1 . Chaudhary quietly weaves together lengths of ropes, binding them with grass collected from the riverbank. She skillfully shapes the materials into a jewelry box. Meanwhile, she’s instructing a group of women to work out the materials. The ropes used were once the lifeline for climbers tackling Nepal’s mountains and were then discarded (扔掉). They are now finding new life, transformed by skilled hands into items to sell.
Acharya, working with the cleaning campaign, owns a waste processing business in Kathmandu, also an advocate for sustainable waste management. “Aluminum and other metal waste go through the recycling process, but we found no way to recycle ropes and gas cans,” she says. It struck her that the non-recyclable waste could be reused, but it wasn’t until she met Maya Rai that a solution emerged. Rai, leading Nepal Knotcraft Centre, helped connect Acharya with Chaudhary’s team of craftswomen in hopes of turning the mountain waste into economic opportunity. “While this seems insignificant compared to waste in the mountains, it’s a start. We aim to connect local expertise, mountain waste and local economy,” says Acharya, proudly displaying a mat made from ropes left on Mt. Qomolangma by climbers. Her goal is to ensure that no waste collected from mountains ends up in a landfill again.
Finished crafts are sold at outlets and exhibitions. The craftswomen are paid according to how many items they make and sell. With flexible hours, the project gives women an opportunity to earn money even as they maintain household responsibilities.
Eventually, Acharya hopes to expand the program to involve more women and process more waste. But progress has been slow. “We still have not found a sustainable business plan to make crafts in large quantities, ”she says. Now, she is searching for cooperators to make a model that serves not only the mountain but the communities. “After all, we are trying to craft a sustainable future.”
Each rope turned into a decorative item is a way to help local women earn a living and keep mountains clean.
1. What is the author’s purpose in mentioning Chaudhary in paragraph 1?A.To lead in the topic with her example. |
B.To spread her environmental consciousness. |
C.To show her patient instructions to the women. |
D.To speak highly of her outstanding weaving skills. |
A.A business involving waste processing. |
B.A team transforming waste into treasure. |
C.A campaign advocating sustainable management. |
D.A solution connecting expertise, waste and economy. |
A.Selling crafts at outlets can earn more money. |
B.Removing mountain waste generates a sense of pride. |
C.Cooperating with local experts helps promote skills. |
D.Work-life balance can be achieved due to flexible hours. |
A.Hesitant. | B.Positive. | C.Suspicious. | D.Disapproving. |
Growing up in a coastal town in San Francisco, Christian had a special love for the ocean and its creatures. He had always found joy in the rhythmic tides and the ocean waves against the shore. The salty wind and the cries of the seagulls (海鸥) had been like a comforting song to him during his childhood.
However, all these changed over the years. Every time he wandered along the familiar stretch of sand, his heart sank. The once charming beach was now littered with plastic bags, bottles and other wastes, a distinctive contrast to the natural beauty that had always absorbed him.
The sight was a painful reminder of the harm the locals were bringing to the very land where he was growing up. Christian felt a deep sense of loss and responsibility. Previously, he had seen the news reports about the severe effects of plastic pollution on the oceans, and the images of sea creatures stuck in plastic wastes haunted (萦绕于脑际) him.
Determined to make a change, Christian decided to take action. He knew he couldn’t solve this problem alone, but he could start something that might grow into a powerful movement. With the passion and belief of a young man who loved his ocean and his land deeply, he founded an organization called Waves of Change. The early days presented challenges in calling on volunteers.
He began by reaching out to the students in his school. He shared the shocking reality of the polluted beaches and the urgent need to reduce plastic litter. To his delight, gradually more and more schoolmates started showing interest in the organization and many were eager to join in the cause. They were all too familiar with the beauty of the ocean and were equally saddened by the damage they had witnessed. As high school students, Christian and other members properly allocates (分配) time to balance the cause and their academic work.
注意:1. 续写词数应为150左右;
2. 请按如下格式在答题卡的相应位置作答。
Together, Christian and other members did a lot of things in their free time.
