1 . Keeping plants at home is a healthy and comfortable way of life. The following houseplants can create a most beautiful piece of green for your home.
Bird’s Nest Fern (蕨)The bird’s nest fern is a good choice for anyone with a house that wouldn’t support sun-loving species. It’s a hardy fern variety adapting to living on forest floors, where the air tends to be cool and damp. It likes to be misted as well, but this doesn’t always mean you need a misting bottle—spraying (喷洒) it in the sink or hanging it near a shower often works as well.
Chinese Money PlantThis is a flowering species that might be most appropriate for experienced plant gardeners looking for a new challenge. It prefers a moderate amount of indirect light, and tends to dry out slightly between watering sessions. It produces new plants easily without any input, directly from its root system. These can coexist in the same pot for a time.
Resurrection PlantThis native of the Mexican desert has adapted to surviving in extreme drought by curling (蜷缩) into a ball and remaining in seemingly lifeless state for years, if necessary. In this form, it can be transported by the wind across the dry landscape to areas with water. It will revive within hours in a shallow bowl of water, unfolding and transforming into a fresh and green moss (苔藓).
Snake PlantThis is a striking houseplant that can be an especially good option for new plant owners who you might not trust to keep a plant alive. It grows happily in almost any condition. While it prefers bright light, it doesn’t mind shade or even artificial light. Plus, thanks to its thick, fleshy leaves, it stores water with remarkable efficiency, which makes it survive without water in the earth.
1. What is special about the bird’s nest fern?A.It prefers shade. | B.It is sun-loving. |
C.It tends to grow in the sink. | D.It can return to life after death. |
A.Bird’s nest fern. | B.Chinese money plant. |
C.Resurrection plant. | D.Snake plant. |
A.They demand attentive owners. | B.They are very drought-tolerant. |
C.They will curl for self-protection. | D.They can store water for drought. |
1. What does Jacob ask Amy to do?
A.Enjoy the flowers. | B.Provide help. | C.Grow flowers. |
A.Every day. | B.Every two days. | C.Every three days. |
A.They lack water. | B.They lack sunshine. | C.Their leaves turn yellow. |
A.Water flowers in time. | B.Learn about growing flowers. | C.Grow flowers with Amy. |
3 . There are a number of animals that give off light in some way-including several kinds of insects and fish. Some kinds of mushrooms give off light, too. But most plants don’t give out light. Now, scientists are working to change that.
When a living thing gives off light, it’s called bioluminescence(生物发光). Fireflies are a well-known example of bioluminescence. Though less well-known, many mushrooms are also bioluminescent. These bioluminescent creatures light up thanks to the chemicals called luciferins(荧光素)inside their bodies. Luciferins cause a chemical reaction that can give off light.
Plants don’t naturally have luciferins, so there are no naturally bioluminescent plants. But that hasn’t stopped scientists from trying to create them. In the past, scientists have created plants that made less bright by adding DNA from shining objects. Scientists have also created plants that can give off light by adding luciferins to plants. But it only works as long as the chemicals last. In 2017, a team was able to cause a plant to give off light for about four hours.
Now, researchers at a Russian company have come up with a new method of creating shining plants. By adding certain parts of the DNA from shining mushrooms to ordinary tobacco plants, the researchers were able to create plants that could make their own luciferins. The scientists reported that the light was about 10 times brighter than in earlier shining plants.
The researchers believe that shining plants could help scientists learn more about the way plants work. For example, the moving patterns or waves of light in the plants may show activities in plants that normally can’t be seen. The shining also helps reveal how plants may be affected by things around them. For example, the plants gave off much more light strongly when a ripe banana skin was nearby. But the researchers don’t think the plants will just be used for science. They think many people may want shining plants for their beauty. So they are working with a company to develop shining plants for sale.
