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A Case of Shared Consciousness
Tom Cochrane
Forthcoming in Synthese
Abstract If we were to connect two individuals’ brains together, how would this affect the individuals’ conscious experiences? In particular, it is possible for two people to share any of their conscious experiences; to simultaneously enjoy some token experiences while remaining distinct subjects? The case of the Hogan twins—craniopagus conjoined twins whose brains are connected at the thalamus—seems to show that this can happen. I argue that while practical empirical methods cannot tell us directly whether or not the twins share conscious experiences, considerations about the locality of content processing in the brain entails that they most likely do so.
1. Introduction It is sometimes supposed that were we to connect two brains together we could fuse the individual minds associated with those brains. Derek Parfit (1971: 18-19) famously outlines a thought experiment in which brain halves are removed from the bodies of two individuals and then joined within a new body. Parfit wonders whether there would be struggle between the two brain halves—for instance whether one pre-fusion individual’s opinions would come to dominate the other—or whether they would reach some sort of compromise. Yet the basic idea that a singular mind would result is assumed. Similar assumptions abound in the personal identity literature (e.g. Lewis 1976; Unger 1990; Van Inwagen 1995; Dainton 2008; Hershenov 2013, see also Churchland 1981: 88).
Although Parfit’s thought experiment is simplistic, neurologically speaking, it is by no means crazy to suppose that a sufficient degree of connection between brains would result in a unified set of conscious experiences. After all, if single brains are sufficient for consciousness, they manage to achieve unity by means of what is basically a large network of neural connections. Whatever allows this network to achieve a unified consciousness should in principle be achievable with a larger network made up of two brain masses.
One possibility that is rarely explored, however, is whether neural connection can result in shared consciousness. By shared consciousness, a mean a case where neural connection falls short of bringing about either a singular subject of experience or a wholly unified consciousness. Rather, the conscious experiences of two subjects overlap or fuse such that there are some single token experiences that both simultaneously possess. If this is indeed possible, the identity of an experience would be disassociated from the identity of the subject bearing that experience. Instead, experiences could be possessed by multiple people and still count as individual experiences. One interesting consequence of this may be to undermine experiential scepticism—the question of how I know that my experience of something has the same character as your experience of something—since it would allow that some of our experiences are one and the same. Besides this, the possibility of shared consciousness would force us to consider just how much neural connection is required to bring about a unified consciousness—an issue of relevance to the split-brain debate. The degree of connection that allows some experiential contents to be co-present for a subject does not automatically entail a wholly unified consciousness (more on this later).
As it happens, there may be a real case of shared consciousness in the world right now. Tatiana and Krista Hogan are craniopagus conjoined twins- that is, they are joined at the head. What makes Tatiana and Krista unique is that their brains are connected by a thin band of neural tissue. This tissue connects to each girl’s thalamus, and so has been labelled a ‘thalamic bridge’. Observation of the twins indicates that information passes across this bridge.
The twins are becoming quite celebrated in the philosophical literature. Major references to them include Hershenov (2013) who uses their example to indict theories of personal identity, Langland-Hassan (2015) who uses them to challenge the immunity to error through misidentification (and accordingly the essential privacy of experience, cf. Roelofs 2019: 112 fn.21), and Montero (2017) who uses them to respond to the combination problem for panpsychism.
These philosophers generally infer from the example of the twins that it is possible for people to share some of their experiences without becoming a single subject, even if they could not share all of their experiences without becoming a single subject. Yet none of these philosophers is able to establish whether or not the twins really do share experiences. So we
that Tatiana is eating (the reverse has not been reported, but may also be true). An oft- repeated anecdote is that while Tatiana enjoys ketchup on her food, Krista will try to prevent her eating it (e.g. Pyke 2014: 15.15-16.00). Both twins can also detect when and where the other twin’s body is being touched, and their mother reports that they find this easier than visual stimuli (Pyke 2017: 6.15-6.30). Transmission of auditory information is not reported, though this may be because it is harder to informally test.
