Genetically Engineering Quotes

Yes, he is a man, so genetically he's engineered to be dense about many things, but he's not stupid.

Dancer and Waif sprinted toward the edge. Picking up speed. Bad Ass on his one real leg doing a great job of keeping up. Kind of.

A three-day-old human embryo is a collection of 150 cells called a blastocyst. There are, for the sake of comparison, more than 100,000 cells in the brain of a fly. The human embryos that are destroyed in stem-cell research do not have brains, or even neurons. Consequently, there is no reason to believe they can suffer their destruction in any way at all. It is worth remembered, in this context, that when a person's brain has died, we currently deem it acceptable to harvest his organs (provided he has donated them for this purpose) and bury him in the ground. If it is acceptable to treat a person whose brain has died as something less than a human being, it should be acceptable to treat a blastocyst as such. If you are concerned about suffering in this universe, killing a fly should present you with greater moral difficulties than killing a human blastocyst. Perhaps you think that the crucial difference between a fly and a human blastocyst is to be found in the latter's potential to become a fully developed human being. But almost every cell in your body is a potential human being, given our recent advances in genetic engineering. Every time you scratch your nose, you have committed a Holocaust of potential human beings.

Felipe and I, as we discover to our delight, are a perfectly matched, genetically engineered belly-to-belly success story.

The strange dance with the Infected continued, but the Loopers in the middle of the room were building into a frenzy, playing or fighting or maybe fucking each other — who the hell knew? Jessie fought not to throw up at the thought.

I predict we will abolish suffering throughout the living world. Our descendants will be animated by gradients of genetically pre-programmed well-being that are orders of magnitude richer than today's peak experiences.

My books always say something, even if it’s just something simple like: 'Don’t genetically engineer crabs to be as big as men.

I don't dislike him, but he's too perfect. You know what I mean? Like he was genetically engineered in a lab. Imperfections make a person more attractive, give them character, don't you think?

Too many of our preferences reflect nasty behaviours and states of mind that were genetically adaptive in the ancestral environment. Instead, wouldn't it be better if we rewrote our own corrupt code?

My mother told me once that, a long time ago, there were people who wouldn’t buy genetically engineered produce because they viewed it as unnatural. Now we have no other option.

It is interesting to wonder whether taxonomists of the future may regret the way our generation messed around with genomes.

Esmeralda?” Scarlett turned to the witch next. “Don’t you want to do magic, again?” “Of course I do! It’s the only thing I dream of. Casting spells… Turning people into frogs… Genetically engineering my gingerbread army…

Incurable diseases will eventually force mankind to justify disruptive nanotech and genetic engineering.

These animals are genetically engineered to be unable to survive in the real world. They can only live here in Jurassic Park. They are not free at all. They are essentially our prisoners.

I’ve always been suspicious of the assumption that great intelligence would be an unqualified benefit— that the madness that so often accompanies it can be cavalierly dismissed. So I asked the question: Suppose there were an entire subpopulation of extreme geniuses, well beyond anything that would occur naturally. What would that really look like?

...every new genetically engineered plant is a unique event in nature, bringing its own set of genetic contingencies. This means that the reliability or safety of one genetically modified plant doesn't necessarily guarantee the reliability or safety of the next.

The only thing we can try to do is to influence the direction scientists are taking. Since we might soon be able to engineer our desires too, perhaps the real questions facing us is not 'What do we want to become?', but "What do we want to want?' Those who are not spooked by this question probably haven't given it enough thought.

The Hedonistic Imperative outlines how genetic engineering and nanotechnology will abolish suffering in all sentient life. This project is ambitious but technically feasible. It is also instrumentally rational and ethically mandatory. The metabolic pathways of pain and malaise evolved only because they once served the fitness of our genes. They will be replaced by a different sort of neural architecture. States of sublime well-being are destined to become the genetically pre-programmed norm of mental health. The world's last aversive experience will be a precisely dateable event.

Instead of a motorcycle, why not ride a custom-engineered unicorn? The unicorn could be genetically grown like corn.

I think they are a better race than humans ever were.

Jack...why is there a dragon in our backyard?

And after you pull off that miracle, you can genetically engineer a bunch of Smurfs and unicorns to frolic around this new perfect world you’ve created.

If the story is unflattering and the feeling is anger, adrenaline kicks in. Under the influence of adrenaline, blood leaves our brains to help support our genetically engineered response of “fight or flight,” and we end up thinking with the brain of a reptile. We say and do dim-witted things.

In the 1980s, a few genetic engineering companies began to ask, “What is the biological equivalent of a Sony Walkman?” These

How long does it take for two armies to destroy each other when one has an abundance of bodies and the other an abundance of bullets?

Live your life. Don’t subscribe to other people’s ideals because this is what happens. One way or another, it will crush you.

The FDA and the EPA are supposed to be protecting us, not the people who make the poison.

If we don't embrace them, then we are as undeserving of life as the caveman who freezes to death because he's afraid to start a fire.

Genetic engineering is not really something new. Human beings have been fiddling with genes for as long as ten thousand years. That’s how long they have been growing plants and herding animals.

We instinctively feel an overwhelming desire to take sides: organic or conventional, fair or free trade, "pure" or genetically engineered food, wild or farm-raised fish. Like most things in life, though, the sensible answer lies somewhere between the extremes, somewhere in that dull but respectable placed called the pragmatic center. To be a centrist when it comes to food is, unfortunately, to be a radical.

Not sleeping enough, which for a portion of the population is a voluntary choice, significantly modifies your gene transcriptome—that is, the very essence of you, or at least you as defined biologically by your DNA. Neglect sleep, and you are deciding to perform a genetic engineering manipulation on yourself each night, tampering with the nucleic alphabet that spells out your daily health story.

Parental love is not contingent on the talents and attributes the child happens to have. We choose our friends and spouses at least partly on the basis of qualities we find attractive. But we do not choose our children. Their qualities are unpredictable, and even the most conscientious parents cannot be held wholly responsible for the kind of child they have. That is why parenthood, more than other human relationships, teaches what the theologian William F. May calls an “openness to the unbidden.

People often don't understand the engine that drives corruption. Particularly in India, they assume government equals corruption, private companies equal efficiency. But government officials are not genetically programmed to be corrupt. Corruption is linked to power. If it is the corporations that are powerful, then they will be corrupt.

Weight Watchers holds as a descriptive axiom the transparently true fact that for each of us the universe is deeply and sharply and completely divided into for example in my case, me, on one side, and everything else, on the other. This for each of us exhaustively defines the whole universe... And then they hold by a prescriptive axiom the undoubtedly equally true and inarguable fact that we each ought to desire our own universe to be as full as possible, that the Great Horror consists in an empty, rattling personal universe, one where one finds oneself with Self, on one hand, and vastly empty lonely spaces before Others begin to enter the picture at all, on the other. A non-full universe... The emptier one’s universe is, the worse it is... Weight Watchers perceives the problem as one involving the need to have as much Other around as possible, so that the relation is one of minimum Self to maximum Other... We each need a full universe. Weight Watchers and their allies would have us systematically decrease the Self-component of the universe, so that the great Other-set will be physically attracted to the now more physically attractive Self, and rush in to fill the void caused by that diminution of Self. Certainly not incorrect, but just as certainly only half of the range of valid solutions to the full-universe problem... Is my drift getting palpable? Just as in genetic engineering... There is always more than one solution... An autonomously full universe... Rather than diminishing Self to entice Other to fill our universe, we may also of course obviously choose to fill the universe with Self... Yes. I plan to grow to infinite size... There will of course eventually cease to be room for anyone else in the universe at all.

