Tuesday, September 22, 2009

Mirror neurons and the study of science

Tony Barnhart was kind enough to invite me to a psychology seminar yesterday afternoon that was a discussion of mirror neurons, at least partly inspired by (or inflamed by) Marco Iacoboni's August 27 talk which I attended and summarized.

I found the discussion particularly interesting in light of my current studies, as it touched repeatedly on issues of what's appropriate in science--what does and does not conform to the norms of good science.

The discussion leaders began with quotes from V.S. Ramachandran and Marco Iacoboni:
"The discovery of mirror neurons in the frontal lobes of monkeys, and their potential relevance to human brain evolution…is the single most important ‘unreported’ (or at least, unpublicized) story of the decade. I predict that mirror neurons will do for psychology what DNA did for biology: they will provide a unifying framework and help explain a host of mental abilities that have hitherto remained mysterious and inaccessible to experiments." (Ramachandran, 2001)
and
"We achieve our very subtle understanding of other people thanks to certain collections of special cells in the brain called mirror neurons. These are the tiny miracles that get us through the day. They are at the heart of how we navigate through our lives. They bind us with each other, mentally and emotionally." (Iacoboni, Mirroring People, p. 4)
The immediate objections were to the trumpeting of the importance of mirror neurons prior to the discovery of supporting evidence, as well as to the use of the word "miracle" to describe something that's supposed to be science. These objections ran through the seminar, much of which confronted the issue of whether or not mirror neuron claims are scientific at all.

This first objection is closely related to the first red flag of Robert Park's list of "Seven Warning Signs of Bogus Science" (2003)--that a claim is pitched directly to the media (or general public) rather than to scientists, and that specific objection was raised about Iacoboni's talk, that he was making grandiose claims to a general (or "naive") audience. This has been a common issue raised in defining the boundary between science and non-science, traceable at least back to the debate between anatomists and phrenologists in Scotland in the early 19th century, where "anatomists accused phrenologists of relying on popular opinion to validate their theories while ignoring opinions of scientific 'experts'" (to quote sociologist of science Thomas Gieryn's 1983 paper on "Boundary-work and the demarcation of science from non-science," p. 789). While it wasn't stated in this case that mirror neuron advocates are appealing to the general public to the exclusion of scientists, they were explicitly criticized for their appeals to the public in order to raise interest in their work, make it easier to get funding, and so forth, and, in the case of Iacoboni's book, for using different language in his book aimed at a popular audience that eliminated qualifiers and wasn't appropriately skeptical.

In my opinion, Iacoboni shouldn't be faulted for popularization of his work or his generation of excitement and funding from public interest--the former criticism seems a bit like sour grapes--but only for the latter, any cases where he presents arguments without proper supporting evidence, or fails to identify theoretical speculation as such. What should be significant is not the mere fact of public appeal, but the extent of the gap between the scientific evidence and the public description. Note that there will always be a gap between evidence and any scientific theory, even where a theory is firmly established, since scientific theories are always subject to further revision--they're not logical proofs. "Tiny miracles," though--I have to agree that's over the top.

Another objection raised to mirror neurons is the wide variety of human behavior that they've been proposed to explain (from the presenters' slides):
"Since their discovery, mirror neurons have been invoked to explain imitation, speech perception, empathy, autism, morality, the appeal of porn, sports team activities, social cognition, self-awareness, yawning, mind reading, action understanding, altruism, etc."
A list of neuroimaging studies purported to provide evidence for a human mirror neuron system was shown, and the question asked was how many of these studies looked at both observation of an action and execution of an action? The answer was very few, likely because observation is much easier to test in an fMRI machine compared to execution. Of those, which found evidence of activation for both observation and execution? The answer was only a single study (Gazzola, et al., 2007).

Further questions raised for discussion (from slide):
  • Is there any conceivable way to falsify MN theories?
  • As Iacoboni claimed, MNs are not anatomically-defined, and can fire in response to the same, similar, and opposite observations/actions. The whole brain, therefore, comprises the MN system. How is that useful?
  • Many researchers have moved away from hypothesizing about “mirror neurons” to “mirror systems.” Must mirror systems necessarily be composed of mirror neurons?
  • If not, are mirror neurons the most parsimonious explanation for [insert favorite behavior here]?
  • Can you generalize findings from one species to the next when one of the species possesses cognitive capabilities that have never been demonstrated in the original species? Yes, this is a “monkeys don’t have language, nor do they imitate”-based question.
  • Can individual neuron activity logically be used as an explanation for higher-order cognitive abilities?
  • How do mirror neurons handle sarcasm?
And, though not on the slide, the following claim was noted:
Similarly, a baseball pitcher’s windup is chock full of similar kinetic clues that can activate the batter's mirror neurons and help him predict the kind of pitch he will get. "This may help explain the fact that a great pitcher, Babe Ruth, was also one of the greatest home run hitters of all time," writes John Milton in Your Brain on Cubs.
and the question was asked--if mirror neurons activation is involved in imitation, rather than a complementary activity in this case, why wouldn't the mirror neuron activation interfere with Babe Ruth's ability to hit, rather than improve it? (The answer, it would seem to me, would be a suggestion that his pitching knowledge would allow him to recognize cues about the type of pitch before it happened, that would produce a benefit in hitting performance--but this is a more abstract description that doesn't necessarily require a mirror neuron explanation--another common theme of the discussion.)

This led to a lively discussion, and it seemed to me that the following were some of the most significant arguments, with my commentary on them:

1. It seems highly implausible that single cells are involved in mediating or controlling this behavior, and neither transcranial magnetic stimulation (TMS) nor fMRI is capable of isolating individual neurons. It is particularly implausible that single cells are implicated regarding a relationship to an action that is similar in that it's directed to the same goal (i.e., a semantic property). I agree, but I'm not sure why mirror neuron advocates should be taken as insisting that single cells are involved, as opposed to the "mirror neuron systems" described in Iacoboni's talk.