With regards to motor control, the Twin Life documentary (Pyke 2014: 20.10-21.02) reports that fMRI imaging revealed that Tatiana’s brain ‘processes signals’^2 from her own right leg, both her arms, and Krista’s right arm (the arm on the side where they connect). Meanwhile Krista’s brain processes signals from her own left arm, both her own legs and Tatiana’s left leg (again on the side where they connect). Each twin is able to voluntarily move each of the limbs corresponding to these signals (cf. Pyke 2017: 15.00-15.10). Of course, I use ‘Krista’s leg’ or ‘Tatiana’s arm’ in reference to ordinary human body plans for mere ease of expression; it is an open question to whom ownership of the limbs should be properly attributed. Yet the documentaries suggest that the twins are also capable of voluntary bodily control for all the limbs within their ordinary body plans. As their mother Felicia puts it, “they can choose when they want to do it, and when they don’t want to do it” (Pyke 2017: 15.51-15.58). As such, control over some limbs (Krista’s right arm, and Tatiana’s left leg) seems to be bilateral.
The twins also demonstrate a common receptivity to pain. When one twin’s body is harmed, both twins cry (e.g. Ryan 2014). Here, two incidents in the Inseparable documentary are particularly worthy of close scrutiny. At one point the twins experience a headache (Pyke 2017: 12.00-12.48). Though it is hard to tell from the clip, it appears to hit Tatiana first because Krista reports “my sister has a headache” but immediately afterwards the clip shows both twins expressing distress, including a precisely synchronized howl of pain. Later, when asked by an interviewer “who gets the headache- you or Krista?” Tatiana replies, “both of us, it’s like… big” (while gesturing widely) (Pyke 2017: 12.35-12.40). A contrasting incident is where the twins fall while sledging, with Tatiana landing on her buttock. Krista later reports that it didn’t hurt her, although she felt it, indicating a non-shared affective response.
(^2) It is not specified in the documentary whether these are sensory signals, or motor signals, or both. However, given the observational evidence, it seems to be at least motor signals.
However, the mother also notes that both twins cried and Krista agrees that she was crying because her sister hurt her buttock (Pyke 2017: 28.45-29.15).
As indicated by the sledging incident, emotional responses are also reported to be synchronized. Indeed, there are no reports of desynchronized emotional responses. Their mother Felicia reports, “the emotions definitely are connected. When one feels angry, the other one automatically feels angry. And I’ve never seen one happy without the other being happy” (Pyke 2014: 28.17-28.27). It is noteworthy that their mother supposes that the emotion of one twin contagiously arouses the other ( Inseparable 12.50-13.06). Perhaps she has observed delays in synchronization, but this cannot be discerned from the various reports or videos.
Finally, in the Inseparable documentary, the twins report that they talk to each other in their heads (Pyke 2017: 7.15-7.24). This had previously been suspected by family members (Pyke 2014: 8.40-8.58; Ryan 2014) due to signs of apparent collusion without verbalisation. Again it is regrettable that this report has not been scientifically confirmed. It could be tested by asking the twins to use inner speech to agree on any number between one and a thousand and then say the number out loud at the same time.^3 Even if the twins are able to use subtle bodily movements to communicate intentions, it would become increasingly improbable as a method to agree on numbers given a wide-enough range of numbers and strictly simultaneous report.
Overall it is clear that the twins can transmit or communicate a considerable range of cognitive information. Indeed, given that the twins connect at their thalami, this may not be surprising. We are not told at exactly what point the thalamic bridge connects to each twin’s thalamus, yet the thalamus is generally known to serve as a hub for signals from all sensory modalities apart from olfaction (e.g. Usrey & Alitto 2015; Courtiol & Wilson 2015). Here it does not simply relay information, it also contributes some low level processing. The thalamus is also understood to play a key role in the sensation of pain (e.g. Ohara & Lenz 2003; Ab Aziz & Ahmad 2006; see Koelsch et al. 2015 for a meta-review). Note that researchers tend to distinguish sensory aspects of pain from its affective aspects (that is, the specifically unpleasant character of pain) which is sometimes associated with the posterior
(^3) This particular observation is relevant for theories of self-knowledge such as Carruthers (2009), since it indicates that inner speech is being transmitted through the sensory hub of the thalamus. Thus it could support the claim that we listen to ourselves producing inner speech.
distinct sense of agency; that is, the feeling ‘I am doing this’ (e.g. Gallagher 2012). Could this be sceptically challenged? I suppose we might question what it is the twins understand when we ask “Tatiana, can you move these limbs?” It is conceivable that they understand it to mean something like, “is your Tatiana personality capable of moving this limb?” Yet this would be a rather far-fetched way to make sense of the twins’ mental life. It’s not impossible, but it’s certainly not the default interpretation to take. Accordingly, I’m going to rule out the possibility that the girls possess a single wholly unified consciousness in the below discussion.
