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大腦小知識--J. Bryner
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Big Brains Mean Longer Life Jeanna Bryner, LiveScience Staff Writer, LiveScience.com Brains are good for more than acing exams. Turns out, nerdy noggins also help primates like us live longer, anthropologists say. Scientists have long pondered the reason for humans' and other primates' relatively hefty heads. Elephants boast the biggest brains by volume of all land animals, but relative to body size, humans hold the brain-size record. "There's got to be a benefit to this big brain, because big brains are really expensive to grow and maintain, energetically expensive," said lead researcher Nancy Barrickman, a graduate student in Duke University's Department of Biological Anthropology and Anatomy. The study, to be detailed in a forthcoming issue of the Journal of Human Evolution, suggests primates basically balance the costs of growing big brains with the survival benefits they get from having stellar smarts - they live longer. Growing a brain By comparing brain sizes and other developmental features of 28 primate species, Barrickman and her colleagues found primates with larger brains take longer to reach sexual maturity. The researchers focused on primates living in the wild, because captive species tend to grow up faster, a phenomenon that would skew results. For humans, the team studied the Ache, a tropical forest culture in eastern Paraguay. This time-consuming bulking of the brain better be worth it: "In order to pay off all that time you spent growing up," Barrickman said, "either you live a long time and have lots of kids over that life span, or you reproduce really fast. Either way you're getting a lot of offspring." The analyses showed big brain size is linked with longevity rather than reproductive rate. Survival smarts The researchers suspect the extra brainpower allows primates to learn savvy food-finding techniques, as well as predator avoidance and social skills. For instance, studies by Barrickman's colleagues showed the brainiac of all lemurs, called the aye-aye, also has one of the most bizarre food-finding techniques. These bat-eared lemurs are thought to need extra brainpower to master the skill of tap-foraging, in which they locate insect larvae by tapping on tree trunks and listening for the telltale sounds of a tasty morsel. "It takes a year-and-a-half to learn it, and the babies need to spend a lot of time watching the mom," Barrickman said. Human helpers While humans fit in with the basic pattern of brain size and longevity, we stood out in one respect. Humans in hunter-gatherer societies don't take much of a break between babies, just three years on average, the researchers found. "In a hunter-gatherer [society], three years is short," Barrickman told LiveScience. "You've got a three-year-old toddling around the African bush and another baby on your back. That's really difficult to juggle." Our secret: family helpers, such as grandmas, fathers, older siblings and others. "It's not just mom," Barrickman said. The study was supported by the scientific research society Sigma Xi, the American Museum of Natural History in New York and the Ruggles Gates Fund for Biological Anthropology in the U.K. · Are Big Brains Smarter? · Top 10 Mysteries of the Mind · Why Haven't All Primates Evolved into Humans? 轉貼自: http://news.yahoo.com/s/livescience/20080418/sc_livescience/bigbrainsmeanlongerlife;_ylt=Amn8E4xml_wO.euIq.VGmrobr7sF
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偵測及預警大腦怠工 -- C. Q. Choi
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Mind-Reading Hat Could Prevent Brain Farts
Charles Q. Choi, Special to LiveScience, LiveScience.com
We've all goofed up and flubbed up things we've previously done time and again.
It turns out the root of these brain farts may be a special kind of abnormal brain activity that begins up to 30 seconds before a mistake even happens.
The solution to such screw-ups could be a kind of mind-reading hat, a device to predict and even prevent mindless errors that can threaten lives.
When people blunder after performing the same task over and over, scientists had suspected that such lapses were due to momentary hiccups in concentration. Still, little was known about what the brain was actually doing before such errors.
To investigate further, the brains of volunteers were scanned as they performed a monotonous task - repetitively pushing buttons that matched images flashed at them.
Scientists astonished
Unexpectedly, before volunteers made errors, their brains started displaying abnormal behavior ... up to a half-minute beforehand.
"We thought initially that it would be quite remarkable if we were to find abnormal activity six or so seconds ahead," said researcher Tom Eichele, a neuroscientist at the University of Bergen in Norway. "That the entire process spans across a much longer timescale was quite astonishing and spooked us, such that we checked this finding over and over again."