2. If assemblies of cells are involved instead of individual cells, how is this a distinctive or interesting theory? Doesn't it then just become a restatement of "neurons work together in the brain to make things happen?" Several people (including the person who asked that question) noted that it's still potentially interesting if these assemblies participate in both observation and action, and may provide support for theories that implicate motor programs of speech generation in speech perception.

3. Some other evidence for mirror neurons from TMS experiments in speech production. Two parts of the speech motor cortex, one active when people produce labial phonemes, and another part active when they produce dentals, were stimulated with TMS in the form of a double-pulse, which tends to provide a stimulative effect similar to priming. The result was that double-pulsing the region associated with labials facilitated the perception of labials, and double-pulsing the region associated with dentals facilitated the perception of dentals.

4. The inference to mirror neurons from fMRI evidence is choosing a single possible explanation without sufficient discriminatory evidence to exclude other explanations, such as priming. This seems like a quite reasonable objection, but one which doesn't preclude further research both within a mirror neuron framework and from outside--a battle between camps is probably a good way to provoke fruitful experimentation and mutual criticism until discriminatory evidence or arguments are obtained. There was some disagreement in the discussion about whether such discriminatory evidence could ever be obtained, but I'm inclined to think that someone will come along and provide some strong reasons to prefer going down one path rather than another.

5. In the cases where only a single or very few cells are measured, isn't that "a colossal sampling error"? One response was that the single-neuron measurement studies may have recorded from as many as 200 neurons, of which 75 showed mirror properties, of which 2/3 showed mirror properties in general (i.e., they matched individual actions and related actions directed at the same goal) and 1/3 only showed activation in response to the same exact action. I think this still presents a significant sampling issue in that there are likely hundreds of thousands of connections implicated for each neuron; I'm also a bit wary of the claims of mirror properties for related actions, where the relations may be semantic rather than simple associations, as there seems to be a potential for creative interpretation in determining what counts or doesn't count as related. That's independent of the implausibility of such properties at the individual neuron level.

6. The mirror neuron evidence and arguments seem to be like a cartoon version of science being presented to scientists and to the public (a criticism that explicitly excluded the original monkey studies). The use of the term "mirror neuron" seems like "a romantic notion that's taken on a life of its own," even though it is descriptive--you see someone else performing the same action, it's like looking in a mirror.

7. This is an unusual case in which, rather than psychology observing a behavior and theorizing neurological activity, the concept has been derived from observed neurophysiological behavior and "pyramided up," presenting challenges for theory comparison. Other competing theories don't have neural-level predictions. Are mirror neuron theories even falsifiable?

The seminar was closed with another quote from Iacoboni's book, from the end: "Mirroring People also ends on a hopeful note, the hope that science and scientific thinking may play an important role in our society."

I found it a fascinating discussion to observe, especially as issues came up pertaining to the norms of science and the demarcation between science and non-science, where scientists often appeal to criteria such as Karl Popper's falsifiability criterion. Most philosophers of science today agree that there is no sharp boundary between science and non-science (though there are certainly things that are clearly science or clearly not science), that the falsifiability criterion doesn't provide such a demarcation (and isn't strictly feasible given the nature of background assumptions and clusters of propositions involved in theory testing), and that the Mertonian norms of science are more of an ideal than reality. Science is a bit messier than that, and it seemed that some of the social aspects of "boundary-work" were in play in the discussion.

UPDATE: I should note that there were two papers of recommended reading for this discussion, which were:

Gregory Hickok, "Eight Problems for the Mirror Neuron Theory of Action Understanding in Monkeys and Humans," Journal of Cognitive Neuroscience 21:7, pp. 1229-1243 (2008).

Giovanni Buccino, Ferdinand Binkofski, and Lucia Riggio, "The mirror neuron system and action recognition," Brain and Language 89 (2004) 370-376.

I didn't get a chance to read those before the seminar, but may update this post with further comments after I do.

UPDATE (September 5, 2013): Alison Gopnik piece on "Cells That Read Minds? What the myth of mirror neurons gets wrong about the brain" on Slate.

Saturday, September 05, 2009

ApostAZ podcast #18

The 18th episode of the ApostAZ podcast is available:
Episode 018 Atheism and Free Twizzering in Phoenix! Go to meetup.com/phoenix-atheists for group events! Mark 19? Criticism and analysis. http://arizonacor.org Intro- Immortal Technique- Freedom of Speech from Revolutionary Vol 2. Outro- Greydon Square 'Dream' from the Compton Effect.

Friday, September 04, 2009

Grassroots Skeptics website launched

The grassrootsskeptics.org website officially launches today:
Philadelphia, PA – 9/4/2009: Grassroots Skeptics today announced the official launch of its website, GrassrootsSkeptics.org. The website is the centerpiece of the group's planned outreach and advocacy in the skeptical community.

“There are a lot of passionate advocates and community groups working diligently to advance critical thinking,” said Grassroots Skeptics founder K.O. Myers. “We want to help increase their effectiveness, by making it easier for them to find new members, share resources, and identify methods for getting their message out.”

The group plans to use the site to gather and organize information about skeptical advocacy. At launch, the site will feature an index of local skeptics groups, information on many skeptical blogs and podcasts, discussion forums, and a calendar of skeptical events. The events calendar is a joint project, maintained in collaboration with the prominent skeptical website Skepchick.org.

“There is an amazing amount of information out there that could be helpful for people who want to start or join a skeptical organization,” Myers said. “We want to collect and organize it, to make it more useful for the dedicated individuals who volunteer their time to promote an evidence-based lifestyle.”

