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科学美国人60秒 SSS Cosmic ray threat, sasquatch DNA, geochemist cook

时间:2017-06-20 06:39来源:互联网 提供网友:nan   字体: [ ]
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Welcome to the Scientific American podcast for the seven days starting March 1st. I am Steve Mirsky. This week on the podcast, legendary1 astrophysicist Eugene Parker talks about a big problem with sending people to Mars. Geneticist Dave Coltman discusses the DNA3 analysis he did on a very unusual tissue sample and geochemist Don Siegel feeds us the inside story on his new book. Plus, we will test your knowledge of some recent science in the news.

First up, University of Chicago professor emeritus4 Eugene Parker. Almost 50 years ago he gave us a comprehensive explanation for the solar wind, the constant stream of charged particles coming at us from the sun. In the March issue of Scientific American he explains that astronauts going on a trip to Mars have a bigger, tougher problem than the aliens or asteroids5 of science fiction. I called Parker at his home in Chicago.

Steve: Dr. Parker—thanks for talking to me today.

Parker: Oh, you are quite welcome; my pleasure.

Steve: So, you have this article in Scientific American in the March issue called "Shielding Space Travelers" and it's kind of cold water in the face for sci-fi fans.

Parker: I am afraid so. I was a little disappointed myself on where the facts lead you.

Steve: So, the big problem—we are talking specifically about a trip between Earth and Mars although this problem would come up in any kind of a trip outside the atmosphere, right?

Parker: That's right! A moon base for instance would have this problem.

Steve: Well! Let's talk about the problem, because I haven't really explained that. The problem has to do with bombardment by cosmic rays.

Parker: Yeah!

Steve: What are cosmic rays, first of all, and why are they a problem for people?

Parker: Well! The cosmic rays are mostly protons—i.e., the nucleus6 of a hydrogen atom with a few nuclei7 of heavier atoms thrown in. They are moving nearly the speed of light so that when they hit some matter they go right on through leaving behind a trail of atoms with electrons ripped off them and chemical bonds broken. While we are biological organisms made up of complicated molecules8 and chemistry, and this just does enough damage that it's unhealthy if you get a very intense dose, you can be sick just from the fact that there is so much damage right at that moment; if you get a less intense dose, something spread out over more times then it breaks a lot of DNA, too, and even though you might not feel sick, the accumulation of broken DNA is not good. You tend to be prone9 to cancer in later years and so forth10.

Steve: People on the surface of the Earth really don't have to worry about this too much, right?

Parker: That's correct. The atmosphere over your head is 14 pounds of air over every square inch—or a kilogram over every square centimeter—and that's enough to stop almost all of the cosmic rays.

Steve: In your Scientific American article in the March issue you talk about the three most common proposals that people have put forth in an attempt to come up with solutions to this problem and the three proposals to shield space travelers and you pretty much take each one apart. Let's go through them. The first proposal that people put forth to protect travelers is to surround the ship or to surround the individuals on the ship with some kind of matter that will take the hits of the cosmic rays.

Parker: Yes!

Steve: So, what’s the problem with that one?

Parker: The problem is very simple. It takes too much matter. You would never get it off the ground. The best design that I know was put together by some experts who were convened11 at Marshall Space Flight Center for a few days to sort of think it through. You want to use matter that has a lot of hydrogen in it—the protons—that's the most efficient use of a matter. They suggested polyethylene because it's a solid—you don't have to build a tank to hold it and the minimum weight was 400 tons. In principle, yeah you could do it, but the costs get out of this world.

Steve: Literally12. (laughs) So, the second proposal that people put forth is to put a magnetic field around the ship to deflect13 the positively14 charged ions; and what's the problem with that one?

Parker: Well! Essentially15 you are imitating the Earth, but on a small scale; and because it is a small scale you must use a very intense seal. It's the product of the dimensions of the field times the strength of the field that gives you a measure of the deflection; and so you need something like 200,000 gauss—that's about 400,000 times more intense than the magnetic field of our Earth—and it's clear you would have to use a superconducting magnet—i.e., a magnet in which the current-carrying wires were super conductors. And Professor Sam Ting at M.I.T. got his group together—they have had a lot of experience with superconducting magnets and high-energy physics experiments, so, the technology is pretty well known—and they came up with a design which would go for a [forty] nine times [tons]. And again you can lift this off the surface of Earth, but putting it down on Mars and bringing it back again, again it gets to be difficult and that is to say expensive.

