找到songbird学发声考题原文

sch_qy

找到这篇songbird学发声的文章，根据机经判断，很可能就是考题就是这篇文章缩写的。不敢独享，发在这里，大家一起参考一下。考过的NN可以看看是不是。

Baby Songbirds And Human Infants Learn Sounds In Similar Ways

ScienceDaily (Dec. 20, 2004) — Of all the world's animals, only humans, some kinds of birds and perhaps some porpoises and whales learn the sounds they use to communicate with each other through a process of listening, imitation and practice. For the rest, including nonhuman primates, these sounds develop normally in the absence of external models.

Now Rockefeller University scientists have found that zebra finches, songbirds native to Australia, use infant-like strategies to learn their song. Some finches focus on perfecting individual song components, referred to as "syllables," while others practice longer patterns called motifs. Which strategy they choose, or what combination of strategies, seems to depend on what their siblings are doing. In time, all are able to sing the same adult song.

The results, reported in the December 13 online issue of Proceedings of the National Academy of Sciences, are the first to show a social influence on how birds learn their song by analyzing song-learning with birds kept in family groups rather than in isolation chambers.

The Rockefeller team also shows for the first time that individual birds, of the same species, can follow different strategies to get to the same end point of singing the adult song. Until now, scientists thought that the vocal learning process in birds was mainly a matter of filling in details in a pre-existing developmental program. If so, then this program is, in zebra finches, a very flexible one.

"This research points to a remarkable parallel in vocal learning in infants and some songbirds" says senior author Fernando Nottebohm, Ph.D., Dorothea L. Leonhardt Professor and head of the Laboratory of Animal Behavior at Rockefeller.

"In both cases vocal learning seems to be approached as a challenge in problem solving," says Nottebohm, whose studies in canaries in the 1980s provided the first evidence of spontaneous neuronal replacement in the adult vertebrate brain.

A problem-solving approach may apply to other kinds of sensory motor learning beyond vocal learning, he added, suggesting that zebra finches may offer further insights into human learning.

"I find it amazing that something that infants, with brains weighing approximately 1,000 grams, do over a period of years can be accomplished, perhaps in a similar way, by young songbirds over a period of weeks, with brains weighing just 1 gram," says Nottebohm.

"Of course," he adds, "the diversity of sounds mastered by the young birds is much smaller, but all the same there is a remarkable parallel between what they do and the way in which humans acquire the sounds of language."

To learn to sing, a young male zebra finch (only the males sing) first has to hear and memorize the song of a nearby adult male. This begins to happen about 20 days after the bird hatches. By 35 days of age, he begins to imitate. At first he produces what scientists call a subsong -- considered analogous to babbling in human infants.

The young male sits, eyes closed and feathers ruffled, and burbles a stream of variable sounds that are soft and rambling in comparison to the louder, very structured, adult song. When he makes these soft sounds, he is not communicating to other birds. Gradually the syllables of the final song become more recognizable. By 80 to 90 days of age, the bird is both sexually mature and sings the song he will use in courtship. After that he sings that song exactly the same way every time and will do so for the remainder of his life. Zebra finches can live for up to 8 years.

The Rockefeller University studies are the first to investigate whether young birds take different approaches to mastering the sounds they imitate. "No one had thought a lot about strategies," says Nottebohm. "How, starting from an unstructured beginning, do you approach the final stereotyped song?"

To investigate this question, Wan-chun Liu, Ph.D., a postdoctoral fellow and first author of the paper, and Nottebohm studied 37 young male zebra finches from 15 clutches that were kept in cages that they shared with their parents and siblings. In nature zebra finches are highly social birds that breed in colonies of up to several hundred pairs. A young bird learns its song by imitating his father or other adult males, often copying different parts of the song from different adults.

Liu observed the birds and recorded them on tape, at first every other or every third day. Between days 35 and 50, as the young birds began imitating, they were observed for six or seven hours a day. "It's very difficult when more than two birds are singing together to tell which bird is producing which song," says Liu. To do so, he spoke into the microphone to identify which bird was singing.

The recorded songs were then analyzed with a computer program that produces a sound spectrogram -- a visual representation of the sound that plots frequency over time. This allowed the researchers, with help from Timothy Gardner, Ph.D., another postdoctoral fellow, to quickly see similarities and differences among the songs. Adult male zebra finches sing only one song, a mixture of scratchy and nasal sounds clustered into several distinct "syllables," with each syllable preceded and followed by a brief silent interval. The entire song lasts about one second. "It's very brief and unassuming and not particularly musical," says Nottebohm, "but practical to quantify."

By the time the birds were 43 days old, two clear strategies of imitation were apparent. About half the birds tended to repeat one song syllable many times; from these repetitions all of the syllables in the adult song eventually emerged. This was the repetition strategy. The others attempted to sing the entire song motif, with all its different syllables, like their adult model, and did so in a way that was noisy and imprecise. This was the motif strategy. Of the latter birds some included the silent intervals between the different syllables and others jumbled all the sounds together without interruptions. In one group of three siblings, each bird followed a different strategy although all were imitating the same adult song, that of their father.