“Widespread misinformation about vaccines has lead to a resurgence in preventable illnesses; scam artists posing as 'psychics' prey on the grieving; 'alternative medicine' companies sell billions of dollars of dubious treatments, with almost no government regulation,” said Myers. “Critical thinking is more important than ever, and local skeptics groups are working hard to spread that message. With GrassrootsSkeptics.org, we hope we can make their outreach more effective.”

Future plans for the site include a skeptical speakers' bureau, a searchable map of skeptics groups and skeptic-friendly attractions, and a development kit for skeptics who want to start new groups. “We're excited about this launch,” said Myers, “but we're already looking forward to making GrassrootsSkeptics.org a richer, deeper resource for the organized skeptical community.”

Grassroots Skeptics is a volunteer organization that promotes critical thinking and a reason-centered worldview by helping local skeptics groups to share tools, information and strategies, and connect with skeptical individuals and activists both locally and globally.
You can also follow Grassroots Skeptics on Facebook and Twitter.

Thursday, August 27, 2009

Marco Iacoboni on imitation and sociality

Thanks to a tip from Tony Barnhart, I learned this morning of a talk at ASU today relevant to my last post ("Imitation, isolation, and independence") by UCLA neuroscientist Marco Iacoboni. Although I wasn't able to stay for the Q&A session, I did get to hear his entire presentation, titled "Imitation and Sociality: The Role of Neural Mirroring." His talk covered the following points (from his initial agenda slide):
  • Imitation in human behavior
  • Potential neural precursors in primates
  • Neural mechanisms of human imitation
  • Neural circuitry for imitation and language
  • Imitation and empathy
Dr. Iacoboni was introduced by new ASU prof. Art Glenberg, who started right off by pointing out that the existence of mirror neurons is itself controversial, and some "don't think there's much of interest proved about mirror neuron systems." Dr. Iacoboni thanked Prof. Glenberg for beginning with the "elephant in the room," and said that the question has never been raised about the existence of mirror neurons in monkeys, and suggested that some people don't want there to be homologous systems in humans, e.g., for the sake of human exceptionalism or denial of evolution. (Has your blood pressure gone up yet, Tony?)

Imitation in human behavior
He started by briefly discussing the role of imitation in human behavior, citing Andrew Meltzoff's 1977 article in Science ("Imitation of Facial and Manual Gestures by Human Neonates," (PDF) 198:75-78), noting that Meltzoff is probably the only guy to publish a photograph of himself sticking out his tongue in Science. Imitation, the copying of the behavior of another, is pervasive by humans. People copy body positions and movements, and such imitation promotes liking. (As an aside, he said that he has been interviewed by Glamour (July 2003) about his work, and can have a second career as a consultant to Internet dating services if mirror neurons turn out not to exist.) Imitation facilitates communication and conversation, and people tend to even synchronize the way they talk. (I know I've heard multiple stories of people whose accents have been changed by being around people with different accents.)

Potential neural precursors in primates
Mirror neurons were first discovered in macaque monkeys, in the ventral premotor cortex. It was found that neurons in this area fired when monkeys engaged in grasping behavior, and also fired to a lesser extent when those monkeys observed other monkeys engaged in grasping behavior. (Here, Iacoboni cited Gallese et al., Brain, 1996.)

Neural mechanisms of human imitation
Iacoboni said that the term "mirror" may be good for marketing, but may also be misleading. Mirror neurons are defined physiologically rather than anatomically, by behavior rather than location in the brain. They have motor properties, and are specialized for actions, including sensory attributes of actions, but not mere peceptions. They are not simply "monkey-see, monkey-do" cells--while 1/3 tend to fire for very specific actions, 2/3 fire for other sorts of complementary actions. Mirror neurons have abstract codings for hidden actions, action sounds, and intentions, not just specific actions. Mirror neurons that fire in response to a grasping action of picking up a laser pointer would also fire if the details of the action were obscured by a screen. The sound of tearing paper can fire mirror neurons that fire when observing paper being ripped. And if there are variant actions that achieve the same purpose, such as bringing food to the mouth, the same mirror neurons can fire. Mirror neurons learn and have some degree of plasticity.

Iacoboni's model predicts that observing an action should have the lowest level of activation for mirror neurons, performing a motor task should have a medium level, and imitation--both seeing and doing an action--should have the strongest level of activation. And that is what his research has found.

At UCLA, they've done parallel work with monkeys and humans, and identified apparently homologous brain regions between the two. The specific region where mirror neurons were first discovered, the F5 region, appears to be homologous to the BA44 region of the human brain. The "BA" stands for Brodmann Area, a part of Broca's area associated with language--those with lesions to that area have Broca's aphasia, which reduces language fluency and makes speech slow and difficult. This raises the question of whether the mirroring is effectively covert verbalization in humans.

Experiments with transcranium magnetic stimulation (TMS), where a magnetic copper coil placed against the head creates an electrical flow in the brain, interfering with the underlying electrical activity in the brain--essentially adding noise and causing disruption--have enabled a way to demonstrate causation where functional magnetic resonance imaging (fMRI) could only show correlation. Iacoboni called this a shift "from brain mapping to brain zapping." If you zap an area and cause a deficit in a particular behavior or function, you show the causal involvement of that area in the production of that behavior. Doing experiments with TMS of Broca's area vs. a control site, using an imitation task and a control task, show the essential role of Broca's area in imitation. (Here, Iacoboni cited Heiser, et al., Eur. J. of Neuroscience, 2003.)

Iacoboni showed a diagram that he labeled the "core imitation circuit" which involved three locations of the brain--the superior temporal surface (STS), which manages visual input to the system via a visual or pictorial description of an action, which then feeds to the parietal mirror neuron system (MNS), which has the motor details of an action, which then feeds to the frontal MNS, which deals with the goal or intention of an action. (There were two-way arrows between STS and parietal MNS, and between parietal MNS and frontal MNS.)