Bombe atomique hier, bombe informatique aujourd'hui et, demain, bombe génétique?

My name is Alex Johansson, and I am a man who chose this. I chose to give up my body. To become lost in a dream. To never wake up again. Except that I did.

On the wall behind was a row of chrome letters that said “We Make The Future,” but the words were obscured by a tangle of vines.

whatever your genes might predict, height can be stunted if you don’t get the nutrients you need as a child.

What about the Americans?” “Eerie people. Genetically engineered to play squash and work weekends.

Our restaurant fostered a sense of camaraderie in a number of ways besides sharing the same nickname of 'chef.' Initially, we bonded through training. Once we opened, we worked in teams each night, meaning that we not only knew our colleagues well, we depended on them. Most importantly, we all had 'family meal' together every night, just like President Bush recommended to all families so that their children would have good values and grow up to be gun-toting, pro-life, pro-death, gas-guzzling, warmongering, monolingual, homophobic, wiretapped, Bible-thumping, genetically engineered, stem-cell harboring, abstinent creationists. Oops, I think I just lost all of my red state readers. To make up for it, I'll let you lose my ballot.

We cannot criticise global warming sceptics for denying the scientific consensus on climate when we ignore the same consensus on both the safety and the beneficial uses of nuclear power and genetic engineering.

Because the thing about viruses is that they're easily manipulated. The DNA they inject doesn't have to be destructive. It can be replaced with almost any kind of DNA you want, and it can be programmed to only replace certain parts of the host's genetic code. In other words, viruses are perfect vectors for genetic engineering.

Dr. Blockhead's mocking face was solemn for once. 'Modern science is wiping out deviant strains of the human form,' he said. 'In the twenty-first century, genetic engineering will do more than merely eliminate Siamese twins and alligator-skinned people. It will make it hard to find a person with even a slight overbite or a large nose. I can see that future and it makes me shudder. The future looks like- him' Dr. Blockhead pointed at Mulder. 'Imagine going through your whole life looking like that,' said Dr. Blockhead. Mulder shrugged. 'It's a tough job- but someone has to do it.

We forget that we humans are animals, inextricably connected to the world and everything in it. In the rush to bring GMO food to the world because it was good for us, nobody had asked the question whether it would be good for the world.

The Church’s systematic murder, imprisonment, and denunciation of some of history’s most brilliant scientific minds delayed human progress by at least a century. Fortunately, today, with our better understanding of the benefits of science, the Church has tempered its attacks…” Edmond sighed. “Or has it?” A globe logo with a crucifix and serpent appeared with the text: Madrid Declaration on Science & Life “Right here in Spain, the World Federation of the Catholic Medical Associations recently declared war on genetic engineering, proclaiming that ‘science lacks soul’ and therefore should be restrained by the Church.

Some says that genetic engineering is within the scope of the God! Well, it was so, that area would have been encircled with the impassable high walls! Mankind cannot lose its time with this kind of religious craps! Genetic engineering is our garden!

Doubting free will is not just a philosophical exercise. It has practical implications. If organisms indeed lack free will, it implies that we can manipulate and even control their desires using drugs, genetic engineering or direct brain stimulation.

Because of their sublime genes, the orphans were all incredible specimens and often referred to by their creator, Doctor Pedemont, and by Naylor, Kentbridge and the rest of their Omega masters, as post-humans. Their DNA was different to anyone else’s and by their teens they were superior in many ways to the rest of the population, being smarter, faster, stronger and more adaptable.

I’m one of twenty-three orphan prodigies. We were created using genetic engineering technologies that have been suppressed from the mainstream. I’m at least half a century ahead of our times in terms of official science. The embryologists who created me selected the strongest genes from about a thousand sperm donors then used in-vitro fertilization to impregnate my mother and other women.

The fundamental core of contemporary Darwinism, the theory of DNA-based reproduction and evolution, is now beyond dispute among scientists. It demonstrates its power every day, contributing crucially to the explanation of planet-sized facts of geology and meteorology, through middle-sized facts of ecology and agronomy, down to the latest microscopic facts of genetic engineering. It unifies all of biology and the history of our planet into a single grand story. Like Gulliver tied down in Lilliput, it is unbudgeable, not because of some one or two huge chains of argument that might–hope against hope–have weak links in them, but because it is securely tied by hundreds of thousands of threads of evidence anchoring it to virtually every other field of knowledge. New discoveries may conceivably lead to dramatic, even 'revolutionary' shifts in the Darwinian theory, but the hope that it will be 'refuted' by some shattering breakthrough is about as reasonable as the hope that we will return to a geocentric vision and discard Copernicus.

All dogs are predators, but over thousands of generations, we’ve created sporting breeds to be exceptionally focused predators. All dogs like to dig and chase small prey, but terriers are superdriven to dig and find rodents. All dogs love to run, but greyhounds can run up to forty miles an hour, and huskies can run for hours and hours on end. All dogs have the natural ability to fight or wrestle with one another, but the bully breeds have been genetically engineered to fight to the death. The more pure the bloodline, the more that genetic “boost” will probably play a part in your dog’s behavior. That’s why some owners claim that their “mutts” make mellower pets, because, they theorize, their DNA has been somewhat diluted, and their breed-related drives diffused as a result.

Trying to design or reclaim places is, therefore, rather like trying to make or modify life itself. In this effort, it is wisest to adopt the gentle patient manner of an environmental midwife, while rejecting utterly the machine-driven arrogance of some environmental equivalent to a genetic engineer. By such gentle means places might flourish again, but also the world might become less threatened.

Truly winning the war on cancer requires individual responsibility for our food choices; as long as we wait for the next pharmaceutical breakthrough or genetic engineering miracle to save us, we won’t use the considerable power we already possess to end this scourge. In

Did you know that the fundamental building blocks of life are not cells, are not DNA are not even carbon but language yeah 'cause DNA is just a four-character language and binary code is a two-character language and what these languages are saying is the very act of revealing, so you reach an X-point when language attains a level of complexity where it begins to fold in upon itself trying to understand itself and this is sentience. Did you know that the entire Library of Congress can be encoded in our DNA because all you have to do is translate a binary system into a four-character system to where you can decode the genes like you're searching a microfiche and if you were to genetically engineer the corpus of human knowledge into our DNA then we'd be able to genetically pass the entire library along from generation to generation like frickin' disease, man.

