Chimps and humans' motivation to conform. to a group norm is______.A.materialB.socialC.tra
Chimps and humans' motivation to conform. to a group norm is ______.
A.material
B.social
C.trained
D.learned
Chimps and humans' motivation to conform. to a group norm is ______.
A.material
B.social
C.trained
D.learned
第1题
Chimpanzees
Chimpanzees(黑猩猩) will soon be extinct(灭绝). If the present rate of hunting and habitat(栖息地) destruction continues, then within 20 years, there will be no chimpanzees living in the wild. But this is more than an environmental or moral tragedy(悲剧). Chimpanzee extinction may also have profound implications(含意) for the survival of their distant relatives—human beings.
In 1975 the biologist Marie-Claire King and Allan Wilson discovered that the human and chimpanzee genomes(基因组) match by over 98%. Compare this to the mouse, used as model for human disease in lab tests, which shares only 60% of its DNA with us. In fact, chimpanzees are far more similar to humans than they are to any other species of monkey. As well as resembling us genetically, chimps are highly intelligent and able to use tools. These facts alone should be enough to make protection of chimps an urgent priority (优先). But there is another, more selfish reason to preserve the chimp.
The chimpanzees' trump card(王牌) comes in the field of medical research. Chimpanzees are so similar to humans that veterinarians(兽医) often refer to human medical textbooks when treating them. Yet chimpanzees do show differences in several key areas. In particular, chimps are much more resistant to a number of major diseases. It is this ability that is so interesting.
For example, chimps seem to show a much higher resistance than humans to HIV, the virus that causes Aids. Indeed, their use as experimental animals in Aids research has declined because they are so resistant.
By sequencing the chimp genome and pinpointing(找到) the place where the chimpanzee DNA sequence differs from that of humans, scientists hope to be able to discover which part of the genetic code gives chimps their increased resistance to some diseases. This, they hope, will allow them to develop new and more effective treatments for the human forms of these diseases. Such treatments could include the production of new drugs or even the alteration(改变) of the human genetic sequence. The recently completed human genome sequencing project has shown that such an effort is now well within our reach.
A. Reasons for HIV resistance
B. Implications of chimpanzee extinction for humans
C. Effective Aids treatment
D. Genetic similarities between chimps and humans
E. Resistance to HIV
F. Genetic differences between chimps and humans
Paragraph 1 ______
第2题
Why Humans Walk on Two Legs
A team of scientists that studied chimpanzees (黑猩猩) trained to use treadmills(跑步机) has gathered new evidence suggesting that our earliest apelike ancestors started walking on two legs because it required less energy than getting around on all fours.
Michael Sockol, researcher of UC Davis, worked for two years to find an animal trainer willing to coax (劝诱) adult chimps to walk on two legs and to walk on ail fours.
The five chimps also wore face masks used to help the researchers measure oxygen consumption. While the chimps worked out, the scientists collected data that allowed them to calculate which method of locomotion (移动) used less energy and why. The team gathered the same information for four adult humans walking on a treadmill.
The researchers found that human walking used about 75 percent less energy and burned 75 percent fewer calories than quadrupedal and bipedal walking in chimpanzees. They also found that for some but not all of the chimps, walking on two legs was no more costly than on all fours.
"We were prepared to find that all of the chimps used more energy walking on two legs -but that finding wouldn't have been as interesting," Sockol said. "What we found was much more telling. For three chimps, bipedalism was more expensive, but for the other two chimps, this wasn't the case. One spent about the same energy walking on two legs as on all fours. The other used less energy walking upright." These two chimps had different gaits (步法) and anatomy (解剖) than their quadrupedal peers.
Taken together, the findings provide support for the hypothesis that anatomical (解剖学的) differences affecting gait existed among our earliest apelike ancestors, and that these differences provided the geneticvariation which natural selection could act on when changes in the environment gave bipeds an advantage over quadrupeds.
Fossil and molecular evidence suggests the earliest ancestors of the human family lived in forested areas in equatorial Africa in the late Miocene era (中世纪) some 8 to 10 million years ago, when changes in climate may have increased the distance between food patches. That would have forced our earliest ancestors to travel longer distances on the ground and favored those who could cover more ground using less energy.
"This isn't the complete answer," Sockol said. "But it's a good piece of a puzzle humans have always wondered about: How and why did we become human? And why do we alone walk on two legs?"
