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大腦科學經濟學 - R. J. Shiller
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The Neuroeconomics Revolution



Robert J. Shiller, 11/21/11



NEW HAVEN – Economics is at the start of a revolution that is traceable to an unexpected source: medical schools and their research facilities. Neuroscience – the science of how the brain, that physical organ inside one’s head, really works – is beginning to change the way we think about how people make decisions. These findings will inevitably change the way we think about how economies function. In short, we are at the dawn of “neuroeconomics.”



Efforts to link neuroscience to economics have occurred mostly in just the last few years, and the growth of neuroeconomics is still in its early stages. But its nascence follows a pattern: revolutions in science tend to come from completely unexpected places. A field of science can turn barren if no fundamentally new approaches to research are on the horizon. Scholars can become so trapped in their methods – in the language and assumptions of the accepted approach to their discipline – that their research becomes repetitive or trivial.



Then something exciting comes along from someone who was never involved with these methods – some new idea that attracts young scholars and a few iconoclastic old scholars, who are willing to learn a different science and its different research methods. At a certain moment in this process, a scientific revolution is born.



The neuroeconomic revolution has passed some key milestones quite recently, notably the publication last year of neuroscientist Paul Glimcher’s book Foundations of Neuroeconomic Analysis – a pointed variation on the title of Paul Samuelson’s 1947 classic work, Foundations of Economic Analysis, which helped to launch an earlier revolution in economic theory. And Glimcher himself now holds an appointment at New York University’s economics department (he also works at NYU’s Center for Neural Science).



To most economists, however, Glimcher might as well have come from outer space. After all, his doctorate is from the University of Pennsylvania School of Medicine’s neuroscience department. Moreover, neuroeconomists like him conduct research that is well beyond their conventional colleagues’ intellectual comfort zone, for they seek to advance some of the core concepts of economics by linking them to specific brain structures.



Much of modern economic and financial theory is based on the assumption that people are rational, and thus that they systematically maximize their own happiness, or as economists call it, their “utility.” When Samuelson took on the subject in his 1947 book, he did not look into the brain, but relied instead on “revealed preference.” People’s objectives are revealed only by observing their economic activities. Under Samuelson’s guidance, generations of economists have based their research not on any physical structure underlying thought and behavior, but only on the assumption of rationality.



As a result, Glimcher is skeptical of prevailing economic theory, and is seeking a physical basis for it in the brain. He wants to transform “soft” utility theory into “hard” utility theory by discovering the brain mechanisms that underlie it.



In particular, Glimcher wants to identify brain structures that process key elements of utility theory when people face uncertainty: “(1) subjective value, (2) probability, (3) the product of subjective value and probability (expected subjective value), and (4) a neuro-computational mechanism that selects the element from the choice set that has the highest ‘expected subjective value’…”



While Glimcher and his colleagues have uncovered tantalizing evidence, they have yet to find most of the fundamental brain structures. Maybe that is because such structures simply do not exist, and the whole utility-maximization theory is wrong, or at least in need of fundamental revision. If so, that finding alone would shake economics to its foundations.



Another direction that excites neuroscientists is how the brain deals with ambiguous situations, when probabilities are not known, and when other highly relevant information is not available. It has already been discovered that the brain regions used to deal with problems when probabilities are clear are different from those used when probabilities are unknown. This research might help us to understand how people handle uncertainty and risk in, say, financial markets at a time of crisis.



John Maynard Keynes thought that most economic decision-making occurs in ambiguous situations in which probabilities are not known. He concluded that much of our business cycle is driven by fluctuations in “animal spirits,” something in the mind – and not understood by economists.



Of course, the problem with economics is that there are often as many interpretations of any crisis as there are economists. An economy is a remarkably complex structure, and fathoming it depends on understanding its laws, regulations, business practices and customs, and balance sheets, among many other details.



Yet it is likely that one day we will know much more about how economies work – or fail to work – by understanding better the physical structures that underlie brain functioning. Those structures – networks of neurons that communicate with each other via axons and dendrites – underlie the familiar analogy of the brain to a computer – networks of transistors that communicate with each other via electric wires. The economy is the next analogy: a network of people who communicate with each other via electronic and other connections.



The brain, the computer, and the economy: all three are devices whose purpose is to solve fundamental information problems in coordinating the activities of individual units – the neurons, the transistors, or individual people. As we improve our understanding of the problems that any one of these devices solves – and how it overcomes obstacles in doing so – we learn something valuable about all three.


 


Robert Shiller, Professor of Economics at Yale University, is co-author, with George Akerlof, of Animal Spirits: How Human Psychology Drives the Economy and Why It Matters for Global Capitalism.


 


Copyright: Project Syndicate, 2011, www.project-syndicate.org


 


http://www.project-syndicate.org/commentary/shiller80/English

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Genoeconomics: Is Our Financial Future In Our Chromosomes?

 

Jon Entine, 10/14/12

 

A new phase in the Gene Wars is about to begin—this time focused on the nexus of genetics and economics.