Steve: Right!

Parker: And then there is the problem, too—the effects of strong magnetic fields on a person living within the field are not known.

Steve: So, we might be replacing one health problem with another health problem?

Parker: You might, yes!

Steve: So, the third proposal is give the entire spacecraft a positive charge to repel16 the positively charged ions coming at it; and what's the problem with that?

Parker: What people forget is the space is not empty. Space at the orbit of Earth has about five electrons and five protons per cubic centimeter. Those electrons would just love to see two billion volts17 positive. They would come ramming18 in like cosmic rays.

Steve: Maybe there are biological solutions that we don't know about yet where potential space travelers could take some kind of a treatment in advance that would stop the damage from happening or maybe you will just find people who are willing to do it anyway.

Parker: The data that are used to proclaim what is safe and what is not safe come from people who have accidentally received a burst of radiation in a laboratory accident or have been subjected in Japan to a nuclear bomb—and they got a big dose over a very short period of time and the assumption is that it's the total dose that counts. Now, that might not be true. It might be that if you got a low level as—such as you would from cosmic rays spread out over a couple of years—that your body could repair some of that damage over the period of time and you would not suffer so much as if you had gotten the whole thing in a relatively19 short period of time. That is conjecture20. Nobody knows to what extent that would improve the situation.

Steve: Well! Dr. Parker, it's been a pleasure to talk to you. The news isn't good, but it's good to talk to you anyway.

Parker: Well! It's nice to talk to you and I hope the future brings more hope.

Steve: There's a lot more on this subject in Eugene Parker's article called "Shielding Space Travelers". It's in the March issue of Scientific American available for purchase at newsstands and at our Web site, www.sciam.com; [that's] www.s-c-i-a-m.com.

Now it's time to play TOTALL…….Y BOGUS. Here are four science stories; three are true. See if you can figure out which one is TOTALL…….Y BOGUS.

Story number 1: The ivory-billed woodpecker was thought to be extinct, but last spring, ornithologists reported that they found one of the birds living in Arkansas. Now, a research team reports that over 100 of the woodpeckers have been quietly living on the private Arkansas estate of the Walton family the owners of the Wal-Mart store chain.

Story number 2 is from the behavioral psychology21 files. A group in New Zealand was upset about the content of an episode of South Park that was scheduled to run in February. Doesn't matter what group, all outraged22 groups pretty much make the same mistake: They mount a publicity23 campaign to urge people not to watch the show and so, when the South Park episode ran in New Zealand, it drew six times its normal audience.

Story number 3: Researchers found that their quantum computer gave them meaningful data by not running the program.

Story number 4: The Discovery Health Channel is running this double feature in March Half-Ton Man, followed by 750-Pound Man.

We will be back with the answer. But first, call it CSI: Sasquatch. show on, well close, Dave Coltman is a geneticist at the University of Alberta. He heard about a Sasquatch sighting in the Yukon that included the recovery of some alleged24 actual Sasquatch hair. So, Coltman put his big foot down and offered to analyze25 the DNA. If you are ready to hear about the results of that test, here's what Coltman said when I called him at his office in Alberta.

Steve: Professor Coltman, thanks for talking to me today.

Coltman: No problem.

Steve: Tell me about how you wound up doing a DNA sequence analysis of what was allegedly a Sasquatch.

Coltman: Well! It was last summer—July—and I was watching the news and there was a Sasquatch sighting in the Yukon that had really sort of taken the imagination of the media. It was on the CBC, it was on television; and these people who had seen the Sasquatch over their backyard had actually found hair and footprints the next morning and they sent the hair to the regional biologist in the Yukon. I happened to know, I have done some work with biologists in Yukon before and I think one of the media asked them if they would be able to do a DNA test, but they didn't have the resources to do that. So, that evening I—on a whim26 almost—sent an e-mail and said just send that hair down to our lab here and we will test it for you because we do a lot of DNA work from hair and other kinds of samples. So, it was quite a straightforward27 thing for us to test and I though[t] well, kind of on a whim; and also maybe to help them out so that he could be absolutely certain that what it was and to satisfy curiosity of the public by we running this test on.