I never thought I would choose a place like this. That I would even consider giving up my existence, to lie in a bed of lies. I never expected a lot of things to happen in my life. I try not to think about anything at all. Especially not how I become this; a man without hope. A man without dreams.

You are a species that does not question authority. You are complacent, fearful, and submissive. These genetic traits are the engine that have kept your corrupt economic system running for so long. We assure you, a new economic system will emerge as soon as the old one no longer resonates with the general population.

Hammond shook his head sadly. “Yet, you’ll remember,” he said, “the original genetic engineering companies, like Genentech and Cetus, were all started to make pharmaceuticals. New drugs for mankind. Noble, noble purpose. Unfortunately, drugs face all kinds of barriers. FDA testing alone takes five to eight years—if you’re lucky. Even worse, there are forces at work in the marketplace. Suppose you make a miracle drug for cancer or heart disease—as Genentech did. Suppose you now want to charge a thousand dollars or two thousand dollars a dose. You might imagine that is your privilege. After all, you invented the drug, you paid to develop and test it; you should be able to charge whatever you wish. But do you really think that the government will let you do that? No, Henry, they will not. Sick people aren’t going to pay a thousand dollars a dose for needed medication—they won’t be grateful, they’ll be outraged. Blue Cross isn’t going to pay it. They’ll scream highway robbery. So something will happen. Your patent application will be denied. Your permits will be delayed. Something will force you to see reason—and to sell your drug at a lower cost. From a business standpoint, that makes helping mankind a very risky business. Personally, I would never help mankind.

Genetic engineering and such products as Monsanto’s “Terminator” seeds, which cannot reproduce, could conceivably give that company proprietary control over the food crops. Glyphosate-based

During a late evening briefing, Jimmy listened as Harford told the group they would be teleporting. Harford’s briefing didn’t extend beyond saying the men might experience nausea, mild dizziness, and garbled sounds, and he couldn’t tell them more because each person’s experience of teleportation was unique. At last, Jimmy would find out what it was like, though the recent conversation with Vicar played on his mind. He wanted the answer to the one question that nagged him, but in the end, he didn’t ask how many men had died during teleportation. He reasoned that Harford wouldn’t tell him.

Nanotechnology will enable the design of nanobots: robots designed at the molecular level, measured in microns (millionths of a meter), such as “respirocytes” (mechanical red-blood cells).33 Nanobots will have myriad roles within the human body, including reversing human aging (to the extent that this task will not already have been completed through biotechnology, such as genetic engineering).

If three hundred years of chainsaws, CFCs, depleted uranium, automobiles, genetic engineering, airplanes, routine international trade, computers, plastics, endocrine disruptors, pesticides, vivisection, internal combustion engines, feller bunchers, dragline excavators, televisions, cell phones, and nuclear (and conventional) bombs are not enough to convey the picture, then that picture will never be conveyed.

Asilomar’s lack of focus on ethical issues bothered many religious leaders. That prompted a letter to President Jimmy Carter signed by the heads of three major religious organizations: the National Council of Churches, the Synagogue Council of America, and the U.S. Catholic Conference. “We are rapidly moving into a new era of fundamental danger triggered by the rapid growth of genetic engineering,” they wrote. “Who shall determine how human good is best served when new life forms are being engineered?”13 These decisions should not be left to scientists, the trio argued. “There will always be those who believe it appropriate to ‘correct’ our mental and social structures by genetic means. This becomes more dangerous when the basic tools to do so are finally at hand. Those who would play God will be tempted as never before.

There has been relatively little change in human DNA in the last 10,000 years. But it is likely that we will be able to redesign it completely in the next thousand. Of course, many people will say that genetic engineering on humans should be banned. But I rather doubt that they will be able to prevent it. Genetic engineering on plants and animals will be allowed for economic reasons, and someone is bound to try it on humans.

When you are consumed with the rightness or wrongness of a given issue—whether it’s fracking or gun control or genetically engineered food—it’s easy to lose track of what the issue actually is. A moral compass can convince you that all the answers are obvious (even when they’re not); that there is a bright line between right and wrong (when often there isn’t); and, worst, that you are certain you already know everything you need to know about a subject so you stop trying to learn more.

How many genetic engineers does it take to screw in a lightbulb? Eleven—one to do the work, and the other ten to figure out why it doesn’t have a double helix.” “What’s the definition of a virgin genetic engineer? A nerd with too many pocket protectors.

Insulin’s effects on calorie storage are so potent that we can consider it the ultimate fat cell fertilizer. For example, rats given insulin infusions developed low blood glucose (hypoglycemia), ate more, and gained weight. Even when their food was restricted to that of the control animals, they still became fatter.9 Conversely, mice genetically engineered to produce less insulin had healthier fat cells, burned off more calories, and resisted weight gain, even when given a diet that makes normal mice fat.10

The descent of sport into spectacle is not unique to the age of genetic engineering. But it illustrates how performance-enhancing technologies, genetic or otherwise, can erode the part of athletic and artistic performance that celebrates natural talents and gifts.

During a recent visit to the United States, French President François Mitterrand stopped to tour California’s Silicon Valley, where he hoped to learn more about the ingenuity and entrepreneurial drive that gave birth to so many companies there. Over lunch, Mitterrand listened as Thomas Perkins, a partner in the venture capital fund that started Genentech Inc., extolled the virtues of the risk-taking investors who finance the entrepreneurs. Perkins was cut off by Stanford University Professor Paul Berg, who won a Nobel Prize for work in genetic engineering. He asked, ‘Where were you guys in the ’50s and ’60s when all the funding had to be done in the basic science? Most of the discoveries that have fuelled [the industry] were created back then.’ Henderson and Schrage, in the Washington Post (1984)

This has been a book about people trying to solve problems created by people trying to solve problems. In the course of reporting it, I spoke to engineers and genetic engineers, biologists and microbiologists, atmospheric scientists and atmospheric entrepreneurs. Without exception, they were enthusiastic about their work. But, as a rule, this enthusiasm was tempered by doubt. The electric fish barriers, the concrete crevasse, the fake cavern, the synthetic clouds- these were presented to me less in a spirit of techno-optimism than what might be called techno-fatalism. They weren't improvements on the originals; they were the best that anyone could come up with, given the circumstances... It's in this context that interventions like assisted evolution and gene drives and digging millions of trenches to bury billions of trees have to be assessed. Geoengineering may be 'entirely crazy and quite disconcerting', but if it could slow the melting of the Greenland ice sheet, or take some of 'the pain and suffering away', or help prevent no-longer-fully-natural ecosystems from collapsing, doesn't it have to be considered?

As Rollin put it in his book The Frankenstein Syndrome, ‘It is simply false that all genetic engineering must harm animals. Unless one assumes that all species of animals exist currently at their maximal possible state of happiness or well-being of welfare, such a claim is not legitimate.