 

Nature carried a provocative article last week laying the ground work for what should be a fiery debate over the nascent field of genoeconomics. The prestigious American Economic Review is set to publish a peer reviewed paper co-authored by two economists, Quamrul Ashraf and Oded Galor, that argues that a country’s economic well being could be linked to the population’s genetic make-up. Earlier versions of the article have been available on the web for a few years, and it’s aleady stirred quite a controversy.

 

According to Nature: “The paper argues that there are strong links between estimates of genetic diversity for 145 countries and per-capita incomes, even after accounting for myriad factors such as economic-based migration. High genetic diversity in a country’s population is linked with greater innovation, the paper says, because diverse populations have a greater range of cognitive abilities and styles. By contrast, low genetic diversity tends to produce societies with greater interpersonal trust, because there are fewer differences between populations. Countries with intermediate levels of diversity, such as the United States, balance these factors and have the most productive economies as a result, the economists conclude.”

 

The term “genoeconomics” was coined only a few years ago. Spurred by groundbreaking public policy and social and economic research at the University of Chicago over the past two decades, economists have been expanding their wings, exploring the role of economic factors in our culture. The subject became mainstream after the bestselling success in 2005 of Freakonomics: A Rogue Economist Explores the Hidden Side of Everything by UC economist Steven Levitt and New York Times journalist Stephen Dubner. Within a few years, economists began turning their sights on the intersection of genetics and economics.

 

In May, the Boston Globe ran a fascinating piece, In Search of the Money Gene, featuring some of the young pioneers, Phillip Koellinger, now a professor at Erasmus college, then a MIT student but now a professor at New York University. Within a few years, a plethora of the best and the brightest in economics had jumped into the field—and the fray.

 

Their basic premise—which is incontestable in its most superficial form—is that genetics underlies many of the things, like risk-taking, patience and generosity that society has traditionally assumed are shaped totally by social and environmental factors. The challenge is to what degree scientists can tease out these genetic factors and what patterns might be found in various genetic groups, such as by sex or countries or ethnic and religious populations. Clearly, it’s potentially explosive stuff.

 

Leon Neyfakh in the Globe traces the movement—that’s what it has already become—to 1976, when the late University of Pennsylvania economist Paul Taubman published the results of a study in which he followed the financial lives of identical twins. The congruence in their “economic lives”—even in cases in which identical twins had been separated and raised in different cultural situations—was striking. Taubman estimated that between 18 percent and 41 percent of variation in income across individuals was heritable. Spurred by the completion of the Human Genome Project in 2000 and the budding of the field of neuroeconomics (the study of how economic decision-making functioned inside a person’s brain), the groundwork was laid for the emergence of genoeconomics.

 

It’s fascinating and controversial research. “I’m really worried that if [tracing behaviors to genes] should become possible, it may lead to a lot of things that we don’t want,” Neyfakh quotes Koellinger as saying. “I very firmly believe that information about your genetic makeup is probably the most private thing you could possibly have, and there should be extremely tight protections to make sure that no one gets their hands on this data unless you as an individual explicitly want this.”

 

No wonder that Ashraf and Galor’s paper is already prompting out-cries from the “we shouldn’t be discussing such things” crowd. The digital ink is not even dry and yet the authors are facing charges of genetic determinism and racism. Geneticist David Reich of Harvard Medical School in Boston, Harvard University paleoanthropologist Daniel Lieberman and more than a dozen other Harard professors have written an open letter highly critical of the paper and decrying its potential for mischief: “[T]he suggestion that an ideal level of genetic variation could foster economic growth and could even be engineered has the potential to be misused with frightening consequences to justify indefensible practices such as ethnic cleansing or genocide,” the letter said.

 

The reaction comes across as overheated. The paper had in fact been peer reviewed by economists and biologists and is not presented as definitive. Ashraf and Oder make a point of noting that they are merely using genetics as a proxy for other factors that can drive an economy, such as history and culture, so charges of determinism appear misplaced, serving mostly to raise the threat of soft censorship.

 

A taboo invariably emerges when the nexus of genetics and behavior are discussed. It was almost impossible to have a reasoned discussion about The Bell Curve or either of my two popular books on population genetics: Taboo: Why Black Athletes Dominate Sports and Why We’re Afraid to Talk About It and Abraham’s Children: Race, Identity and the DNA of the Chosen People.

 

This is not an endorsement of this latest salvo in the ‘gene wars’ debate. It is a reminder that genetics is opening wide new doors of inquiry. It would be dangerous to close them based on concerns the previous inquiries into human differences have been misused. As we never know where new advances in science will originate we’re far better served by vigorous debate. Let’s hope more researchers pursue this subject and with even more intellectual rigor—and their work is welcomed as a appropriate subject for debate and discussion.

 

Follow Jon on Twitter

 

Check out the Genetic Literacy Project, which carried this article in this week's GLP Weekly Digest.


 

Jon Entine, founding director of the Genetic Literacy Project, is senior fellow at the Center for Health&Risk Communication at George Mason University, and a senior fellow at the Statistical Assessment Service (STATS).

 

http://www.science20.com/jon_entine_contrarian/genoeconomics_our_financial_future_our_chromosomes-95173



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