ABOUT THE SPEAKER
Janine Benyus - Science writer, innovation consultant, conservationist
A self-proclaimed nature nerd, Janine Benyus' concept of biomimicry has galvanized scientists, architects, designers and engineers into exploring new ways in which nature's successes can inspire humanity.

Why you should listen

In the world envisioned by science author Janine Benyus, a locust's ability to avoid collision within a roiling cloud of its brethren informs the design of a crash-resistant car; a self-cleaning leaf inspires a new kind of paint, one that dries in a pattern that enables simple rainwater to wash away dirt; and organisms capable of living without water open the way for vaccines that maintain potency even without refrigeration -- a hurdle that can prevent life-saving drugs from reaching disease-torn communities. Most important, these cool tools from nature pull off their tricks while still managing to preserve the environment that sustains them, a life-or-death lesson that humankind is in need of learning.

As a champion of biomimicry, Benyus has become one of the most important voices in a new wave of designers and engineers inspired by nature. Her most recent project, AskNature, explores what happens if we think of nature by function and looks at what organisms can teach us about design.

More profile about the speaker
Janine Benyus | Speaker | TED.com
TEDGlobal 2009

Janine Benyus: Biomimicry in action

珍妮·班娜斯:仿生技术进行式

Filmed:
1,420,524 views

珍妮·班娜斯向发明家传达了这样一个信息:设法解决设计上的问题时先观察自然界。你会在自然界中找到防水、航空力学、太阳能及众多设计灵感。在此,她向我们展示众多灵感取自自然,令人赞叹不已的新作。
- Science writer, innovation consultant, conservationist
A self-proclaimed nature nerd, Janine Benyus' concept of biomimicry has galvanized scientists, architects, designers and engineers into exploring new ways in which nature's successes can inspire humanity. Full bio

Double-click the English transcript below to play the video.