_________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________Their efforts finally paid off.
_________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________3 . Nanako Hama gets a lot of mail, mostly from strangers who live in her home city of Tokyo. In light envelopes, they send locks of their hair, hoping to recycle it.
People generate a huge amount of hair waste. Nearly all of that waste ends up in landfill, where it can release harmful greenhouse gases that contribute to climate change.
But hair possesses useful qualities and it’s a shame to simply throw it away. That’s why people all around the world, like Hama, have been collecting hair and finding innovative ways to recycle it, including making mats (垫子) out of it for removing oil leaks,
Hama is part of the nonprofit Matter of Trust (MoT) members working at more than 60 centers dotted across 17 countries, using machines to make hair donated from local salons and individuals into square mats, which are then used to clean up the floating oil.
“Hair is particularly well-suited for this,” says MoT co-founder Lisa Gautier, “That’s because its rough sort of outer layer lets oil stick to it.” MoT’s mats have been used in major oil leaks, including the 2010 Deepwater Horizon and 2007 Cosco Busan incidents.
In a 2018 study, Murray, an environmental scientist at the University of Technology Sydney, in Australia found that mats made of recycled human hair could absorb 0.84 grams of oil onto its surface for every gram of hair — significantly more than polypropylene (聚丙烯), a type of plastic that’s typically used to clean up floating oil.
Besides, hair is also useful as fertilizer (化肥). Hair contains a relatively high nitrogen (氪), a chemical element crucial for plant growth, and each lock of hair is made of roughly 16 percent of this essential nutrient. Last year, more than 560 gallons of liquid fertilizer made from human hair was sold to farmers in northern Tanzania and the feedback from the farmers has been very encouraging.
“It’s just a great way to use hair in a productive way. Hair is an answer literally hanging in front of our eyes-for oil and soil, ” Hama says.
1. What can the mat made of human hair do?A.Clear the sea of oil. | B.Improve soil. |
C.Take in harmful gas. | D.Prevent oil leaks. |
A.Its color and strength. | B.Its length and amount |
C.Its structure and component. | D.Its weight and flexibility. |
A.To state a fact. | B.To support a point. |
C.To make a comparison. | D.To clarify a concept. |
A.Unclear. | B.Optimistic. | C.Doubtful. | D.Negative. |
1.简述野生动物的现状;
2.野生动物减少的原因以及采取的措施;
3.呼吁大家保护野生动物。
注意: 字数控制在80词左右; 可以适当增加细节, 以使文章连贯。
提示词:减少 decrease 野生动物 wild animals
Save Endangered Animals
_________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________5 . About 12% of the total global energy demand comes from heating and cooling homes and businesses. A new study suggests that using underground water to maintain comfortable temperatures could reduce consumption of natural gas and electricity in this section by 40% in the US. The approach is called ATES, short for aquifer thermal energy storage (含水层热能储存).
“We need storage to absorb energy from the sun and wind. It’s crucial to creating affordable, reliable, and deeply environmental-friendly electricity systems. Most people are interested in batteries and other kinds of electrical storage. But we were wondering whether there was any opportunity to use geothermal (地热的) energy storage,” said first author A.T.D Perera. “With ATES, energy can be stored for a long period of time, without adding an additional burden to the grid (输电网).”
ATES is a pleasantly simple concept that takes advantage of the heat-absorbing property of water and the natural geological features of the planet. You simply pull existing underground water up and heat it at the surface in the summer with environmental heat or energy. Then you send it back down. It stays fairly hot because the Earth is a good insulator (绝热体).
“Unlike above-ground tank-based water or ice storage systems, ATES will not need space. It’s also more efficient and can support larger communities in cooling or heating than traditional geothermal heat pump systems that rely on heat moving with the underground soil,” added co-author Hong Tianzhen.
A major beneft of ATES is that it will become more efficient as weather becomes more extreme in the coming years due to climate change. The hotter summers and severer winters could increase the amount of free thermal energy that can be stored with ATES. “It’s very much a realistic thing to do and this work is really about showing its value,” said Perera. “This technology is ready to go, so to speak. We just need to do it.”
