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The little chefs Hilary Rose travels to Dorset, in the south of England, to investigate a cookery course for children. There must be something in the air in Dorset, because the last place you’d expect to fi nd children during the summer holidays is in the kitchen. Yet in a farmhouse, deep in the English countryside, that’s exactly where they are – on a cookery course designed especially for children. It’s all the idea of Anna Wilson, who wants to educate young children about cooking and eating in a healthy way. ‘I’m very keen to plant the idea in their heads that food doesn’t grow on supermarket shelves,’ she explains. ‘The course is all about making food fun and enjoyable.’ She thinks that eight is the perfect age to start teaching children to cook, because at that age they are always hungry. 9() These children are certainly all smiles as they arrive at the country farmhouse. Three girls and four boys aged from ten to thirteen make up the group. They are immediately given a tour of what will be ‘home’ for the next 48 hours. 10 But one thing is quite clear – they all have a genuine interest in food and learning how to cook. Anna has worked as a chef in all sorts of situations and has even cooked for the crew of a racing yacht, in limited space and diffi cult weather conditions. 11 ‘Kids are easy to teach,’ she insists, ‘because they’re naturally curious and if you treat them like adults they listen to you.’ Back in the kitchen, Anna is giving the introductory talk, including advice on keeping hands clean, and being careful around hot ovens. 12 Judging by the eager looks on their young faces as they watch Anna’s demonstration, they are just keen to start cooking. The children learn the simplest way, by watching and then doing it themselves. They gather round as Anna chops an onion for the fi rst evening meal. Then the boys compete with each other to chop their onions as fast as possible, while the girls work carefully, concentrating on being neat. 13 When they learn to make bread, the girls knead the dough with their hands competently, while the boys punch it into the board, cheerfully hitting the table with their fi sts. The following morning, four boys with dark shadows under their eyes stumble into the kitchen at 8.30 a.m. to learn how to make breakfast (sausages and eggs, and fruit drinks made with yoghurt and honey). We learn later that they didn’t stop talking until 4.30 a.m. 14 Ignoring this, Anna brightly continues trying to persuade everyone that fruit drinks are just as interesting as sausages and eggs. Anna has great plans for the courses and is reluctant to lower her standards in any way, even though her students are so young. 15 ‘And I like to keep the course fees down,’ Anna adds, ‘because if the children enjoy it and go on to teach their own children to cook, I feel it’s worth it.’ If this course doesn’t inspire them to cook, nothing will.
A This is followed by a session on ‘knife skills’, which will be important later on. T
B She always uses top- quality ingredients, such as the best cuts of meat and the fi nest cheeses, so there’s clearly no profi t motive in this operation.FC As they wander round, they argue lightheartedly about who has had the most experience in the kitchen.T
D In the garden, they learn about the herbs that they will use in their cooking.T
E Their obvious tiredness may explain why one of them goes about the task so carelessly that the ingredients end up on the fl oor.F
F This is particularly true of young boys, who are happy to do anything that will end in a meal T
G As a result, she has a very relaxed attitude to cooking, constantly encouraging the children and never talking down to them.F
H This contrast will become something of a theme during the course.F
Nowadays in the news you can read a lot about biotechnology and the controversies about it and perhaps you ask yourself what it is exactly. Well, this article is going to give you a brief history of the field of biotechnology and show you that, although the word “biotechnology” was first used in 1919, we have been using biotechnology for many thousands of years in ways that are completely uncontroversial. It will also look at the more modern developments which have started intense debate. When you are drinking a cold beer on a hot day, or eating a delicious cheese sandwich, you can thank biotechnology for the pleasure you are experiencing. That’s right! Beer, bread and cheese are all produced using biotechnology. Perhaps a definition will be useful to understand how. A standard definition is that biotechnology (or biotech for short) is the application of science and engineering to the direct or indirect use of living organisms. And as you know, the food and drink above are all produced by the fermentation of micro-organisms. In beer, the yeast multiplies as it eats the sugars in the mixture and turns them into alcohol and CO2. This