00:18
If I could reveal揭示 anything
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如果我可以展示任何事物,
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that is hidden from us,
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任何我们看不到的事物,
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at least最小 in modern现代 cultures文化,
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至少对于现代文化来说,
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it would be to reveal揭示 something that we've我们已经 forgotten忘记了,
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那只会展示是我们抛之脑后的事物,
00:32
that we used to know
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但我们曾经是知道他们的,
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as well as we knew知道 our own拥有 names.
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就像我们知道自己的名字一样。
00:38
And that is that we live生活 in a competent胜任 universe宇宙,
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而且我们生活在全能的宇宙中,
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that we are part部分 of a brilliant辉煌 planet行星,
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作为这奇妙行星中的一员,
00:45
and that we are surrounded包围 by genius天才.
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我们的身边充满了天才。
00:49
Biomimicry仿生学 is a new discipline学科
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仿生学是一门新学科,
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that tries尝试 to learn学习 from those geniuses天才,
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这门学科尝试向自然界中的天才学习,
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and take advice忠告 from them, design设计 advice忠告.
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听取它们的建议,设计上的建议。
00:58
That's where I live生活,
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这是我住的地方。
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and it's my university大学 as well.
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也是我教书的地方。
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I'm surrounded包围 by genius天才. I cannot不能 help but
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我被天才包围,不由自主地
01:08
remember记得 the organisms生物 and the ecosystems生态系统
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一直记着这些生物和生态系统
01:13
that know how to live生活 here gracefully优雅 on this planet行星.
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它们知道如何优雅地生活在这个星球上。
01:18
This is what I would tell you to remember记得
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这是我希望你能记住的一点,
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if you ever forget忘记 this again.
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并且不要再忘记,
01:23
Remember记得 this.
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请牢记,
01:25
This is what happens发生 every一切 year.
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这是每年都会发生的事,
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This is what keeps保持 its promise诺言.
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大自然信守承诺的事,
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While we're doing bailouts救助, this is what happened发生.
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正当我们忙于复苏经济,我们却忽视了这正在进行的……
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Spring弹簧.
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春天
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Imagine想像 designing设计 spring弹簧.
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设想要设计一个春天
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Imagine想像 that orchestration管弦乐编曲.
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设想一下那和谐的编排
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You think TEDTED is hard to organize组织. (Laughter笑声) Right?
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大家觉得TED已经够难组织的了(众笑),是吧?
01:48
Imagine想像, and if you haven't没有 doneDONE this in a while, do.
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想象一下,要是你很久没这么做过,现在试一下
01:53
Imagine想像 the timing定时, the coordination协调,
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试想一下那高超的时机把握,和谐乐章的演奏,
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all without top-down自顶向下 laws法律,
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完全不依赖于上下对应的法律法规,
02:01
or policies政策, or climate气候 change更改 protocols协议.
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完全不依赖于政策,或拯救气候变暖协议。
02:04
This happens发生 every一切 year.
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春天每年都这样降临
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There is lots of showing展示 off.
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当然少不了争奇斗艳
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There is lots of love in the air空气.
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空气中也充满了爱
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There's lots of grand盛大 openings开口.
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少不了富丽堂皇的开场
02:21
And the organisms生物, I promise诺言 you,
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而这些有机体,我敢保证,
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have all of their priorities优先 in order订购.
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全都井然有序
02:27
I have this neighbor邻居 that keeps保持 me in touch触摸 with this,
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我曾经有个邻居,他让我常接触这些
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because he's living活的, usually平时 on his back,
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因为他的生活,通常是躺着的,
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looking up at those grasses.
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看着那些草儿
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And one time he came来了 up to me --
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一次,他来找我
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he was about seven or eight years年份 old -- he came来了 up to me.
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那时他大概七八岁,他来找我
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And there was a wasp's黄蜂的 nest
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告诉我,那儿有个蜂巢
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that I had let grow增长 in my yard,
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就在我的后院里
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right outside my door.
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穿过门就是
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And most people knock them down when they're small.
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多数人趁蜂巢还小的时后,就将其打下
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But it was fascinating迷人 to me,
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但我却着迷与此