3.2 Partially shared consciousness The second possibility—partially shared consciousnesses—is rather more plausible. On this model, there is a single token experience of say, Krista’s cheek being stroked, yet Krista and Tatiana possess distinct sets of experiences overall. This model can be clarified by appeal to Bayne’s (2010) notion of ‘phenomenal unity’. Phenomenal unity is basically the kind of unity we enjoy when there is something it is like to experience one thing at the same time as experiencing another thing.^5 For instance, suppose Krista experiences the sensation in her cheek, while also experiencing a feeling of control over her left arm. Simultaneously, Tatiana enjoys the exact same token sensation in Krista’s cheek, while also experiencing a feeling of control over her own right arm. On the sharing model, it is possible that neither twin experiences control over the other twin’s ‘outer’ arm. Thus the twins have distinct phenomenal unities.^6
According to the sharing model, whatever it is in cases of sharing that realises the conscious experience of some content for one twin does so for both twins. However, the sharing model allows that the shared experiential token could occupy quite different roles within the twins’ overall mental economy, depending on what else they are experiencing at the same time. For instance, the tactile sensation could be at the centre of one twin’s attention, while only pre- reflectively present for the other twin. Similarly, they could share the experiential part while taking different attitudes towards it, e.g. one twin could like the sensation while the other twin dislikes it (Hirstein 2012: 29 also raises this possibility when describing a hypothetical
(^5) Bayne distinguishes phenomenal unity from representational unity (where experiential aspects are bound under a common representational content, such as the redness and roundness of a ball) and subject unity (where experiences are subject 6 - unified just in case they occur to the same person). Montero (2017) appears to be defending a similar position on the twins’ case, although she does not analyse this in depth.
case of neural connection). It may even be possible for one twin to recognize or understand the sensation while the other does not.
Here it may be objected that the sharing model ignores the way that contextual factors can impact the qualities of experience. For instance, we are familiar with experiences such as White’s Illusion where areas of identical hue appear significantly lighter or darker due to the influence of surrounding colours (White 1979). At another level of mental organisation there are cross-modal effects where the same flash of light may be experienced as either a double flash or a single flash depending on whether the individual simultaneously feels a double or single tap (Violentyev et al. 2005). And at yet another level it is plausible that pleasant or unpleasant affect can deeply permeate sensory qualities (e.g. Bramble 2013) such that the same food may be experienced as possessing significantly different properties by the person who finds it disgusting and the person who finds it delicious. The lesson of these examples seems to be that experiential quality relies too much on the overall gestalt for isolated bits of experiential content to be truly sharable in the ways the sharing model demands.
While we can agree that contextual factors contribute deeply to overall experiential quality, this need not contradict the sharing model. What grounds the possibility of sharing is that an individual’s overall conscious experience is made up of parts where these parts have intrinsic qualities of their own.^7 These intrinsic qualities make it the conscious part that it is. Consider the sound of a musical chord. We can imagine a case where the twins share their experience of the D note, where one twin hears it combined with an F# (thus a major third) and the other twin hears it combined with an F natural (thus a minor third). Although the resultant experiences differ overall, their experience of the D note has intrinsic qualities that contributes to the overall experiences. We can tell this because when we experience a chord, we can introspectively identify at least some aspect of the experience contributed by that note, which would be different if replaced by a different note. The sound of the note is experientially discriminable.
