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TED英语演讲:12020年后人类会变成什么样子 我们能够进化细菌,植物和动物未来主义学者胡安问道:进化人体是否道德?在这个从中世纪假肢到当今神经元工程,再到人造DNA技术的颇具前瞻性的演讲中,胡安恩里克斯帮我们理清了进化人体的道德标准,并设想了我们未来为移居其他星球而可能做出的人体改造。下面是小编为大家收集关于TED英语演讲:120xx年后人类会变成什么样子,欢迎借鉴参考。 演说题目:What will humans look like in 100 years? 演说者:Juan Enriquez Heres a question that matters. 这里有一个重要的问题。 Is it ethical to evolve the human body? 【改造人体会出现道德问题吗】 Because were beginning to get all the tools together to evolve ourselves. And we can evolve bacteria and we can evolve plants and we can evolve animals, and were now reaching a point where we really have to ask, is it really ethical and do we want to evolve human beings? And as youre thinking about that, let me talk about that in the context of prosthetics, prosthetics past, present, future. 因为我们已经开始拥有改造自身所需的所有工具了。我们可以改造细菌,我们可以改造植物,我们也可以改造动物,我们现在已经到了必须要问这个问题的时候了,这是否会导致道德问题,或者我们是否想要改造人类?在你们思考这个问题的时候,让我就假肢为例子 和你们谈谈这件事,假肢的过去,现在和未来。 So this is the iron hand that belonged to one of the German counts. Loved to fight, lost his arm in one of these battles. No problem, he just made a suit of armor, put it on, perfect prosthetic. Thats where the concept of ruling with an iron fist comes from. 这是一只铁制手臂,它属于一位德国伯爵。嗜爱战争的他,在一场 战役中失去了他的手臂。不过也不是问题,他做了一套战服,穿上它,就拥有了完美的假肢。这就是术语铁拳执政的来源。 And of course these prosthetics have been getting more and more useful, more and more modern. You can hold soft-boiled eggs. You can have all types of controls, and as youre thinking about that, there are wonderful people like Hugh Herr who have been building absolutely extraordinary prosthetics. So the wonderful Aimee Mullins will go out and say, how tall do I want to be tonight? Or Hugh will say what type of cliff do I want to climb? Or does somebody want to run a marathon, or does somebody want to ballroom dance? 当然,这些假肢变得越来越实用,越来越现代化。你可以用它拿像水煮蛋这样柔软的东西。你可以做出各种控制,当你们思考这件事的时候,像修米?赫尔这样神奇的人就做出了绝对不可思议的假肢。这就让伟大的艾米穆林斯 (残奥会短跑冠军)能走出家门说,今晚我要什么身高,戴哪副假肢呢?或者她会说:我今天应该爬哪种岩壁?亦或者,有人想去跑个马拉松,或是参加交际舞会吗? And as you adapt these things, the interesting thing about prosthetics is theyve been coming inside the body. So these external prosthetics have now become artificial knees. Theyve become artificial hips.And then theyve evolved further to become not just nice to have but essential to have. 当你适应了这些事情的时候,有趣的是,现在的假肢 都已经能来自体内了。所以这些外部假肢 就变成了人造膝盖,变成了人造髋关节。然后它们又更进一步的发展了,不再只是锦上添花的东西,而是至关重要的部分。 So when youre talking about a heart pacemaker as a prosthetic, youre talking about something that isnt just, Im missing my leg, its, if I dont have this, I can die. And at that point, a prosthetic becomes a symbiotic relationship with the human body. 当你把一个心脏起搏器当成假肢时,那你就不仅仅是在说,我缺条腿这么简单,而是如果我没有这个,我就会死掉。 在那种程度上,假肢与人体就形成了 一种共生关系。 And four of the smartest people that Ive ever met - Ed Boyden, Hugh Herr, Joe Jacobson, Bob Lander - are working on a Center for Extreme Bionics. And the interesting thing of what youre seeing here is these prosthetics now get integrated into the bone. They get integrated into the skin. They get integrated into the muscle. And one of the other sides of Ed is hes been thinking about how to connect the brain using light or other mechanisms directly to things like these prosthetics. 而四个我见过的最聪明的人 艾德鲍登,修米?赫尔,乔?雅各布森,鲍勃?兰登他们都在一家极致仿生中心工作。而你们现在看到的 一件有趣的事情是,这些假肢已经能融入人体骨骼当中,能融入皮肤之中,也能融入肌肉组织之中。而另一方面,艾德也开始思考如何使用灯光或其他机制 使大脑能够直接和 假肢类的东西相联结。 