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because I was looking at this sort分类 of fine Italian意大利 end结束 papers文件.
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因为蜂巢在我眼里看起来极像精致的意式衬页
02:54
And he came来了 up to me and he knocked被撞.
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他过来找我,敲了敲门
02:56
He would come every一切 day with something to show显示 me.
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他每天都会带些东西给我看
02:59
And like, knock like a woodpecker啄木鸟 on my door until直到 I opened打开 it up.
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像只啄木鸟,他当当地敲门,直到我开门为止
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And he asked me
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然后他问我,
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how I had made制作 the house for those wasps黄蜂,
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我是怎么为黄蜂做巢的
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because he had never seen看到 one this big.
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因为他从来没见过这么大的一个蜂巢
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And I told him, "You know, Cody科迪,
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我告诉他“科迪,要知道
03:19
the wasps黄蜂 actually其实 made制作 that."
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其实那是黄蜂自己做的。”
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And we looked看着 at it together一起.
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然后我们一起看
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And I could see why he thought,
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我能理解为何他会那样想
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you know -- it was so beautifully精美 doneDONE.
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要知道,那蜂巢建的真的很美
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It was so architectural建筑的. It was so precise精确.
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很有建筑感,很精准
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But it occurred发生 to me, how in his small life
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但我禁不住想,为何这么小的孩子,
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had he already已经 believed相信 the myth神话
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就已经接受并相信这么个神话,
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that if something was that well doneDONE,
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这么完美的作品
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that we must必须 have doneDONE it.
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一定是出自人类之手
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How did he not know --
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为何他会不知道
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it's what we've我们已经 all forgotten忘记了 --
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人类只是忘却了
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that we're not the first ones那些 to build建立.
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我们并非第一个会建筑的物种
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We're not the first ones那些 to process处理 cellulose纤维素.
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我们并非第一个会处理纤维的物种
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We're not the first ones那些 to make paper. We're not the first ones那些
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我们并非第一个造纸的物种
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to try to optimize优化 packing填料 space空间,
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我们并非第一个优化填充空间的物种
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or to waterproof防水, or to try to heat and cool a structure结构体.
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也不是制作防水材料或加热冷却材质的第一物种
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We're not the first ones那些 to build建立 houses房屋 for our young年轻.
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也不是为后代建造房屋的第一物种
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What's happening事件 now, in this field领域 called biomimicry仿生学,
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现在仿生技术领域正使
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is that people are beginning开始 to remember记得
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人们的记忆复苏
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that organisms生物, other organisms生物,
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提醒人们,生物体,其他生物体
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the rest休息 of the natural自然 world世界,
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自然界中的其他生物体
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are doing things very similar类似 to what we need to do.
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正在做的与我们极为相似
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But in fact事实 they are doing them in a way
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但事实上,他们的方法
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that have allowed允许 them to live生活 gracefully优雅 on this planet行星
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可以使它们优雅地生活在这个星球上
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for billions数十亿 of years年份.
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达数十亿年之久
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So these people, biomimicsbiomimics,
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这些仿生学家们,
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are nature's大自然 apprentices学徒.
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是大自然的学徒
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And they're focusing调焦 on function功能.
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他们注重功能
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What I'd like to do is show显示 you a few少数 of the things
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我想向大家展示一下
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that they're learning学习.
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他们正在学习的东西
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They have asked themselves他们自己,
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他们这样问自己
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"What if, every一切 time I started开始 to invent发明 something,
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“要是我发明前
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I asked, 'How'怎么样 would nature性质 solve解决 this?'"
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都想想大自然对此的解决方案,会怎样呢?”
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And here is what they're learning学习.
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这是他们正在学习的
05:00
This is an amazing惊人 picture图片 from a Czech捷克 photographer摄影师 named命名 Jack插口 Hedley赫德利.