Steve: So, this was more of an exclusionary28 test? You didn't think it was going to be a Sasquatch?

Coltman: (laughs) Well! We were 99.9 percent sure, but there [is] always a shadow of doubt.

Steve: Right! Because being a good scientist you left open the possibility that it was a Sasquatch.

Coltman: Of course, you have to do that. You never accept anything as being absolutely true. We work in the other direction since we try to rule out the things that we can disprove. And what I was really thinking about [is that] this is a good story to tell high-school students to get them interested in DNA profiling; and the fact that, you know, the CSI is on television, but in fact we do stuff like this pretty routinely all the time. So, that thought was one of my motivations.

Steve: So, you get the sample.

Coltman: We get the sample and my technician handled it, Dr. Corey Davis, and he extracted DNA from the follicles of the root of the hair. It was quite a large sample, quite a large clump29 of brown, wooly30 hair. So, it should have been a good source for DNA. You need the follicles—it's usually where you get the best DNA from. And, he extracted DNA and amplified31 a gene2 fragment from the mitochondria and then determined32 its DNA sequence.

Steve: And the sequence analysis showed you what?

Coltman: Well! What we do is—if we have a sequence from an organism the first time we have seen it before or some organisms we didn't know—what we do is we align33 the sequence to all of the known sequences in the international DNA databases; so everybody who is sequencing DNA for any reason would submit their sequence to this center holding (unclear) called [the] gene bank. So, we tested it against that database to find out what it would match and this was something [where] you quite literally cut and paste the sequence into your browser34 on the Web and it will return with the best matches; and it came back with 100 percent matches to a bison. So, we were pretty sure we had a bison.

Steve: Now, how disappointing.

Coltman: (laughs) Yes! it was, but in hindsight, I mean, I think we were actually quite relieved that we got a DNA sequence from this hair at all. It was really tough to get DNA out of this specimen35, which in itself tells us something. Normally if we pick up a hair like what is snagged on a tree in the field—or, you know, anywhere—and it has a visible follicle, it's very easy to get a DNA profile from that; we will never have any trouble. But in this case Corey had to try over and over again and every trick in the book and finally he got a DNA profile from that. So, there is something suspicious about this hair—either it had been outside for long time or maybe it had come from a rug or a coat that had been tanned, because that tampers36 or destroys DNA.

Steve: So, you suspect that someone might have been running around the forest wearing a bison skin rug and masquerading as a Sasquatch?

Coltman: Yes! That's indeed one possibility; or it blew there along the wind; or, you know, a bison went through their backyard.

Steve: If there was a real Sasquatch out there what would you expect its DNA sequence to most closely match?

Coltman: Right! Well! I think conventional wisdom, if you like, has that Sasquatch is probably a primate37, so, in which case I think we would find a very high similarity between that sequence and probably human or any other hominoid primates38 that walk upright. So, my guess is that we would find a close match to primates and particularly close match to human, but not a 100 percent match.

Steve: Well! Thank you very much Professor Coltman.

Coltman: You are welcome.

Steve: Professor Coltman's paper appeared in the February issue of Trends in Ecology and Evolution; the title is "Molecular39 Cryptozoology Meets the Sasquatch" and it's available online. The Web site address is nasty, so just Google Coltman, c-o-l-t-m-a-n, and the word trends and it comes up in the first page of results that you will get.

Now it's time to find out which story was TOTALL…….Y BOGUS. Let's review the four stories, three of which are real.

Story number 1: Ivory-billed woodpeckers have been living with the Waltons.

Story number 2: Urging New Zealanders not to watch South Park had the opposite effect.

Story number 3: A quantum computer works by not running.

And story number 4: A Discovery Health channel double feature is Half-Ton Man, followed by 750-Pound Man.