And if you can do that, then you can begin changing fundamental aspects of humanity. So how quickly you react to something depends on the diameter of a nerve. And of course, if you have nerves that are external or prosthetic, say with light or liquid metal, then you can increase that diameter and you could even increase it theoretically to the point where,as long as you could see the muzzle flash, you could step out of the way of a bullet. Those are the order of magnitude of changes youre talking about. 如果我们能做到那一点,那么我们就可以改变 人类的基本组成部分了。你对于一个事物的反应速度 是由神经元直径决定的。但是当然,如果你的神经是外缘的,或是假肢,举个例子,光线或是液态金属,那么你们就能增宽神经元的直径,从理论上来说,我们甚至 可以提升反应速度,快到只要能看见枪口的 闪光,就能躲开子弹。这些就是我们准备讨论的变化的级别。 This is a fourth sort of level of prosthetics. These are Phonak hearing aids, and the reason why these are so interesting is because they cross the threshold from where prosthetics are something for somebody who is disabled and they become something that somebody who is normal might want to actually have,because what this prosthetic does, which is really interesting, is not only does it help you hear, you can focus your hearing, so it can hear the conversation going on over there. 这是假肢的第四种境界。这是一些峰力助听器,这些东西很有趣,原因是它们已经跨越了假肢是 帮助障碍人群的门槛了。它们变成了正常人群 也想要的东西,因为这种假肢所能做的,非常有趣,不仅仅能够帮助你听见声音,还能帮助你专注于听,能帮你听见别处的声音。这样你就有了顺风耳。 You can have superhearing. You can have hearing in 360 degrees. You can have white noise. You can record, and oh, by the way, they also put a phone into this. So this functions as your hearing aid and also as your phone. And at that point, somebody might actually want to have a prosthetic voluntarily. 你可以听到全方位的声音。你可以听见白噪声。你可以录音,顺便提一下,它们还可以承载手机功能。所以它的功能不仅是助听,还可以成为你的手机。到了那时,就会有人自愿去安装假肢了。 All of these thousands of loosely connected little pieces are coming together, and its about time we ask the question, how do we want to evolve human beings over the next century or two? And for that we turn to a great philosopher who was a very smart man despite being a Yankee fan. 这些成千的连接疏松的碎片 正在聚集起来,是时候让我们提出疑问,我们在下一个,或者两个世纪 打算如何改造人类?我们向一个伟大的哲学家求助,他是非常聪明的人,尽管是洋基队的粉丝。 And Yogi Berra used to say, of course, that its very tough to make predictions, especially about the future. 当然,就像约吉贝拉说过的那样,预测不是一件简单的事情,特别是关于未来的预测。 So instead of making a prediction about the future to begin with, lets take whats happening in the present with people like Tony Atala, who is redesigning 30-some-odd organs. And maybe the ultimate prosthetic isnt having something external, titanium. Maybe the ultimate prosthetic is take your own gene code, remake your own body parts, because thats a whole lot more effective than any kind of a prosthetic. 所以说,我们开篇就先不预测未来,让我们看看当下,发生在像 托尼?阿塔拉这样的人身上的故事吧,托尼身上有着30多个再设计过的器官。也许最终版本的假肢已经不需要了,例如金属钛这种外缘材料。也许会来自你们自身的基因编码,重新制造身体的一部分,因为那会比任何一种假肢效果都要好。 But while youre at it, then you can take the work of Craig Venter and Ham Smith. And one of the things that weve been doing is trying to figure out how to reprogram cells. And if you can reprogram a cell, then you can change the cells in those organs. So if you can change the cells in those organs, maybe you make those organs more radiation-resistant. Maybe you make them absorb more oxygen. Maybe you make them more efficient to filter out stuff that you dont want in your body. 当你们这么想的时候,就可以看看克雷格文特尔和翰姆史密斯的工作。我们一直以来想要做的事情之一,就是想出如何重新编码细胞。如果你可以重新编码细胞,你就可以改变那些器官中的细胞。因此,如果我们可以改变器官中的细胞,也许我们就能使得 那些细胞更加耐辐射; 也许能让它们吸收更多氧气; 让它们更加高效的 过滤人体所不需要的杂质。 