Trees In Trouble - IELTS Reading Answers & Explanations
From Official Cambridge Guide to IELTS Academic Reading Test 5 · Part 1 · Questions 1–13
Reading Passage
You should spend about 20 minutes on Questions 1–13, which are based on Reading Passage 1 on the following pages.
Trees in trouble
What is causing the decline of the world's giant forests?
A Big trees are incredibly important ecologically. For a start, they sustain countless other species. They provide shelter for many animals, and their trunks and branches can become gardens, hung with green ferns, orchids and bromeliads, coated with mosses and draped with vines. With their tall canopies* basking in the sun, they capture vast amounts of energy. This allows them to produce massive crops of fruit, flowers and foliage that sustain much of the animal life in the forest.
B Only a small number of tree species have the genetic capacity to grow really big. The mightiest are native to North America, but big trees grow all over the globe, from the tropics to the boreal forests of the high latitudes. To achieve giant stature, a tree needs three things: the right place to establish its seedling, good growing conditions and lots of time with low adult mortality*. Disrupt any of these, and you can lose your biggest trees.
C In some parts of the world, populations of big trees are dwindling because their seedlings cannot survive or grow. In southern India, for instance, an aggressive non-native shrub, Lantana camara, is invading the floor of many forests. Lantana grows so thickly that young trees often fail to take root. With no young trees to replace them, it is only a matter of time before most of the big trees disappear. Across much of northern Australia, gamba grass from Africa is overrunning native savannah woodlands. The grass grows up to four metres tall and burns fiercely, creating super-hot fires that cause catastrophic tree mortality.
D Without the right growing conditions trees cannot get really big, and there is some evidence to suggest tree growth could slow in a warmer world, particularly in environments that are already warm. Having worked for decades at La Selva Biological Station in Puerto Viejo de Sarapiqui, Costa Rica, David and Deborah Clark and colleagues have shown that tree growth there declines markedly in warmer years. “During the day, their photosynthesis* shuts down when it gets too warm, and at night they consume more energy because their metabolic rate increases, much as a reptile's would when it gets warmer,” explains David Clark. With less energy produced in warmer years and more being consumed just to survive, there is even less energy available for growth.
E The Clarks' hypothesis, if correct, means tropical forests would shrink over time. The largest, oldest trees would progressively die off and tend not to be replaced. According to the Clarks, this might trigger a destabilisation of the climate; as older trees die, forests would release some of their stored carbon into the atmosphere, prompting a vicious cycle of further warming, forest shrinkage and carbon emissions.
F Big trees face threats from elsewhere. The most serious is increasing mortality, especially of mature trees. Across much of the planet, forests of slow-growing ancient trees have been cleared for human use. In western North America, most have been replaced by monocultures of fast-growing conifers. Siberia's forests are being logged at an incredible rate. Logging in tropical forests is selective but the timber cutters usually prioritise the biggest and oldest trees. In the Amazon, my colleagues and I found the mortality rate for the biggest trees had tripled in small patches of rainforest surrounded by pasture land. This happens for two reasons. First, as they grow taller, big trees become thicker and less flexible: when winds blow across the surrounding cleared land, there is nothing to stop their acceleration. When they hit the trees, the impact can snap them in half. Second, rainforest fragments dry out when surrounded by dry, hot pastures and the resulting drought can have devastating consequences: one four-year study has shown that death rates will double for smaller trees but will increase 4.5 times for bigger trees.
G Particular enemies to large trees are insects and disease. Across vast areas of western North America, increasingly mild winters are causing massive outbreaks of bark beetle. These tiny creatures can kill entire forests as they tunnel their way through the inside of trees. In both North America and Europe, fungus-causing diseases such as Dutch elm disease have killed off millions of stately trees that once gave beauty to forests and cities. As a result of human activity, such enemies reach even the remotest corners of the world, threatening to make the ancient giants a thing of the past.
Questions
Questions 1–7 Matching Headings
Reading Passage 1 has seven paragraphs, A–G.
Choose the correct heading for each paragraph from the list of headings below.