Neural circuitry for imitation and language
Iacoboni said that an old theory of speech perception which had been abandoned has now been brought back by mirror neurons. That theory is the motor neuron theory, which says that to perceive speech sounds, you simulate the generation of the same speech. Speech perception involves speech simulation. In experiments that compared brain activation of speaking and listening, he suggested that he found evidence to support this. (This must be complicated by the fact that when you speak, you hear yourself. He cited Meister, et al., Current Biology, 2007.)

He discussed hemispheres of the brain and action sounds, where the right and left motor cortexes were subjected to TMS stimulation. I didn't quite get the details of this, but apparently a response was stronger for the left hemisphere, which is dominant for language. (He cited Azir-Zadeh et al., Eur. J. of Neuroscience, 2004.) He also referred to research of somatotopic maps, indicating that even when you read sentences about hand and foot actions (as opposed to seeing them), you get activation of the motor neurons for those areas.

He then spoke about how meaning is encoded in the brain, distinguishing a symbolic approach to "embodied semantics," favoring the latter view. In the embodied view, the meanings of words are grounded in sensorimotor experience and meaning is given by associations with sensorimotor activation.

He described an experiment in how mirror neurons code intentions, where subjects were shown short videos. There were first contexts, such as a set of cookies, a teapot, gnutella, etc., set up as though someone was going to have a snack; contrasted with this was the same items, with just cookie crumbs, and empty cup, and so forth, as though someone had already had a snack. There were contrasting actions--a hand grasping the edge of a cup (as though putting it down or picking it up to serve someone else), vs. a hand grasping the handle of a cup, for the action of drinking. And then there were intention conditions, with each combination of actions embedded in a context. The result was to find a difference in activation between the intention settings, as well as between action and intention; with the act of drinking generating more activation in the inferior frontal gyrus. (Here he cited Iacoboni, PLoS Biology, 2005, "Grasping the intentions of others with one's own mirror neuron system.")

He next showed a diagram of MNS interactions, showing imitative learning and social mirroring (or empathy, or "emotional contagion"). Imitative learning involves the MNS interacting with the pre-motor cortex, while social mirroring involves the MNS interacting with the insula and the limbic system.

Imitation and empathy
He spoke about "the chameleon effect"--some people are more imitative than others, and a tendency to imitate is correlated with a tendency to be more empathetic. He showed two photographs of President Jimmy Carter and his chief of staff, Hamilton Jordan, at two different times at the same event; in both cases the chief of staff was in the same physical position as Carter, standing next to or slightly behind him.

When feeling what others feel, the mirror neurons simulate facial expressions, which then feed through the insula to the limbic system, where you feel the emotion. He referred to research on imitating and observing facial expressions proposing a neural model of empathy in humans (Carr et al., PNAS, 2003).

We are "wired for empathy," he said, and notes that he used to quote a French phenomenologist on this point, but since that's not popular among U.S. philosophers he needed to find a champion of the analytic school of philosophy. He offered two quotes from Ludwig Wittgenstein, one which began "We see emotions. We do not see facial contortions and make the inference that he is feeling joy, grief, boredom. We describe a face immediately as sad, radiant, bored, even when we are unable to give any other description of the features." (From Remarks on the Philosophy of Psychology, vol. 2, p. 100.) The other began "'I see that the child wants to touch the dog but doesn't dare.' How can I see that? - Is this description of what is seen on the same level as a description of moving shapes and colors? Is an interpretation in question?Well, remember that you may also mimic a human being who would like to touch something, but doesn't dare. And what you mimic is after all a piece of behaviour." (From Remarks on the Philosophy of Psychology, vol. 1, p. 177.)

He then spoke of experiments with facial expression photos shown to kids and asked to imitate them, where they used fMRI and compared to measures of social competence, number of play dates, number of friends, etc., and found a high correlation between mirror neuron activation and social competence. (He cited Pfeifer et al., NeuroImage, 2008.)

This then led to the issue of autism, which he described with a slide heading titled, "Broken mirrors in autism?" He spoke of observation/imitation tasks with two groups of kids, those with autism spectrum disorder and a control set, which yielded differential activity in motor neurons. (He cited Dapretto et al., Nature Neuroscience, 2006.)

After a quote from Eric Hoffer ("When people are free to do as they please, they usually imitate each other"), he spoke about human single-neuron recordings done with depth electrode readings on epilepsy patients undergoing very invasive methods to identify the focal points of seizures for surgery to remove or destroy minimal amounts of brain tissue to stop the seizures. They have studied about 10 patients per year over the last three years, using modified depth electrodes that each have 9 microwires, extending from them into the brain, one ground, and eight which each record for a single cell. On these patients they've done experiments with observation and execution of a grasping task, and with observation and imitation of facial expressions. They've taken records from the temporal lobe, amygdala, hippocampus, and other parts of the brain, and found that about 8% of cells measured have mirroring properties.

He then described some differences between human and monkey mirror neurons, the key one of which is that in some cases where mirror neurons show an increase in firings from an execution or imitation, a decrease is seen when observing. For monkeys, by contrast, the activations always go up for both observation and execution. He suggested that this may be due to a human differentiation between self and other. Humans have cases where there are excitatory effects, inhibitory effects, and opposite effects between observation and execution. There are mirror responses in humans in areas where they are not found in monkeys, the results appear to be more flexible, and there can be more prolonged responses, perhaps due to greater complexity (e.g., the language and meaning aspect?).

