1. Why does the factories dump waste to the river?
A.To follow the trend. |
B.To cut down on cost. |
C.To avoid being punished. |
A.They are sent to the hospital. |
B.They have sore eyes. |
C.They cough a lot these days. |
A.They will talk with the factory director. |
B.They will report it to the police. |
C.They will go to buy masks. |
A.The pollution in the air. |
B.Smoke coming from the school. |
C.Measures taken by the school. |
A.The sea is getting smaller. |
B.The sea is being polluted. |
C.The sea is getting cleaner. |
A.Use less plastics. |
B.Cut plastics out of life. |
C.Collect plastics in the ocean. |
5 . Plastic is everywhere, from the Arctic ice to vital organs in the human body. In fact, previous estimates suggest that the average person swallows a credit card-worth of microscopic plastic particles(颗粒) every week. But new research shows that this could actually be an understatement.
Microplastics are plastics smaller than 5 millimeters, found in industrial waste, beauty products, and formed during the degradation of larger plastic pieces. Over time, they break down into even smaller nanoplastics. These tiny particles can pass through our intestines and lungs into our bloodstreams, reaching vital organs like the heart and brain.
While the idea of eating plastic is unsettling in itself, the major concern here is that these plastic particles contain chemicals that can interrupt our body’s natural release of hormones, potentially increasing our risk of reproductive disorders and certain cancers. They can also carry toxins(毒素) on their surface like heavy metals.
In the past, researchers have shown bottled water can contain tens of thousands of identifiable plastic fragments in a single container. However, until recently, only the larger microplastics were detectable with available measuring tools, leaving the area of nanoplastics largely a mystery.
Using Raman microscopy (显微镜学), capable of detecting particles down to the size of a flu virus, the team measured an average of 240, 000 particles of plastic per liter of bottled water, 90 percent of which were nanoplastics, a revelation 10 to 100 times larger than previous estimates.
These plastics likely originate from the bottle material, filters used to “purify” the water, and the source water itself. “It is not totally unexpected to find so much of this stuff, ” the study’s lead author, Columbia graduate student Naixin Qian, said in a statement. His team hopes to expand their research into tap water and other water sources to better inform our exposure to these potentially dangerous particles. “The idea is that the smaller things get, the more of them I reveal, ” he added.
1. What is the primary focus of the new research?A.The presence of plastic particles. | B.The use of plastic in everyday products. |
C.The detection methods for microplastics. | D.The potential risks of nanoplastics to human. |
A.Finding the source of plastic particles. | B.Helping to cure the deadly flu virus. |
C.Detecting the smaller plastic particles. | D.Improving the quality of bottled water. |
A.To focus on areas with higher plastic pollution. |
B.To be aware of the dangerous particles in daily life. |
C.To further measure the types of particles in tap water. |
D.To detect the smaller plastic particles in industrial areas. |
A.Skeptical. | B.Objective. | C.Conservative. | D.Positive. |
6 . Japan said Tuesday that it would start pouring treated radioactive water (放射性废水) from the Fukushima nuclear power plant into the Pacific Ocean within two years. Officials in Tokyo said the water would be filtered and diluted (稀释) to safe levels first, but most locals remain firmly opposed to the plan. Protesters gathered outside Prime Minister Yoshihide Suga’s residence in downtown Tokyo to criticize the government’s decision.
More than a million tons of radioactive water is currently being stored at the Fukushima power plant in a massive tank farm big enough to fill 500 Olympic-sized swimming pools. The wastewater comes from water pumped in to cool the plant’s damaged reactors (反应堆). The government says it has simply run out of room to store all the water. The plan to dump the water into the ocean first came to light in the autumn of last year, when Japanese news reported anonymous (匿名的) officials said the decision had been taken.
On Tuesday, Suga said that after years of study, his scientific advisors had concluded that ocean discharge was the most possible way to cope with the wastewater. But the decision to pour Fukushima wastewater into the ocean has drawn fire from neighboring Asian countries and local fishermen along Japan’s coast.
China called the decision “extremely irresponsible,” and South Korea summoned (召唤) the Japanese ambassador in Seoul over the matter. “They told us that they wouldn’t release the water into the sea without the support of fishermen,” Kanji Tachiya, who leads a local cooperative of fisheries in Fukushima, told national broadcaster NHK ahead of the announcement on Tuesday. “We can’t support this move to break that promise and release the water into the sea unilaterally (单方面地).”
The actual release of water from the Fukushima plant will take decades to complete. Critics have called on Japan’s government to at least ensure that independent monitoring is in place to check the level of radiation in the poured water is safe for the environment.
1. How do most of the local people react to the plan?A.Indifferent. | B.Uncertain. | C.Supportive. | D.Disapproving. |
A.The wastewater is being stored in 500 Olympic-sized swimming pools. |
B.It was last year that the plan was exposed to the public. |
C.Ocean discharge is the only way to deal with the wastewater. |
D.The plan has aroused anger in all the Asian countries. |
A.The plan is to pull the whole world into the disaster. |
B.It’s imperative that the plan should be carried out immediately. |
C.It’s safe and easy to pour the wastewater into the ocean. |
D.It’s unacceptable to pour the water into the ocean without fishermen’s permission. |
A.The Japanese government has checked the level of radiation in the poured water. |
B.Neigboring Asian countries agreed the decision to pour Fukushima wastewater into the ocean.. |
C.It will actually take the Fukushima plant long to release treated radioactive water. |
D.Independent monitoring of the water from the Fukushima plant aren’t necessary. |
7 . If humans were truly at home under the light of the moon and stars, we would go in darkness happily, the midnight world as visible to us as it is to the vast number of nocturnal (夜间活动) species on this planet. Instead, we are diurnal creatures, with eyes adapted to living in the sun’s light. This is a basic evolutionary fact, even though most of us don’t think of ourselves as diurnal beings. Yet it’s the only way to explain what we’ve done to the night: We’ve engineered it to receive us by filling it with light.