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这张令人拍案叫绝的照片是捷克摄影师杰克.海德里的作品
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This is a story故事 about an engineer工程师 at J.R. West西.
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这个故事是关于工程师J.R.韦斯特的
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They're the people who make the bullet子弹 train培养.
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他是研制子弹列车(bullet train)的一员
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It was called the bullet子弹 train培养
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之所以叫子弹列车
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because it was rounded in front面前,
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是因为车头是圆的
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but every一切 time it went into a tunnel隧道
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但每次驶进山洞时
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it would build建立 up a pressure压力 wave,
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就会产生一股压力波
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and then it would create创建 like a sonic boom繁荣 when it exited退出.
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驶出山洞时就会发出音爆巨响
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So the engineer's工程师 boss老板 said,
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于是工程师的头儿说:
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"Find a way to quiet安静 this train培养."
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“找个法子降降音量。”
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He happened发生 to be a birder捕鸟.
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韦斯特正巧也是个鸟类爱好者
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He went to the equivalent当量 of an Audubon奥杜邦 Society社会 meeting会议.
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他去了奥杜邦学会相关会议
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And he studied研究 -- there was a film电影 about king国王 fishers渔民.
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研究学习,正巧,一段关于翠鸟的影片
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And he thought to himself他自己, "They go from one density密度 of medium,
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让他灵光一闪,“他们从一种密度的介质,空气
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the air空气, into another另一个 density密度 of medium, water,
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进入另一种密度的介质,水
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without a splash. Look at this picture图片.
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却溅不起一丝水花。”看看这张照片
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Without没有 a splash, so they can see the fish.
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因为没有一丝水花,水里的鱼鸟儿看得一清二楚
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And he thought, "What if we do this?"
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接着他想到“要不我们也这么办?”
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Quieted the train培养.
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通过这种方法,列车的噪声大大降低
05:50
Made制作 it go 10 percent百分 faster更快 on 15 percent百分 less electricity电力.
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同时,速度提升了10%并且节省了15%的电力
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How does nature性质 repel击退 bacteria?
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大自然是如何抗菌的呢?
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We're not the first ones那些 to have to protect保护 ourselves我们自己
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我们并非第一个保护自己
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from some bacteria.
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免受细菌侵害的物种
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Turns out that -- this is a Galapagos加拉帕戈斯 Shark鲨鱼.
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原来答案在加拉帕戈斯群岛的鲨鱼(Galapagos Shark)身上
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It has no bacteria on its surface表面, no fouling结垢 on its surface表面, no barnacles藤壶.
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它表面没有细菌、污垢,身上也没有附着甲壳动物
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And it's not because it goes fast快速.
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这并不是因为它游得快
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It actually其实 basks晾晒. It's a slow-moving缓慢移动 shark鲨鱼.
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事实上它很惬意,一向游得很慢
06:16
So how does it keep its body身体 free自由 of bacteria build-up积聚?
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那它是如何保持身体不滋生细菌的呢?
06:19
It doesn't do it with a chemical化学.
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它不使用化学制剂
06:21
It does it, it turns out, with the same相同 denticles细齿
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原来是他身上的锯齿状物
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that you had on Speedo斯皮 bathing洗澡 suits西装,
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就是和Speedo泳衣材质一样的锯齿状物
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that broke打破 all those records记录 in the Olympics奥运会,
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有了它运动员在奥运会上所向披靡
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but it's a particular特定 kind of pattern模式.
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但这齿状物有一种独特的图案
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And that pattern模式, the architecture建筑 of that pattern模式
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而其结构
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on its skin皮肤 denticles细齿
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富含锯齿状物
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keep bacteria from being存在 able能够 to land土地 and adhere附着.
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让细菌无处无处着生
06:41
There is a company公司 called Sharklet鲨鳍小 Technologies技术
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有家叫Sharklet Technologies的公司
06:43
that's now putting this on the surfaces in hospitals医院
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正把这种结构铺设在医院的墙面上
06:47
to keep bacteria from landing降落,
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防止细菌附着
06:49
which哪一个 is better than dousing浇熄 it with anti-bacterials抗细菌 or harsh苛刻 cleansers清洁剂
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此法远优于抗菌或其他任何强劲的洗液
06:55
that many许多, many许多 organisms生物 are now becoming变得 drug药物 resistant.
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许多生物体都对这些洗液产生抗药性
06:59
Hospital-acquired医院获得 infections感染 are now killing谋杀
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在美国,每年在医院里感染致死的人数
07:01
more people every一切 year in the United联合的 States状态