When it comes to solving problems, one of the best ways to start is by putting away your moral compass. Why? When you are consumed with the rightness or wrongness of a given issue—whether it’s fracking or gun control or genetically engineered food—it’s easy to lose track of what the issue actually is. A moral compass can convince you that all the answers are obvious (even when they’re not); that there is a bright line between right and wrong (when often there isn’t); and, worst, that you are certain you already know everything you need to know about a subject so you stop trying to learn more.

The nuclear arms race is over, but the ethical problems raised by nonmilitary technology remain. The ethical problems arise from three "new ages" flooding over human society like tsunamis. First is the Information Age, already arrived and here to stay, driven by computers and digital memory. Second is the Biotechnology Age, due to arrive in full force early in the next century, driven by DNA sequencing and genetic engineering. Third is the Neurotechnology Age, likely to arrive later in the next century, driven by neural sensors and exposing the inner workings of human emotion and personality to manipulation.

And he has that consumer sensibility of Steve along with the ability to hire good people outside of his own comfort areas that’s more like Bill. You almost wish that Bill and Steve had a genetically engineered love child and, who knows, maybe we should genotype Elon to see if that’s what happened.” Steve Jurvetson, the venture capitalist who has invested in SpaceX, Tesla, and SolarCity, worked for Jobs, and knows Gates well, also described Musk as an upgraded mix of the two. “Like Jobs, Elon does not tolerate C or D players,” said Jurvetson. “But I’d say he’s nicer than Jobs and a bit more refined than Bill Gates.

science and reason, which has found itself in recent decades under attack on many fronts: right-wing ideologues who do not understand science; religious-right conservatives who fear science; left-wing postmodernists who do not trust science when it doesn’t support progressive tenets about human nature; extreme environmentalists who want to return to a prescientific and preindustrial agrarian society; antivaxxers who wrongly imagine that vaccinations cause autism and other maladies; anti-GMO (genetically modified food) activists who worry about Frankenfoods; and educators of all stripes who cannot articulate why Science, Technology, Engineering, and Math (STEM) are so vital to a modern democratic nation.

In 1993, the FDA granted approval to Monsanto for its genetically engineered recombinant bovine growth hormone (rBGH), brand-named Posilac, for use by the nation’s dairy farmers. It increases milk production by about 10 percent over a cow’s life cycle. It’s the largest-selling cattle pharmaceutical in the United States. But Posilac has always been controversial. More and more cancer specialists are apprehensive, because it may increase the risk for breast, colon, and prostate cancers in humans. Unless the milk you’re drinking is clearly marked “organic” or “rBGH free,” it probably contains this hormone. Incidentally, Posilac is banned in Europe, Canada, Australia, and Japan. This should tell us something.

I have examined all the known superstitions of the world, and I do not find in our particular superstition of Christianity one redeeming feature. They are all alike founded on fables and mythology. Millions of innocent men, women and children, since the introduction of Christianity, have been burnt, tortured, fined and imprisoned. What has been the effect of this coercion? To make one half the world fools and the other half hypocrites; to support roguery and error all over the earth. The clergy converted the simple teachings of Jesus into an engine for enslaving the world and adulterated by artificial constructions into a contrivance to filch wealth and power to themselves…these clergy, in fact, constitute the real Anti-Christ – Thomas Jefferson

How do we learn? Is there a better way? What can we predict? Can we trust what we’ve learned? Rival schools of thought within machine learning have very different answers to these questions. The main ones are five in number, and we’ll devote a chapter to each. Symbolists view learning as the inverse of deduction and take ideas from philosophy, psychology, and logic. Connectionists reverse engineer the brain and are inspired by neuroscience and physics. Evolutionaries simulate evolution on the computer and draw on genetics and evolutionary biology. Bayesians believe learning is a form of probabilistic inference and have their roots in statistics. Analogizers learn by extrapolating from similarity judgments and are influenced by psychology and mathematical optimization.

—Camarada profesor —respondió Fatum—, palabra de honor que me está volviendo loco. Le digo que es imprescindible reanudar en el país la cría de gallinas, En el extranjero están escribiendo toda clase de abominaciones sobre nosotros. Así es. —Pues que las escriban... —Bueno, ya sabe —respondió Fatum en tono enigmático y sacudió la cabeza. —Me gustaría saber a quién se la ha ocurrido la idea de criar gallinas en los huevos... —A mí. —Vaya... En fin... Y ¿por qué, si puede saberse? ¿Cómo ha averiguado las propiedades del rayo? —Estuve en su conferencia, profesor. —¡Todavía no he hecho nada con huevos, sólo me dispongo a hacerlo! —Ya verá como todo saldrá bien —dijo Fatum con repentina convicción y cordialidad—, su rayo es tan notable que podría criar incluso elefantes, no solo pollitos".

Let’s imagine that many years ago, way way back in history, someone observed a particular characteristic or oddity – maybe soldiers who claimed that their whole life passed before their eyes in times of extreme danger, or perhaps people who simply walked out on work they hated, or those who when they loved someone it was with every ounce of their being, and who never apologised for who they were. People who were different. People who the fairies and goblins recognised. And just imagine that the person observing these Scamps decided to do something about it, such as start a cult with a weird set of beliefs and practices that aimed at improving the genetic quality of the human race, breeding people with the desirable heritable characteristics in order to improve future generations. Just suppose this eugenically based cult was based on those with a childlike curiosity, on those who loved to be around people who lit them up, and only those with the most powerful experiences were chosen. Over a number of generations this careful and choosy breeding may have created a community who were without question so free that their very survival on earth was an act of insurgency. Think about it! What if you and I are simply a subdivision, if you like, of that groove of humanity?

It's not as though we're down here on Earth and the rest of the universe is out there. To begin with, we're genetically connected to each other and to all other life-forms on Earth. We're mutual participants in the biosphere. We're also chemically connected to all the other life-forms we have yet to discover. They, too, would use the same elements we find in our periodic table. They do not and cannot have some other periodic table. So we're genetically connected to each other; we're molecularly connected to other objects in the universe; and we're atomically connected to all matter in the cosmos. For me, that is a profound thought. It is even spiritual. Science , enabled by engineering, empowered by NASA, tells us not only that we are in the universe but that the universe is in us. And for me, that sense of belonging elevates , not denigrates, the ego.

In 2018 the common person feels increasingly irrelevant. Lots of mysterious words are bandied around excitedly in TED Talks, government think tanks, and high-tech conferences—globalization, blockchain, genetic engineering, artificial intelligence, machine learning—and common people may well suspect that none of these words are about them. The liberal story was the story of ordinary people. How can it remain relevant to a world of cyborgs and networked algorithms?