1. What do we know about ATES?A.It is technologically demanding. |
B.It is aimed at replacing natural energy. |
C.It mainly relies on batteries to function. |
D.It helps achieve an environmentally friendly society |
A.By giving examples. | B.By discussing results. |
C.By making comparisons. | D.By analyzing principles. |
A.Temperature variations. | B.Insulated materials. |
C.The duration of storage. | D.The category of energy. |
A.A Turning Point in Energy Usage |
B.A Solution to Green Cooling and Heating |
C.A Transformation in the US Electricity System |
D.A Discovery About Geothermal Energy Storage |
6 . It has been over 150 years since the Great Chicago Fire. The 1871 fire killed an estimated 300 people. It turned the heart of the city, wood-frame buildings quickly constructed on wooden sidewalks, into ruins, and left 100,000 people homeless. Like the Great Fire of London in 1666, the San Francisco Earthquake of 1906, and Hurricane Katrina in 2005, the Great Chicago Fire reminds us that big cities can still be frail.
But that same night, about 250 miles north of Chicago, more than 1,200 people died in and around Peshtigo. It was the deadliest wildfire in U.S. history. Survivors said the fire moved like a hurricane, jumping across Green Bay to light forests on the opposite shore.
Chicago’s fire came to be seen as a disaster that also led to the invention of steel skyscrapers, raised up on the city’s ashes. It has overshadowed the Peshtigo Fire. And for years, the two were seen as separate disasters. However, many of those houses and sidewalks that burned in Chicago had been built with trees grown around Peshtigo.
Chicago’s fire was long blamed - falsely - on an Irish-immigrant family’s cow kicking over a lantern. Some people thought the Peshtigo Fire started when pieces of a comet (彗星) landed in the forest, which has never been proven.
What we understand better today was that the Midwest was historically dry in the summer of 1871. When a low-pressure front with cooler temperatures rolled in, it produced winds, which can fan sparks (火星) into wildfires. The fires themselves generated more winds. Several parts of nearby Michigan also burned during the same few days ; at least 500 people were killed there.
At present, all of those fires on an autumn night in 1871 might help us see even more clearly how rising global temperatures and severe droughts, from Australia to Algeria to California, have made forests easier to burn, and people more likely to be harmed by the climate changes we’ ve helped create.
1. What does the underlined word “frail” in the first paragraph probably mean ?A.Regularly enlarged. | B.Heavily populated. |
C.Safely reached. | D.Easily damaged. |
A.By presenting research findings. | B.By making comparisons. |
C.By following time order. | D.By making classifications. |
A.A careless cow. | B.A passing comet. |
C.A low-pressure front | D.A paper lantern. |
A.To warn people of the forest fire threat. | B.To show signs of global warming. |
C.To attract more tourists to Chicago. | D.To introduce an unknown city. |
7 . Do you remember all those years when scientists argued that smoking would kill us but the doubters insisted that we didn’t know for sure? That the evidence was inconclusive, the science uncertain? That the anti-smoking lobby(游说) was out to destroy our way of life and the government should stay out of the way? Lots of Americans bought that nonsense, and over three decades, some 10 million smokers went to early graves.
There are upsetting parallels today, as scientists in one wave after another try to awaken us to the growing threat of global warming. The latest was a panel from the National Academy of Sciences, enlisted by the White House, to tell us that the Earth’s atmosphere is definitely warming and that the problem is largely man-made. The clear message is that we should get moving to protect ourselves. The president of the National Academy, Bruce Alberts, added this key point in the preface to the panel’s report: “Science never has all the answers. But science does provide us with the best available guide to the future, and it is critical that our nation and the world base important policies on the best judgments that science can provide concerning the future consequences of present actions.”
Just as on smoking, voices now come from many quarters insisting that the science about global warming is incomplete, that it’s OK to keep pouring fumes into the air until we know for sure. This is a dangerous game: by the time 100 percent of the evidence is in, it may be too late. With the risks obvious and growing, a prudent person would take out an insurance policy now.