ancient technique was first used in Egypt to make bread and wine around 4000BC! Antibiotics are used to prevent and treat diseases, especially those caused by bacteria. They are natural substances that are created by bacteria and fungi. The first antibiotic was made in China in about 500BC – to cure boils. In 1928 Alexander Fleming discovered penicillin and it was considered a medical miracle. Modern research is looking at the creation of super-antibodies which can kill bacteria and viruses inside the cells that house them. Our modern consumer society produces a lot of waste which needs to be disposed of safely and without harmful end products. Environmental biotechnology can help. Indeed, the use of bacteria to treat sewage was first practiced in 1914 in Manchester, England. Vermiculture or using worms to treat waste is another environmentally-friendly practice and the end product is a natural fertiliser. Bacteria have even been developed to help with problems such as oil spills. They convert crude oil and gasoline into non-toxic substances such as carbon dioxide, water and oxygen and help create a cleaner, healthier environment. These examples of biotechnology are accepted by most people. However, the discovery of the DNA structure by Watson and Crick in 1953 was the beginning of the modern era of genetics and the following areas of biotech are very controversial. Read on… The genetic modification of plants and crops has been in practice for many years. This involves changing the genetic code of these plants so that they are more resistant to bad conditions like drought, floods and frost. Supporters of GM food say that it can offer the consumer better quality, safety and taste and for over a decade Americans have been eating GM food. However, things are very different in Europe where genetically modified food is very strictly regulated and regarded with deep suspicion by the public. GM food has even been called “Frankenfood” in the press, a term inspired by the novel Frankenstein by Mary Shelley. There is a great cultural divide between America and Europe over whether such food is safe to eat and will not harm the environment and the discussion is still in progress. 1997 saw the birth of Dolly the sheep, the first animal cloned from an adult cell. This was a remarkable achievement which created world-wide debate on the ethical issues surrounding cloning. International organisations such as the European parliament, UNESCO and WHO all declared that human cloning is both morally and legally wrong. However, we need to make a distinction between reproductive cloning and therapeutic cloning. Nowadays the idea of reproductive cloning – creating a copy of another person - is no longer interesting for researchers. Instead therapeutic cloning is creating excitement in the biotech world. Key to this technique is stem cells, which are master cells that have the potential to become any other kind of cell in the body e.g. nerve cells, blood, heart muscle or even brain cells. Stem cells themselves have generated a lot of controversy as it was believed that only human embryos could provide them. However, it now appears that adult stem cells offer the same possibility. This would mean that a patient who suffered a heart attack could provide doctors with his adult stem cells which could then be implanted back into his heart and used to create heart muscle, replacing the muscle that was damaged. As the genetic code is identical, there would be no problem of the body rejecting the implant as, unfortunately, happens with organ transplants. In the future, biotechnologists hope that stem cells could be used to grow entire organs. In this way biotechnology offers the hope of revolutionising medical treatment. In this brief overview of the history of biotechnology we have jumped from making bread to making human organs - an enormous leap- and it is clear that these modern practices raise many controversial issues. However, despite the debate, we can imagine that as biotechnology has been around for many years, it will still be around for some time to come - but who knows where it will take us?
Questions:
After reading, choose the best answer for the following questions
1. What is the main topic of the article?
Brief history and modern developments of biotechnology
Benefit of biotechnology
Modern research in biotechnology
2. What does the pronoun "IT" in the first paragraph refer to?
Biotechnology
The article
The word "Biotechnology"
3. Which products were first made with fermentation of micro-organisms?
Beer, bread and cheese
Bread and wine
Beer and cheese
Decide whether the statement below is True or False.
4. Alexander Fleming discovered super-antibodies which can kill bacteria and viruses inside the cells that house them.
TrueFalse
5. GM food is easily available in the U.S. and Europe.
TrueFalse
6.Researchers believe that adult stem cells could be used to create body parts.
TrueFalse