1 . While pedaling hard on a bike, do you feel like you are saving the planet? Or do you just feel out of breath? In fact, cycling is now considered one of the ultimate weapons humanity can use in the fight against climate change.
The United Nations General Assembly passed a resolution in March supporting bicycles as a tool for dealing with climate change. The resolution calls on member states to “integrate the bicycle into public transportation, in urban and rural settings in developing and developed countries”, with all 193 members of the UN unanimously (一致同意地) adopting the resolution.
This decision has received a positive response from numerous groups in support of cycling and environmental awareness internationally. “It is an important step toward the recognition of cycling as an important mode of transport,” said the European Cyclists’ Federation.
The resolution from the UN comes at a time when climate change has returned to the center of global attention. On Feb 28, the UN published a new report assessing recent climate change trends. The report warns that the global average temperature will rise by 1.5 C above pre-industrial levels (1850-1900), with more than 40 percent of the world’s population being “highly vulnerable” to these temperature changes.
In May 2020, bike sales in Spain increased 22-fold (22倍) compared with 2019. In London, large parts of the city are being closed off to cars so that people can walk and cycle safely. Cities like Berlin and Montreal have also added new, wider bike lanes.
More importantly, the resolution focuses on bike-sharing services, which could be seen as recognition of China’s bike-sharing success, noted CGTN.
China has some of the largest bike-sharing systems in the world. The country has more than 360 cities with dockless (无桩的) bike-sharing systems, with nearly 20 million bicycles for an average 47 million trips each day, according to China’s Ministry of Transport. This transportation option that produces zero emissions reduces the amount of CO2 released into the atmosphere by 4.8 million tons every year, according to a 2020 report from the World Resources Institute.
1. According to the first paragraph, when cycling you may feel________ .A.relaxed | B.proud | C.anxious | D.nervous |
A.Because it is an only tool to cope with climb changes. |
B.Because it can be used in urban and rural settings in all countries. |
C.Because it has been agreed with by all 193 members of the UN. |
D.Because most people support cycling and environmental awareness. |
A.To show China has succeeded in bike-sharing services. |
B.To indicate China has the most bikes in the world. |
C.To call for the world to learn from China. |
D.To suggest that China has developed quickly. |
A.20 million tons. | B.9.6 million tons. |
C.4.8 million tons. | D.24.8 million tons. |
2 . Zhang Fan, 36, a movie visual effects designer who returned to Beijing from New Zealand for work last year, was surprised by the improvement to the city’s air quality. “I remember the smell in the air and the frequent smoggy days before I left in 2013, after getting a job offer from a film company in New Zealand, ” he said. Last year, a Chinese company offered Zhang a more promising position, so he returned, saying that he could find more opportunities in his line of work in Beijing than elsewhere. In addition to rapid economic development in the Chinese capital, he said the most impressive change is the local air quality. “People discussed air pollution a lot when I was in Beijing previously. Now, it seems that the topic has disappeared completely, as every day is good in terms of air quality,” Zhang said. “The sky in Beijing these days is so clear. ”
On Jan. 4, the municipal authorities in Beijing announced a comprehensive success in improving air quality, with the city’s annual average concentration of PM2. 5 in the air, falling to 33 micrograms per cubic meter, and ozone (臭氧) concentration dropping to 149 mcg per cu m last year.
Yu Jianhua, spokesman for the Beijing Municipal Ecology and Environment Bureau, said at a news conference, “This is a milestone for Beijing’s hard work in fighting air pollution and also means that the city has met its air quality target outlined in the 14th Five-Year Plan(2021-25) ahead of schedule. Beijing has demonstrated to the world over the past 20 years that a mega city with a rapidly increasing GDP, vehicle count, population and energy consumption can move forward to cut air pollution effectively. The PM2.5 reduction over the past few years has surpassed that of developed countries during the same period.
According to the Bureau, the city’s average concentration of PM2.5 dropped by 63 percent last year from 2013, an average annual reduction of about 8 percent. The city experienced 288 days of good air quality last year—up from 112 days in 2013—and just eight days of heavy air pollution. This achievement is clear to see and exciting, but it has not been easy work.