Write the correct number, i–x.
i. How deforestation harms isolated trees
ii. How other plants can cause harm
iii. Which big trees support the most diverse species
iv. Impact of big tree loss on the wider environment
v. Measures to prevent further decline in big tree populations
vi. How wildlife benefits from big trees
vii. Risk from pests and infection
viii. Ways in which industry uses big tree products
ix. How higher temperatures slow the rate of tree growth
x. Factors that enable trees to grow to significant heights
Questions 8–13 Sentence Completion
Complete the sentences below.
Choose NO MORE THAN TWO WORDS from the passage for each answer.
- The biggest trees in the world can be found in 8.
- Some trees in northern Australia die because of 9 made worse by gamba grass.
- The Clarks believe that the release of 10 from dead trees could lead to the death of more trees.
- Strong 11 are capable of damaging tall trees in the Amazon.
- 12 has a worse impact on tall trees than smaller ones.
- In western Northern America, a species of 13 has destroyed many trees.
Answers & Explanations Summary
| # | Answer | Evidence | Explanation |
|---|---|---|---|
| Q1 | vi | They provide shelter for many animals, and their trunks and branches can become gardens, hung with green ferns, orchids and bromeliads, coated with mosses and draped with vines. With their tall canopies* basking in the sun, they capture vast amounts of energy. This allows them to produce massive crops of fruit, flowers and foliage that sustain much of the animal life in the forest | Excerpt/Passage Explanation: The passage explains that big trees give animals a safe place to stay and produce lots of food like fruit and leaves that keep the forest animals alive. Answer Explanation: The answer 'vi' indicates that the main topic of Paragraph A is how big trees help and provide for various animals and other plants in the forest. Reason For Correctness: The correct answer is 'vi' because Paragraph A focuses on the ecological benefits of big trees. It mentions how they 'sustain' (provide for) 'countless other species' and 'animal life' by offering 'shelter' (a place to live) and 'massive crops' of food. These details directly explain how wildlife benefits from these trees. |
| Q2 | x | To achieve giant stature, a tree needs three things: the right place to establish its seedling, good growing conditions and lots of time with low adult mortality | Excerpt/Passage Explanation: The passage states that for a tree to grow very big, it requires three specific conditions: a good place for its seed to start, the right weather and nutrients to grow, and a long life where the adult tree stays healthy and does not die. Answer Explanation: The answer 'x' refers to the heading 'Factors that enable trees to grow to significant heights'. This means Paragraph B focuses on what a tree needs in order to become very tall and large. Reason For Correctness: The correct answer 'x' is appropriate because Paragraph B lists specific requirements for tree growth. It mentions that only certain species have the 'genetic capacity' to grow big and lists three essential 'factors': a suitable location for seedlings, favorable environment, and a long life without dying early (low mortality). The words 'achieve giant stature' are a synonym for growing to 'significant heights', and the 'three things' mentioned are the 'factors'. |
| Q3 | ii | In southern India, for instance, an aggressive non-native shrub, Lantana camara, is invading the floor of many forests. Lantana grows so thickly that young trees often fail to take root. With no young trees to replace them, it is only a matter of time before most of the big trees disappear. Across much of northern Australia, gamba grass from Africa is overrunning native savannah woodlands | Excerpt/Passage Explanation: The passage explains how specific types of plants—a thick-growing bush and a type of grass—are taking over forest areas, which leads to the eventual disappearance of large trees by preventing new ones from starting or by changing the environment. Answer Explanation: The answer means that the number of big trees is decreasing because certain other kinds of plants are damaging them or making it impossible for new trees to grow. Reason For Correctness: The correct answer matches Paragraph C because the entire section focuses on how different plants negatively impact tree populations. It gives examples of an aggressive "shrub" in India that stops seedlings from taking root and "gamba grass" in Australia that creates dangerous fires. By using these examples, the paragraph illustrates the ways in which competing vegetation causes "harm" to the survival and growth of big trees. |