He ended by saying he was proud to say that his work falls within the tradition and support of Darwinian evolution--that his book, Mirroring People: The New Science of How We Connect with Others (I think you should always be skeptical of any book with a subtitle that starts with the words "The New Science of ..."), argues that mirror neurons have been selected (naturally) to facilitate social interactions. He asserted that this solves the problem of other minds, and provokes a major revision of long-standing beliefs--that we need to change the idea that we've evolved for self-preservation, and instead we're "wired for involvement and care." He concluded that he is a believer in the importance of neuroscience to society, and that rather than being isolated in an ivory tower, scientists have a responsibility to go to society and communicate their work. (And his book is written for a popular audience.)

Imitation, isolation, and independence

This post is going to be highly speculative, based on a few things that I've coincidentally just read over the last 24 hours and some past wonderings.

Last night, I read an article in the ASU State Press newspaper from Tuesday, August 25 about Robert Cialdini, professor emeritus of psychology and marketing who I had been interested in working with in my Ph.D. program because of his fascinating work on the subject of influence and persuasion. (He just "retired," though the article notes he is still working 60 hours a week on his research.) That article noted the phenomenon of "social proof," where people are more likely to do something if they think that other people do it:
Social proof is a simple way for people to decide what actions would be appropriate in a given situation, based off what others like them have done in similar situations, Cialdini said. Those kinds of norms have been very powerful in moving people to conserve energy, recycle and refrain from littering, he said.
...

Cialdini and his colleagues have recently done research on energy conservation in several hotels in the Phoenix area. The hotel managers allowed Cialdini to place different signs inside hotel rooms and depending on what the signs said, the colleagues were able to significantly increase the willingness of people to hang up their bath towels.

By simply stating that the majority of guests who stay in the hotel hang up their towels at least once during their stay, Cialdini and his colleagues were able to get 28 percent more people to follow that suggestion.

This morning, I read the following passage in Steven Pinker's The Blank Slate (p. 63):
Social psychologists have amply documented that people have a powerful urge to do as their neighbors do. When unwitting subjects are surrounded by confederates of the experimenter who have been paid to do something odd, many or most will go along. They will defy their own eyes and call a long line "short" or vice versa, nonchalantly fill out a questionnaire as smoke pours out of a heating vent, or (in a Candid Camera sketch) suddenly strip down to their underwear for no apparent reason.
Here, Pinker is referring to the Asch conformity experiments. He notes that there are two reasons for this kind of imitative behavior, "to benefit from other people's knowledge and judgment" and "the desire to follow the norms of a community."

A few more data points, and then I will do some speculative dot-connecting. In Pascal Boyer's book, Religion Explained, he devotes chapter 8 to answering the question of its title, "Why doctrines, exclusion, and violence?" He argues (pp. 292-296) that fundamentalism arises as a mechanism to increase the cost of defection from a group, in reaction to the cultural diversity of the modern world:
... the modern world is one of strident cultural diversity, where you are constantly made aware that people live in different circumstances, have different values, worship other gods, have different rituals. ... fundamentalists want to return to a (largely mythical) past when local values and identity were taken for granted, when no one was aware that there were other ways of living. (p. 293)
This could also explain the creation of distinctly Christian media (music, books, clubs and groups arranged around particular interests offered by megachurches) offered as a substitute for their secular counterparts, as a mechanism to insulate believers from contrary ideas. By keeping the believer in a community that is, at least to some extent, isolated from the broader world, the danger is reduced that a believer will be exposed to alternative views and practices which he might be likely to imitate through peer pressure, social proof, or social conformity.

But now to make a greater leap of speculation. Neurologist V.S. Ramachandran has argued that "mirror neurons" or "empathy neurons" play a major role in human (and other primate) imitative behavior that drives learning. Those neurons (if they exist, and there is some doubt) are in the inferior frontal and parietal cortex. Caltech neuroscientist John Allman (who spoke at the Skeptics Society conference on mind, brain, and consciousness in 2005) has argued that spindle cells in the anterior cingulate cortex play a role in sensitivity to social cues, and a deficiency of such cells may be a cause of autism. Perhaps there is a neurological explanation for some kinds of independent thinking that involves a lessened degree of sensitivity to social cues, or a lessened drive to imitation and conformity, that yields doubters and skeptics?

Now, this can't be the whole story--it may be more important that there are other positive drivers of independence and willingness to be an outspoken dissenter, and I suspect that leaders of dissenting groups tend to have a very high degree of sensitivity to social cues in order to be successful in persuasion. Further, once you have some dissenters in the population, they themselves can be exemplars to be imitated by people with high sensitivity to social cues. But the speculation it would be interesting to investigate is: are people who are skeptics about commonly held beliefs in the general population about the supernatural and paranormal measurably different in some critical way, psychologically or neurologically, that makes them less susceptible to such social pressures that provoke imitation and internalization of those views? Are the initial participants in such groups different from later joiners? Could this have anything to do with why organizing skeptics and atheists is like herding cats? Or why there's a high percentage of IT professionals in skepticism? Are skeptics and atheists less emotionally engaged and driven than religious believers? Is there a tendency towards Asperger's among skeptics and atheists? (Disclosure: I scored a 32 on this Asperger Test.)

Religious believers sometimes argue that there is a sensus divinitatis, a human faculty for perceiving God, and Dean Hamer has argued that there's a "God gene." It's possible that there's something to this, but that it's a bit simpler and a more of a matter of susceptibility to social conformity.

(Possibly related posts: "Unconscious decision-making," "The Rise of Pentecostalism and the Economist Religion Wars issue"; "An empirical test of the existence of sensus divinitatis in atheists" at the Secular Outpost.)

Wednesday, August 26, 2009

Joel Garreau on the future of cities

Today I attended a lecture at ASU by Washington Post writer Joel Garreau, author of Edge Cities and Radical Evolution, about the future of cities. What follows is a rough sketch of his talk based on my notes.