1. Why did Zhang Fan returned to Beijing?A.He was tired of his life abroad. | B.He has a deep affection for the city. |
C.The city’s air quality has improved. | D.A golden chance was offered to him. |
A.By using examples. | B.By using figures. |
C.By offering experimental findings. | D.By citing personal experience. |
A.Huge. | B.Rich. | C.Civilized. | D.Noted. |
A.Business. | B.Fashion. | C.Environment. | D.Entertainment. |
3 . Angela Pozzi didn’t like seeing plastic trash washing up on the shore near her home in Bandon, Oregon. She wanted to unite her community to clean it up, so she started an organization and called it Washed Ashore: Art to Save the Sea.
Volunteers help clean up Oregon’s 300 miles of shoreline. Then, using only plastics from the beach cleanup, Ms Pozzi and her staff and many, many volunteers create sculptures of sea animals. Ms Pozzi says, “I want to create sculptures that, hopefully, will make people consider their plastic purchases and be aware of how so much plastic ends up in the oceans.”
Since 2010, more than 10,000 volunteers have collected 21 tons of trash and helped create more than 70 works of art. Four traveling exhibits have displayed the sculptures in more than 18 places. Shedd Aquarium in Chicago, Illinois, hosted an exhibit through September 2018.
People have used plastics to create life-saving medical devices, inexpensive containers and gadgets, and toys, of course. But unlike wood, cotton, and other natural materials, plastics don’t break down into anything useful to other living things. Instead, they stay for years in landfills, waterways, and the oceans. The materials are harmful to some sea animals, such as turtles, sea lions, and birds. Some of these creatures eat plastic objects that look like food. Others become entangled (被缠住) in plastic nets or packaging.
Ms Pozzi gives credit to everyone who helps. “One person didn’t create these sculptures,” she says. “Some people have picked up the plastic; others have sorted the items by color. Still others have washed each piece of plastic trash. Volunteers have drilled holes or helped to make the small wire-stitched panels, while others welded (焊接) the giant frames. I do the heads and detail work, and my staff and I take all the pieces everyone contributes to finish the work.” Says Ms Pozzi, “Until we run out of plastic on the beach, the work will continue.”
1. According to the passage, Washed Ashore ________.A.is an official organization | B.collects plastics for money |
C.turns the waste into artworks | D.aims to prevent the use of plastics |
A.The long history of the organization. |
B.The accomplishments of the organization. |
C.The sculptures are popular in many places. |
D.Many people are in favour of the organization. |
A.A double-edged sword. | B.A threat to living things. |
C.More stable in landfills. | D.Food for sea creatures. |
A.To teach it to readers. | B.To show its difficulty. |
C.Because she feels very proud. | D.Because it is an art by teamwork. |
4 . The worldwide 20th century “Green Revolution”, which saw huge year-by-year increases in global grain yields (产量),was fueled by the development in the 1960s of new high-yielding dwarfed (矮小) varieties known as Green Revolution Varieties (GRVs).
These dwarfed GRVs are common all over the world in today’s wheat and rice crops. Because they are dwarfed, with short stems, GRVs devote relatively more resources than tall plants to the growth of grains rather than stems, and are less likely to suffer yield losses from wind and rain damage. However, the growth of GRVs requires farmers to use large amounts of nitrogen fertilizers (氮肥) in their fields. These fertilizers are costly to farmers and cause extensive damage to the natural environment. The development of new GRVs combining high yields with reduced fertilizer requirements is thus a global agricultural goal.
Researchers at the University of Oxford and the Chinese Academy of Science have discovered for the first time a gene that can help reach the goal. Comparing 36 different dwarfed rice varieties, the researchers identified a novel natural gene that helps increase the rate at which plants make use of nitrogen from the soil. This gene, called GRF4, can increase the amount of a protein (蛋白质) in plant cells. GRF4 is actually a promoter that encourages the activity of other genes—genes that promote nitrogen uptake (摄入). Professor Harberd said, “Increasing GRF4 levels could contribute to an increase in the grain yields of GRVs, especially at low fertilizer input levels.”
The researchers say the latest rice variety containing GRVs should now become a major target for farmers in increasing crop yields and fertilizer use efficiency, with the aim of achieving the global grain yield increases necessary to feed a growing world population at a reduced environmental cost. It is very urgent at the moment.
Professor Harberd added, “This study is an example of how studying fundamental science objectives can lead rapidly to potential solutions to global challenges. It shows how the discovery can enable chances for food security and future new green revolutions.”