| Q4 | ix | Without the right growing conditions trees cannot get really big, and there is some evidence to suggest tree growth could slow in a warmer world, particularly in environments that are already warm | Excerpt/Passage Explanation: The passage states that trees cannot reach a large size without the right environment and that a hotter climate might make trees grow at a slower speed. Answer Explanation: The answer means that Paragraph D talks about how the weather getting hotter can make trees grow more slowly. Reason For Correctness: The correct answer is 'ix' because Paragraph D explains the relationship between heat and tree growth. It says that in warmer years, trees shut down their energy-making process (photosynthesis) during the day and burn more energy at night. Because they are using up so much energy just to survive the heat, there is not enough energy left for them to grow bigger. Key phrases include 'tree growth could slow' and 'warmer world'. |
| Q5 | iv | According to the Clarks, this might trigger a destabilisation of the climate; as older trees die, forests would release some of their stored carbon into the atmosphere, prompting a vicious cycle of further warming, forest shrinkage and carbon emissions | Excerpt/Passage Explanation: The passage explains that when big, old trees die, they release carbon into the air. This causes the climate to become unstable and the earth to get hotter, which is a bad cycle for the whole planet. Answer Explanation: The answer is heading iv, which means that the loss of big trees has a big effect on the environment and the world's weather. Reason For Correctness: The correct answer is chosen because Paragraph E explains how the death of old, large trees can change the climate. It notes that when these trees die, they release carbon gas into the air. This carbon makes the earth warmer, which then causes even more forest loss. This is a clear example of an 'impact' (a result) on the 'wider environment' (the global climate). |
| Q6 | i | First, as they grow taller, big trees become thicker and less flexible: when winds blow across the surrounding cleared land, there is nothing to stop their acceleration. When they hit the trees, the impact can snap them in half. Second, rainforest fragments dry out when surrounded by dry, hot pastures and the resulting drought can have devastating consequences: one four-year study has shown that death rates will double for smaller trees but will increase 4.5 times for bigger trees | Excerpt/Passage Explanation: The passage explains that when forests are cleared, big trees left in the remaining small pieces of land are in danger because the wind moves faster and can break them, and the ground becomes too dry for them to survive. Answer Explanation: The answer means that Paragraph F describes the ways in which cutting down large areas of forests (deforestation) causes damage or death to the big trees that are left behind in small, separated sections (isolated trees). Reason For Correctness: The correct answer is 'i' because Paragraph F details the specific physical threats big trees face when they are part of 'small patches' or 'fragments' left over after deforestation. The text explains that without the protection of a full forest, big trees in these isolated areas are easily broken by wind or killed by the dry conditions created by the surrounding cleared land. Keywords like 'cleared for human use,' 'small patches,' and 'fragments' directly relate to 'deforestation' and 'isolated trees.' |
| Q7 | vii | Particular enemies to large trees are insects and disease | Excerpt/Passage Explanation: The passage states that big trees have specific enemies, which are bugs and sicknesses. Answer Explanation: The answer identifies the main topic of Paragraph G as the dangers that bugs and illnesses pose to large trees. Reason For Correctness: The correct answer is vii because Paragraph G focuses on biological threats to trees. It specifically mentions insects (like the bark beetle) and diseases (like fungal infections), which are synonyms for the 'pests' and 'infection' listed in the heading. The paragraph explains how these factors lead to the death of many trees in North America and Europe. |
| Q8 | North America | The mightiest are native to North America, but big trees grow all over the globe, from the tropics to the boreal forests of the high latitudes | Excerpt/Passage Explanation: The passage states that the largest trees naturally come from North America, but big trees can also be found in many other parts of the world. Answer Explanation: The answer identifies the specific geographic region where the largest trees in the world naturally grow. Reason For Correctness: The correct answer is North America because the passage states in paragraph B that the 'mightiest' trees—a synonym for the biggest or most powerful—are 'native' to this region. This means that while large trees are found in many places globally, the very largest ones are originally from North America. |