He began by saying that he's interested in culture and values, and isn't a "gear-head" about the emerging technologies that he's written about ("GRIN" technologies--genetics, robotics, information systems, and nanotechnology).

He currently studies cities--how they are shaped by technology, and how cities shape us.

He started with a slide of an old Spanish map of the New World, which was mostly accurate, except for an oversized Florida and drawing California as an island. Why was California shown as an island? Because explorers in the Seattle area saw a body of water that went very far to the south, and explorers in the Baja California area saw a body of water that went very far to the north, and they just connected the dots. That error took 100 years to correct. Spanish explorers would land in Monterey Bay and carry boats inland, expecting to hit water, and they always commented that the Indians in the area seemed to be friendly. Garreau suggested that they were actually laughing at them for pointlessly carrying boats inland. When the explorers would fail to hit another body of water, they would report back that the map was wrong, only to be told that they must not have been where they thought they were. It finally took a decree from the King of Spain to change the map.

His next slide was of the Los Angeles area, pointing out what he called "edge cities," which he called "the biggest change in 150 years of how we build cities." "Edge cities" are major and new urban centers around old big cities. They have a large amount of office and retail space, lots of jobs, and didn't exist 30-40 years ago. They are popping up everywhere there is major growth. The area around John Wayne Airport in Orange County, California, is an edge city--it has 5 million square feet of office space (more than Memphis), 600,000 square feet of retail space. It's not a suburb, or sub-anything. It's not a bedroom community. It has the features of office parks and all traditional city functions. The edge cities in New Jersey in the greater New York area have more jobs than Manhattan.

Phoenix was one of the earliest places to recognize that it was going to have more than one city center--we have major centers downtown, uptown/Central Avenure, Camelback/Biltmore, South Mountain, and Tempe (among others), and these were recognized as centers that would exist by city planners a couple of decades ago.

Paris has La Defense as an edge city, as well as Marne-la-Vallee, where EuroDisney is. When superior locations for growth are first found, the rich people move in first, and tend to go uphill, upwind, and upriver, byt Marne-la-Vallee was a poor area that was planned to be an edge city by selecting it as the location for EuroDisney, and it succeeded.

Boston edge cities include the Burlington Mall area, MIT area, downtown, Quincy/Braintree, and Framingham area.

One major factor that has changed cities are the available modes of transportation. Chicago was formed as a rail town, based around inter- and intra-urban rail. Detroit was formed as an automobile town.

The last industrial age downtown built in North America was Calgary, Alberta, Canada in 1914. In 1915, the one millionth Model T Ford came off the assembly line, and ended the old downtowns. The old industrial downtowns were from the 1840s to 1914, and existed because of the necessity of collecting raw materials in one place and having thousands of people there to work on those materials.

Prior to those downtowns, cities were places like Jefferson's Charlottesville, Washington's Alexandria, and Lincoln's Philadelphia. Most people earned a living from the land, and lived outside of cities.

The automobile suddenly made places outside the old industrial cities far more valuable, like Long Island.

Until 1955, the southwestern-most Major League Baseball team was in St. Louis, because movement by train placed constraints on scheduling. The Cardinals were thus the team rooted for by everyone further south and west. Once airplanes came into the picture, baseball could spread, and other cities could become major cities--Los Angeles, Dallas, Phoenix, Seattle, Houston.

Garreau asked, if Chicago were leveled, what would you rebuild first--O'Hare, or downtown. O'Hare is more critical today.

But the changes caused by automobiles and airplanes is nothing compared to the networked computer, which is making changes more significant and more rapidly than the automobile.

He showed a photograph of a Kresge's in the Capitol Hill area of D.C., explaining that it was a discount 5 & dime store, the K in K-Mart. He said Kresge's is dead, and K-Mart is dying, but do you think the building is still there, and if so, what is it? The first guess--Starbuck's--was almost correct. It is a coffee shop. He argued that Kresge's and K-Mart has been killed by Wal-Mart, which is really an IT company that happens to sell sneakers. He claimed that when you buy a pair of sneakers at Wal-Mart, a process kicks off at check out that starts to make a replacement pair in Malaysia within 24 hours.

So why are coffee shops popular, and why do people pay $4 for coffee? Is it the free wireless? He argued that it is a social thing, only marginally about the coffee and the wifi. The main factor around the physical environment is that the rare stuff we can't digitize, like face-to-face contact, has much higher relative value than it did before.

Bill Mitchell of the MIT Media Lab, and former head of the architecture department, has catalogued 87 forms of real estate in cities, all being transformed by information technology. One form is super markets. Garreau asked, if you could get hamburger and toilet paper delivered to your home for free, why would you get in your car to go get groceries? To buy produce or meat, was the answer suggested by the audience. He then showed a photo of a Freshfields, a modern farmer's market, and showed a photo of booths with tables inside it--it's also a place to sit and socialize.

Another type of building is a prison. He suggested that we don't need as many prisons if we use GPS anklets or bracelets for nonviolent offenses.

He then argued that Moore's Law will continue to hold for the forseeable future, and we've already seen 32 doublings in processors since 1959. The only thing comparable is railroad capacity doubling, which saw 14.5 doublings before leveling out due to requirements of coal, steel, and land, and being superseded by the automobile. The IT limits are the laws of physics, the marketplace, human ingenuity, and our culture and values, and he argued that only our culture and values set real limits for the forseeable future. (In a class yesterday, one of my professors said that a physics professor speaking at ASU last year said that we've reached the physical limits for silicon chips, and won't see any more doublings, but a subsequent new development has already refuted him with a four-times improvement due to nanotechnology--presumably this.)

Sequencing the human genome was thought nuts, impossible, and/or would cost a fortune, but was done in 2000 at a fraction of the expected cost, far sooner than anyone expected, thanks to Moore's Law.

