For more than 50 years, microbiologists in the U.S. and Europe have warned against using antibiotics to fatten up farm animals.

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问题    For more than 50 years, microbiologists in the U.S. and Europe have warned against using antibiotics to fatten up farm animals. The practice, they argue, threatens human health by turning farms into breeding grounds of drug-resistant bacteria. Farmers responded that restricting antibiotics in livestock would devastate the industry and significantly raise costs to consumers. We have empirical data that should resolve this debate. Since 1995, Denmark has enforced progressively tighter rules on the use of antibiotics in raising pigs, poultry and other livestock. In the process, it has shown that it’s possible to protect human health without hurting farmers.
   Farmers in many countries use antibiotics in two key ways: (1) at full strength to treat sick animals and (2) in low doses to fatten meat-producing livestock or to prevent veterinary illnesses. Although even the proper use of antibiotics can inadvertently lead to the spread of drug-resistant bacteria, the habit of using a low or "sub-therapeutic" dose is a formula for disaster: the treatment provides just enough antibiotic to kill some but not all bacteria. The germs that survive are typically those that happen to bear genetic mutations for resisting the antibiotic. They then reproduce and exchange genes with other microbial resisters. Because bacteria are found literally everywhere, resistant strains produced in animals eventually find their way into people as well. You could hardly design a better system for guaranteeing the spread of antibiotic resistance.
   The data from multiple studies over the years support the conclusion that low doses of antibiotics in animals increase the number of drug-resistant microbes in both animals and people. As Joshua M. Scharfstein, a principal deputy commissioner at the Food and Drug Administration, put it, "You actually can trace the specific bacteria around and ... find that the resistant strains in humans match the resistant strains in the animals." And this science is what led Denmark to stop sub-therapeutic dosing of chickens, pigs and other farm animals.
   Although the transition unfolded smoothly in the poultry industry, the average weight of pigs fell in the first year. But after Danish farmers started leaving piglets together with their mothers a few weeks longer to bolster their immune systems naturally, the animals’ weights jumped back up, and the number of pigs per litter increased as well. The lesson is that improving animal husbandry — making sure that stalls and cages are properly cleaned and giving animals more room or time to mature — offsets the initial negative impact of limiting antibiotic use. Today Danish industry reports that productivity is higher than before. Meanwhile, reports of antibiotic resistance in Danish people are mixed, which shows — as if we needed reminding — that there are no quick fixes.
   Of course, the way veterinary antibiotics are used is not the only cause of human drug-resistant infections. Careless use of the drugs in people also contributes to the problem. But agricultural use is still a major contributing factor. Every day brings new evidence that we are in danger of losing effective antibiotic protection against many of the most dangerous bacteria that cause human illness. The technical issues are solvable. Denmark’s example proves that it is possible to cut antibiotic use on farms without triggering financial disaster. In fact, it might provide a competitive advantage. Stronger measures to deprive drug-resistant bacteria of their agricultural breeding grounds simply make scientific, economic and common sense.
What can we learn from Paragraph 2?

选项 A、Use of antibiotics can let bacteria change their genes.
B、Drug-resistant bacteria are typically killed by antibiotics.
C、Antibiotics in animals can enter human bodies as well.
D、Antibiotics are used to prevent the spread of illnesses.

答案A

解析 推断题。第2段第2句提到,低剂量抗生素只能杀死一部分细菌,而无法杀死有耐药性的细菌,因此排除B。第3句说存活下来的携带抗药性基因突变的细菌,可以自我复制,并与其他携带抗药性的细菌交换基因(从而产生耐药菌种)。由此可见,使用抗生素会让细菌改变基因,故选A。第5句说到动物体内产生的耐药菌会转嫁给人类,而非动物体内的抗生素会进入人体,故排除C。选项D(抗生素用来防止疾病的扩散)在第2段并未提及,故也排除。
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