May I have the envelope please? The usual audience for South Park in New Zealand is about 32,000 people. After being urged not to watch, 210,000 people tuned40 in. (Well, what a terrific audience.) Yes, the weird41 world of quantum mechanics means that the computer gives a meaningful answer even when you don't run the program. (Ensure the cat is sleeping on top of the CPU; we are not sleeping). Anyway you can get the details in the February 23rd issue of the journal Nature. (I am the arsenal42 four thousand). The Discovery Health channel is running the 1,750-pound double feature on March 5th, according to their Web site. Well! Listen you don't lead with a half-ton man and then follow up with a 750-pound man; you wouldn't start a sci-fi double feature with Tthe Thing and then follow it with a somewhat smaller Thing. (I learnt something today.)

Which means that the story about the ivory-billed woodpeckers is TOTALL…….Y BOGUS; which is just as well because nobody needs a big sale on ivory bills at Wal-Mart. (Attention shoppers.)

Next up, Syracuse University geochemist and hydrogeologist Don Siegel. He has a new book out, and though it is technically43 about chemistry, you will have to use your needle to sew the connection. I called Siegel at his office in Syracuse, New York.

Steve: Professor Siegel, good to talk to you today.

Siegel: Yeah! Good morning to you.

Steve: Tell me about your work in general—what you study. And I know that you recently won the Meinzer Award, a very prestigious44 award in your field. What was that for?

Siegel: Yes! I am a hydrogeologist and a geochemist. I study the fate and transport of contaminants in groundwater. I study water resources and I study issues related to global change. So, recently I was delighted to have won the Meinzer Award from the Geological Society of America. And this is an award given for making fundamental discoveries in hydrogeology. So, my colleagues decided45 that the number of papers I wrote 20 years ago have made impact—takes a while sometimes—and these papers related to how glaciers46 10,000 years ago pumped fresh water into otherwise, dirty acrophores, hence, in a sense, cleaning them up. So now we have potable water and couple of other papers related to how methane47 gas is generated in peat lands and how peat-lands growth is related to groundwater hydrology.

Steve: It sounds like very interesting work and very topical, but you are also the author of a new book.

Siegel: Yes! I am an author of a Kosher Chinese cookbook.

Steve: And it's called?

Siegel: It's called From Lokshen to Lo Mein. Lokshen is the Yiddish word for egg noodles and lo mein of course is a Chinese noodle.

Steve: So, the question then is what's a nice Jewish geochemist like you doing writing a book on Chinese cooking?

Siegel: Well! I have always had a passion for cooking in general and during the past 15 years or so, I have been catering48 very large Chinese banquets for Jewish fund-raising organizations here in upstate New York; and there has always been a connection between Jews and Chinese food. A lot of people realize that on Christmas many Chinese restaurants stay open in order to serve their Jewish clientele.

Steve: On the back of your book is a quote from a professor Chen Zhu who is a colleague of yours.

Siegel: Yes!

Steve: And he says "he proves"—he being you—"he proves my longtime belief that a good geochemist must be a good cook first." Is that true?

Siegel: Oh, I think so. Many of my geochemist friends are good cooks and the process is pretty similar. If you are a chemist, you go in the lab and you mix reagents and then you get reactions going and products coming out of your reaction. In cooking it's the same kind of thing where you mix all these ingredients, watch reactions proceed, and then when a product comes out, the only difference is that in my geochemistry it takes six months to years before I figure out if I am right or wrong, but when I do my chemistry in the kitchen, I determine upon[if I'm] right fairly quickly.

Steve: The taste test.

Siegel: The taste test, that's right.

Steve: It must be nice to have some more instant gratification for a change.

Siegel: I am really big on instant gratification. (laughs)

Steve: It's [often] tough to get that doing scientific research.

Siegel: That's right! It took me 20 years, right. (laughs)

Steve: There's a very cute story in the book. I should say that about the first 30 or 35 pages in the book are narrative49 and then you have a lot of recipes.

Siegel: Right!

Steve: There's a cute story in the book about another colleague of yours, who got married. You want to tell that story?

Siegel: Yes! there was a colleague of mine here at Syracuse University, Wu-Teh Hsiang, and Wu-Teh married a Jewish woman, Marjory Baruch from the famous financier family. She is a friend of our family and so Wu-Teh converted to Judaism and then when he was introduced to Marjory’s family he met one of the great aunts, one of the big people in her family and so the great aunt looked him up and down, said, you must like Chinese food; and then Wu-Teh responded immediately saying, but of course—I am Jewish.

