Dinosaurs And The Secrets They Still Hold - IELTS Reading Answers & Explanations
From Cambridge IELTS 13 General Training Reading Test 2 · Part 3 · Questions 28–40
Reading Passage
DINOSAURS AND THE SECRETS THEY STILL HOLD
I was recently part of a team of palaeontologists that discovered a new dinosaur. Living in what is now China, the species would have resembled a strange bird. It was about the size of a sheep and covered in feathers, with a sharp beak that it probably used to crack open shellfish. It was given the formal scientific name Tongtianlong, but we called it ‘Mud Dragon’ because its skeleton was discovered in rock that had hardened from ancient mud. It seems that the creature got trapped in the mud and died. Then its fossil remains were found a few months ago when workmen were excavating a site in order to build a school.
It is every dinosaur-obsessed child’s dearest wish to discover and name a completely new species. In fact what my colleagues and I did wasn’t that unusual. New dinosaurs are appearing everywhere these days – about 50 each year. And this pace shows no signs of slowing, as different areas continue to open up to fossil hunters and a fresh generation of scientists comes of age. Because of this plentiful supply of new fossils, we now know more about dinosaurs than we do about many modern animals. But there are still many unsolved mysteries.
Dinosaurs didn’t start out as huge monsters like Tyrannosaurus Rex. Instead they evolved from a group of angular, cat-sized reptiles called dinosauromorphs. These creatures remained small and rare for millions of years until they developed into dinosaurs. The boundary between dinosauromorphs and dinosaurs is becoming less and less distinct with each new discovery that’s made, but what’s becoming clear is that it took millions of years for these first dinosaurs to spread around the world, grow to huge sizes and become truly dominant.
Some discoveries in the 1970s, like the agile and strangely bird-like Deinonychus, proved that dinosaurs were far more dynamic and intelligent than previously thought. Some palaeontologists even proposed that they were warm-blooded creatures like modern birds with a constant high body temperature that they controlled internally, rather than from warming themselves by lying in the sun. A few decades later opinions are still mixed. The problem is that dinosaurs can’t be observed. Palaeontologists must rely on studying fossils. Some results are convincing: we know from studying their bones that dinosaurs had rapid growth rates, just like modern, warm-blooded animals. Other palaeontologists, however, use the same fossils to suggest that dinosaurs were somewhere between cold-blooded reptiles and warm-blooded birds. More studies are needed to provide more clarity.
The discovery of Deinonychus with its long arms, skinny legs, arched neck and big claws on its feet, helped to strengthen the theory that birds evolved from dinosaurs. In the late 1990s, the discovery of thousands of feather- covered dinosaurs closed the argument. But the fossils raised another question: why did feathers first develop in dinosaurs? They probably originated as simple, hair-like strands — a necessary means of keeping warm. Many dinosaurs retained this basic fluffy coat, but in one group the strands modified. They grew bigger, started to branch out and changed into feathers like those on modern birds. They lined the arms, and sometimes the legs, forming wings. These feathers were probably for display: to attract mates or scare off rivals. They appeared in species such as the ostrich-like Ornithomimosaur. Such creatures were too large to fly. Flight may actually have come about by accident when smaller winged dinosaurs began jumping between trees or leaping in the air, and suddenly found that their wings had aerodynamic properties. This is one of the most stimulating new notions about dinosaurs and a fascinating area for further investigation.
There’s something else that these feathers can tell us. They allow us to determine what colour dinosaurs were. If you look at modern bird feathers under a microscope, you can see tiny blobs called melanosomes. These structures contain melanin, one of the main colour-producing pigments in animals. Some are round, others are egg-shaped, etc. And that’s important, because different shapes contain different colour pigments. So if you can identify the shape, you can identify the colour. A few years ago, some palaeontologists realised that you could find melanosomes in particularly well-preserved fossil feathers. They discovered that different dinosaurs had different melanosomes, which meant they had a variety of colours. Dinosaurs, therefore, probably came in a rainbow of colours – yet another thing that links them to modern birds.