Michael Sockol and his team were interested in
A.where humans came from.
B.how chimpanzees could be trained to use treadmills.
C.why our apelike ancestors came to walk on two legs.
D.when our earliest ancestors began to live in forested areas.
第3题
A. some clades of the VIRUS related to the human virus.
B. aborigines residing in the virgin forest of Cameroon.
C. Ivory and hardwood traders who were bitten by the chimps.
D. chimp droppings floating in a fiver from Southam Cameroon to Congo.
第4题
第三篇
Why Humans Walk on Two Legs
A team of scientists that studied chimpanzees(黑猩猩)trained to use treadmills (跑步机) has gathered new evidence suggesting that our earliest apelike ancestors started walking on two legs because it required less energy than getting around on all fours.
Michael Sockol, researcher of UC Davis, worked for two years to find an animal trainer willing to coax (劝诱) adult chimps to walk on two legs and to walk on all fours.
The five chimps also wore face masks used to help the researchers measure oxygen consumption. While the chimps worked out, the scientists collected data that allowed them to calculate which method of locomotion(移动) used less energy and why. The team gathered the same information for four adult humans walking on a treadmill.
The researchers found that human walking used about 75 percent less energy and burned 75 percent fewer calories than quadrupedal and bipedal walking in chimpanzees. They also found that for some but not all of the chimps, walking on two legs was no more costly than on all fours.
"We were prepared to find that all of the chimps used more energy walking on two legs-but that finding wouldn't have been as interesting, Sockol said.” What we found was much more telling. For three chimps, bipedalism was more expensive, but for the other two chimps, this wasn't the case. One spent about the same energy walking on two legs as on all fours. The other used less energy walking upright." These two chimps had different gaits (步法) and anatomy (解剖) than 'their quadrupedal peers.
Taken together, the findings provide support for the hypothesis that anatomical (解剖学的) differences affecting gait existed among our earliest apelike ancestors, and that these differences provided the genetic variation which natural selection could act on when changes in the environment gave bipeds an advantage over quadrupeds.
Fossil and molecular evidence suggests the earliest ancestors of the human family lived in forested areas in equatorial Africa in the late Miocene era (中世纪) some 8 to 10 million years ago, when changes in climate may have increased the distance between food patches. That would have forced our earliest ancestors to travel longer distances on the ground and favored those who could cover more ground using less energy.
"This isn't the complete answer," Sockol said. "But it's a good piece of a puzzle humans have always wondered about: How and why did we become human? And why do we alone walk on two legs?"
41. Michael Sockol and his team were interested in
A. where humans came from.
B. how chimpanzees could be trained to use treadmills.
C. when our earliest ancestors began to live in forested areas
D. why our apelike ancestors came to walk on two legs.
第5题
根据下列材料请回答 41~45 题:
Why Humans Walk on Two Legs
A team of scientists that studied chimpanzees (黑猩猩) trained to use treadmills (跑步机) has gathered new evidence suggesting that our earliest apelike ancestors started walking on two legs because it required less energy than getting around on all fours.
Michael sockol , researcher of UC Davis, worked for two years to find an animal trainer willing to coax (劝诱) adult chimps to walk on two legs and to walk on all fours.
The five chimps also wore face masks used to help the researchers measure oxygen consumption. While the chimps worked out, the scientists collected data that allowed them to calculate which method of locomotion (移动) used less energy and why. The team gathered the same information for four adult humans walking on a treadmill.
The researchers found that human walking used about 75 percent less energy and burned 75 percent fewer calories than quadrupedal and bipedal walking in chimpanzees. They also found that for some but not all of the chimps, walking on two legs was no more costly than on all fours.
"We were prepared to find that all of the chimps used more energy walking on two legs-but that finding wouldn't have been as interesting, Sockol said. "what we found was much more telling. For three chimps, bipedalism was more expensive, but for the other two chimps, this wasn't the case. One spent about the same energy walking on two legs as on all fours The other used less energy walking upright。" These two chimps had different gaits (步法) and anatomy (解剖) than 'their quadrupedal peers.
Taken together, the findings provide support for the hypothesis that anatomical (解剖学的) differences affecting gait existed among our earliest apelike ancestors, and that these differences provided the genetic variation which natural selection could act on when changes in the environment gave bipeds an advantage over quadrupeds.
