![]() What will happen when these plants are consumed by people and animals in large quantities? More and more people are resistant to antibiotics. They allow genetic engineers to differentiate between manipulated and natural plants. So-called antibiotic-resistant genetic markers, for example, are built into half of the GM plants approved worldwide. In the past, thousands of cows and pigs had to be slaughtered to extract marginal amounts of insulin from their pancreases.īut every new technology involves risks, and that applies just as well to genetic engineering. GM bacteria already produce insulin, a great aid to millions of people stricken with diabetes. That's no less the case with genetic engineering. On top of everything else, genetically modified crops are supposed to put an end to world hunger.Įvery new technology offers new opportunities. The promises of the genetic engineering industry today are reminiscent of the messianic messages of the nuclear era: Conserve the environment by making insecticides, pesticides and herbicides unnecessary. But radiation therapy hasn't been able to beat cancer. In medicine, admittedly, nuclear technology is indispensable. What remains of the radiant future are radiant reactor ruins, radiant plutonium waste and radiant liquid waste from nuclear reprocessing plants such as France's La Hague or Britain's Sellafield. The reality - several decades later - looks pitiful. Those were the nuclear strategists' visions. Fast breeder nuclear reactors would multiply the world's uranium provisions. Everyone would have their own miniature nuclear reactor in the basement. Ships, trains and cars would run as if magically driven by the atom's elementary power. The solution to energy problems electricity in abundance for everyone medical wonders in the fight against cancer - the nuclear industry promised us a radiant future in the 1950s and 60s.
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