Steve: That's great. (laughs) That's a great story. You are going to be out on tour with your book?

Siegel: Yes! I have been on tour and I have gone from LA to New York and from Detroit to San Antonio doing food shows and book signings and discussions, and I will be in Scotch50 Plains, New Jersey51 on March 9th.

Steve: And how can people find out about that appearance?

Siegel: They can find out the details from my Web site if they want. It's www.kosherchinesecooking—one word—.com.

Steve: Great to talk to you today. Thanks very much.

Siegel: Nice talking to you Steve.

Steve: Well! That's it for this edition of the Scientific American podcast. Our e-mail address is [email protected]; that's [email protected]. And also remember that science news is updated daily on the Scientific American Web site, www.sciam.com; www.s-c-i-a-m.com. I am Steve Mirsky. Thanks for clicking on us.


点击收听单词发音收听单词发音  

1 legendary u1Vxg     
adj.传奇(中)的,闻名遐迩的;n.传奇(文学)
参考例句:
  • Legendary stories are passed down from parents to children.传奇故事是由父母传给孩子们的。
  • Odysseus was a legendary Greek hero.奥狄修斯是传说中的希腊英雄。
2 gene WgKxx     
n.遗传因子,基因
参考例句:
  • A single gene may have many effects.单一基因可能具有很多种效应。
  • The targeting of gene therapy has been paid close attention.其中基因治疗的靶向性是值得密切关注的问题之一。
3 DNA 4u3z1l     
(缩)deoxyribonucleic acid 脱氧核糖核酸
参考例句:
  • DNA is stored in the nucleus of a cell.脱氧核糖核酸储存于细胞的细胞核里。
  • Gene mutations are alterations in the DNA code.基因突变是指DNA密码的改变。
4 emeritus ypixp     
adj.名誉退休的
参考例句:
  • "Perhaps I can introduce Mr.Lake Kirby,an emeritus professor from Washington University?"请允许我介绍华盛顿大学名誉教授莱克柯尔比先生。
  • He will continue as chairman emeritus.他将会继续担任荣誉主席。
5 asteroids d02ebba086eb60b6155b94e12649ff84     
n.小行星( asteroid的名词复数 );海盘车,海星
参考例句:
  • Asteroids,also known as "minor planets",are numerous in the outer space. 小行星,亦称为“小型行星”,在外太空中不计其数。
  • Most stars probably have their quota of planets, meteorids, comets, and asteroids. 多数恒星也许还拥有若干行星、流星、彗星和小行星。
6 nucleus avSyg     
n.核,核心,原子核
参考例句:
  • These young people formed the nucleus of the club.这些年轻人成了俱乐部的核心。
  • These councils would form the nucleus of a future regime.这些委员会将成为一个未来政权的核心。
7 nuclei tHCxF     
n.核
参考例句:
  • To free electrons, something has to make them whirl fast enough to break away from their nuclei. 为了释放电子,必须使电子高速旋转而足以摆脱原子核的束缚。
  • Energy is released by the fission of atomic nuclei. 能量是由原子核分裂释放出来的。
8 molecules 187c25e49d45ad10b2f266c1fa7a8d49     
分子( molecule的名词复数 )
参考例句:
  • The structure of molecules can be seen under an electron microscope. 分子的结构可在电子显微镜下观察到。
  • Inside the reactor the large molecules are cracked into smaller molecules. 在反应堆里,大分子裂变为小分子。
9 prone 50bzu     
adj.(to)易于…的,很可能…的;俯卧的
参考例句:
  • Some people are prone to jump to hasty conclusions.有些人往往作出轻率的结论。
  • He is prone to lose his temper when people disagree with him.人家一不同意他的意见,他就发脾气。
10 forth Hzdz2     
adv.向前;向外,往外
参考例句:
