
Libet's early theory, resting on study of stimuli and sensation,16 was found bizarre by some commentators, including Patricia Churchland,17 due to the apparent idea of backward causation. Libet18 argued that data suggested that we retrospectively "antedate" the beginning of a sensation to the moment of the primary neuronal response. People interpreted Libet's work on stimulus and sensation in a number of different ways. John Eccles19 presented Libet's work as suggesting a backward step in time made by a non-physical mind. Edoardo Bisiach (1988)20 described Eccles as tendentious, but commented:
This is indeed the conclusion that the authors (Libet, et al.) themselves seem to be willing to force upon the reader. [...] They dispute an alternative explanation, suggested by Mackay in a discussion with Libet (1979, p. 219)16 to the effect that 'the subjective referral backwards in time may be due to an illusory judgment made by the subject when he reports the timings', and more significant, Libet, et al. (1979, p. 220)16 hint at 'serious though not insurmountable difficulties' for the identity theory (of mind and matter) caused by their data.
Libet later concluded21 that there appeared to be no neural mechanism that could be viewed as directly mediating or accounting for the subjective sensory referrals backward in time [emphasis Libet's]. Libet postulated that the primary evoked potential (EP) serves as a "time marker". The EP is a sharp positive potential appearing in the appropriate sensory region of the brain about 25 milliseconds after a skin stimulus. Libet's experiments demonstrated that there is an automatic subjective referral of the conscious experience backwards in time to this time marker.16 The skin sensation does not enter our conscious awareness until about 500 milliseconds after the skin stimulus, but we subjectively feel that the sensation occurred at the time of the stimulus.
For Libet, these subjective referrals would appear to be purely a mental function with no corresponding neural basis in the brain. Indeed this suggestion can be more broadly generalized:
The transformation from neuronal patterns to a subjective representation would appear to develop in a mental sphere that has emerged from that neuronal pattern. [...] My view of mental subjective function is that it is an emergent property of appropriate brain functions. The conscious mental cannot exist without the brain processes that give rise to it. However, having emerged from brain activities as a unique 'property' of that physical system, the mental can exhibit phenomena not evident in the neural brain that produced it.22
In the later part of his career, Libet proposed a theory of the conscious mental field (CMF)23 to explain how the mental arises from the physical brain. The two main motivations prompting this proposal were: (1) the phenomenon of the unity of subjective conscious experience and (2) the phenomenon that conscious mental function appears to influence nerve cell activity.
Regarding the unity of conscious experience, it was increasingly evident to Libet that many functions of the cortex are localized, even to a microscopic level in a region of the brain, and yet the conscious experiences related to these areas are integrated and unified. We do not experience an infinite array of individual events but rather a unitary integrated consciousness, for example, with no gaps in spatial and colored images. For Libet, some unifying process or phenomenon likely mediates the transformation of localized, particularized neuronal representations into our unified conscious experience. This process seemed to be best accountable in a mental sphere that appears to emerge from the neural events, namely, the conscious mental field.
The CMF is the mediator between the physical activities of nerve cells and the emergence of subjective experience. Thus the CMF is the entity in which unified subjective experience is present and provides the causal ability to affect or alter some neuronal functions. Libet proposed the CMF as a "property" of an emergent phenomenon of the brain; it does not exist without the brain but emerges from the appropriate system of neural activity. This proposal is related to electromagnetic theories of consciousness.
To test the proposed causal ability of the CMF to affect or alter neuronal functions, Libet proposed an experimental design,2425 which would surgically isolate a slab of cerebral cortex (in a patient for whom such a procedure was therapeutically required). If electrical stimulation of the isolated cortex can elicit an introspective report by the subject, the CMF must be able to activate appropriate cerebral areas in order to produce the verbal report. This result would demonstrate directly that a conscious mental field could affect neuronal functions in a way that would account for the activity of the conscious will. Detailed description of the proposed experimental test is as follows:
A small slab of sensory cortex (subserving any modality) is neuronally isolated but kept viable by making all the cortical cuts subpially. This allows the blood vessels in the pia to project into the isolated slab and provide blood flow from the arterial branches that dip vertically into the cortex. The prediction is that electrical stimulation of the sensory slab will produce a subjective response reportable by the subject. That is, activity in the isolated slab can contribute by producing its own portion of the CMF.26
Libet further elaborated on CMF:
The CMF is not a Cartesian dualistic phenomenon; it is not separable from the brain. Rather, it is proposed to be a localizable system property produced by appropriate neuronal activities, and it cannot exist without them. Again, it is not a ‘‘ghost’’ in the machine. But, as a system produced by billions of nerve cell actions, it can have properties not directly predictable from these neuronal activities. It is a non-physical phenomenon, like the subjective experience that it represents. The process by which the CMF arises from its contributing elements is not describable. It must simply be regarded as a new fundamental ‘‘given’’ phenomenon in nature, which is different from other fundamental ‘‘givens,’’ like gravity or electromagnetism.27
|“||Benjamin Libet's discoveries are of extraordinary interest. His is almost the only approach yet to yield any credible evidence of how conscious awareness is produced by the brain. Libet's work is unique, and speaks to questions asked by all humankind.||”|
|“||Many philosophers and scientists have argued that free will is an illusion. Unlike all of them, Benjamin Libet found a way to test it.||”|
- "2003 Virtual Nobel Prize Acceptance Speech". cognition.uni-klu.ac.at. Retrieved 2010-04-09.
- Virtual Nobel Prize web site. This prize has no relation to the Nobel Prize of the Swedish Nobel Foundation.