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远高于
07:04
than die from AIDS艾滋病 or cancer癌症 or car汽车 accidents事故 combined结合 --
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艾滋病、癌症及交通事故死亡率的总和
07:09
about 100,000.
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达到10万人左右
07:11
This is a little critter小动物 that's in the Namibian纳米比亚 desert沙漠.
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这是种住在纳米比亚沙漠的小生物
07:14
It has no fresh新鲜 water that it's able能够 to drink,
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它们没有新鲜水源可以饮用
07:17
but it drinks饮料 water out of fog多雾路段.
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但它们从雾气中摄取水分
07:20
It's got bumps颠簸 on the back of its wing翅膀 covers盖子.
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在覆盖它身体的翅膀后侧有些突起
07:23
And those bumps颠簸 act法案 like a magnet磁铁 for water.
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这些突起像磁铁一样吸水
07:26
They have water-loving喜水 tips提示, and waxy sides双方.
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它们有亲水的前端和蜡质的旁侧
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And the fog多雾路段 comes in and it builds建立 up on the tips提示.
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所以雾气回凝结在尖端
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And it goes down the sides双方 and goes into the critter's小动物的 mouth.
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然后从旁侧流下直至其口中
07:35
There is actually其实 a scientist科学家 here at Oxford牛津
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有位牛津大学的科学家
07:38
who studied研究 this, Andrew安德鲁 Parker帕克.
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安德鲁帕克对此做过研究
07:40
And now kinetic动能 and architectural建筑的 firms公司 like Grimshaw格里姆肖
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现在有些动力和建筑公司,比如Grimshaw
07:44
are starting开始 to look at this as a way
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开始着眼于把这项技术应用在
07:46
of coating涂层 buildings房屋
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建筑涂料上
07:49
so that they gather收集 water from the fog多雾路段.
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这样雾气中的水分就可以被收集起来
07:51
10 times better than our fog-catching雾捕 nets.
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效果比现有的捉雾网(fog-catching nets)高10倍
07:56
COCO2 as a building建造 block.
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二氧化碳作为建筑材料
07:58
Organisms生物 don't think of COCO2 as a poison.
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生物体可不把二氧化碳当有害气体
08:01
Plants植物 and organisms生物 that make shells炮弹,
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对于那些生产贝壳珊瑚的植物及有机体
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coral珊瑚, think of it as a building建造 block.
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这可是建筑材料
08:06
There is now a cement水泥 manufacturing制造业 company公司
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现在有间水泥制造公司
08:09
starting开始 in the United联合的 States状态 called Calera卡莱拉.
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叫Clara,成立于美国
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They've他们已经 borrowed the recipe食谱 from the coral珊瑚 reef,
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他们借用了珊瑚的秘方
08:15
and they're using运用 COCO2 as a building建造 block
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把二氧化碳当作
08:18
in cement水泥, in concrete具体.
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水泥、混凝土的成分
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Instead代替 of -- cement水泥 usually平时
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通常情况下,
08:22
emits发射 a ton of COCO2 for every一切 ton of cement水泥.
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每生产一吨水泥排放一吨的二氧化碳
08:25
Now it's reversing倒车 that equation方程,
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现在方程式被逆转
08:27
and actually其实 sequestering螯合 half a ton of COCO2
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并且可以降低半吨二氧化碳
08:30
thanks谢谢 to the recipe食谱 from the coral珊瑚.
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这一切可多亏了珊瑚的秘方
08:32
None没有 of these are using运用 the organisms生物.
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以上这些都没利用生物体
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They're really only using运用 the blueprints蓝图 or the recipes食谱
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它们其实只用了
08:36
from the organisms生物.
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生命蓝图或秘方
08:39
How does nature性质 gather收集 the sun's太阳 energy能源?
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大自然如何收集太阳能?
08:42
This is a new kind of solar太阳能 cell细胞
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这是一种新的太阳能电池
08:44
that's based基于 on how a leaf works作品.
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它是基于叶子的运作方式
08:46
It's self-assembling自组装.
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它可以自我组装
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It can be put down on any substrate基质 whatsoever任何.
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也可以着根于任何生化基质
08:50
It's extremely非常 inexpensive便宜
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其价格低廉
08:52
and rechargeable充电 every一切 five years年份.
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而且每五年可再充电
08:55
It's actually其实 a company公司 a company公司 that I'm involved参与 in called OneSunOneSun,
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其实是我参与的一间叫OneSun的公司
08:58
with Paul保罗 Hawken霍肯.
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和保罗.浩肯合作
09:00
There are many许多 many许多 ways方法 that nature性质 filters过滤器 water
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大自然有好多好多净水
09:04
that takes salt out of water.
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并去除盐分的方法
09:07
We take water and push it against反对 a membrane.
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我们人类却用水去挤压细胞膜
09:10
And then we wonder奇迹 why the membrane clogs木底鞋
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还纳闷为何细胞膜会堵塞
09:12
and why it takes so much electricity电力.
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为何这一过程如此费电
09:14
Nature性质 does something much more elegant优雅.
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大自然的手法则更加优雅
09:16
And it's in every一切 cell细胞.
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这种方法渗透到每一个细胞
09:18
Every一切 red blood血液 cell细胞 of your body身体 right now
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现在你体内的每一个血红细胞
09:21
has these hourglass-shaped鼓形 pores毛孔
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都有沙漏型小孔
09:23
called aquaporins水通道蛋白.
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叫水孔蛋白(aquaporins)
09:25
They actually其实 export出口 water molecules分子 through通过.
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它们让水分子通过、流出
09:28