  • The wind moved the trees gently back and forth.风吹得树轻轻地来回摇晃。
  • He gave forth a series of works in rapid succession.他很快连续发表了一系列的作品。
11 convened fbc66e55ebdef2d409f2794046df6cf1     
召开( convene的过去式 ); 召集; (为正式会议而)聚集; 集合
参考例句:
  • The chairman convened the committee to put the issue to a vote. 主席召集委员们开会对这个问题进行表决。
  • The governor convened his troops to put down the revolt. 总督召集他的部队去镇压叛乱。
12 literally 28Wzv     
adv.照字面意义,逐字地;确实
参考例句:
  • He translated the passage literally.他逐字逐句地翻译这段文字。
  • Sometimes she would not sit down till she was literally faint.有时候,她不走到真正要昏厥了,决不肯坐下来。
13 deflect RxvxG     
v.(使)偏斜,(使)偏离,(使)转向
参考例句:
  • Never let a little problem deflect you.决不要因一点小问题就半途而废。
  • They decided to deflect from the original plan.他们决定改变原计划。
14 positively vPTxw     
adv.明确地,断然,坚决地;实在,确实
参考例句:
  • She was positively glowing with happiness.她满脸幸福。
  • The weather was positively poisonous.这天气着实讨厌。
15 essentially nntxw     
adv.本质上,实质上,基本上
参考例句:
  • Really great men are essentially modest.真正的伟人大都很谦虚。
  • She is an essentially selfish person.她本质上是个自私自利的人。
16 repel 1BHzf     
v.击退,抵制,拒绝,排斥
参考例句:
  • A country must have the will to repel any invader.一个国家得有决心击退任何入侵者。
  • Particles with similar electric charges repel each other.电荷同性的分子互相排斥。
17 volts 98e8d837b26722c4cf6887fd4ebf60e8     
n.(电压单位)伏特( volt的名词复数 )
参考例句:
  • The floating potential, Vf is usually only a few volts below ground. 浮置电势Vf通常只低于接地电位几伏。 来自辞典例句
  • If gamma particles are present, potential differences of several thousand volts can be generated. 如果存在γ粒子,可能产生几千伏的电位差。 来自辞典例句
18 ramming 4441fdbac871e16f59396559e88be322     
n.打结炉底v.夯实(土等)( ram的现在分词 );猛撞;猛压;反复灌输
参考例句:
  • They are ramming earth down. 他们在夯实泥土。 来自辞典例句
  • Father keeps ramming it down my throat that I should become a doctor. 父亲一直逼我当医生。 来自辞典例句
19 relatively bkqzS3     
adv.比较...地,相对地
参考例句:
  • The rabbit is a relatively recent introduction in Australia.兔子是相对较新引入澳大利亚的物种。
  • The operation was relatively painless.手术相对来说不痛。
20 conjecture 3p8z4     
n./v.推测,猜测
参考例句:
  • She felt it no use to conjecture his motives.她觉得猜想他的动机是没有用的。
  • This conjecture is not supported by any real evidence.这种推测未被任何确切的证据所证实。
21 psychology U0Wze     
n.心理,心理学,心理状态
参考例句:
  • She has a background in child psychology.她受过儿童心理学的教育。
  • He studied philosophy and psychology at Cambridge.他在剑桥大学学习哲学和心理学。
22 outraged VmHz8n     
a.震惊的,义愤填膺的
参考例句:
  • Members of Parliament were outraged by the news of the assassination. 议会议员们被这暗杀的消息激怒了。
  • He was outraged by their behavior. 他们的行为使他感到愤慨。
23 publicity ASmxx     
n.众所周知,闻名;宣传,广告
参考例句:
  • The singer star's marriage got a lot of publicity.这位歌星的婚事引起了公众的关注。
  • He dismissed the event as just a publicity gimmick.他不理会这件事,只当它是一种宣传手法。
24 alleged gzaz3i     
a.被指控的,嫌疑的
参考例句:
  • It was alleged that he had taken bribes while in office. 他被指称在任时收受贿赂。
  • alleged irregularities in the election campaign 被指称竞选运动中的不正当行为
25 analyze RwUzm     