- Kornhuber, H.H.; Deecke, L. (1965). Hirnpotentialänderungen bei Willkürbewegungen und passiven Bewegungen des Menschen: Bereitschaftspotential und reafferente Potentiale. Pflügers Arch 284: 1–17. doi:10.1007/BF00412364 PDF
- Libet, Benjamin; Gleason, Curtis A.; Wright, Elwood W.; Pearl, Dennis K. (1983). "Time of Conscious Intention to Act in Relation to Onset of Cerebral Activity (Readiness-Potential) - The Unconscious Initiation of a Freely Voluntary Act". Brain 106: 623–642. doi:10.1093/brain/106.3.623.
- Libet, Benjamin (1985). "Unconscious Cerebral Initiative and the Role of Conscious Will in Voluntary Action". The Behavioral and Brain Sciences 8: 529–566.
- Keim, Brandon (April 13, 2008). "Brain Scanners Can See Your Decisions Before You Make Them". Wired News (CondéNet). Retrieved 2008-04-13. and Chun Siong Soon, Marcel Brass, Hans-Jochen Heinze, John-Dylan Haynes (April 13, 2008). "Unconscious determinants of free decisions in the human brain (Abstract)". Nature Neuroscience (Nature Publishing Group) 11 (5): 543–5. doi:10.1038/nn.2112. PMID 18408715. Retrieved 2008-04-13.
- Wegner D., 2002. The Illusion of Conscious Will. Cambridge, MA: MIT Press.
- V. S. Ramachandran, New Scientist, 5 Sep 1998, p. 35
-  Interview with V. S. Ramachandran, The Hindu
- Velmans, Max (2000). Understanding Consciousness. London: Routledge. pp. 35–37. ISBN 0-415-22492-6.
- Batthyany, Alexander: Mental Causation and Free Will after Libet and Soon: Reclaiming Conscious Agency. In Batthyany und Avshalom Elitzur. Irreducibly Conscious. Selected Papers on Consciousness, Universitätsverlag Winter Heidelberg 2009, p.135ff.
- Libet, B.; Wright, E. W.; Gleason, C. A.. "Readiness potentials preceding unrestricted spontaneous pre-planned voluntary acts", 1983, Electroencephalographic and Clinical Neurophysiology 54: 322–325.
- "Freedom Evolves" by Daniel Dennett, p. 231
- Dennett, D. The Self as Responding and Responsible Artefact
- Libet, Benjamin; Wright Jr., Elwood W.; Feinstein, Bertram; Pearl, Dennis K. (1979). "Subjective Referral of the Timing for a Conscious Sensory Experience - A Functional Role for the Somatosensory Specific Projection System in Man". Brain 102: 193–224.
- Churchland, Patricia Smith (Jun 1981). "On the Alleged Backwards Referral of Experiences and its Relevance to the Mind-Body Problem". Philosophy of Science 48 (2): 165–181.
- Libet, Benjamin (1981). "The Experimental Evidence for Subjective Referral of a Sensory Experience Backwards in Time: Reply to P.S. Churchland". Philosophy of Science 48: 182–197.
- Eccles, J.C. (1985). Mental summation: The timing of voluntary intentions by cortical activity. Behavioral and Brain Sciences, 8:542-543.
- Bisiach, E. (1988). The (haunted) brain and consciousness. In (A. Marcel and E. Bisiach, eds) Consciousness in Contemporary Science. Oxford University Press, ISBN 0-19-852237-1.
- Libet, Benjamin (2004). Mind Time - The Temporal Factor in Consciousness. Harvard University Press. ISBN 0-674-01320-4.
- Libet, B. (2004). op. cit. pp. 86-87.
- Libet, B. (2004). op. cit., pp. 157-184.
- Libet, B. (2004). op. cit., pp. 172-179.
- Libet, Benjamin (2006). PDF "Reflections on the Interaction of the Mind and Brain". Progress in Neurobiology 78: 322–326.
- Libet, B. (2006). op. cit., p. 324. PDF
- Libet, B. (2006). op. cit., p. 324. PDF
- Perlman, D. (2007). "Benjamin Libet - neurophysiologist studied the nature of free will", The San Francisco Chronicle, August 18, 2007. Obituary
- Blackmore, S. (2007). "Mind over matter? Many philosophers and scientists have argued that free will is an illusion. Unlike all of them, Benjamin Libet found a way to test it.", commentary at Guardian Unlimited, August 28, 2007. Commentary.
- Benjamin Libet, Anthony Freeman, and J. K. B. Sutherland, Editors, The volitional brain: Towards a neuroscience of free will. Imprint Academic, 1999. ISBN 0-907845-50-9.
- Benjamin Libet, Mind time: The temporal factor in consciousness, Perspectives in Cognitive Neuroscience. Harvard University Press, 2004. ISBN 0-674-01320-4.
- Daniel C. Dennett, Freedom Evolves. Allen Lane, 2003. ISBN 0-14-028389-7.
- Michael Pauen (2004). Does Free Will Arise Freely?, Scientific American Mind, 14(1).
- In his Virtual Nobel acceptance speech, Libet summarized his life's research and highlighted his work on conscious volitional acts and the antedating of sensory awareness.
- Obituary from The Los Angeles Times, August 27, 2007.
- Obituary from The San Francisco Chronicle, August 18, 2007.
- Obituary from The Davis Enterprise, July 27, 2007.
- Virtual Nobel Prize in Psychology Including video of Libet's acceptance speech.
- Short account of Libet's experiments and theory