The most enduring mystery of all, which has been argued about ever since the first dinosaur fossils were found, is ‘Why aren’t dinosaurs around today?’ Of course, we now know that birds evolved from dinosaurs, so some dinosaurs do continue in a sense. But there’s nothing like a Tyrannosaurus Rex today. They dominated the planet for over 150 million years, but suddenly disappeared from the fossil record 66 million years ago. That’s when a 10 km-wide asteroid came out of space and struck what is now Mexico, impacting with huge force and unleashing earthquakes, tidal waves, wildfires and hurricane-force winds. Although palaeontologists still like to argue about what part the asteroid played in the dinosaurs’ extinction, there really isn’t much of a mystery left. The asteroid did it and did it quickly. There are few signs that dinosaurs were struggling before the impact. None survived except a few birds and some small furry mammals. They found themselves in an empty world, and as the planet started to recover, they evolved into new creatures, including the first apes, and so the long journey began to the beginning of humankind.
Questions
Questions 28–32 Summary Completion
Complete the summary below.
Choose ONE WORD ONLY from the text for each answer.
Write your answers in boxes on your answer sheet.
The discovery of Tongtianlong
This species of dinosaur has only recently been found in an area of China. Scientists believe that it was bird-like in appearance and probably no bigger than a 28 .It is thought to have eaten 29 and it used its 30 to get through their hard exterior. The fossil of Tongtianlong was found surrounded by 31 under the ground where the foundations of a new 32 were being dug.
Questions 33–37 Multiple Choice (One Answer)
Choose the correct letter, A, B, C or D.
Write the correct letter in boxes on your answer sheet
Questions 38–40 Matching Features
Look at the following statements and the list of prehistoric animals below.
Match each statement with the correct animal, A, B, C or D.
Write the correct letter, A, B, C or D, in boxes on your answer sheet.
NB You may use any letter more than once.
List of Prehistoric Animals
A Tongtianlong
B Tyrannosaurus Rex
C Deinonychus
D Ornithomimosaur
Answers & Explanations Summary
| # | Answer | Evidence | Explanation |
|---|---|---|---|
| Q28 | Sheep | It was about the size of a sheep and covered in feathers | Excerpt/Passage Explanation: The passage is telling us that the dinosaur was similar in size to a sheep and had feathers on its body. Answer Explanation: The answer is 'sheep'. This means that the dinosaur Tongtianlong was about the same size as a sheep. Reason For Correctness: The correct answer is 'sheep' because the passage says that Tongtianlong was 'about the size of a sheep'. This comparison helps us understand how big this dinosaur was. |
| Q29 | Shellfish | with a sharp beak that it probably used to crack open shellfish | Excerpt/Passage Explanation: The passage tells us that the dinosaur had a sharp beak, and it suggests that this beak was used to open shellfish, meaning those were probably food for the dinosaur. Answer Explanation: The answer is 'shellfish'. This means that Tongtianlong probably ate shellfish, which are animals with hard shells, like clams or oysters. Reason For Correctness: The correct answer is 'shellfish' because the passage says that the dinosaur Tongtianlong had a sharp beak, which it probably used to crack open shellfish. It shows that shellfish were likely part of its diet. |
| Q30 | Beak | with a sharp beak that it probably used to crack open shellfish | Excerpt/Passage Explanation: The passage says that Tongtianlong had a sharp beak, which means it could use it to break open the shells of the food it ate, like shellfish. Answer Explanation: The answer is 'beak'. A beak is the hard, pointed part of a bird's mouth that it uses to eat. Reason For Correctness: The correct answer is 'beak' because the passage describes Tongtianlong as having a 'sharp beak that it probably used to crack open shellfish.' This shows that it used its beak to get through the hard shells of its food. |
| Q31 | Rock | its skeleton was discovered in rock that had hardened from ancient mud | Excerpt/Passage Explanation: The passage says that the skeleton of Tongtianlong was found in rock that was made from mud that got very hard over time. This means the fossil was in something solid. Answer Explanation: The answer is 'rock'. This means that the fossil of Tongtianlong was found in hard material that comes from the earth. Reason For Correctness: The correct answer is 'rock' because the passage states that the skeleton of Tongtianlong was discovered in 'rock that had hardened from ancient mud'. This shows that the fossil was surrounded by rock. |
| Q32 | School | Then its fossil remains were found a few months ago when workmen were excavating a site in order to build a school | Excerpt/Passage Explanation: The passage says that the fossil of Tongtianlong was found when workers were digging to prepare for building a school. This tells us where the discovery took place. Answer Explanation: The answer is 'School'. This means that the place where the fossil was found was being prepared to build a school. Reason For Correctness: The correct answer is 'School' because the passage mentions that the fossil remains of Tongtianlong were found when workmen were excavating a site in order to build a school. This shows that 'school' is the word that fits in the summary about where the discovery was made. |