At the same time, it is fair to say that one conscious part cannot present in two conflicting ways and still count as one bit of conscious experience. So the sharing model is committed to
(^7) Even Bayne, who thinks that conscious experience is necessarily phenomenally unified, agrees that conscious experience is made up of phenomenal parts (2010: Chapter Two). Here he argues against a more radically holistic view proposed by Tye (2003).
clear that two-streams defenders cannot say that content has been duplicated instead. Meanwhile, defenders of unity (such as Bayne 2010) have found ways to accommodate apparent disunities anyway. Perhaps the Hogan twins can offer some support for the partial unity model. That is, if we accept sharing in their case, we may be more willing to consider partial unity in the analogous split-brain case. A crucial difference between partial unity and shared consciousness is that shared consciousness involves two persons rather than one. However if our focus is really on subjective perspectives and not subjects, the cases may be sufficiently analogous to support the possibility of partial unity.
3.3 Divergent consciousness The main barrier to endorsing sharing is the plausibility of the third possibility, in which the twins enjoy entirely separate sets of conscious experiences.^9 I shall call this ‘divergence’. Since the twins are reporting matching experiences (e.g. of seeing the toy), with the same physiological origin (e.g. originating in one token pattern of retinal activity), it is helpful to envisage two ways in which this could be realised.
The first way is that information is passed between the brains but conscious experience relating to that information only occurs after the point at which it is transmitted between brains. So for example, tactile information relating to being stroked passes through the early stages of Krista’s tactile processing to her thalamus. At this point the path then branches. One processing stream projects through Krista’s somatosensory cortex and then becomes conscious for Krista, while another processing stream crosses the thalamic bridge, projects through Tatiana’s thalamus and somatosensory cortex and becomes conscious for Tatiana.
The second way may be understood as a kind of experiential contagion. Here Krista has a conscious tactile experience of being stroked, and then information correlated with this tactile experience is passed across the thalamic bridge, generating a replica of that conscious experience for Tatiana. Thus conscious experience of some content occurs for one twin prior to it occurring for the other twin. It may even be the case that the first girl’s conscious experience causally influences the character of the second girl’s experience. Nevertheless neither twin’s experience, in whole or in part, is token-identical with the other. Thus strictly
opposed to two separate streams. This is directly parallel to the problem of distinguishing sharing from divergence that I develop in section 4. 9 Langland-Hassan (2015) also contrasts these possibilities when discussing the twins’ case.
speaking, in both sub-types of divergence, either twin could have the experience without the other twin having it at all.
4. The Problem The key question we have regarding the twins can now be sharpened. When we think about cases such as Tatiana reporting on what is being shown to Krista’s eyes, or when both girls report a headache happening for both of them, is it ever the case that sharing occurs, or should we always suppose that their experiences diverge?
Readers may well take one or other version of divergence to be the default interpretation. Sharing is quite a radical possibility after all. It flatly denies that experiences are individuated by the subject who possesses them. Like the partial unity model of split-brains, sharing also denies the transitivity of conscious unity (though sharing does not deny transitivity within subjects). Another interesting neurological issue concerns where exactly we suppose a shared experience to occur. I should note here that nothing about the models I have presented demands a materialist theory of consciousness. If property dualism is true, it is still possible that a token immaterial property is shared by both twins. Nevertheless, we will need to suppose some correlation between conscious experience and neural activity (which property dualists generally accept). So if sharing occurs, the correlated neural area must be located either in the thalamic bridge, or spread out across both twins’ brains, or just in one twin’s brain. In all of these cases, the shared bit of content must make use of neural areas extending beyond the individual brain, for at least one of the twins.
Of course the immediate vehicle of a person’s experiences is normally the activity in their brain alone. Yet I see no principled reason to deny that functional neural connections capable of supporting the generation of conscious experience can be extended. Moreover, we must never forget that the twins are physiologically unique. Regardless of what brains are commonly adapted for, the twins’ brains have, since gestation, adapted for their peculiar connection. Indeed the way that the twins have adapted to the thalamic bridge is an exemplary case of neural plasticity.
Another factor that may push our intuitions towards the sharing model is that some conscious content for the twins may be ‘double-bodied’ in the sense that either or both twins experience content as present to, or happening within both bodies. This may be case for their shared
Finally, could neural observations tell us anything? If similar self-reports of some bit of content could be correlated with neural activity in the two brains that is definitely desynchronized , then assuming that experiences are generally temporally coincident with neural activity, divergence seems likely (probably the contagion sub-type). But if neural activity is even roughly synchronized, this could allow that either sharing or divergence is occurring. That is, synchronized activity could be interpreted either as simultaneous processing of two type-identical contents, or else as one broad circuit of neural activity that correlates with a single token experience.