It's kind of a forward前锋 osmosis渗透.
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这过程多少有点像正向渗透
09:30
They export出口 water molecules分子 through通过,
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它们输出水分子
09:32
and leave离开 solutes溶质 on the other side.
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把溶解质留在另一边
09:35
A company公司 called Aquaporin水通道蛋白 is starting开始 to make desalination海水淡化
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一间名叫Aquaporin的公司正在开始制造
09:38
membranes mimicking模仿 this technology技术.
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模仿这项技术的去盐薄膜
09:42
Trees and bones骨头 are constantly经常 reforming改革 themselves他们自己
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树木和骨骼通常
09:47
along沿 lines线 of stress强调.
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沿着压力线自我重组
09:49
This algorithm算法 has been put into a software软件 program程序
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这种演算法已被运用在软件上
09:53
that's now being存在 used to make bridges桥梁 lightweight轻量级,
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协助促使桥梁轻量化
09:55
to make building建造 beams lightweight轻量级.
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使建筑钢梁轻量化
09:58
Actually其实 G.M. Opel欧宝 used it
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事实上通用汽车的欧宝(Opel)已开始运用这项技术
10:00
to create创建 that skeleton骨架 you see,
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制造你所见过的那种汽车骨架
10:04
in what's called their bionic仿生 car汽车.
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在所谓的仿生车当中
10:07
It lightweightedlightweighted that skeleton骨架 using运用 a minimum最低限度 amount of material材料,
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轻量化的骨架使用最少的材料
10:10
as an organism生物 must必须,
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正如一个有机体为生存所必须做到的一样
10:13
for the maximum最大值 amount of strength强度.
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获取最大限量的支撑力
10:17
This beetle甲虫, unlike不像 this chip芯片 bag here,
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这只甲虫,和这袋薯片不大一样
10:21
this beetle甲虫 uses使用 one material材料, chitin几丁质.
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这甲虫运用了一种材料,壳质(chitin)
10:24
And it finds认定 many许多 many许多 ways方法
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并且找出了好多方法
10:26
to put many许多 functions功能 into it.
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让壳质发挥多种功能
10:28
It's waterproof防水.
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它防水
10:30
It's strong强大 and resilient弹性.
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坚固有弹性
10:32
It's breathable透气. It creates创建 color颜色 through通过 structure结构体.
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又透气,并且结构安排产生颜色
10:36
Whereas that chip芯片 bag has about seven layers to do all of those things.
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再来看看那袋薯片,同样的效果需要7层才能实现
10:40
One of our major重大的 inventions发明
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我们的主要发明之一
10:43
that we need to be able能够 to do
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就是我们必须具备能力
10:45
to come even close to what these organisms生物 can do
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去与这些生物体更加亲近
10:47
is to find a way
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要实现这一目的,我们要
10:51
to minimize最小化 the amount of material材料, the kind of material材料 we use,
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减少材料用量,减少我们使用材料量
10:54
and to add design设计 to it.
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然后加上设计
10:56
We use five polymers聚合物 in the natural自然 world世界
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大自然使用五种聚合物
10:59
to do everything that you see.
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你亲眼所见的都是其杰作
11:01
In our world世界 we use about 350 polymers聚合物
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而我们人类使用350种聚合物
11:05
to make all this.
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才成就了今天的一切
11:10
Nature性质 is nano纳米.
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大自然是纳米专家
11:12
Nanotechnology纳米技术, nanoparticles纳米粒子, you hear a lot of worry担心 about this.
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关于纳米科技、纳米粒子,各种忧虑屡见不鲜
11:17
Loose疏松 nanoparticles纳米粒子. What is really interesting有趣 to me
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松散的纳米粒子。而我最感兴趣的是
11:21
is that not many许多 people have been asking,
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有多少人问过:
11:24
"How can we consult请教 nature性质 about how to make nanotechnology纳米技术 safe安全?"
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“我们应如何借鉴大自然使纳米技术安全化?”
11:29
Nature性质 has been doing that for a long time.
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大自然已行之久远
11:31
Embedding嵌入 nanoparticles纳米粒子 in a material材料 for instance, always.
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例如,他总是把纳米粒子固定在某种材质中
11:35
In fact事实, sulfur-reducing硫还原 bacteria,
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事实上,除硫细菌(sulfur-reducing bacteria)
11:37
as part部分 of their synthesis合成,
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在其合成过程中
11:40
they will emit发射, as a byproduct副产品,
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会释放一种副产品
11:42
nanoparticles纳米粒子 into the water.
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一种纳米粒子进入水中
11:44
But then right after that, they emit发射 a protein蛋白
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在此之后,它会释放一种蛋白质
11:46
that actually其实 gathers and aggregates聚集 those nanoparticles纳米粒子
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可以聚集、聚合那些纳米粒子
11:49
so that they fall秋季 out of solution.
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于是它们得以解决
11:54
Energy能源 use. Organisms生物 sip energy能源,
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能量使用。生物体慎用能量
11:59
because they have to work or barter物物交换 for every一切 single bit that they get.
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因为它们不得不为此运转或易物来获得每一分
12:04
And one of the largest最大 fields领域 right now,
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如今最主要的领域之一
12:07
in the world世界 of energy能源 grids网格,
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世界能源网中
12:09
you hear about the smart聪明 grid.
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你一定听说过智能电网(smart grid)
12:11
One of the largest最大 consultants顾问 are the social社会 insects昆虫.
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其最重要的顾问之一就是群居昆虫
12:15
Swarm一群 technology技术. There is a company公司 called Regen雷根.
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峰群技术。有一家名为Regen的公司
12:18
They are looking at how ants蚂蚁 and bees蜜蜂
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他们通过观察蚂蚁和蜜蜂
12:21
find their food餐饮 and their flowers花卉
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觅食集采花粉