Garreau suggested that ten years from now, anything you can put in a lab for $1 million will be something you can put in your home for $1,000; anything you can get now for $1,000 will be "pocket lint." He used USB memory fobs as an example of today's "pocket lint."

He showed a photo of students at CMU in a computer lab, and asked, "Is there a future for physical university campuses?" He gave a yes, on the grounds that this is where you "meet your first spouse and friends for a lifetime"--the social aspects. Distance learning has been around for a very long time (Benjamin Franklin did learning-by-mail), but it's always a second choice.

Shopping malls, he said, are turning into entertainment spaces. He cited his friend Jaron Lanier (a virtual reality pioneer), who suggests that the first thing to disappear will be escalators, replaced by rides--so when you go up by ferris wheel and come down by water slide, think of Lanier. He observed that if you go to a mall at 10 a.m., you'll see the senior mall walkers, and if you go in the afternoon, you'll see "drug dealing rugrats." (He didn't note, but I thought of how Arizona Mills Mall in Tempe has turned one space into an indoor miniature golf course.)

Office space--is there any future to it? Again, he argued for the social aspect, and maintained that the accidental casual face-to-face contact is impossible to digitize, yet he finds the random conversation at the printer jam (the modern equivalent of the water cooler) to be his most productive time of day. To this, Prof. Brad Allenby objected that there is casual contact in World of Warcraft and Second Life, and we shouldn't assume that such things can't be digitizable.

Another audience member suggested that because human beings need touch, we need real physical contact. (But that assumes the impossibility of tactile telepresence.) Yet another pointed out that movie theater attendance is up, even though you can watch online or at home cheaper.

Garreau said, supposed you decide face-to-face matters, but only need it two days a week--how would that affect where you live? If you only needed it 3 days a month, then where might you live?

He said some cities will live, if they are good for face-to-face contact. Others will die, if they aren't. We're headed to a profound shift of what is urban/urbane, and cities like Santa Fe are the future. It has 63,000 people, opera, restaurants, second-hand boot stores.

The top fastest-growing metro areas are smaller cities that are like villages with face-to-face spaces and are somewhat dispersed. The top ones are Wenatchee, WA, Provo-Orem, UT, Grand Junction, CO, Gulfport-Biloxi, MS, and Myrtle Beach, SC. The top states for real estate price appreciation are Utah, Idaho, Montana, and Wyoming. Other example cities in this model include the Adams-Morgan area of D.C., Tempe, AZ, and Marrakesh.

He then briefly turned to other technologies. He said that Craig Venter says that by the end of this year he will have an organism that "eats CO2 and poops gasoline." (And his company has just received $600 million in funding from ExxonMobil.) Nanotech may build membranes that purify water. These things will impact where cities become feasible. "Is Darfur the next garden spot?"

He then referred to a book by Leo Marx of MIT, titled The Machine in the Garden. He argued that in the industrial age, we suffered a split--we had to come into the cities and leave nature behind. Now we're trying to put what we like about cities into a garden.

In the final Q&A, he said he has a hidden assumption that we will continue moving forward and not go back to pre-industrial society; he said "no petroleum engineers think we're running out of oil, only cheap oil."

He said that we're seeing a new explosion of religious fervor, and included environmentalism in that, saying that it has its own saints and heretics. He thinks human beings are "hardwired to have faith--even Russia made Marxism into faith," but said that he's "a hardcore rationalist" even though "rationalism doesn't seem to be emotionally satisfying." He said, following Popper, that "science can't tell you what is true, only what is false, but it can changes minds without killing people." (I disagree with his statement that science can't tell you what is true--theories that keep passing tests do at least approximate truth.)

An audience member commented that virtual environments can convey mental and physical aspects, but not emotional and spiritual. Garreau agreed, but I think both (and a few other questioners) were making an unwarranted assumption that virtual environments will not be able to reach a point of being indistinguishable (or very nearly so) from real environments, and thus allowing effective conveyance of body language, subtle gestures, and so forth, perfectly adequate for transmitting emotional information. (As for spiritual properties, I think they're in need of demonstration before we worry about them--and given claims that have been made about them, it's surprising that the questioner thought physical proximity was a limitation.) In a conversation with Prof. Allenby afterward, he also pointed out that we may be better able to make judgments of trust in a virtual environment because we are more alert to the possibility of a partial presentation of a personality and to intentional distortions. There are also some types of cues that are more accurately picked up audibly, while visual information can overwhelm those cues.

Prof. Allenby also noted that major technological changes may turn what we now think of as fundamental truths into contingencies, and that may include some aspects of what we call human nature.

Garreau ended by observing that past predictions of what the future will be like have usually been wrong, becasue things are more complex and more expensive then we think--and then we get blindsided by innovations like the iPhone.

Sunday, August 23, 2009

Bob Larson is still around and performing exorcisms

Pierre Stromberg has an entertaining tale of his visit to a performance by former radio broadcaster, self-proclaimed cult expert, and exorcist Bob Larson at his new Paranormal Amerika blog. Larson suffered a significant blow to his career as a result of criticisms from his fellow Coloradoan Ken Smith's "Bob Larson Fan Club." Further damage came from exposure at the hands of Cornerstone magazine, which published carefully investigated exposures of deception, misuse of funds, fabricated biographical events, and so forth. Others exposed by Cornerstone included alleged former Satanist turned Christian comedian Mike Warnke and claimed Satanic ritual abuse victim "Lauren Stratford," author of Satan's Underground.

Larson is, unfortunately, now based here in the Phoenix area, with his "Spiritual Freedom Church of Phoenix" at 9096 E. Bahia Drive in Scottsdale, though for some reason it has a mailing address of a post office box in Denver.