The world has been changing even faster as people, devices and information are increasingly connected to each other. Computational power is growing and quantum computing is quickly being realised. This will revolutionise artificial intelligence with exponentially faster speeds. It will advance encryption. Quantum computers will change everything, even human biology. There is already one technique to edit DNA precisely, called CRISPR. The basis of this genome-editing technology is a bacterial defence system. It can accurately target and edit stretches of genetic code. The best intention of genetic manipulation is that modifying genes would allow scientists to treat genetic causes of disease by correcting gene mutations. There are, however, less noble possibilities for manipulating DNA. How far we can go with genetic engineering will become an increasingly urgent question. We can’t see the possibilities of curing motor neurone diseases—like my ALS—without also glimpsing its dangers. Intelligence is characterised as the ability to adapt to change. Human intelligence is the result of generations of natural selection of those with the ability to adapt to changed circumstances. We must not fear change. We need to make it work to our advantage. We all have a role to play in making sure that we, and the next generation, have not just the opportunity but the determination to engage fully with the study of science at an early level, so that we can go on to fulfil our potential and create a better world for the whole human race. We need to take learning beyond a theoretical discussion of how AI should be and to make sure we plan for how it can be. We all have the potential to push the boundaries of what is accepted, or expected, and to think big. We stand on the threshold of a brave new world. It is an exciting, if precarious, place to be, and we are the pioneers. When we invented fire, we messed up repeatedly, then invented the fire extinguisher. With more powerful technologies such as nuclear weapons, synthetic biology and strong artificial intelligence, we should instead plan ahead and aim to get things right the first time, because it may be the only chance we will get. Our future is a race between the growing power of our technology and the wisdom with which we use it. Let’s make sure that wisdom wins.

Another way is via genetic engineering. Here the germ is inserted into plasmid that has been manipulated by scientists. This type of plasmid is circular segments of DNA extracted from bacteria to serve as a vector. Scientists can add multiple genes and whatever genes they want into this plasmid. In case of vaccines, this includes a genetic piece of the vaccine germ and normally a gene for antibiotic resistance. This means that when the toxic gene is cultured inside the yeast, it has been designed with a new genetic code that makes it resistant to the antibiotic it’s coded for. The gene-plasmid combo is inserted into a yeast cell to be replicated. When the yeast replicates, the DNA from the plasmid is reproduced as a part of the yeast DNA. Once enough cells have been replicated, the genetic material in the new and improved yeast cell is extracted and put into the vaccine. Examples of this vaccine are the acellular pertussis and hepatitis B vaccines. One thing that doesn’t seem to concern scientists is the fact that the manmade genetic combination becomes the vaccine component. This mixture of intended and unintended genetic information may cause our immune system to overreact. This can be especially complicated for a child with compromised immune system. Another concern is that this new genetic code can become integrated with our own genetic material. Yeast, for instance, is very much like human DNA. It shares about one third of our proteins.

Of course not.” His tentacles smoothed. “We do what you would call genetic engineering. We know you had begun to do it yourselves a little, but it’s foreign to you. We do it naturally. We must do it. It renews us, enables us to survive as an evolving species instead of specializing ourselves into extinction or stagnation.” “We all do it naturally to some degree,” she said warily. “Sexual reproduction—” “The ooloi do it for us. They have special organs for it. They can do it for you too—make sure of a good, viable gene mix.

The revolution caused by the sharing of experience and the spread of knowledge had begun. The Chinese, a thousand years ago, gave it further impetus by devising mechanical means of reproducing such marks in great numbers. In Europe, Johann Gutenberg independently, though much later, developed the technique of printing from movable type. Today, our libraries, the descendants of those mud tablets, can be regarded as immense communal brains, memorising far more than any one human brain could hold. More than that, they can be seen as extra-corporeal DNA, adjuncts to our genetic inheritance as important and influential in determining the way we behave as the chromosomes in our tissues are in determining the physical shape of our bodies. It was this accumulated wisdom that eventually enabled us to devise ways of escaping the dictates of the environment. Our knowledge of agricultural techniques and mechanical devices, of medicine and engineering, of mathematics and space travel, all depend on stored experience. Cut off from our libraries and all they represent and marooned on a desert island, any one of us would be quickly reduced to the life of a hunter-gatherer.

In this section I have tried to demonstrate that Darwinian thinking does live up to its billing as universal acid: it turns the whole traditional world upside down, challenging the top-down image of designs flowing from that genius of geniuses, the Intelligent Designer, and replacing it with the bubble-up image of mindless, motiveless cyclical processes churning out ever-more robust combinations until they start replicating on their own, speeding up the design process by reusing all the best bits over and over. Some of these earliest offspring eventually join forces (one major crane, symbiosis), which leads to multicellularity (another major crane), which leads to the more effective exploration vehicles made possible by sexual reproduction (another major crane), which eventually leads in one species to language and cultural evolution (cranes again), which provide the medium for literature and science and engineering, the latest cranes to emerge, which in turn permits us to “go meta” in a way no other life form can do, reflecting in many ways on who and what we are and how we got here, modeling these processes in plays and novels, theories and computer simulations, and ever-more thinking tools to add to our impressive toolbox. This perspective is so widely unifying and at the same time so generous with detailed insights that one might say it’s a power tool, all on its own. Those who are still strangely repelled by Darwinian thinking must consider the likelihood that if they try to go it alone with only the hand tools of tradition, they will find themselves laboring far from the cutting edge of research on important phenomena as diverse as epidemics and epistemology, biofuels and brain architecture, molecular genetics, music, and morality.

This new religion has had a decisive influence on the development of modern science, too. Scientific research is usually funded by either governments or private businesses. When capitalist governments and businesses consider investing in a particular scientific project, the first questions are usually, ‘Will this project enable us to increase production and profits? Will it produce economic growth?’ A project that can’t clear these hurdles has little chance of finding a sponsor. No history of modern science can leave capitalism out of the picture. Conversely, the history of capitalism is unintelligible without taking science into account. Capitalism’s belief in perpetual economic growth flies in the face of almost everything we know about the universe. A society of wolves would be extremely foolish to believe that the supply of sheep would keep on growing indefinitely. The human economy has nevertheless managed to keep on growing throughout the modern era, thanks only to the fact that scientists come up with another discovery or gadget every few years – such as the continent of America, the internal combustion engine, or genetically engineered sheep. Banks and governments print money, but ultimately, it is the scientists who foot the bill.