12:24
in the most effective有效 way
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用对整个蜂巢
12:26
as a whole整个 hive蜂巢.
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的最有效方式
12:28
And they're having appliances家电 in your home
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它们有种家用设备
12:31
talk to one another另一个 through通过 that algorithm算法,
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通过哪种演算法互相沟通
12:34
and determine确定 how to minimize最小化 peak power功率 use.
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然后决定如何把尖峰用电量降到最低
12:40
There's a group of scientists科学家们 in Cornell康奈尔
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有一群康奈尔大学的科学家
12:43
that are making制造 what they call a synthetic合成的 tree,
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正在制造他们所谓的人造树
12:45
because they are saying, "There is no pump at the bottom底部 of a tree."
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因为他们说“树底部没有水泵。”
12:49
It's capillary毛细管 action行动 and transpiration蒸腾 pulls
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是毛细作用和蒸散作用产生的拉力
12:53
water up, a drop下降 at a time,
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一滴一滴把水吸上去
12:55
pulling it, releasing释放 it from a leaf and pulling it up through通过 the roots.
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拉上去,从叶面释放然后从根部拉取
13:00
And they're creating创建 -- you can think of it as a kind of wallpaper墙纸.
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然后它们可以创造--想象它们是一种壁纸
13:03
They're thinking思维 about putting it on the insides内部 of buildings房屋
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这些科学家正想把它运用在建筑内部
13:07
to move移动 water up without pumps.
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把水抽高而不需水泵
13:13
Amazon亚马逊 electric电动 eel鳗鱼 -- incredibly令人难以置信 endangered濒危,
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亚马逊电鳗(Amazon Electric Eel),濒临绝种
13:15
some of these species种类 --
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这些物种当中的一些
13:17
create创建 600 volts of electricity电力
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能使用身体中的一些化学物质
13:21
with the chemicals化学制品 that are in your body身体.
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产生600伏的电力
13:24
Even more interesting有趣 to me is that
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更让我感兴趣的是
13:26
600 volts doesn't fry it.
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600伏的高压却没把自己煎熟
13:29
You know we use PVCPVC, and we sheath wires电线
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要知道我们用聚氯乙烯(PVC)包住电线
13:32
with PVCPVC for insulation绝缘.
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利用聚氯乙烯作为绝缘体
13:34
These organisms生物, how are they insulating绝缘
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这些生物,它们如何让自己
13:36
against反对 their own拥有 electric电动 charge收费?
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跟自己产生的电力绝缘呢?
13:39
These are some questions问题 that we've我们已经 yet然而 to ask.
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有些问题我们尚无解答
13:42
Here's这里的 a wind turbine涡轮 manufacturer生产厂家 that went to a whale.
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有一家涡轮制造商取法于鲸鱼
13:46
Humpback驼背 whale has scalloped齿痕 edges边缘 on its flippers蛙鞋.
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驼背鲸(Humpback whale)有扇形边的鳍
13:50
And those scalloped齿痕 edges边缘
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那些扇形边
13:52
play with flow in such这样 a way
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用某种方式与水流相互作用
13:55
that is reduces减少 drag拖动 by 32 percent百分.
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减少了32%的阻力
13:58
These wind turbines涡轮机 can rotate回转 in incredibly令人难以置信 slow windspeedswindspeeds, as a result结果.
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于是极低的风速即可转动风扇
14:04
MITMIT just has a new radio无线电 chip芯片
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麻省理工大学刚制造出一种新的无线电晶片
14:07
that uses使用 far less power功率 than our chips芯片.
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其用电量远小于目前晶片
14:11
And it's based基于 on the cochlear人工耳蜗 of your ear,
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而且它取法与你耳中的耳蜗
14:14
able能够 to pick up internet互联网, wireless无线, television电视 signals信号
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可以接收网络、无线电、电视信号
14:19
and radio无线电 signals信号, in the same相同 chip芯片.
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电台信号,这些功能都集于一身
14:22
Finally最后, on an ecosystem生态系统 scale规模.
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最后,建立在生态系统规模上
14:26
At Biomimicry仿生学 Guild公会, which哪一个 is my consulting咨询 company公司,
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在Biomimicry Guild,也就是我的顾问的公司
14:29
we work with HOKHOK Architects建筑师.
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我们与HOK建筑公司合作
14:31
We're looking at building建造 whole整个 cities城市
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我们真在考虑建造整座城市
14:35
in their planning规划 department.
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我们在他们的筹划部门工作
14:37
And what we're saying is that,
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我们诉求的是
14:39
shouldn't不能 our cities城市 do at least最小 as well,
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从生态系统服务的角度来看
14:42
in terms条款 of ecosystem生态系统 services服务,
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我们的城市至少不应该是
14:44
as the native本地人 systems系统 that they replace更换?
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干他们取代的原始系统一样好吗?
14:47
So we're creating创建 something called Ecological生态 Performance性能 Standards标准
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于是我们正在设立生态性能标准
14:51
that hold保持 cities城市 to this higher更高 bar酒吧.
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能让城市维持在这个标准
14:55
The question is -- biomimicry仿生学 is an incredibly令人难以置信 powerful强大
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问题是,仿生科技是创新
14:58
way to innovate创新.
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一条极其有力的途径
15:01
The question I would ask is, "What's worth价值 solving?"
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我想问的是:“哪些问题值得去解决?”
15:04
If you haven't没有 seen看到 this, it's pretty漂亮 amazing惊人.
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要你之前没看过,这个会挺令人吃惊的
15:06
Dr博士. Adam亚当 Neiman尼曼.
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亚当.尼曼博士
15:09
This is a depiction描写 of
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这张图像描绘的是
15:11
all of the water on Earth地球
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地球上所有的水
15:13
in relation关系 to the volume of the Earth地球 --
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相对于地球体积
15:15
all the ice, all the fresh新鲜 water, all the sea water --
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所有的冰、淡水、咸水
15:18