To better quantify their results, the Rockefeller scientists used computer software that analyzes pitch, frequency modulation, tonality on a scale from pure tone to white noise, and spectral continuity, which allows integration of the information over time. This analysis allowed them to compare and quantify the similarities between sounds, how the sounds changed over time and the extent to which they eventually matched the adult song being imitated.

Liu also observed 12 additional birds that were removed from their parents and siblings when 20 to 25 days old and housed individually in soundproof chambers with one adult male zebra finch to imitate. These birds used both the syllable-repetition and the motif strategies to learn their song, but combined the two more often than the birds raised with their families. Regardless of the strategy followed, all the birds mastered the imitation at about the same age.

The researchers propose that in a family setting, a young zebra finch chooses a strategy different from that of his siblings, perhaps to better track his own vocal development as he learns the song.

Earlier studies of vocal learning in zebra finches have focused on single birds housed alone imitating a recorded song. "Nobody followed what happens if you put several birds together," says Liu. "The diversity of learning styles became apparent when we studied the birds under conditions closer to nature. They try to avoid each other's style of song learning."

"This study suggests that social interactions greatly affect the way a song is learned," he adds.

Human infants also follow different routes toward mastering the sounds of language, for reasons that remain unknown. Some infants focus at first on repeating individual words and others go through a stage of short, jumbled phrases, mostly unintelligible, with the cadence and inflection of adult speech. Eventually the individual words become clear.

"In both infants and zebra finches vocal learning does not unfold in a pre-set manner, but rather emerges as an exercise in problem solving that leaves much room for external influences and individual learning styles," Nottebohm says. "We're not teaching our zebra finches how to learn their song -- how to get there is totally up to the birds."

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This research was supported in part by the National Institutes of Health, the Mary Flagler Cary Charitable Foundation, the Herbert and Nell Singer Foundation and the Phipps Family Foundation. Liu also was supported by a Li Memorial Scholar Fund fellowship.

Rockefeller University scientists have found that zebra finches, songbirds native to Australia, use infant-like strategies to learn their song. (Photo courtesy of Rockefeller University)

http://www.sciencedaily.com/releases/2004/12/041220022530.htm

summerice14

great dude, you did a perfect job!

thanks !

minamif

无语，一个字 强

纳尔奇斯

这篇和以前考过的老JJ是一样的内容；

但和新JJ是有区别的。

之前有CDER问过，本月考过CDER说还是和以前考古的老JJ有区别。

可能是截取了不同的研究资料段落。

本月的新JJ如下：

songbird学习发声

版本1 分数一般

第一段开始说以前的研究中发现songbird学习发声主要受到父母及周围环境影响，说这种学习很像婴儿学说话，先开始模仿，然后发展出具有自己特色的语言。如果让小鸟和其他种类的鸟呆在一起，那它会学会这种wrong word，如果不让他跟任何鸟接触，他最终会形成奇怪的声音，但好像是不能有效表达，好像是。

第二段说后来有个研究把鸟，蝙蝠，大象还是什么，还有人放在一起研究他们学习发声的过程。结果以外的发现，他们学习发声的时候，大脑里面活动的部分居然非常相似。这使得研究人员认为这些物种有共同的发声起源，好像意思是说脑的这部分进化要早育这些不同物种被进化出来的时间。

后来还有什么忘了

版本2  730 V38

songbird学语言那个老JJ。就说，两类鸟和一些灵长动物都是后天学习语言了。

后面几段说了不同学者研究的发现。

 

版本3  不到700

一篇是 songbird learn singing, 主要是问这些科学家会同意哪种观点

参考：考古老JJ：

Version 5
                

第一段，说除了人，猴子，海豚，鲸鱼什么之类的，它们的语言是有model的，其它动物也发声，但是没model的。两个学者，一个中国人和一个老外N一起做了个研究，研究什么鸟学习发音的情况。

第二段，说那个中国人的研究发现了。他发现这种鸟有两种向它成年的老爸学习发声的方法，一种是重复学一个音节，叫什么repititional的方法；还有一种是整句整句地学，虽然学得不好，叫什么m打头的一个方法。下面还有两句，讲什么忘了。

第三段，还是这个中国人的发现。他发现同一窝的三对姊妹鸟学习的方法不一样，有的选repititional，有的选m方法，它们会选定适合自己的方法去学习。

第四段，讲那个老外N的发现了。N认为这种鸟的学习发音的方法跟婴儿学习语言的方法很像。有些婴儿用重复音节的方法，有些婴儿用学整句的方法。目前没有人知道是什么原因。然后提出进一步研究的发现。