And over the last few weeks, George Church has been in the news a lot because hes been talking about taking one of these programmable cells and inserting an entire human genome into that cell. And once you can insert an entire human genome into a cell, then you begin to ask the question, would you want to enhance any of that genome? 在过去的几周里,乔治丘奇经常上新闻,因为他一直都在描述 一种可编码细胞,以及将整个人类基因组 插入那个细胞。一旦我们能够将整个 人类基因组插入那个细胞当中,我们就会开始问这样的问题:你们想要加强 基因中的任何部分吗?你们想要强化人体吗? Do you want to enhance a human body? How would you want to enhance a human body? Where is it ethical to enhance a human body and where is it not ethical to enhance a human body? And all of a sudden, what were doing is weve got this multidimensional chess board where we can change human genetics by using viruses to attack things like AIDS, or we can change the gene code through gene therapy to do away with some hereditary diseases, or we can change the environment, and change the expression of those genes in the epigenome and pass that on to the next generations. 你们想要怎样强化人体?怎样强化是合乎道德的?而怎样又是不合乎道德的?突然之间,我们正在做的,仿佛是得到了一个多维棋盘:我们可以通过病毒来改变人类的基因,从而攻克艾滋这样的疾病,或者我们也可以通过 改变基因序列,基因疗法,来对付遗传性疾病,又或者说,我们 可以改变我们的环境,我们还可以改变显性基因的基因表达,将表象传递给下一代人。 And all of a sudden, its not just one little bit, its all these stacked little bits that allow you to take little portions of ituntil all the portions coming together lead you to something thats very different. 一瞬之间,就变得不止是一点点了,这些一点点累积起来,每次拿走一点点,直到它们汇集起来,让你变得完全不同。 And a lot of people are very scared by this stuff. And it does sound scary, and there are risks to this stuff. So why in the world would you ever want to do this stuff? Why would we really want to alter the human body in a fundamental way? 很多人对此感到害怕。这听起来确实很恐怖,也很有风险。那么我们到底为什么想要这么做呢?为什么我们希望彻底的改变人体呢? The answer lies in part with Lord Rees, astronomer royal of Great Britain. And one of his favorite sayings is the universe is 100 percent malevolent. So what does that mean? It means if you take any one of your bodies at random, drop it anywhere in the universe, drop it in space, you die. Drop it on the Sun, you die. Drop it on the surface of Mercury, you die. Drop it near a supernova, you die. But fortunately, its only about 80 percent effective. 英国皇家天文协会的洛德?里斯给我们提供了部分答案。他最喜欢说的一句话就是: 宇宙是百分之百邪恶的。这是什么意思呢?意思就是,随机取下你身体的一部分 扔在宇宙的任何地方,扔在太空,你就死定了。扔在太阳上,死定了。扔在水星表面上,死定了。扔在超新星附近,死定了。但幸运的是,这句话只有80%是正确的。 So as a great physicist once said, theres these little upstream eddies of biology that create order in this rapid torrent of entropy. So as the universe dissipates energy, theres these upstream eddies that create biological order. Now, the problem with eddies is, they tend to disappear. They shift. They move in rivers. 一位伟大的物理学家曾说过,就是那些处于上游的小生物漩涡,创造了汹涌洪流当中的秩序。所以随着宇宙不断耗散能量,这些处于上游的小型生命漩涡,创造了生物界的秩序。现在,关于小漩涡的问题就是它们要消失了。它们会在星河中移动。 And because of that, when an eddy shifts, when the Earth becomes a snowball, when the Earth becomes very hot, when the Earth gets hit by an asteroid, when you have supervolcanoes, when you have solar flares,when you have potentially extinction-level events like the next election - 因为这样的原因,当小漩涡移动的时候,当地球变成雪球的时候,变得炙热的时候,当地球被小行星击中的时候,当我们遇到超级火山爆发的时候,当我们遇到太阳耀斑爆发的时候,当我们遇到潜在的 毁灭级事件的时候,比如下届选举这种事 then all of a sudden, you can have periodic extinctions. And by the way, thats happened five times on Earth,and therefore it is very likely that the human species on Earth is going to go extinct someday. Not next week,not next month, maybe in November, but maybe 10,000 years after that. As youre thinking of the consequence of that, if you believe that extinctions are common and natural and normal and occur periodically, it becomes a moral imperative to diversify our species. 