| Q9 | super-hot fires / fires | Across much of northern Australia, gamba grass from Africa is overrunning native savannah woodlands. The grass grows up to four metres tall and burns fiercely, creating super-hot fires that cause catastrophic tree mortality | Excerpt/Passage Explanation: The passage explains that in northern Australia, a tall grass called gamba grass burns very easily and strongly. This makes very hot fires that kill many trees. Answer Explanation: The answer refers to extremely hot fires that occur more easily and are more dangerous because of a specific type of grass. Reason For Correctness: The correct answer is found in Paragraph C, which discusses environmental changes in northern Australia. The text explains that an invasive plant called gamba grass grows very tall and burns with high intensity. These 'super-hot fires' are directly blamed for the 'catastrophic tree mortality,' which means the death of a very large number of trees. The phrase 'made worse by' in the question matches the idea in the text that the grass 'creates' or intensifies these fires. |
| Q10 | stored carbon / carbon | According to the Clarks, this might trigger a destabilisation of the climate; as older trees die, forests would release some of their stored carbon into the atmosphere, prompting a vicious cycle of further warming, forest shrinkage and carbon emissions | Excerpt/Passage Explanation: The passage states that the Clarks believe dying old trees release carbon. This extra carbon makes the world warmer, which in turn causes more forests to get smaller or die out. Answer Explanation: The answer is the chemical element kept inside the bodies of trees that is let out into the air when they die. Reason For Correctness: The correct answer is "(stored) carbon" because paragraph E discusses the Clarks' theory regarding climate change. They explain that as large, old trees die, they release the carbon they have kept inside them (stored carbon) into the air. This release leads to more global warming, which causes more forests to disappear (forest shrinkage). This process is described as a "vicious cycle" where the death of some trees leads to the death of even more trees. |
| Q11 | winds | In the Amazon, my colleagues and I found the mortality rate for the biggest trees had tripled in small patches of rainforest surrounded by pasture land. This happens for two reasons. First, as they grow taller, big trees become thicker and less flexible: when winds blow across the surrounding cleared land, there is nothing to stop their acceleration. When they hit the trees, the impact can snap them in half | Excerpt/Passage Explanation: The passage explains that in the Amazon, very tall trees are dying more often because they are too thick to bend. When air (winds) moves across open fields, it goes faster and hits the trees with a heavy force (impact), which breaks them into two pieces. Answer Explanation: The answer means fast-moving air or gusts that can blow with a lot of power. Reason For Correctness: The correct answer is 'winds' because Paragraph F discusses a study of giant trees in the Amazon. It explains that as these trees grow very tall, they become stiff (less flexible). When 'winds' blow across nearby open land (cleared land), they speed up without anything to block them. These fast winds hit the trees so hard that they can 'snap them in half,' which is a way of damaging them. |
| Q12 | Drought | Second, rainforest fragments dry out when surrounded by dry, hot pastures and the resulting drought can have devastating consequences: one four-year study has shown that death rates will double for smaller trees but will increase 4.5 times for bigger trees | Excerpt/Passage Explanation: The passage explains that when parts of the rainforest become dry, it creates a drought. This drought is more harmful to large trees because their death rate goes up by 4.5 times, while the death rate for smaller trees only doubles. Answer Explanation: The answer "Drought" refers to a long period of time with very little or no rain, which makes the land very dry. Reason For Correctness: The correct answer is "Drought" because the passage compares how big (tall) trees and smaller trees react to dry conditions. It states that while smaller trees see their death rate double, bigger trees see their death rate increase by 4.5 times, meaning the impact on taller trees is much worse. Keywords include "smaller trees," "bigger trees," and "death rates," which show the comparison requested in the sentence. |
| Q13 | beetle | Across vast areas of western North America, increasingly mild winters are causing massive outbreaks of bark beetle. These tiny creatures can kill entire forests as they tunnel their way through the inside of trees | Excerpt/Passage Explanation: The passage says that in western North America, many forests are being killed because of a bug called the bark beetle. These bugs make tunnels inside the trees, which kills them. Answer Explanation: The answer is a type of insect (a bug) that lives inside trees. Reason For Correctness: The correct answer is beetle because Paragraph G discusses how insects and diseases are enemies of large trees. It specifically mentions that in western North America, outbreaks of the 'bark beetle' are responsible for killing entire forests. The beetles tunnel through the trees, causing them to die. |