How long will the Gilgamesh Project – the quest for immortality – take to complete? A hundred years? Five hundred years? A thousand years? When we recall how little we knew about the human body in 1900, and how much knowledge we have gained in a single century, there is cause for optimism. Genetic engineers have recently managed to double the average life expectancy of Caenorhabditis elegans worms.12 Could they do the same for Homo sapiens? Nanotechnology experts are developing a bionic immune system composed of millions of nano-robots, who would inhabit our bodies, open blocked blood vessels, fight viruses and bacteria, eliminate cancerous cells and even reverse ageing processes.13 A few serious scholars suggest that by 2050, some humans will become a-mortal (not immortal, because they could still die of some accident, but a-mortal, meaning that in the absence of fatal trauma their lives could be extended indefinitely). Whether or not Project Gilgamesh succeeds, from a historical perspective it is fascinating to see that most late-modern religions and ideologies have already taken death and the afterlife out of the equation. Until the eighteenth century, religions considered death and its aftermath central to the meaning of life. Beginning in the eighteenth century, religions and ideologies such as liberalism, socialism and feminism lost all interest in the afterlife. What, exactly, happens to a Communist after he or she dies? What happens to a capitalist? What happens to a feminist? It is pointless to look for the answer in the writings of Marx, Adam Smith or Simone de Beauvoir. The only modern ideology that still awards death a central role is nationalism. In its more poetic and desperate moments, nationalism promises that whoever dies for the nation will for ever live in its collective memory. Yet this promise is so fuzzy that even most nationalists do not really know what to make of it. The

Keep in mind a distinction that is being imported into more and more scientific thinking, that between ‘complicated’ and ‘complex’. ‘Complicated’ means a whole set of simple things working together to produce some effect, like a clock or an automobile: each of the components – brakes, engine, body-shell, steering – contributes to what the car does by doing its own thing, pretty well. There are some interactions, to be sure. When the engine is turning fast, it has a gyroscopic effect that makes the steering behave differently, and the gearbox affects how fast the engine is going at a particular car speed. To see human development as a kind of car assembly process, with the successive genetic blueprints ‘defining’ each new bit as we add them, is to see us as only complicated. A car being driven, however, is a complex system: each action it takes helps determine future actions and is dependent upon previous actions. It changes the rules for itself as it goes. So does a garden. As plants grow, they take nutrients from the soil, and this affects what else can grow there later. But they also rot down, adding nutrients, providing habitat for insects, grubs, hedgehogs … A mature garden has a very different dynamic from that of a new plot on a housing estate. Similarly, we change our own rules as we develop.

It’s true, organic food is more expensive to grow, and we have to be willing to pay for it. Some people see that as a luxury. I always come back to the same question: Would we rather give our money to the farmer or the pharmacist, the grocer or the doctor? Do we want to spend a fortune in the future trying to fix the damage being done today? Once we compare the potential risk and reward, the extra cost of eating clean food may seem worth it. Eating is the single most important thing we can do to stay healthy. If good, clean food isn’t worth our money, what is? Organic blackberries cost double the normal kind? How does that compare to the price of chemotherapy? How does burning out your insides with toxic chemicals and destroying your immune system and puking out your guts and losing all your hair stack up against spending three dollars more on that organic produce? Your body responds to what you put inside it. It’s simple. How could anything else be possible? You’d accept that if we were talking about your car. Why not your body? Clean also means food that contains no genetically modified organisms—GMOs. This is the really scary stuff, and it’s in the news every day as the big corporations fight every effort to label engineered foods. The fact that the industry is against truth in labeling tells us all we need to know.

Lake Natron resided in northern Tanzania near an active volcano known as Ol Doinyo Lengai. It was part of the reason the lake had such unique characteristics. The mud had a curious dark grey color over where Jack had been set up for observation, and he noted that there was now an odd-looking mound of it to the right of one of the flamingo’s nests. He zoomed in further and further, peering at it, and then realized what he was actually seeing. The dragon had crouched down beside the nests and blended into the mud. From snout to tail, Jack calculated it had to be twelve to fourteen feet long. Its wings were folded against its back, which had small spines running down the length to a spiky tail. It had a fin with three prongs along the base of the skull and webbed feet tipped with sharp black talons. He estimated the dragon was about the size of a large hyena. It peered up at its prey with beady red eyes, its black forked tongue darting out every few seconds. Its shoulder muscles bunched and its hind legs tensed. Then it pounced. The dark grey dragon leapt onto one of flamingoes atop its nest and seized it by the throat. The bird squawked in distress and immediately beat its wings, trying to free itself. The others around them took to the skies in panic. The dragon slammed it into the mud and closed its jaws around the animal’s throat, blood spilling everywhere. The flamingo yelped out its last breaths and then finally stilled. The dragon dropped the limp carcass and sniffed the eggs before beginning to swallow them whole one at a time. “Holy shit,” Jack muttered. “Have we got a visual?” “Oh, yeah. Based on the size, the natives and the conservationists were right to be concerned. It can probably wipe out a serious number of wildlife in a short amount of time based on what I’m seeing. There’s only a handful of fauna that can survive in these conditions and it could make mincemeat out of them.” “Alright, so what’s the plan?” “They told me it’s very agile, which is why their attempts to capture it haven’t worked. I’m going to see if it responds to any of the usual stimuli. So far, they said it doesn’t appear to be aggressive.” “Copy that. Be careful, cowboy.” “Ten-four.” Jack glanced down at his utility belt and opened the pocket on his left side, withdrawing a thin silver whistle. He put it to his lips and blew for several seconds. Much like a dog whistle, Jack couldn’t hear anything. But the dragon’s head creaked around and those beady red eyes locked onto him. Jack lowered the whistle and licked his dry lips. “If I were in a movie, this would be the part where I said, ‘I’ve got a bad feeling about this.’” The dragon roared, its grey wings extending out from its body, and then flew straight at him.

It’s All about Scaling Most of the current learning algorithms were discovered more than twenty-five years ago, so why did it take so long for them to have an impact on the real world? With the computers and labeled data that were available to researchers in the 1980s, it was only possible to demonstrate proof of principle on toy problems. Despite some promising results, we did not know how well network learning and performance would scale as the number of units and connections increased to match the complexity of real-world problems. Most algorithms in AI scale badly and never went beyond solving toy problems. We now know that neural network learning scales well and that performance continues to increase with the size of the network and the number of layers. Backprop, in particular, scales extremely well. Should we be surprised? The cerebral cortex is a mammalian invention that mushroomed in primates and especially in humans. And as it expanded, more capacity became available and more layers were added in association areas for higher-order representations. There are few complex systems that scale this well. The Internet is one of the few engineered systems whose size has also been scaled up by a million times. The Internet evolved once the protocols were established for communicating packets, much like the genetic code for DNA made it possible for cells to evolve. Training many deep learning networks with the same set of data results in a large number of different networks that have roughly the same average level of performance.

In 2018 the common person feels increasingly irrelevant. Lots of mysterious words are bandied around excitedly in TED Talks, government think tanks, and high-tech conferences—globalization, blockchain, genetic engineering, artificial intelligence, machine learning—and common people may well suspect that none of these words are about them. The liberal story was the story of ordinary people. How can it remain relevant to a world of cyborgs and networked algorithms? In the twentieth century, the masses revolted against exploitation and sought to translate their vital role in the economy into political power. Now the masses fear irrelevance, and they are frantic to use their remaining political power before it is too late. Brexit and the rise of Trump might therefore demonstrate a trajectory opposite to that of traditional socialist revolutions.