1. What phenomenon does the author describe in paragraph 1?A.Most animals hate giving off light. |
B.Many plants give off light through scientists’ efforts. |
C.Animals give off light to protect themselves. |
D.It’s hard to find plants that give out light. |
A.It gives off lots of heat to warm itself. |
B.It has chemical reactions inside its body. |
C.It lacks energy due to chemical reactions. |
D.It informs other fireflies of the danger. |
A.By showing numbers. | B.By making a comparison. |
C.By providing examples. | D.By making a summary. |
A.Human development results in less shining plants |
B.Scientists manage to create shining plants |
C.People’s lifestyles are reflected in shining plants |
D.Geography determines the types of shining plants |
China produces and uses so much bamboo that the country is sometimes referred to
Bamboo is one of
In traditional Chinese culture, bamboo, plum blossoms, orchids (兰), and chrysanthemums (菊) form a group
Along with the pine and plum blossom, bamboo also sometimes
5 . Between 20 and 40 per cent of planet Earth is covered in grasslands, across every continent except for Antarctica. Grass is a low-growing, flowering plant with groups of narrow leaves growing from its base. Strong roots typically hold this plant’s leaves firmly to the ground.
One of the most common sights along stretches of grass is grass-eating animals. This is because many large animals rely on extensive grasslands to survive, and grass grows well with this regular trimming (修剪). The plants gain their energy from sunlight and require healthy cells to do so. If the leaves aren’t cut, the tips die and start to rot. When they are damaged with a clean cut, however, the cells are caused to grow quicker and produce new, healthy tissue. This is also why cutting your garden’s grassland regularly can make your grass look thicker and healthier.
Humans rely on grass for food, too. Many grasses, such as w heat or corn, are harvested as a main part of some diets. Meanwhile, grass is used indirectly to produce food in the form of livestock (牲畜). Cattle farmers require grass in their fields to feed cows and sheep before they are turned into meat for human consumption.
One of the most debated questions is how long ago grass evolved. Because grass doesn’t preserve well as a fossil, a definitive answer is hard to come by. Until recently, many scientists estimated that grass began to grow on Earth between 50 and 65 million years ago.
However, within the last decade, a piece of 100-million-year-old amber (琥珀) was found that appeared to contain the oldest grass fossil to date. Studies of fossilized dinosaur faces (粪便) also suggest that some dinosaurs lived at the same time that grass grew on the planet, incorporating it into their diets.
1. What is the function of the roots mentioned in Paragraph 1?A.To fix the leaves to the soil. | B.To store water and nutrients. |
C.To support the growth of the plant. | D.To protect the plant from animals. |
A.By improving soil quality. | B.By encouraging cell growth. |
C.By preventing the tips from dying. | D.By attracting more animals to eat them. |
A.Grass doesn’t preserve well as a fossil. | B.There are no fossils of grass available. |
C.There is no solid evidence of its evolution. | D.Scientists can’t agree on its origin. |
A.The Variety of Grass | B.The Development of Grass |
C.How Grass Change Life | D.How to Make Grass Grow Well |
6 . Scientists have been experimenting with playing sounds to plants since at least the 1960s, during which time they have been exposed to everything from Beethoven to Michael Jackson. Over the years, evidence that this sort of thing can have an effect has been growing. One paper, published in 2018, claimed that an Asian shrub known as the telegraph plant grew substantially larger leaves when exposed to 56 days of Buddhist music — but not if it was exposed to Western pop music or silence. Another, published last year, found that marigolds and sage plants exposed to the noise of traffic from a busy motorway suffered growth difficulty.
Plants have been evolving (进化) alongside the insects that eat them for hundreds of millions of years. With that in mind, Heidi Appel, a botanist now at the University of Houston, and Reginald Cocroft, a biologist at the University of Missouri, wondered if plants might be sensitive to the sounds made by the animals with which they most often interact. They recorded the vibrations made by certain species of caterpillars (毛毛虫) as they chewed on leaves. These vibrations are not powerful enough to produce sound waves in the air. But they are able to travel across leaves and branches, and even to neighbouring plants if their leaves touch.
They then exposed tobacco plant — the plant biologist’s version of the laboratory mouse — to the recorded vibrations while no caterpillars were actually present. Later, they put real caterpillars on the plants to see if exposure had led them to prepare for an insect attack. The results were striking. Leaves that had been exposed had significantly higher levels of defensive chemicals, making them much harder for the caterpillars to eat. Leaves that had not been exposed to vibrations showed no such response. Other sorts of vibration — caused by the wind, for instance, or other insects that do not eat leaves — had no effect.