vt.分析,解析 (=analyse)
参考例句:
  • We should analyze the cause and effect of this event.我们应该分析这场事变的因果。
  • The teacher tried to analyze the cause of our failure.老师设法分析我们失败的原因。
26 whim 2gywE     
n.一时的兴致,突然的念头;奇想,幻想
参考例句:
  • I bought the encyclopedia on a whim.我凭一时的兴致买了这本百科全书。
  • He had a sudden whim to go sailing today.今天他突然想要去航海。
27 straightforward fFfyA     
adj.正直的,坦率的;易懂的,简单的
参考例句:
  • A straightforward talk is better than a flowery speech.巧言不如直说。
  • I must insist on your giving me a straightforward answer.我一定要你给我一个直截了当的回答。
28 exclusionary 7b922c7ff4e4ecd651577aafa4370540     
adj.排斥(性)的,排除在外的
参考例句:
  • Play not finish, uncle fidgeting, cut exclusionary. 戏未演完,叔父坐立不安,仓皇退席。 来自互联网
  • Procecutor: I am asking you to recognize the absurdity of the exclusionary rule. 检察官:我是在请求您认识到这个排除规则的荒谬性。 来自互联网
29 clump xXfzH     
n.树丛,草丛;vi.用沉重的脚步行走
参考例句:
  • A stream meandered gently through a clump of trees.一条小溪从树丛中蜿蜒穿过。
  • It was as if he had hacked with his thick boots at a clump of bluebells.仿佛他用自己的厚靴子无情地践踏了一丛野风信子。
30 wooly Cfpw8     
adj.毛茸茸的;糊涂的
参考例句:
  • I like the feel of this cloth and it has a warm wooly feel.我喜欢这块布的手感,它摸上去毛茸茸的很暖和。
  • He wore a brown t-shirt with jeans and a pair of shoes,with a wooly hat covering his hair.小贝身穿一件棕色t恤,搭配牛仔裤和皮鞋,头戴一顶盖住头发的羊毛帽子。
31 amplified d305c65f3ed83c07379c830f9ade119d     
放大,扩大( amplify的过去式和过去分词 ); 增强; 详述
参考例句:
  • He amplified on his remarks with drawings and figures. 他用图表详细地解释了他的话。
  • He amplified the whole course of the incident. 他详述了事件的全过程。
32 determined duszmP     
adj.坚定的;有决心的
参考例句:
  • I have determined on going to Tibet after graduation.我已决定毕业后去西藏。
  • He determined to view the rooms behind the office.他决定查看一下办公室后面的房间。
33 align fKeyZ     
vt.使成一线,结盟,调节;vi.成一线,结盟
参考例句:
  • Align the ruler and the middle of the paper.使尺子与纸张的中部成一条直线。
  • There are signs that the prime minister is aligning himself with the liberals.有迹象表明首相正在与自由党人结盟。
34 browser gx7z2M     
n.浏览者
参考例句:
  • View edits in a web browser.在浏览器中看编辑的效果。
  • I think my browser has a list of shareware links.我想在浏览器中会有一系列的共享软件链接。
35 specimen Xvtwm     
n.样本,标本
参考例句:
  • You'll need tweezers to hold up the specimen.你要用镊子来夹这标本。
  • This specimen is richly variegated in colour.这件标本上有很多颜色。
36 tampers 3f9b662037e98e362f880382ae2cdcd1     
n.捣棒( tamper的名词复数 );打夯机;夯具;填塞者v.窜改( tamper的第三人称单数 );篡改;(用不正当手段)影响;瞎摆弄
参考例句:
  • If anyone tampers with this door it trips the alarm. 要是有人撬这扇门,就会触响警报器。 来自辞典例句
  • I do not approve of anything which tampers with natural ignorance. 我不赞成损害与生俱来的愚昧的任何事物。 来自互联网
37 primate A1YzI     
n.灵长类(目)动物,首席主教;adj.首要的
参考例句:
  • 14 percent of primate species are highly endangered.14%的灵长类物种处于高度濒危状态。
  • The woolly spider monkey is the largest primate in the Americas.绒毛蛛猴是美洲最大的灵长类动物。
38 primates 9536f12c27d026e37c108bd6fc53dbba     
primate的复数
参考例句:
  • Primates are alert, inquisitive animals. 灵长目动物是机灵、好奇的动物。