Jack coughed slightly and offered his hand. “Hi, uh. I’m Jack.” Kim took it. “Jack what?” “Huh?” “Your last name, silly.” “Jackson.” She blinked at him. “Your name is Jack Jackson?” He blushed. “No, uh, my first name’s Rhett, but I hate it, so…” He gestured to the chair and she sat. Her dress rode up several inches, exposing pleasing long lines of creamy skin. “Well, Jack, what’s your field of study?” “Biological Engineering, Genetics, and Microbiology. Post-doc. I’m working on a research project at the institute.” “Really? Oh, uh, my apple martini’s getting a little low.” “I’ve got that, one second.” He scurried to the bar and bought her a fresh one. She sipped and managed to make it look not only seductive but graceful as well. “What do you want to do after you’re done with the project?” Kim continued. “Depends on what I find.” She sent him a simmering smile. “What are you looking for?” Immediately, Jack’s eyes lit up and his posture straightened. “I started the project with the intention of learning how to increase the reproduction of certain endangered species. I had interest in the idea of cloning, but it proved too difficult based on the research I compiled, so I went into animal genetics and cellular biology. It turns out the animals with the best potential to combine genes were reptiles because their ability to lay eggs was a smoother transition into combining the cells to create a new species, or one with a similar ancestry that could hopefully lead to rebuilding extinct animals via surrogate birth or in-vitro fertilization. We’re on the edge of breaking that code, and if we do, it would mean that we could engineer all kinds of life and reverse what damage we’ve done to the planet’s ecosystem.” Kim stared. “Right. Would you excuse me for a second?” She wiggled off back to her pack of friends by the bar. Judging by the sniggering and the disgusted glances he was getting, she wasn’t coming back. Jack sighed and finished off his beer, massaging his forehead. “Yes, brilliant move. You blinded her with science. Genius, Jack.” He ordered a second one and finished it before he felt smallish hands on his shoulders and a pair of soft lips on his cheek. He turned to find Kamala had returned, her smile unnaturally bright in the black lights glowing over the room. “So…how did it go with Kim?” He shot her a flat look. “You notice the chair is empty.” Kamala groaned. “You talked about the research project, didn’t you?” “No!” She glared at him. “…maybe…” “You’re so useless, Jack.” She paused and then tousled his hair a bit. “Cheer up. The night’s still young. I’m not giving up on you.” He smiled in spite of himself. “Yet.” Her brown eyes flashed. “Never.

Government By The Industry, For The Industry Vice President George Bush sat in his chair across from four Monsanto executives. They had come to the White House with an unusual request. They wanted more regulation. They were venturing into a new technology, the genetic modification of food, and they were actually asking the government to oversee their emerging industry. But this was late 1986. Ronald Reagan was president and the administration was busily deregulating business. Bush needed convincing. “We bugged him for regulation,” said Leonard Guarraia, one of the executives at the meeting. “We told him that we have to be regulated.”[1] Monsanto was about to make a multibillion-dollar gamble. With this new technology, they could engineer and patent a whole new kind of food. Later, by buying up seed companies around the world, Monsanto could replace the natural seeds with their patented engineered seeds and control a hefty portion of the food supply. But there was fear among Monsanto’s ranks—fear of consumers’ and environmentalists’ reactions. Their fear was borne of experience. Years earlier, Monsanto had assured the public that their Agent Orange, the defoliant used during the Vietnam War, was safe for humans. It wasn’t. Thousands of veterans and tens of thousand of Vietnamese who suffered a wide range of maladies, including cancer, neurological disorders, and birth defects, blame Monsanto.

The main ones are the symbolists, connectionists, evolutionaries, Bayesians, and analogizers. Each tribe has a set of core beliefs, and a particular problem that it cares most about. It has found a solution to that problem, based on ideas from its allied fields of science, and it has a master algorithm that embodies it. For symbolists, all intelligence can be reduced to manipulating symbols, in the same way that a mathematician solves equations by replacing expressions by other expressions. Symbolists understand that you can’t learn from scratch: you need some initial knowledge to go with the data. They’ve figured out how to incorporate preexisting knowledge into learning, and how to combine different pieces of knowledge on the fly in order to solve new problems. Their master algorithm is inverse deduction, which figures out what knowledge is missing in order to make a deduction go through, and then makes it as general as possible. For connectionists, learning is what the brain does, and so what we need to do is reverse engineer it. The brain learns by adjusting the strengths of connections between neurons, and the crucial problem is figuring out which connections are to blame for which errors and changing them accordingly. The connectionists’ master algorithm is backpropagation, which compares a system’s output with the desired one and then successively changes the connections in layer after layer of neurons so as to bring the output closer to what it should be. Evolutionaries believe that the mother of all learning is natural selection. If it made us, it can make anything, and all we need to do is simulate it on the computer. The key problem that evolutionaries solve is learning structure: not just adjusting parameters, like backpropagation does, but creating the brain that those adjustments can then fine-tune. The evolutionaries’ master algorithm is genetic programming, which mates and evolves computer programs in the same way that nature mates and evolves organisms. Bayesians are concerned above all with uncertainty. All learned knowledge is uncertain, and learning itself is a form of uncertain inference. The problem then becomes how to deal with noisy, incomplete, and even contradictory information without falling apart. The solution is probabilistic inference, and the master algorithm is Bayes’ theorem and its derivates. Bayes’ theorem tells us how to incorporate new evidence into our beliefs, and probabilistic inference algorithms do that as efficiently as possible. For analogizers, the key to learning is recognizing similarities between situations and thereby inferring other similarities. If two patients have similar symptoms, perhaps they have the same disease. The key problem is judging how similar two things are. The analogizers’ master algorithm is the support vector machine, which figures out which experiences to remember and how to combine them to make new predictions.

If you were going to start a bioengineering company, Henry, what would you do? Would you make products to help mankind, to fight illness and disease? Dear me, no. That’s a terrible idea. A very poor use of new technology.” Hammond shook his head sadly. “Yet, you’ll remember,” he said, “the original genetic engineering companies, like Genentech and Cetus, were all started to make pharmaceuticals. New drugs for mankind. Noble, noble purpose. Unfortunately, drugs face all kinds of barriers. FDA testing alone takes five to eight years—if you’re lucky. Even worse, there are forces at work in the marketplace. Suppose you make a miracle drug for cancer or heart disease—as Genentech did. Suppose you now want to charge a thousand dollars or two thousand dollars a dose. You might imagine that is your privilege. After all, you invented the drug, you paid to develop and test it; you should be able to charge whatever you wish. But do you really think that the government will let you do that? No, Henry, they will not. Sick people aren’t going to pay a thousand dollars a dose for needed medication—they won’t be grateful, they’ll be outraged. Blue Cross isn’t going to pay it. They’ll scream highway robbery. So something will happen. Your patent application will be denied. Your permits will be delayed. Something will force you to see reason—and to sell your drug at a lower cost. From a business standpoint, that makes helping mankind a very risky business. Personally, I would never help mankind

Multi-generational sexual child abuse is such a common cause of the proliferation of pedophilia that Hitler/Himmler research focused on this genetic trait for mind control purposes. While I personally could not relate to the idea of sex with a child, I had parents and brothers and sisters who did. I still believe that George Bush revealed today’s causation of the rapid rise in pedophilia through justifications I heard him state. The rape of a child renders them compliant and receptive to being led without question. This, Bush claims, would cause them to intellectually evolve at a rate rapid enough to “bring them up to speed” to grasp the artificial intelligence emanating from DARPA. He believed that this generation conditioned with photographic memory through abuse was necessary for a future he foresaw controlled by technology. Since sexual abuse enhanced photographic memory while decreasing critical analysis and free thought, there would ultimately be no free will soul expression controlling behavior. In which case, social engineering was underway to create apathy while stifling spiritual evolution. Nevertheless, to short sighted flat thinking individuals such as Bush, spiritual evolution was not a consideration anyway. Instead, controlling behavior in a population diminished by global genocide of ‘undesirables’ would result in Hitler’s ‘superior race’ surviving to claim the earth. Perceptual justifications such as these that were discussed at the Bohemian Grove certainly did not provide me with the complete big picture. It did, however, provide a view beyond the stereotyped child molester in a trench coat that helped in understanding the vast crimes and cover-ups being discussed at this seminar in Houston.