Saturday, August 22, 2009

Mexico decriminalizes personal possession of drugs

After at least two prior attempts in 2006 and 2008, Mexico has decriminalized the personal possession of small amounts of marijuana, cocaine, heroin, LSD, and methamphetamine in order to unclog the courts and focus only on heavy trafficking. This will be an interesting experiment in decriminalization that will no doubt also provoke drug tourism to Mexico.

It appears that the new law is similar to the 2006 proposal, which was less radical than it may have originally appeared--it allowed local police as well as federal police to pursue drug crimes (a strengthening of the prosecution of drug crime) and allowed diversion to treatment for possession of small amounts of drugs rather than criminal prosecution. The new law doesn't allow criminal prosecution for personal possession, and mandates treatment diversion on a third offense. So it's not legalization, it's decriminalization.

Thursday, August 20, 2009

Skeptical Blog Anthology 2009 seeking nominations

From the Young Australian Skeptics:
Inspired by the annual The Open Laboratory, the Skeptical Blog Anthology is a printed anthology of blog posts voted the very best of 2009, managed by the Young Australian Skeptics in conjunction with the Critical Teaching Education Group (CTEG). The anthology is an attempt to bring a greater awareness of the skeptical content on blog sites and showcase some of the range and diversity in the blogosphere.

With an aim to provide text-​​based resources to classes and readers who may be interested or intrigued by what skepticism has to offer, entries from January 1st to December 1st 2009 are eligible for submission. Both a print and Portable Document Format (pdf) will be made available for purchase via Lulu​.com, with estimated printing early in 2010.

Entries can be self-​​nominated or proposed by readers of skeptical blog sites. The guidelines proposed by the popular Skeptics’ Circle are a fine indicator of the kind of content suitable for the anthology, including urban legends, the paranormal, quackery, pseudoscience, intelligent design, historical revisionism, critical thinking, skeptical parenting/​educating skeptically, superstitions, etc.
There's a submission form at the Young Aus Skeptics website.

Wednesday, August 19, 2009

Brian Dunning on debate

In Skeptoid #167, Brian Dunning argues that scientists should never engage in debate on pseudoscientific topics. His arguments include:
  • It's a waste of time.
  • It gives pseudoscience undeserved credibility by putting it on an equal footing with science.
  • There are few people in the audience who haven't already made up their minds.
  • Most of the people in the audience can't distinguish good from bad arguments.
His position is similar to that of Eugenie Scott of the National Center for Science Education, who recommends that scientists not engage in formal debates with creationists.

While Dunning correctly points out some major flaws in how formal debates have frequently gone, and I agree that such debates should be discouraged, I think there are cases where they are worthwhile--it depends on the formulation of the resolution to be debated, the setting of the debate, and, perhaps most importantly, the quality of the debater. Too many creation/evolution debates have involved scientists who believe themselves to be good debaters, but who don't understand how debate works and aren't sufficiently familiar with creationist arguments to an appropriate breadth and depth. Unfortunately, many of those scientists think they won the debate or did a passable job when in fact they performed very poorly.

The resolution to be debated should be formulated so that there is a clear burden of evidence on the promoter of the pseudoscience, where it belongs. It's a mistake to formulate a debate resolution as a false dilemma, where if the scientist can't refute scattershot attacks, the pseudoscientist wins. Duane Gish of the Institute for Creation Research won most of his debates by not only engaging in such a shotgun approach (the "Gish Gallop"), but also by refusing to talk about the age of the earth or flood geology, thus freeing himself from having to present any positive evidence in favor of his view. (I spoke a bit more about Gish's debate success and how to successfully counter his debate strategies in my workshop session at this year's American Humanist Association conference.)

The setting of the debate is also important, and is relevant to Dunning's concern about audience. An academic debate at a university is more likely to have audience members who are actually interested in the evidence than, say, a debate at a church. It's also significant whether the debate is being recorded and will be distributed further--a well-done debate that is recorded and transcribed, and distributed in the form of a book, DVD, or online is going to have a much larger audience and may have much more significant consequences than the potential persuasion of five people in Dunning's example. There are also debates conducted in written form, which provide the possibility of much more comprehensive argument and references to other material than an oral debate on a stage or on television, which I think generally makes them preferable.

The concern about giving a pseudoscience proponent undeserved credibility is a real one, and for that reason it's probably a good idea for the debater to be someone of similar or lesser public stature, as well as someone well-versed in both debate and the details of the pseudoscience's claims. Proponents of pseudoscience often issue challenges to prominent individuals for the primary purpose of getting publicity from it, which they may get to some degree either from denial or acceptance--but much more from acceptance if they so much as appear to hold their own.

Dunning dismisses the concern that failure to debate leaves pseudoscience unchallenged, but I think there is a real potential concern here, as a refusal to debate can give proponents of pseudoscience a rhetorical weapon when there's the appearance that no one is willing to challenge their arguments. This can, to a large extent, be defused if you can point to resources that refute the proponent's claims in detail, and make the counter-argument that the proponents views aren't deserving of a public forum. But in cases where the proponent's views have received a large public following and there aren't comprehensive resources that refute them, or such resources are little-known, I think that builds a case for debate.

I think Dunning is right that it's generally better to produce direct responses to pseudoscientific claims in a one-way format, but even that can be a form of debate to the extent it actually engages the proponents and they respond. What's distinctive about a debate--at least a good one--is that it does involve engagement by both sides with the arguments and evidence of the other, and produces a record of that engagement for others to examine. That has advantages over siloed separate arguments that never directly respond to each other. I think that such engagement should be beneficial for scientists by identifying forms of misunderstanding that need corrections in the form of better communication, as well as locating possible weaknesses in their own evidence and arguments that need further work. It's also beneficial for the proponent of pseudoscience in that it puts them into a situation where they must, at least momentarily, think about the arguments and evidence against their positions.