Fossil and molecular evidence suggests the earliest ancestors of the human family lived in forested areas in equatorial Africa in the late Miocene era (中世纪) some 8 to 10 million years ago, when changes in climate may have increased the distance between food patches~ That would have forced our earliest ancestors to travel longer distances on the ground and favored those who could cover more ground using less energy.
"This isn't the complete answer," Sockol said. "But it's a good piece of a puzzle humans have always wondered about: How and why did we become human? And why do we alone walk on two legs?"
第 41 题 Michael Sockol and his team were interested in
A. where humans came from.
B. how chimpanzees could be trained to use treadmills.
C. when our earliest ancestors began to live in forested areas
D. why our apelike ancestors came to walk on two legs.
第6题
听音频,回答题
There is an effect that not only have we all witnessed, but have26. Haven"t we all been on an elevator and noticed that just about everyone stops talking when they get on? Why do we do that? You can be having a 27 pleasant conversation with someone, and as soon as you get on an elevator, you just feel like you"d better shut up.
Then, as soon as the doors open, everyone28conversation. Primatologists, or people who study primate (灵长类动物) behavior, have a term for this. It"s called the "elevator effect," though it doesn"t 29 only on elevators. It happens whenever a group of primates, like humans, is 30 a situation where escape is 31 impossible. It"s thought to be a kind of safety32: as long as nobody talks, nobody is going to risk getting in a fight when there"s no way to spread out. The elevator effect keeps a lid on potential problems before they start.
Even though they rarely if ever ride elevators, chimpanzees demonstrate the elevator effect as well. When chimps are temporarily crowded together into small areas, they will 33 their vocal communication, that is, nobody speaks, and avoid eye 34. The amount of scratching the chimps do, however, goes up. Since scratching is a sign of stress in chimps, we can imagine what they are feeling. It"s just like what we feel in a crowded elevator——everybody carefully35 the lighted numbers and no one saying a thing.
第(26)题__________
查看材料
第7题
Andrew Whiten of St. Andrews University in Fife, Scotland, and his colleagues studied three groups of captive chimpanzees and the ways in which they assumed different techniques for obtaining food. The first group contained a high-ranking female that had been taught to retrieve food from an apparatus by using a stick to push a blockage away, thus freeing the food item. The second group also contained a female expert, but one that had been instructed to lift the blockage with the stick in order to release the treat. The third group was a control group and did not have a local expert. When the experts were reunited with their respective group, the other chimps watched their activities at the food apparatus intently and learned to apply either the poking or lifting technique themselves. Members of the third group, lacking an expert to guide them, failed to figure out the contraption on their own.
For the most part, chimps in the first group initially stuck to poking and those in the second group stuck to lifting. But then, unexpectedly, some chimps discovered and began using the other strategy. When the food apparatus was reintroduced two months later, however, the chimps reverted to their group's normal way of doing things. In the case of those animals in the lifting group, this meant discarding a technique (poking) that is actually more natural for chimpanzees than lifting is.
"We have shown a non-human species conforming to a group norm, despite possession of an alternative technique that represents the norm of another group," the team writes in a report published online by the journal Nature. "Conformity fits the assumption of an intrinsic motivation to copy others, guided by social bonds rather than material rewards such as food."
The phrase "fit in" (Line l, Para. I) most likely means ______.
A.suit
B.adopt
C.adjust
D.conform
第8题
Young Female Chimps Outlearn Their Brothers
Young female chimps are faster and better learners than young male chimps, suggests a new study, echoing learning differences seen in human girls and boys
While young male chimps pass their time playing, young female chimps carefully study their mothers. AS a result, they learn how to fish for tasty termite snacks over two years before the boys.
Elizabeth Lonsdorf, now at Lincoln Park Zoo in .Chicago, US, and colleagues at the University of Minnesota, Saint Paul, spent four years watching how young 'chimpanzees in the Gombe National Park in Tanzania learned "cultural behavior".
The sex differences in learning behavior. were "consistent and strikingly apparent", says the team. The researchers point out that similar differences are seen in human children with regard to skills such as writing. "A sex-based learning differences may therefore date back at least to the last common ancestor of chimpanzees and humans," they write in the journal Nature.