然后突然之间,我们就会遇到周期性的大灭绝。顺便提一下,这已经在地球上上演过五次了。因此,人类有朝一日 在地球上灭绝是非常可能发生的。不是下个星期,不是下个月,也许就是11月,但也许是那之后的一万年。想象一下那样的结果,如果你相信大灭绝 是平常的,自然的,会周期性发生,这就成为了一个使我们的物种多样化的道德准则。 And it becomes a moral imperative because its going to be really hard to live on Mars if we dont fundamentally modify the human body. Right? You go from one cell, mom and dad coming together to make one cell, in a cascade to 10 trillion cells. 之所以会成为道德准则,是因为如果我们不彻底修改人体,那么我们就很难在火星上生存。不难理解吧?我们都来自一个细胞,父母一起产生的一个细胞,通过连续分裂产生了10兆个细胞。 We dont know, if you change the gravity substantially, if the same thing will happen to create your body. We do know that if you expose our bodies as they currently are to a lot of radiation, we will die. So as youre thinking of that, you have to really redesign things just to get to Mars.Forget about the moons of Neptune or Jupiter. 我们不能确定彻底改变重力时,相同的事情还会发生在我们体内。我们能确定的是现在将自己的身体 暴露在强辐射下,我们就会死。当你这样想的时候,就会发现仅仅是为了去火星,我们就必须重新编码自己。更不用说去海王星或木星的卫星了。 And to borrow from Nikolai Kardashev, lets think about life in a series of scales. So Life One civilization is a civilization that begins to alter his or her looks. And weve been doing that for thousands of years. Youve got tummy tucks and youve got this and youve got that. You alter your looks, and Im told that not all of those alterations take place for medical reasons. 借用一下尼古拉卡尔达肖夫 (前苏联天体物理学家)的话,让我们在一系列的尺度上考虑一下生命。在一级生命文明当中 可以开始改变人类的长相。我们已经这样做了数千年了。你可以做腹部整形,整整这儿,整整那儿。你能改变你的长相,我听人说 不是所有改变的背后都有医疗缘由。 Seems odd. 看起来很奇怪。 A Life Two civilization is a different civilization. A Life Two civilization alters fundamental aspects of the body. So you put human growth hormone in, the person grows taller, or you put x in and the person gets fatter or loses metabolism or does a whole series of things, but youre altering the functions in a fundamental way. 二级生命文明就是完全不同的了。二级生命文明就开始 改变人体的基本特征了。所以你可以注射生长激素,使人长的更高,或者使用某种药物,使人变胖,新陈代谢失调,或者发生一系列的改变。但是你已经彻底改变了基础机能了。 To become an intrasolar civilization, were going to have to create a Life Three civilization, and that looks very different from what weve got here. Maybe you splice in Deinococcus radiodurans so that the cells can resplice after a lot of exposure to radiation. Maybe you breathe by having oxygen flow through your bloodinstead of through your lungs. 要成为整个太阳系内文明,我们必须要经历三级生命文明,而且明显有别于所提到的二级文明。也许你会被植入耐辐射球菌,这样在大量暴露于辐射后受损的细胞仍能复原。也许你就会将氧气 直接吸入血液当中 而不是肺中。 But youre talking about really radical redesigns, and one of the interesting things thats happened in the last decade is weve discovered a whole lot of planets out there. And some of them may be Earth-like. The problem is, if we ever want to get to these planets, the fastest human objects -Juno and Voyager and the rest of this stuff - take tens of thousands of years to get from here to the nearest solar system. 但是我们正在讨论的 是完全彻底的重设,在过去十年间发生了一件有趣的事情,那就是我们在宇宙间 发现了更多的行星。其中的很多都属于类地行星。问题在于,如果我们 想要到达那些行星,人类拥有的的最快物体 朱诺和旅行者,还有剩下类似的东西 将花费我们数千万年,才能从这里到达离我们最近的恒星系。 So if you want to start exploring beaches somewhere else, or you want to see two-sun sunsets, then youre talking about something that is very different, because you have to change the timescale and the body of humans in ways which may be absolutely unrecognizable. And thats a Life Four civilization. 