One set of brain regions that is normally active only when a person is awake and relaxed began firing up - in other words, it's as if the brain started resting. At the same time, another group of brain regions that is usually lively when a person is sustaining effort on a task began toning down. After people made and detected any mistakes, the abnormal behavior went away.
The international team of researchers suspects this abnormal behavior is the result of the brain attempting to save effort on a task. When the brain goes too far, errors occur.
"We did not find much evidence that the brain is just getting tired. However, I don't think that we understand it well enough to bet all our money yet," Eichele said.
Fix it
If portable devices could detect this abnormal brain activity before an accident happened, they could save lives - say, by sounding an alert before a slip is made while driving a car or operating a piece of machinery in a factory.
The problem is the researchers scanned the brains of volunteers using functional MRI. This conventionally has patients lying down in a large tube while slowly getting probed with powerful magnetic fields and radio wave pulses - not exactly ideal helping people in everyday situations.
However, if such abnormal brain activity can get detected simply using electrodes on the scalp, then brain-scanning caps under development for video games and other applications might work, Eichele said. "It, at least, does not seem technically impossible," he told LiveScience.
Even if a mind-reading hat can detect this abnormal brain activity, there may be too many brain waves to decipher out any early warning signals, Eichele cautioned. "It might give out warnings all the time, which would not be helpful, or not give you any warning, which is also not helpful," he said. "We have to figure out how sensitive and how specific we can go."
Eichele and his colleagues soon hope to see if electrodes on the scalp can detect these signals. "We might also take experiments into virtual reality - virtual car driving, virtual piloting - to look for these signals," he said. The scientists detailed their findings online April 21 in the journal Proceedings of the Natural Academy of Sciences.
· Why We Learn From Mistakes · Top 10 Mysteries of the Mind · Computer to Read Minds
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http://news.yahoo.com/s/livescience/20080421/sc_livescience/mindreadinghatcouldpreventbrainfarts;_ylt=Al5OrP6VHw6L5FKdMPEDPhcbr7sF
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腦的大小未必和智力直接相關 -- M. Schirber
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Big Brains Not Always Better Michael Schirber, LiveScience Staff Writer, 02/19/2005 WASHINGTON D.C. - Nearly three million years ago, our ancestors had brains about as big as modern chimps. Since then the brain that would become human grew steadily, tripling in size. But this extra cranium capacity may not have resulted in smarter hominids. As far as tool-making is concerned, there is little evidence of improvement over much of the period that the brain was growing. "Archaeology has found that brain size grew gradually, but cleverness took steps," said William Calvin, a neurobiologist from the University of Washington. The most dramatic of these steps is referred to by some as the Mind's Big Bang. It occurred between 50,000 and 70,000 years ago. This burst of creativity resulted in bone tools, including sewing needles and throwing sticks. There was also a flourishing of portable art, like necklaces and pendants, as well as cave paintings. "There was nothing like this before," Calvin said here Friday at the annual meeting of the American Association for the Advancement of Science meeting in Washington, D.C. It is hard to explain the Mind's Big Bang with a jump in skull size, seeing as Homo sapiens with modern-sized brains had already been around for 100,000 years or more before the tool and art revolution occurred. "The big brain was perhaps necessary for the creative explosion at 70,000 years ago, but it sure wasn't sufficient by itself," Calvin said. Subtle advancements So what was a larger brain good for? What was the evolutionary advantage that propelled our family tree to make more room between the ears? Calvin postulates that a big brain may have made our ancestors better hunters by improving their throwing accuracy. Or perhaps it allowed for the development of a rudimentary language of three-word sentences. The social psychologist Robin Dunbar has even suggested that the higher memory capacity in a bigger brain could have helped early hominids identify freeloaders who were not pulling their weight for the community. But none of these subtle advances, according to Calvin, led to the emergence of behaviorally modern humans. "If you can't speak sentences of more than 2-3 words at a time without them all blending together like a summer drink, you likely cannot think complicated thoughts either," he said. Increasing sentence length or doing multi-stage planning requires an understanding of structure. Moreover, it is structural creativity that led to advances in tools and art. Spread of innovation This structure may have developed in early human language and thought through trial and error. "We invent new levels on the fly," Calvin said. A lot of this invention might be nonsensical, but occasionally an innovative adult might have tried out a new word or syntax, and a child heard it and began incorporating it into his or her language. "Then long-sentence language can spread like a contagious disease, as more kids hear structured sentences and grow up to become super adults," Calvin explained. The incorporation of more and more complexity is attributable to a combination of culture and genes. "Behavior invents, and then little genetic changes come along that improve it," Calvin said. He wonders if we might be headed into a second big bang of the mind. With "better-informed education" based on empirical methods, Calvin postulated that we might see a creative flourishing in the coming century, comparable to the advances made in medicine of the past century. 轉貼自: http://www.livescience.com/health/050219_big_brains.html
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腦大未必聰明 -- J. Bryner
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Are Big Brains Smarter?