Fortunately, the White House is starting to pay attention. But it’s obvious that a majority of the president’s advisers still don’t take global warming seriously. Instead of a plan of action, they continue to press for more research — a classic case of “paralysis by analysis”.
To serve as responsible stewards of the planet, we must press forward on deeper atmospheric and oceanic research. But research alone is inadequate. If the Administration won’t take the legislative initiative, Congress should help to begin fashioning conservation measures. A bill by Democratic Senator Robert Byrd of West Virginia, which would offer financial supports for private industry, is a promising start. Many see that the country is getting ready to build lots of new power plants to meet our energy needs. If we are ever going to protect the atmosphere, it is crucial that those new plants be environmentally sound.
1. What was an argument made by supporters of smoking?A.Anti-smoking people were usually talking nonsense. |
B.People had the freedom to choose their own way of life. |
C.The number of early deaths of smokers in the past decades was insignificant. |
D.There was no scientific evidence of the correlation between smoking and death. |
A.A protector. | B.A judge. | C.A critic. | D.A guide. |
A.Cautious. | B.Confident. | C.Responsible. | D.Experienced. |
A.Both of them have turned from bad to worse. |
B.The outcome of the latter worsens the former. |
C.A lesson from the latter is applicable to the former. |
D.They both suffered from the government’s neglect. |
1. 活动目的;
2. 活动内容。
注意:
1. 写作词数应为80左右;
2. 请按如下格式作答。
____________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________
9 . Back in 1973, out of concern that many of American native plants and animals were in danger of extinction, Congress passed the Endangered Species Act. The law allows the government to decide species as either “endangered” or “threatened”. Once plants and animals are on the list, they can’t be harmed or harvested, and their living places can’t be changed or damaged in a way that kills, injures or weakens their ability to breed (繁殖), feed or perform other functions necessary for existence.
While environmentalists have thought the law is of great importance in history, mining and the agribusiness (农业综合企业) interests don’t think so. They argue that when an endangered animal is found on public land, the use of the land is strictly controlled, which can prevent farming, and other business use of the land. So, the recent US government has sought to change the way that the law is applied to reduce what it considers overprotection for threatened species.
But a study published in the journal PLOS ONE in January revealed that researchers looked at 31 different populations of ocean animals, and that they found that 78 percent of the mammals (哺乳动物) and 75 percent of the turtles increased their population size after receiving protection under the Act. What was even more impressive was that the number of Hawaiian humpback whales increased from just 800 in 1979 to more than 10,000 in 2005.
“We should celebrate the Act’s track record of reducing the harm from water pollution, overfishing, beach habitat loss and killing. Humans often destroy ocean ecosystems(生态系统), but our study shows that with strong laws and careful administration, we can also help them make a comeback.” said Shaye Wolf, a researcher of the Center for Biological Diversity in Tucson, Arizona.
1. What can we know about the Endangered Species Act in Paragraph 1?A.It mainly focuses on protecting ocean species. |
B.It covers almost all the details of wildlife protection. |
C.It encourages people to raise wildlife in a careful way. |
D.It asks the whole world to work together to protect wildlife. |
A.The Act has limited the economic benefits of land. |
B.Some land has got polluted due to the Act. |
C.Some states refuse to follow the Act. |
D.The Act fails to save enough endangered species. |
A.Quite a lot of ocean animals’ population is still worrying. |
B.The government failed to put some rare species on the list. |
C.The Act turned out to be effective for ocean animal protection. |
D.Whales benefit most from the Act after receiving protection. |
A.More strict rules should be added to the Act. |
B.Overfishing is the main threat to ocean animals. |
C.The damage caused by human activities to the ecosystem is unavoidable. |
D.Proper laws play a powerful role in environmental protection. |
Climate protection strategy is fascinating the globe during the 19th Asian Games, not just athletic talent .
Avoiding fireworks during the opening ceremony promotes environmental awareness. Traditional fireworks displays are fun
The Games Village gave residents a “Low Carbon Account” as part of the green measures. Carbon points