What if we could establish that while both girls are able to report on some sensory input, only one girl’s brain shows activity in areas correlated with perceptual sensation? For instance, suppose that both girls report the experience of visual motion, while only one brain’s V5 area in the visual cortex is active. This would certainly be highly suggestive of sharing. However, a sceptic may reply that one brain area simultaneously serving both girls’ experiences may yet branch into two distinct interactions with distinct areas of each girl’s brain. Perhaps the conscious experience is only realised with the addition of these distinct interactions, and thus divergence is supported. Indeed, to establish any conscious experience requires both girls’ self-report. So there must be at least some activity happening in both girls’ brains that allows them to make these reports. The sceptic could thus appeal to this distinct activity as the basis of divergent conscious experiences. Indeed, this picture of divergence resembles certain models of consciousness in which executive areas in the prefrontal cortex need to ‘access’ content in perceptual processing zones.^10 I will return to this idea later.
Now if neither observation nor self-report is able to differentiate sharing from divergence, we may start to doubt whether the two models are in fact meaningfully distinct. However, our problem here is largely due to practical limitations rather than any metaphysical indistinguishability between the two models. In principle, for any piece of purported shared content, we could try to alter the intrinsic qualities of one girl’s experience of that content without altering the intrinsic qualities of the other girl’s experience. If this can be done then
(^10) Access consciousness is often linked with activity in the prefrontal cortex. See e.g. Lamme (2004), who argues for a neural distinction between access and phenomenal consciousness).
divergence is true, and if it cannot be done, then sharing is true.^11 Yet for this to be a fair test, we would have to be sure that it is only the intrinsic character of the experience that is being manipulated and not some contextual feature, or the more general capacity for self-report. Thus to even attempt such a test would require a fineness of control over the neural correlates of experience that is unavailable to current neuroscience (and overly invasive besides).
At any rate, we lack empirical ways to directly establish whether or not the girls’ experiences are shared or diverge. Accordingly, it may seem pointless for us to discuss this case. However, I believe we can make definite progress on this issue by considering more general principles about the relationship between neural activity and conscious content. In the following section I will argue that a principle regarding the locality of conscious content entails that the twins’ consciousnesses are very likely to be shared, at least in some cases.
5. Locality of Content The initial argument in favour of locality is the quite familiar denial of a specific convergence zone in the brain at which all consciousness occurs (e.g. Dennett 1991; Damasio 1992; Hardcastle 2017). Neuroscientists have never found such a site, and have no expectation of ever finding one. Thus it does not seem to be the case that the brain unconsciously processes content and then shuttles all that information to some special area where it is then made conscious. Instead it appears that the neural correlates of consciousness are widely distributed across the brain.
A natural way to develop this claim is that conscious content occurs at the location at which content is processed. Of course, this processing typically involves several stages. For instance, visual content has stages, localised at different points in the brain, at which various details are discriminated or organised (colour, edges, depth, motion etc.). But we may say that consciousness of each of those details occurs at the location at which the detail is processed. For instance, consciousness of the raw sensory features of colour should occur at the location where raw colour is discriminated. It is not the case that raw colour content is replicated again and again as the image goes through its various processing stages, and only at one of the higher processing locations, when all the details are present, does conscious
(^11) The same argument seems to refute the indeterminacy objection to the partial unity model of split brains. The possibility of differentially manipulating common experiences is a clear way to distinguish partial unity from two-stream views.
Hence post-thalamic processing should be in reciprocal communication with thalamic stages and thus available to both twins. Nevertheless, it supports the plausibility of sharing when the pathway from one twin to other already includes stages responsible for processing significant aspects of content. It is moreover notable that the twins automatically experience pains simultaneously, while visual content seems to require definite effort to ‘tune in’ (Dominus 2011, cf. Ryan 2014).