HISTORICAL NOTE There are no nuclear power stations in Belarus. Of the functioning stations in the territory of the former USSR, the ones closest to Belarus are of the old Soviet-designed RBMK type. To the north, the Ignalinsk station, to the east, the Smolensk station, and to the south, Chernobyl. On April 26, 1986, at 1:23:58, a series of explosions destroyed the reactor in the building that housed Energy Block #4 of the Chernobyl Nuclear Power Station. The catastrophe at Chernobyl became the largest technological disaster of the twentieth century. For tiny Belarus (population: 10 million), it was a national disaster. During the Second World War, the Nazis destroyed 619 Belarussian villages along with their inhabitants. As a result of Chernobyl, the country lost 485 villages and settlements. Of these, 70 have been forever buried underground. During the war, one out of every four Belarussians was killed; today, one out of every five Belarussians lives on contaminated land. This amounts to 2.1 million people, of whom 700,000 are children. Among the demographic factors responsible for the depopulation of Belarus, radiation is number one. In the Gomel and Mogilev regions, which suffered the most from Chernobyl, mortality rates exceed birth rates by 20%. As a result of the accident, 50 million Ci of radionuclides were released into the atmosphere. Seventy percent of these descended on Belarus; fully 23% of its territory is contaminated by cesium-137 radionuclides with a density of over 1 Ci/km2. Ukraine on the other hand has 4.8% of its territory contaminated, and Russia, 0.5%. The area of arable land with a density of more than 1 Ci/km2 is over 18 million hectares; 2.4 thousand hectares have been taken out of the agricultural economy. Belarus is a land of forests. But 26% of all forests and a large part of all marshes near the rivers Pripyat, Dniepr, and Sozh are considered part of the radioactive zone. As a result of the perpetual presence of small doses of radiation, the number of people with cancer, mental retardation, neurological disorders, and genetic mutations increases with each year. —“Chernobyl.” Belaruskaya entsiklopedia On April 29, 1986, instruments recorded high levels of radiation in Poland, Germany, Austria, and Romania. On April 30, in Switzerland and northern Italy. On May 1 and 2, in France, Belgium, the Netherlands, Great Britain, and northern Greece. On May 3, in Israel, Kuwait, and Turkey. . . . Gaseous airborne particles traveled around the globe: on May 2 they were registered in Japan, on May 5 in India, on May 5 and 6 in the U.S. and Canada. It took less than a week for Chernobyl to become a problem for the entire world. —“The Consequences of the Chernobyl Accident in Belarus.” Minsk, Sakharov International College on Radioecology The fourth reactor, now known as the Cover, still holds about twenty tons of nuclear fuel in its lead-and-metal core. No one knows what is happening with it. The sarcophagus was well made, uniquely constructed, and the design engineers from St. Petersburg should probably be proud. But it was constructed in absentia, the plates were put together with the aid of robots and helicopters, and as a result there are fissures. According to some figures, there are now over 200 square meters of spaces and cracks, and radioactive particles continue to escape through them . . . Might the sarcophagus collapse? No one can answer that question, since it’s still impossible to reach many of the connections and constructions in order to see if they’re sturdy. But everyone knows that if the Cover were to collapse, the consequences would be even more dire than they were in 1986. —Ogonyok magazine, No. 17, April 1996

It was discussed and decided that fear would be perpetuated globally in order that focus would stay on the negative rather than allow for soul expression to positively emerge. As people became more fearful and compliant, capacity for free thought and soul expression would diminish. There is a distinct inability to exert soul expression under mind control, and evolution of the human spirit would diminish along with freedom of thought when bombarded with constant negative terrors. Whether Bush and Cheney deliberately planned to raise a collective fear over collective conscious love is doubtful. They did not think, speak, or act in those terms. Instead, they knew that information control gave them power over people, and they were hell-bent to perpetuate it at all costs. Cheney, Bush, and other global elite ushering in the New World Order totally believed in the plan mapped out by artificial intelligence. They were allowing technology to dictate global control. “Life is like a video game,” Bush once told me at the rural multi-million dollar Lampe, Missouri CIA mind control training camp complex designed for Black Ops Special Forces where torture and virtual reality technologies were used. “Since I have access to the technological source of the plans, I dictate the rules of the game.” The rules of the game demanded instantaneous response with no time to consciously think and critically analyze. Constant conscious disruption of thought through television’s burst of light flashes, harmonics, and subconscious subliminals diminished continuity of conscious thought anyway, creating a deficit of attention that could easily be refocused into video game format. DARPA’s artificial intelligence was reliant on secrecy, and a terrifying cover for reality was chosen to divert people from the simple truth. Since people perceive aliens as being physical like them, it was decided that the technological reality could be disguised according to preconceptions. Through generations of genetic encoding dating back to the beginning of man, serpents incite an innate autogenic response system in humans to “freeze” in terror. George Bush was excited at the prospects of diverting people from truth by fear through perpetuating lizard-like serpent alien misconceptions. “People fear what they don’t know anyway. By compounding that fear with autogenic fear response, they won’t want to look into Pandora’s Box.” Through deliberate generation of fear; suppression of facts under the 1947 National Security Act; Bush’s stint as CIA director during Ford’s Administration; the Warren Commission’s whitewash of the Kennedy Assassination; secrecy artificially ensured by mind control particularly concerning DARPA, HAARP, Roswell, Montauk, etc; and with people’s fluidity of conscious thought rapidly diminishing; the secret government embraced the proverbial ‘absolute power that corrupts absolutely.’ According to New World Order plans being discussed at the Grove, plans for reducing the earth’s population was a high priority. Mass genocide of so-called “undesirables” through the proliferation of AIDS4 was high on Bush’s agenda. “We’ll annihilate the niggers at their source, beginning in South and East Africa and Haiti5.” Having heard Bush say those words is by far one of the most torturous things I ever endured. Equally as torturous to my being were the discussions on genetic engineering, human cloning, and depletion of earth’s natural resources for profit. Cheney remarked that no one would be able to think to stop technology’s plan. “I’ll destroy the planet first,” Bush had vowed.