  • Consciousness or cerebration has been said to have emerged in the evolution of higher primates. 据说意识或思考在较高级灵长类的进化中已出现。
39 molecular mE9xh     
adj.分子的;克分子的
参考例句:
  • The research will provide direct insight into molecular mechanisms.这项研究将使人能够直接地了解分子的机理。
  • For the pressure to become zero, molecular bombardment must cease.当压强趋近于零时,分子的碰撞就停止了。
40 tuned b40b43fd5af2db4fbfeb4e83856e4876     
adj.调谐的,已调谐的v.调音( tune的过去式和过去分词 );调整;(给收音机、电视等)调谐;使协调
参考例句:
  • The resort is tuned in to the tastes of young and old alike. 这个度假胜地适合各种口味,老少皆宜。
  • The instruments should be tuned up before each performance. 每次演出开始前都应将乐器调好音。 来自《简明英汉词典》
41 weird bghw8     
adj.古怪的,离奇的;怪诞的,神秘而可怕的
参考例句:
  • From his weird behaviour,he seems a bit of an oddity.从他不寻常的行为看来,他好像有点怪。
  • His weird clothes really gas me.他的怪衣裳简直笑死人。
42 arsenal qNPyF     
n.兵工厂,军械库
参考例句:
  • Even the workers at the arsenal have got a secret organization.兵工厂工人暗中也有组织。
  • We must be the great arsenal of democracy.我们必须成为民主的大军火库。
43 technically wqYwV     
adv.专门地,技术上地
参考例句:
  • Technically it is the most advanced equipment ever.从技术上说,这是最先进的设备。
  • The tomato is technically a fruit,although it is eaten as a vegetable.严格地说,西红柿是一种水果,尽管它是当作蔬菜吃的。
44 prestigious nQ2xn     
adj.有威望的,有声望的,受尊敬的
参考例句:
  • The young man graduated from a prestigious university.这个年轻人毕业于一所名牌大学。
  • You may even join a prestigious magazine as a contributing editor.甚至可能会加入一个知名杂志做编辑。
45 decided lvqzZd     
adj.决定了的,坚决的;明显的,明确的
参考例句:
  • This gave them a decided advantage over their opponents.这使他们比对手具有明显的优势。
  • There is a decided difference between British and Chinese way of greeting.英国人和中国人打招呼的方式有很明显的区别。
46 glaciers e815ddf266946d55974cdc5579cbd89b     
冰河,冰川( glacier的名词复数 )
参考例句:
  • Glaciers gouged out valleys from the hills. 冰川把丘陵地带冲出一条条山谷。
  • It has ice and snow glaciers, rainforests and beautiful mountains. 既有冰川,又有雨林和秀丽的山峰。 来自英语晨读30分(高一)
47 methane t1Eyx     
n.甲烷,沼气
参考例句:
  • The blast was caused by pockets of methane gas that ignited.爆炸是由数袋甲烷气体着火引起的。
  • Methane may have extraterrestrial significance.甲烷具有星际意义。
48 catering WwtztU     
n. 给养
参考例句:
  • Most of our work now involves catering for weddings. 我们现在的工作多半是承办婚宴。
  • Who did the catering for your son's wedding? 你儿子的婚宴是由谁承办的?
49 narrative CFmxS     
n.叙述,故事;adj.叙事的,故事体的
参考例句:
  • He was a writer of great narrative power.他是一位颇有记述能力的作家。
  • Neither author was very strong on narrative.两个作者都不是很善于讲故事。
50 scotch ZZ3x8     
n.伤口,刻痕;苏格兰威士忌酒;v.粉碎,消灭,阻止;adj.苏格兰(人)的
参考例句:
  • Facts will eventually scotch these rumours.这种谣言在事实面前将不攻自破。
  • Italy was full of fine views and virtually empty of Scotch whiskey.意大利多的是美景,真正缺的是苏格兰威士忌。
51 jersey Lp5zzo     
n.运动衫
参考例句:
  • He wears a cotton jersey when he plays football.他穿运动衫踢足球。
  • They were dressed alike in blue jersey and knickers.他们穿着一致,都是蓝色的运动衫和灯笼短裤。
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TAG标签:   科学美国人60秒  英语听力  sss
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