Consider the case where Tatiana senses damage in Krista’s right arm. Processing of this content up to and including the thalamic level already occurs in Krista’s brain prior to it being passed to Tatiana’s brain. Indeed, Tatiana must access that processing if she is to receive the input at all.^14 Then since conscious content occurs at this location of processing, there is one conscious content that is accessed by both twins. Thus the aspects of conscious content up to, and including, the thalamic level of processing should be identical for the twins. Meanwhile, locality allows that conscious aspects requiring post-thalamic processing may be divergent for the twins (including aspects like pinpointing the location on the body, conceptual recognition, and the reflective planning of responses). Still, locality entails that the girls’ pain consciousnesses are significantly shared.
This is a remarkable claim. Yet before we get too excited, we must first consider a significant worry. There is an ongoing debate regarding the locality of the consciousness-making process, and several different positions can be discerned, all of which are compatible with the denial of a specific convergence zone. On one side we have philosophers like Jon Opie and Gerard O’Brien (1998; 2000, cf. the neurologist Samir Zeki 2007), who argue that consciousness-making processes are widely distributed across the brain, and individual areas in the brain can make content conscious independently of consciousness-making processes operating elsewhere in the brain. On the other side we have philosophers like Tim Bayne (2010), who argue that consciousness is a thoroughly holistic process. That is, while we may be able to analyse conscious experience in terms of various experiential parts, these parts only become conscious as a group. There are also positions intermediate between these ‘atomistic’ and ‘holistic’ alternatives. A representative example is Jesse Prinz (2012), who argues that consciousness occurs once perceptual content is integrated at a fairly high level of
(^14) The pre-thalamic stages of Tatiana’s pain processing system may also be active but they need not be (this should be possible to confirm with current neural imaging).
organisation and then made available to the working memory (commonly associated with the dorsolateral prefrontal cortex). Prinz allows that there are several circuits of such processing, so there can be independent consciousness-making processes occurring simultaneously at different areas in the brain.
Opie and O’Brien’s theory of consciousness appears to be conducive to the claims about the locality of content made earlier, but the other two theories appear not to be. The challenge that Bayne’s and Prinz’s models present is that processing up to and including the thalamic stage may be incapable of sustaining the consciousness of any content at all. Indeed, Prinz specifically claims that the consciousness-making process depends upon interactions with stages of perceptual processing that are further along than the thalamus. Accordingly, Bayne’s and Prinz’s models both seem to resemble the picture of divergence that I outlined earlier. They may argue that, although the twins share their non-conscious processing of content, the consciousness of this content cannot be shared because consciousness depends upon wider interactions in the brain, and these wider interactions are not shared by the twins.
If determining whether or not the twins share experiences requires that we firmly adjudicate this debate between competing theories of consciousness, each of which has been meticulously defended, it will simply not be possible to achieve this here. Fortunately it does not. What we need to do is distinguish between the spatial location of conscious content (or its neural correlates) and the processes responsible for making a bit of content become conscious. Even if it were the case that the consciousness-making process depended constitutively on processes happening at a late stage of cognitive processing, or on operations occurring across the whole brain, this would not entail that the conscious content is located at the late stage, or across the whole brain.
To be clear, the foregoing distinction does not entail that conscious content must occur locally either. The point is that it’s a separate argument to establish the location of content. To establish the locality of content, what we need to argue is that making content conscious does not, in general, require replicating content in areas not shared by the twins. For instance, pain content does not need to be copied over to the late somatosensory areas or to the working-memory from the early stages. Rather, for each aspect of the content that is made conscious, there is typically one location responsible for that aspect.
Yet here another worry may arise. Suppose (as Bayne, Prinz, and many others claim) that consciousness depends upon a kind of communicative interaction between a content processing area and other areas in the brain (i.e. the possibility that I raised in section 4). For instance, let’s assume that consciousness depends on some kind of synchronization between the temporal pattern of neural activity in the content processing area and activity in executive areas. Wouldn’t this mean that one twin could become conscious of some bit of content— because it synchronizes with some other area in her brain—while the other twin is not conscious of that bit of content, because it is not synchronizing with the respective executive area in her brain? But if so, wouldn’t this contradict the claim of the sharing model that there is one vehicle for the conscious bit of content for both twins?^15
Actually, I think the sharing model can allow this possibility. The claim of sharing is that when one twin is conscious of stimuli that the other twin is also conscious of, then the conscious content is shared. It does not demand that the twins are always mutually accessing stimuli. Indeed, as I mentioned above, there are hints in the observational data that the twins need to deliberately ‘tune-in’ when they access each other’s sensory inputs, at least for visual stimuli. Perhaps this extends to nociceptive sensations as well. Pains tend to intrude upon our consciousness. Yet it is conceivable that one twin could neglect a mild pain that the other twin focuses upon. This need not contradict the claim that when both twins focus on the pain content, it is a genuinely shared experience.