Jeanna Bryner, LiveScience Staff Writer, LiveScience.com If this were true, then perhaps big-headed people wouldn't be so pea-brained. This question is mired in many unknowns. For one, scientists still debate over the definition of intelligence. For any IQ definition, how do you measure it? Further, do differences in IQ show up in daily life? And finally, does more brain tissue or a heftier brain equate with higher IQ? One thing scientists do agree on: A big brain alone doesn't equate with smarts. If it did, elephants and sperm whales would win all the spelling bees. Rather, scientists look at brain mass relative to body mass in order to make any speculation about a creature's cognitive abilities. So while an elephant noggin, at 10.5 pounds (4,780 grams), could squash a human think box in a purely physical battle of brains, you and I take the cake in a war of wits. Our brains, which weigh an average of 2.7 pounds (1,200 grams), account for about 2 percent of body weight, compared with an elephant's under one-tenth of a percent. Studies have shown that across species relatively large brains "do seem to provide some complex cognitive skills, such as innovative solutions to ecological problems, more efficient resource mapping and food acquisition, and more complex social strategies (such as deception)," said Nancy Barrickman, a graduate student in Duke University's Department of Biological Anthropology and Anatomy. Differences in brain size within a species, such as humans, are relatively small, making it difficult to tease out the effects of brain size and the effects of other factors. For instance, the difference in intelligence between an organism with, say, a brain that's 1,100 grams and one that's 1,400 grams (which could be found in humans) is confounded by other variables, including differences in density of neurons, other structural brain differences and socio-cultural factors. And the debate continues ... Brain size has nothing to do with scores on standardized intelligence tests, according to a brain-scan study of young children. Michael McDaniel, an industrial and organizational psychologist at Virginia Commonwealth University, has claimed that bigger brains do make for smarter people. Many researchers, however, disagree with McDaniel's conclusion. His research, published in 2005 in the journal Intelligence, suggested that across all age and sex groups, brain volume is linked to intelligence. Men are smarter than women, according to research published in 2006, which the study researchers say could be due to men having relatively larger brains, a difference of about 0.2 pounds (100 grams). Another scientist put forth several socio-cultural factors that would make the men-smarter results null. Average brain weights for primates (not relative to body size): · Chimpanzee (Pan troglodytes) - 0.77 pounds (350 grams) · Mountain gorilla (Gorilla gorilla beringei) - 0.95 pounds (430 grams) · Mouse lemur (Microcebus murinus) - 0.004 pounds (2 grams) If brain size had anything to do with innovation and creativity, some scientists expected to see a link between the so-called Mind's Big Bang (the emergence of bone tools and cave paintings that occurred between 50,000 and 70,000 years ago) and the emergence of modern-size human brains. Not the case. · Big Brains Mean Longer Life · Top 10 Mysteries of the Mind · Sex, IQ and ET: How We Got Big Brains 轉貼自: http://news.yahoo.com/s/livescience/20080418/sc_livescience/arebigbrainssmarter;_ylt=Ar88px4YFWEFHV0xYcwZw3gbr7sF
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