The benefits of this kind of engineering come with consequences — called light pollution — whose effects scientists are only now beginning to study. Light pollution is largely the result of bad lighting design, which allows artificial light to shine outward and upward into the sky. Ill-designed lighting washes out the darkness of night and completely changes the light levels — and light rhythms — to which many forms of life, including ourselves, have adapted. Wherever human light spills into the natural world, some aspect of life is affected.
In most cities the sky looks as though it has been emptied of stars, leaving behind a vacant haze (霾) that mirrors our fear of the dark. We’ve grown so used to this orange haze that the original glory of an unlit night — dark enough for the planet Venus to throw shadows on Earth — is wholly beyond our experience, beyond memory almost.
We’ve lit up the night as if it were an unoccupied country, when nothing could be further from the truth. Among mammals alone, the number of nocturnal species is astonishing. Light is a powerful biological force, and on many species it acts as a magnet. The effect is so powerful that scientists speak of songbirds and seabirds being “captured” by searchlights on land or by the light from gas flares on marine oil platforms. Migrating at night, birds tend to collide with brightly lit tall buildings.
Frogs living near brightly lit highways suffer nocturnal light levels that are as much as a million times brighter than normal, throwing nearly every aspect of their behavior out of joint, including their nighttime breeding choruses. Humans are no less trapped by light pollution than the frogs. Like most other creatures, we do need darkness. Darkness is as essential to our biological welfare, to our internal clockwork, as light itself.
Living in a glare of our own making, we have cut ourselves off from our evolutionary and cultural heritage — the light of the stars and the rhythms of day and night. In a very real sense, light pollution causes us to lose sight of our true place in the universe, to forget the scale of our being, which is best measured against the dimensions of a deep night with the Milky Way — the edge of our galaxy — arching overhead.
1. According to the passage, human beings .A.prefer to live in the darkness |
B.are used to living in the day light |
C.were curious about the midnight world |
D.had to stay at home with the light of the moon |
A.The night. | B.The moon. | C.The sky. | D.The planet. |
A.provide examples of animal protection. |
B.show how light pollution affects animals. |
C.compare the living habits of both species. |
D.explain why the number of certain species has declined. |
A.The Magic Light. | B.The Orange Haze. |
C.The Disappearing Night. | D.The Rhythms of Nature. |
8 . You are welcome to our channel. An interest in the way ocean currents move led Dr. Erik van Sebille to track garbage. This Dutch scientist hopes that by making us aware of how much we litter our oceans, we’ll be motivated to better stash (存放) our garbage.
Question: Where does the garbage in our oceans come from ?Answer: It can come from litter people leave behind on beaches. Or from things falling off ships. Almost every river’s garbage will end up in the ocean too. Plastic garbage is the biggest problem, though. That’s because it doesn’t easily break down. It can stay in the ocean for thousands of years. Eventually, it arrives at the garbage patches (垃圾带).
Question: Does this mean that ocean garbage is worse than garbage on land ?
Answer: Litter in the ocean is probably just as bad as litter in a forest or a park. The main problem in either place is that, if animals eat plastic pieces, they can become very ill. But we know how to solve the problem: Just stop polluting!
Question: Many persons love tossing a message in a bottle into the ocean. Is that a bad idea ?
Answer: Finding a bottle with a message in it is awesome, very special! But most bottles will never end up on a beach. They’ll turn up in the garbage patches, where it’s unlikely that someone will find them. If you want to play with ocean currents, go to the website and release virtual bottles. That way, you’re not littering our oceans.
1. Animals can become very ill if they _______________.
A.turn up in the garbage patches. | B.arrive at the garbage patches. |
C.eat plastic pieces. | D.play with bottles. |
A.educative. | B.useful. | C.interesting. | D.meaningless. |
A.story. | B.poem. | C.scientific article. | D.television interview. |
9 . Nuclear pollution is a serious global
When nuclear accidents occur in coastal areas, the
Following the Fukushima nuclear disaster in 2011, efforts to cool the reactors by pumping in seawater resulted in the
This
A.change | B.opportunity | C.concern | D.possibility |
A.caused | B.posed | C.created | D.increased |
A.resulted in | B.led to | C.brought about | D.caused |
A.terrestrial | B.aquatic | C.marine | D.atmospheric |
A.balancing | B.regulating | C.considering | D.stabilizing |
A.heightened | B.raised | C.decreased | D.lifted |
A.minor | B.slight | C.substantial | D.insignificant |
A.accumulation | B.storage | C.deposition | D.buildup |
A.Therefore | B.Despite | C.However | D.Hence |
A.from | B.by | C.of | D.in |
A.residents | B.citizens | C.inhabitants | D.dwellers |
A.issue | B.measure | C.release | D.disposal |
A.web | B.chain | C.network | D.system |
A.urgent | B.immediate | C.pressing | D.critical |
A.address | B.tackle | C.solve | D.resolve |
There are