“Now speakers with the right audio files are more often being used to warn crops to act when insects are detected but not yet widespread,” says Dr. Cocroft. “Unlike chemical pesticides, sound waves leave no dangerous chemicals.”
1. What can we learn about plants from the first paragraph?A.They may enjoy Western music. | B.They can’t stand Buddhist music. |
C.They can react to different sounds. | D.They can make different sounds. |
A.Plants can make a cry for help. | B.Plants evolve alongside insects. |
C.Plants are sensitive to the sounds. | D.Plants have been studied for years. |
A.They can recongnize harmful vibrations. | B.They look like laboratory mice. |
C.They can threaten the caterpillars. | D.They can release poisonous chemicals. |
A.Disadvantages of chemical pesticides. | B.Application of the experimental results. |
C.Interaction between plants and insects. | D.Warning system of widespread insects. |
Stretching along the west coast of North America from northern California to Alaska, the forests found along the Pacific Coast Range are the largest area of temperate (温带的) rainforest in the world. The forests are home to the coast redwood, the world’s tallest tree. Across the region, the forest understory (林下叶层) is wet and heavily vegetated.
Taiheiyo Evergreen Forests
Found in southern Japan, they are temperate rainforests of evergreen broadleaf trees. The forests can receive more than 100 inches of rain every year. The forests are covered by Japanese cedar and Japanese stone oak, while moso bamboo comprise the understory. The extent of the Taiheiyo forests has been reduced due to development and agriculture. Today,17%of the remaining forest is protected by national parks and other reserves.
Atlantic Oakwood Forest
The Atlantic Oakwood Forest covers the wettest parts of the United Kingdom. A species of oak tree (橡树) called sessile oak occupies the landscape. Unlike other temperate forests, these forests tend to have an open understory of grasses. Much of the historical range of the forest has given to agriculture and other development, though that has changed in recent decades.
Valdivian Temperate Rainforest
This forest is found on the west coast of Chile and Argentina, on the wet, western slopes (斜坡) of the Andes mountain range. With the coastline to the west, the peaks of the Andes to the east, and the Atacama Desert to the north, the region supports a number of plant and animal species found nowhere else in the world. Uniquely, the forest is covered by evergreen flowering trees, which are native to Chile and little known outside the region.
1. Which of the four forest areas occupies the most land?A.Pacific Coast Range. | B.Taiheiyo Evergreen Forests. |
C.Atlantic Oakwood Forest. | D.Valdivian Temperate Rainforest. |
A.They have open understory grasses. | B.They’re home to extremely tall trees. |
C.They’re of great historical significance. | D.They used to be affected by agriculture. |
A.Wet climate. | B.Coastal location. |
C.Evergreen flowering trees. | D.Well-protected national parks. |
8 . Growing plants at home is a fun and enjoyable activity to do and can be developed as a new hobby.
Gardening reduces stress. Gardening is one of the most effective, and fun ways to free yourself from the physical, mental, and emotional stress you have been carrying since the beginning of the week. If you are overworking yourself during the weekdays or seeing yourself drowning in stressful thoughts, try to spend your weekends gardening at home.
Gardening is good for your heart. Gardening requires our body to move around by doing simple tasks such as digging the ground, planting seeds, pulling out weeds, and carrying a water container’s load.
By spending our free time gardening and monitoring our plants’ growth, we are also taking care of ourselves as we gain lots of health and emotional benefits. It is a worthwhile activity because we get to see the results of our hard work when our plants start growing fonder and healthier. The way we take care of our plants reflects the way we take care of ourselves.