所以,如果我们想在 其他地方漫步沙滩,或者想要看双日落,那么我们在讨论的 一定是非常不同的东西,因为我们必须要改变 时间维度和人体的构造直到超乎想象的地步。那就是四级生命文明。 Now, we cant even begin to imagine what that might look like, but were beginning to get glimpses of instruments that might take us even that far. And let me give you two examples. 现在,虽然我们无法想象 我们会变成什么样,但是我们已经能看到 能把我们带到那里的 一些尖端设备了。我给你们举两个例子。 So this is the wonderful Floyd Romesberg, and one of the things that Floyds been doing is hes been playing with the basic chemistry of life. So all life on this planet is made in ATCGs, the four letters of DNA. All bacteria, all plants, all animals, all humans, all cows, everything else. And what Floyd did is he changed out two of those base pairs, so its ATXY. 这就是我们出色的弗洛伊德?瑞姆斯伯格,(另一位TEDMED演讲者)弗洛伊德一直在做的事情之一就是 研究基础生命化学。地球上的所有生命都由ATCG组成,DNA链中的四个结构单元。所有的细菌,植物,动物,人类,奶牛,所有的生物。弗洛伊德做的就是 改变了其中的两组碱基对,就变成了ATXY组合。 And that means that you now have a parallel system to make life, to make babies, to reproduce, to evolve, that doesnt mate with most things on Earth or in fact maybe with nothing on Earth. Maybe you make plants that are immune to all bacteria. Maybe you make plants that are immune to all viruses. But why is that so interesting? It means that we are not a unique solution. It means you can create alternate chemistries to us that could be chemistries adaptable to a very different planet that could create life and heredity. 这就意味着,你现在拥有了 一个制造生命的平行体系,去产生幼儿,去繁殖,去进化,不能与地球上的大多数生命配对,或者说事实上全都不能。也许你能够制造出对所有细菌免疫的植物。也许你能制造出 对所有病毒免疫的植物。但是,这为什么有趣呢?因为这就意味着,我们 不只有唯一的解决方案了。这就意味着,我们能够造出 不同于我们的化学生物,它们能够适应不同星球上的生活,它们能创造生命,繁衍生息。 The second experiment, or the other implication of this experiment, is that all of you, all life is based on 20 amino acids. If you dont substitute two amino acids, if you dont say ATXY, if you say ATCG + XY, then you go from 20 building blocks to 172, and all of a sudden youve got 172 building blocks of amino acids to build life-forms in very different shapes. 就是我们所有人,所有的 生命都基于20种氨基酸。 如果我们并不是 去替换其中的两种, 我们不用ATXY的模式, 我们用ATCG+XY的模式, 我们就能够从20种 基础氨基酸增长到172种, 转瞬间,我们就有了172种 基础氨基酸的模型 去建造完全不同的生命形式。第二个实验,或者说是这个实验的另一个运用。 The second experiment to think about is a really weird experiment thats been taking place in China. So this guy has been transplanting hundreds of mouse heads. Right? And why is that an interesting experiment?Well, think of the first heart transplants. One of the things they used to do is they used to bring in the wife or the daughter of the donor so the donee could tell the doctors, Do you recognize this person? Do you love this person? Do you feel anything for this person? 第二个实验,一个非常诡异的实验。是在中国做的。这个家伙已经换植过上百只老鼠的头了。听上去怎么样?为什么这个实验很有趣呢?想一想第一场心脏移植手术。他人们以前经常做的一件事就是会把器官捐赠者的 妻子或女儿带过来,这样被捐赠者就可以回答医生的问题,你认识这个人吗?你爱她吗?你看到她能感觉到什么吗? We laugh about that today. We laugh because we know the heart is a muscle, but for hundreds of thousands of years, or tens of thousands of years, I gave her my heart. She took my heart. She broke my heart. We thought this was emotion and we thought maybe emotions were transplanted with the heart. Nope. 今天,我们当然会把这当笑话讲。我们笑是因为我们知道 心脏只是一块肌肉,但是,在历史上的若干年间,我把心献给了她。她勾走了我的心。让我心碎。 我们都把心脏当成感情的来源,我们以为感情会与心相随,一同被移植。不是这样的。 So how about the brain? Two possible outcomes to this experiment. If you can get a mouse that is functional, then you can see, is the new brain a blank slate? And boy, does that have implications. Second option: the new mouse recognizes Minnie Mouse. The new mouse rememb
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