1. What can we know about dwarfed GRVs?A.They have higher yield and taller stems. |
B.They are a “double-edged sword”. |
C.They are environmentally friendly. |
D.They can be easily affected by weather. |
A.Increasing the rate of nitrogen use. |
B.Producing cheaper nitrogen fertilizers. |
C.Using fewer fertilizers to produce more grains. |
D.Finding a gene to solve agricultural problems. |
A.It promotes other genes' activity. |
B.It increases the output of crops. |
C.It takes in nitrogen from the soil. |
D.It lowers fertilizer input levels. |
A.Decreasing the amount of fertilizers required by GRVs. |
B.Encouraging farmers to adopt the new rice variety. |
C.Calling on farmers to use effective fertilizers. |
D.Focusing on the improvement of GRF4. |
A.GRVs—a potential measure to achieve global food security. |
B.The influence of agricultural development on the environment. |
C.The importance of raising public awareness of global issues. |
D.GRF4—foundation for new green revolutions. |
Tourists have been warned not to take sand and seashells from beaches in Sardinia, an Italian island in the Mediterranean Sea. More than 40 people,
6 . On a sunny afternoon, Andreas Fath climbed out of a river in Paducah. A small crowd was on hand to witness his setting a new world record. This man had just finished swimming the entire length of the Tennessee River—1,049 kilometers. And he did it in just 34 days!
As a chemist from Hochshule Furtwangen University, the 52-year-old man had taken on this swim for science. His primary goal was not to get his name into Guinness World Records. What really drove this swim was a desire to make people aware of the seriousness of water pollution.
Fath’s crew included his family. Martin Knoll, who helped organize Fath’s swim, also took par t. Knoll is an environmental scientist at the University of the South. He describes this swim as a vehicle for getting people interested in water quality and how we pollute water without realizing it.
It took Fath 34 days to swim the river’s length. Along the way, his crew took measurements of the water’s temperature and pH. They also recorded weather and the speed of the river’s currents (涌流). As for the Tennessee River, they collected daily water samples. A small plastic device attached to one leg of Fath’s wet suit sampled the chemical pollutants (污染物) through which he swam. Finally, Fath’s goal is to use such data to know what on earth results in water pollution. Then he wants to find ways to keep those chemicals out of the water.
Back in Germany, Fath and his students have finished examining their data. They plan to publish their findings soon. Identifying materials that hide in the river isn’t only important for the animals that live there. “It’s also a way to protect human health,” says Fath.
1. What was the main purpose of Andreas Fath’s long swim?A.To make history. | B.To set a new world record. |
C.To bring attention to water pollution. | D.To provide inspiration for scientific research. |
A.It was tiring. | B.It was painful. | C.It was interesting. | D.It was meaningful. |
A.To identify the sources of pollution. | B.To learn a lot more about the currents. |
C.To know chemicals’ effects on water. | D.To get pollutants removed from the water. |
A.Analyze the collected data. | B.Get the findings published. |
C.Study how to improve health. | D.Identify materials in other rivers. |
7 . Nearly 40 years ago, Peter Harrison, a marine ecologist witnessed the first recorded large-scale coral bleaching(珊瑚白化)event. Diving in the Great Barrier Reef(大堡礁), he was shocked by the scene before him. "The reef was made up of healthy corals and badly bleached white corals, like the beginnings of a ghost city," he says. Just months before, the same site was filled with colorful tropical life.
"Many of the hundreds of corals that I'd carefully tagged and monitored finally died," he says. "It was shocking and made me aware of just how weak these corals really are.”
Coral exists together with photosynthetic algae(藻类), which live in its tissues and provide essential nutrition(and coloration). But high temperatures and other stresses can turn algae poisonous. When this occurs, the algae may die or be removed by the coral, a process known as bleaching because the coral's clear tissue and white calcium carbonate skeleton(碳酸钙骨骼)are exposed. If the coral can't reestablish its link with algae, it will starve or become ill.
The widespread destruction Harrison saw in 1982 was repeated on many other Pacific Ocean reefs that year and the next. In 1997 and 1998 the phenomenon went global, killing some 16 percent of the world's corals. With rising temperatures, pollution, disease, increased ocean acidity, invasive species, and other dangers, Harrison's ghost cities are expanding
Scientists suppose that about four decades ago severe bleaching occurred roughly every 25 years, giving corals time to recover. But bleaching events are coming faster now—about every six years—and in some places soon they could begin to happen annually.
"The absolute key is dealing with global warming," says marine biologist Terry Hughes. "No matter how much we clean up the water, the reefs will die." In 2016, a record-hot year in a string of them, 91 percent of the reefs that consist of the Great Barrier Reef bleached.