A.Gardening is an act of self-love. |
B.Gardening is good for your bones. |
C.Gardening helps your body against diseases. |
D.You will see a significant change in your mind. |
E.These simple gardening tasks can be considered a low-level exercise. |
F.It also has several positive health and emotional benefits that you can enjoy. |
G.Returning home to a place full of beautiful plants helps us enjoy the freshness of the air. |
9 . Recent research confirms what our farming ancestors have known for centuries about hedges (树篱). They conserve precious soil by acting as windbreaks and absorbing rainwater that would otherwise wash it from the fields. And hedges store carbon, putting them in the front line of our bi d to tackle the climate crisis.
However, hedges have had a tough time in the poor countryside, with farmers encouraged to tear them down in pursuit of maximum production and larger field s to accommodate ever-larger machinery. What’s more, some hedges have been ignored. If left to their own devices, they’ll eventually become a line of trees. Some hedges each year lose their structures and fail to fulfil the primary duty as a barrier. Around a half of the nation’s hedges have disappeared in the past century.
There are signs that “the tide is turning”. The search for net zero has aroused many organizations’ interest in the humble hedge’s role as a carbon sink. The Climate Change Committee is recommending a 40 percent increase in hedges: an additional 200,000 km. Such recommendations are starting to drive policy. Cash-pressed farmers will be encouraged to create new hedges and improve their management of existing ones under the new Environmental Land Management Schemes, which will replace many of the existing agricultural support payments in coming years. Meanwhile, initiatives such as Close the Gap, led by the Tree Council, is providing funding and support to plug the gaps in existing hedges with new planting. There’s even an app to help time-pressed farmers do a quick survey to spot where their hedges need some help.
This is a good time for hedges. Take some of the most pressing challenges facing the countryside, and indeed, the world as a whole — the climate crisis, soil erosion (侵蚀), insect attack and wider biodiversity loss — and hedges are part of the solution.
1. What does recent research show about hedges?A.They are unique landscapes in the rain. |
B.They act as dividing lines between fields. |
C.They have long been helpful to agriculture. |
D.They are frequently washed away from the fields. |
A.Their suffering. | B.Their production. |
C.Their duties. | D.Their structures. |
A.Puzzled. | B.Concerned. | C.Humble. | D.Indifferent. |
A.Hedges: Ancient Resources |
B.Hedges: Official Recommendations |
C.Restoring Hedges: Bringing Benefits to the Environment |
D.Researching Hedges: Originating from Farmers’ Request |
10 . According to a new research, flowers are listening. Researchers found that plants can actually hear the sound of passing bees and produce sweeter nectar (花蜜) to attract them.The team discovered that within minutes of sensing the sound waves of bee wings, the concentration of the sugar in the plant’s nectar was increased by 20 percent.
Also, flowers can remove the wind noise coming from the background. These capabilities can give plant advantages for their spreading pollen (花粉). The researchers showed that plants can rapidly respond to pollinator (传粉者) sounds.
Before the experiments, researchers made the assumption that plants can pick up the sound waves and that this might be part of the reason why many plants’ flowers are bowl-shaped, to better trap the sounds. However, after performing various experiments on 650evening primrose flowers, the nectar production was measured both in silence and at three different frequency levels. Also, a recording of the noise made by bees was played. In just three minutes, the nectar changes have been noticed and it has been release d that silence and the high and mid-frequency sounds had no effect. The team has also performed an experiment with plants that had some flower petals removed and no change in nectar production was noted. Hence, it is proved that the flowers petals have the job of the ears.
The more sweet nectar comes out, the more will be the chances for pollen to be spread and also makes it more likely that the insects will return to flowers of the same species in the future. However, more work needs to be carried out on how the sounds are turned into a trigger for sweeter nectar production.
1. Why do plants produce sweeter nectar?.A.To attract bees. | B.To be more beautiful. |
C.To avoid enemies. | D.To drive insects away. |
A.Why researchers did the experiments. | B.How researchers made the discovery. |
C.What use can be made of the discovery. | D.What the importance of the discovery is. |
A.High sound increases sugar in the nectar. |
B.Many plants’ flowers are bowl-shaped to catch light. |
C.Flowers petals have no effect on nectar production. |
D.More research is needed to fully understand the process. |
A.A diary. | B.A novel. | C.A newspaper. | D.A notebook. |