Now the sceptic may retort that if consciousness depends on interaction patterns between the shared area and other areas that are distinct for the twins, then the conscious experience itself is not shared (the same objection could arise within Baar’s 1988 global workspace view, since the twins do not share the same global workspace). But even if integration with other activity is a feature of consciousness that the twins do not share, the essential part of the
(^15) There is another version of this objection according to which a content area accessed by both twins is somehow communicating with each twin in a distinct way simultaneously. For instance, Prinz appeals to synchronized rhythmic activity across neural populations. Perhaps one subset of the neural population is communicating with one twin, while another subset communicates with the other twin. We lack the fineness of resolution to tell that this is not occurring. Effectively, the objection here is that the twins are not really accessing the very same processing stages. I think all we can say in response is that we have no reason to believe it is even possible for a neural population to consciously process a single aspect of content while simultaneously adopting two distinct synchronisation patterns. The suggestion is merely an ad hoc way to defend divergence, in contrast to a simpler picture in which one pattern of neural activity in the content- processing site is able to contribute to both girls’ consciousnesses.
experience—its phenomenal character—is shared. If not, such theories of consciousness are once again asserting of replication of content—now occurring ‘in’ the interaction somehow. Again, there are reasons to deny that this occurs. First, note that this interaction model relies on the claim that a certain area of the brain processes some specific bit of content unconsciously, and then the right kind of interaction is required for that content to become conscious. As such, to say that the conscious content is ‘in’ the interaction is to suggest that content must be redundantly in both the original content area and in the interaction. Second, we have absolutely no support for a model of neural signalling that treats it like a television transmission of data between a transmitter and receiver. All indications are that the extent of the interaction is one of synchronization or simple reciprocal stimulation. Thus the interaction itself does not have the distinct qualities that could plausibly make it the carrier of distinct content.^16
Another way to put my argument is that I am making a distinction between conscious content and the ‘consciousness of’ (or ‘awareness of’) relation, and then claiming that conscious content can be shared even if the conscious-of relation is not. This broadly corresponds to Block’s well-known distinction between access-consciousness and phenomenal consciousness (1995). To be conscious-of p, or for p to be access-conscious may involve a level of wider integration or higher-order activity, the vehicle of which may or may not be distinct for the twins.^17 But even if it is, this is not the whole of a conscious experience. On the contrary, the conscious content is the more crucial part. For without this there is no phenomenal character, no what it’s likeness at all. Meanwhile, theories that make use of higher-order functions often define consciousness as the availability or preparedness for the integration or higher order reference (e.g. Prinz 2012, Carruthers 2019), allowing that something is conscious even if it is not right this moment being consumed by the wider
(^16) On the basis of the neural evidence, the same conclusion that content is not replicated in the frontal executive areas is drawn by Hirstein (2012: 88-89; cf. 29; cf. Prinz 2012: 101-102), though Hirstein believes that the frontal areas are the basis of the self which reflects on conscious content (e.g. 2012: 22-24). Note that if the executive area with which content processing sites are supposed to interact is supposed to replicate that content, then this would simply be another version of a specific convergence zone, and is contradicted by the neural observations. 17 It may be the case that the twins share consciousness in this sense in addition to sharing conscious content though it would require a very careful articulation of just what the relevant function involves. For now I merely point out that the twins seem to collaboratively manage their shared conscious content, as when they use it to fluently move around, or jointly attend to their pain. Depending on how exactly the function is articulated, perhaps even listening to each other’s inner speech counts as shared integration of conscious content, or higher- order reference to it.