and all the atmosphere大气层 that we can breathe呼吸, in relation关系 to the volume of the Earth地球.
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和我们呼吸的大气,相对于地球的体积
15:22
And inside those balls
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而在那些球里头的是
15:24
life, over 3.8 billion十亿 years年份,
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生命,超过3.8亿年之久
15:28
has made制作 a lush青葱的, livable适于居住的 place地点 for us.
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帮我们创造了苍翠、适宜居住的环境
15:33
And we are in a long, long line线
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在所有的生物当中
15:36
of organisms生物
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我们排在长长的队伍后面
15:38
to come to this planet行星 and ask ourselves我们自己,
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来到地球上面并问我们自己
15:41
"How can we live生活 here gracefully优雅 over the long haul运输?"
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“我们如何优雅的、长久的生存?”
15:45
How can we do what life has learned学到了 to do?
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我们如何才能做到其他生物早已学会的事情?
15:50
Which哪一个 is to create创建 conditions条件 conducive有利于 to life.
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也就是创造有利于生存的环境
15:54
Now in order订购 to do this, the design设计 challenge挑战
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现在为了实现这个目的
15:58
of our century世纪, I think,
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我们这一世纪设计的挑战,我想
16:01
we need a way to remind提醒 ourselves我们自己 of those geniuses天才,
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我们需要时时提醒自己想想那些天才
16:06
and to somehow不知何故 meet遇到 them again.
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并且再以某种方式与它们会面
16:09
One of the big ideas思路, one of the big projects项目
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其中一个庞大的计划
16:11
I've been honored荣幸 to work on
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是我有幸参与的
16:13
is a new website网站. And I would encourage鼓励 you all to please go to it.
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是关于一个新网站,我希望大家去浏览它
16:16
It's called AskNatureAskNature.org组织.
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它叫AskNature.org
16:19
And what we're trying to do, in a TEDesqueTEDesque way,
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我们尝试沿用TED的风格
16:22
is to organize组织 all biological生物 information信息
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依照设计上和工程上的功能
16:24
by design设计 and engineering工程 function功能.
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组织所有生物资讯
16:28
And we're working加工 with EOLEOL, Encyclopedia百科全书 of Life,
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我与生物百科合作
16:31
Ed埃德 Wilson's威尔逊 TEDTED wish希望.
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达成爱德.威尔逊的TED愿望
16:33
And he's gathering搜集 all biological生物 information信息
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他正在收集各种生物资讯
16:36
on one website网站.
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于一个网站
16:38
And the scientists科学家们 who are contributing贡献 to EOLEOL are answering回答 a question,
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而为生物百科做贡献的科学家都在问一个问题:
16:41
"What can we learn学习 from this organism生物?"
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“我们从这种生物身上可以学到什么?”
16:44
And that information信息 will go into AskNatureAskNature.org组织.
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然后那些资讯会放在上面提过的网站上
16:48
And hopefully希望, any inventor发明者, anywhere随地 in the world世界,
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但愿,所有发明家,甚至世上的所有人
16:51
will be able能够, in the moment时刻 of creation创建,
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可以在他们灵光一之际,可以输入:
16:54
to type类型 in, "How does nature性质 remove去掉 salt from water?"
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大自然如何去除水中盐分
16:59
And up will come mangroves红树林, and sea turtles海龟
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然后结果就会显示红树林和海龟
17:02
and your own拥有 kidneys肾脏.
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还有你的肾脏
17:04
And we'll begin开始 to
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然后我们会开始
17:07
be able能够 to
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有能力做到
17:09
do as Cody科迪 does,
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做到我的邻居科迪做到的
17:11
and actually其实 be in touch触摸
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去接触这些
17:14
with these incredible难以置信 models楷模,
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邻人赞叹不已的模型
17:17
these elders长老 that have been here
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这些自然界中的长者
17:19
far, far longer than we have.
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在地球上的日子远远多于我们
17:21
And hopefully希望, with their help,
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但愿,在它们的帮助下
17:23
we'll learn学习 how to live生活 on this Earth地球,
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我们能学会如何在地球上生存
17:26
and on this home that is ours我们的, but not ours我们的 alone单独.
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地球是我们的家园,但不是我们人类单独拥有的
17:30
Thank you very much.
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谢谢
17:32
(Applause掌声)
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(鼓掌)
Translated by Wang Qian
Reviewed by Ken Zheng

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ABOUT THE SPEAKER
Janine Benyus - Science writer, innovation consultant, conservationist
A self-proclaimed nature nerd, Janine Benyus' concept of biomimicry has galvanized scientists, architects, designers and engineers into exploring new ways in which nature's successes can inspire humanity.

Why you should listen

In the world envisioned by science author Janine Benyus, a locust's ability to avoid collision within a roiling cloud of its brethren informs the design of a crash-resistant car; a self-cleaning leaf inspires a new kind of paint, one that dries in a pattern that enables simple rainwater to wash away dirt; and organisms capable of living without water open the way for vaccines that maintain potency even without refrigeration -- a hurdle that can prevent life-saving drugs from reaching disease-torn communities. Most important, these cool tools from nature pull off their tricks while still managing to preserve the environment that sustains them, a life-or-death lesson that humankind is in need of learning.

As a champion of biomimicry, Benyus has become one of the most important voices in a new wave of designers and engineers inspired by nature. Her most recent project, AskNature, explores what happens if we think of nature by function and looks at what organisms can teach us about design.

More profile about the speaker
Janine Benyus | Speaker | TED.com

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