Chimps make flexible tools from vegetation and then insert them into termite mounds, extract them and then munch the termites clinging onto the tool The researchers used video cameras to record this feeding behavior. and found that each chimp mother had her own technique, such as how she used tools of different lengths;
Analysis of the six infants whose ages were known showed that girl chimps were an average of 31 months old when they succeeded in fishing out their termites, Where the boy chimps were aged 58 months on average. Females were also more skillful at getting out more termites with every dip and used techniques similar to their mothers while males did not.
Instead of studying their mothers, the boy chimps spent a significantly greater amount of time frolicking around the termite mound. Behaviors such as playing or swinging might help the male infants later in life when typically male activities like hunting or fighting for dominance become important, suggest the researchers.
Lonsdorf adds that there are just two main sources of animal portein for chimps -- the termites or colobus monkeys. "Mature males often hunt monkeys up trees, but females are almost always either pregnant or burdened with a clinging infant. This makes hunting difficult," she says. "Adult females spend more time fishing, for termites than males." So becoming proficient at termite fishing could mean adult females eat better. "They can watch their offspring at the same time. The young of both sexes seem to pursue activities related to their adult sex roles at a very young age."
Why do young female chimps learn faster than young male chirnps at fishing for termites?
A.Because young female chimps don't play with their brothers.
B.Because young female chimps begin to study their mothers earlier.
C.Because young male chimps never learn to fish for termites.
D.Because young male chimps are not interested in termites.
第9题
【M1】
第10题
Chimp (黑猩猩) Show Hallmark of Human Culture, Study Finds
Researchers have discovered that chimpanzees not only teach each other new and useful behaviors, but conform. to their group's preferred techniques for performing them--a hallmark of human culture.
Observers have previously reported that wild chimps demonstrate more than three dozen different behaviors that have no apparent ecological or genetic origin. This diversity suggests that there are distinct ape cultures.
The notion assumes that chimps transmit culture--teaching and learning behaviors generation after generation. But the theory is very difficult to test and prove in a controlled experiment outside of a laboratory.
So researchers at the University of St. Andrews in Scotland and Emory University in Atlanta devised an experiment to test the proposition. The results were published online August 21 in the science journal Nature.
Learning and Teaching
The scientists constructed a box in which a desirable food was hidden behind a trap. Captive chimps could release the food by using a stick to move the trap in either of two ways. Researchers dubbed these the "poke" and "lift" methods.
Scientists then isolated a high-ranking female of one group from her companions and taught her the poke method to release food. A female of high rank from a second group was taught the lift method.
None of the other members of the groups were allowed to watch the training.
Finally, researchers used a third group as a control, presenting them with the box and sticks, but teaching them nothing about how to use them.
Scientists then let the chimp groups watch their matriarch (女家长) use the technique she had learned. To get the food, each dominant female consistently used the method she had been taught. The other chimps watched, often intensely, for over 36 hours spread over ten days.
During this period, 15 chimps in the two study groups successfully used one method or the other to get food, and they picked up the behavior. quickly. Median times for learning the techniques in both groups were under a minute.
In the meantime, the six chimps in the control group were stymied. In more than four hours of manipulating the sticks, they were unable to extract a single piece of food.
Some chimps in the "lift" group discovered the poke method, and some in the "poke" culture discovered lifting. But they were a small minority. When the apparatus was reintroduced two months later, the chimps reverted to their own culture's preferred method.
This, the researchers maintain, provides evidence of a "conformist bias". The animals discount their own experience and instead adopt the behavior. of the group, just as humans do.
"This is a very nice experimental setup," said Diana Reiss, a research scientist with the Bronx, New York-based Wildlife Conservation Society, who was not involved in the study. "It was controlled for biases, and included a control group where there was no trained expert. The setup eliminated the problem of learning by interacting with humans."
The researchers believe they have demonstrated for the first time an ability among chimpanzees to transmit alternative technologies and alternative methods of using tools.
Monkey See, Monkey Do
"When all these different wild chimp behaviors were discovered in the field, there was controversy." said Frans de Waal, a professor of primate behavior. at Emory University and study co-author. "Some scientists claimed it was social learning. Others claimed there were other possible explanations--individual learning, genetic differences, ecological variables, and so on."
"We did the experiment to prove that you could plant a behavior. by training one chimp and see it spread to other chimps by observation."
A.Y
B.N
C.NG