1. Peter Harrison was shocked when diving in the Great Barrier Reef, because___________.A.the reefs were made up of precious corals | B.the corals were ruined badly and quickly |
C.he found a ghost city with tropical life | D.he saw the corals he had tagged before |
A.the causes of coral bleaching | B.the weakness of corals and algae |
C.the elements that make algae die | D.the process of building a link with algae |
A.global warming | B.the polluted ocean | C.the white corals | D.invasive species |
A.With algae living in its tissues, coral's white skeleton is exposed. |
B.Solving global warming is the real solution to coral bleaching. |
C.The reefs die because the water hasn't been cleaned thoroughly |
D.The severest coral bleaching occurred about four decades ago. |
Over the last 200 years, humans have become the dominant species on earth. As a result, the natural world
Therefore, many environmentalists are turning to “rewilding”,
For these projects to succeed, they need
9 . Nature is all about relationships: the interconnected links between the living and lifeless, and how they harmonize beautifully into a whole that might not be immediately apparent to us humans, as the complexities of the world sometimes escape the grasp of our relatively short-sighted understanding. Perhaps that's why the urgency of the climate crisis and other environ-mental issues don't truly hit home for some; because that important data is presented in a dry, factual way that doesn't touch the deeper parts of our collective soul, in a way that would move us to realize what is being lost.
Clare Celeste is an environmentally-minded artist creating artworks that aim to highlight the precious biodiversity of the planet. Using paper that is complexly cut and then hand-assembled piece by piece, Celeste forms imaginary landscapes of plants and animals that are folded or pressed between glass.
Growing up in Brazil, Celeste says that her earliest childhood memories were of green, tropical ecosystems slowly being eaten up by the rapid expansion of nearby cities.
Celeste said, “When I made a series of combinations, I realized that many of the species in the illustrations had already gone extinct. Humans have wiped out 68 percent of all our planet's biodiversity since 1970, so working with old illustrations can be very heartbreaking as much of the diversity in these beautiful old illustrations has been wiped out by human activities.”
Celeste explains some of the motivations behind this series of paper works: “I wanted to convey the beauty of our planet's plants and animals, while also introducing a more architectural or human-made element with the geometric (几何图形的) patterns. Having grown up in Brazil, I was surrounded by dense urban spaces that often had rich jungle growth just wanting to break through the concrete architecture. I suggest we go back to our love: our love of nature, of our children, of future generations. Because when we love something deeply, we are required to act—to save it when it is threatened.”
1. What can we infer from the first paragraph?A.People are connected with each other. |
B.People find data on nature boring to study. |
C.People can't solve the climate crisis on their own. |
D.People don't fully understand environmental issues. |
A.Cities were rich in green plants. |
B.Buildings were decorated with plants. |
C.Urbanization destroyed the local biodiversity. |
D.Nature was a mixture of natural artworks. |
A.Most species die without adapting to environment. |
B.Humans feel painful at the loss of species. |
C.Her paper cuts represent the extinction of species. |
D.Human activities have severely damaged biodiversity. |
A.The desire to protect the biodiversity. |
B.The desire for a good childhood memory. |
C.The idea of imagining landscapes. |
D.The hope of preserving natural beauty. |
10 . I looked out of the door of my 100 year-old house and saw my newly built garden. I realized nothing is rubbish. I was full of
I
My neighbors would put the autumn
Nothing has to be really
A.joy | B.sympathy | C.doubt | D.regret |
A.refused | B.hesitated | C.liked | D.started |
A.wealth | B.garbage | C.investments | D.necessities |
A.packed up | B.brought up | C.threw away | D.gave away |
A.value | B.request | C.confusion | D.consequence |
A.own | B.find | C.forget | D.lose |
A.collecting | B.recovering | C.recycling | D.competing |
A.sorting | B.picking | C.spotting | D.recording |
A.uniform | B.broken | C.limitless | D.separate |
A.fruit | B.rice | C.leaves | D.vegetables |
A.compare | B.deal | C.communicate | D.fit |
A.platform | B.garden | C.picture | D.schedule |
A.building | B.tent | C.sign | D.show |
A.piled | B.polished | C.decorated | D.cleaned |
A.unwillingly | B.hardly | C.seriously | D.casually |
A.submitted | B.sowed | C.removed | D.reserved |
A.smelly | B.annoying | C.imaginary | D.attractive |
A.useless | B.careless | C.priceless | D.defenseless |
A.pleasant | B.vivid | C.violent | D.disgusting |
A.trouble | B.treasure | C.terror | D.trade |