| Q33 | D | In fact what my colleagues and I did wasn't that unusual. New dinosaurs are appearing everywhere these days – about 50 each year | Excerpt/Passage Explanation: The passage says that finding new dinosaurs is not rare anymore. It happens a lot, with many new types being discovered each year. Answer Explanation: The answer means that it is now quite normal for scientists to find new dinosaurs when they dig in certain places. Reason For Correctness: The correct answer is D because the writer explains that new dinosaurs are being discovered often, with about 50 new species found each year. This shows that finding new dinosaurs is becoming common. |
| Q34 | B | The problem is that dinosaurs can't be observed. Palaeontologists must rely on studying fossils. Some results are convincing: we know from studying their bones that dinosaurs had rapid growth rates, just like modern, warm-blooded animals. Other palaeontologists, however, use the same fossils to suggest that dinosaurs were somewhere between cold-blooded reptiles and warm-blooded birds | Excerpt/Passage Explanation: The passage says that we can't see dinosaurs anymore, so palaeontologists study fossils to learn about them. Some evidence is clear, like how dinosaurs grew quickly, but other palaeontologists see the same fossils and suggest different ideas about whether dinosaurs were warm or cold-blooded. Answer Explanation: The answer means that palaeontologists have different ideas about dinosaurs, and these ideas come from the same evidence but can be understood in various ways. Reason For Correctness: The correct answer explains that palaeontologists use fossils to form their theories, but they can look at the same fossils and come up with different conclusions. This shows that evidence can be interpreted differently. |
| Q35 | C | Flight may actually have come about by accident when smaller winged dinosaurs began jumping between trees or leaping in the air, and suddenly found that their wings had aerodynamic properties. This is one of the most stimulating new notions about dinosaurs and a fascinating area for further investigation | Excerpt/Passage Explanation: The passage says that flying might have happened by chance when smaller dinosaurs jumped and found they could use their wings. The writer thinks this is an exciting idea and wants to learn more about it. Answer Explanation: The answer means that the writer feels happy and interested about the different ideas we can learn in the future about how dinosaurs could fly. Reason For Correctness: The correct answer is 'excited by the different possibilities it holds for future research' because the writer talks about the idea that dinosaurs might have started to fly by accident while jumping. This shows that the writer sees this idea as exciting for studying more about dinosaurs. |
| Q36 | A | A few years ago, some palaeontologists realised that you could find melanosomes in particularly well-preserved fossil feathers. They discovered that different dinosaurs had different melanosomes, which meant they had a variety of colours. Dinosaurs, therefore, probably came in a rainbow of colours – yet another thing that links them to modern birds | Excerpt/Passage Explanation: The passage says that scientists found melanosomes in very well-kept fossil feathers. This showed that different dinosaurs had different melanosomes and colors, linking them to modern birds. Answer Explanation: The answer means that melanosomes give more proof that birds came from dinosaurs. Reason For Correctness: The correct answer is A because melanosomes help scientists understand the colors of dinosaurs and show a connection between dinosaurs and modern birds. The passage explains that studying melanosomes in fossil feathers helps to determine the colors of dinosaurs, which ties them to birds. |
| Q37 | D | The asteroid did it and did it quickly | Excerpt/Passage Explanation: The passage means that the asteroid struck fast and caused a lot of dinosaurs to die. Answer Explanation: The answer says that the asteroid hit caused the death of most dinosaurs. Reason For Correctness: The correct answer is D because in the final paragraph, the writer explains how a big asteroid struck the Earth and that this event quickly led to the extinction of the dinosaurs. The passage mentions that the asteroid caused many disasters and that not many dinosaurs survived except for some birds and small furry mammals. |
| Q38 | D | These feathers were probably for display: to attract mates or scare off rivals. They appeared in species such as the ostrich-like Ornithomimosaur | Excerpt/Passage Explanation: The passage tells us that the feathers were likely used to show off or scare other dinosaurs. It gives an example of this with the Ornithomimosaur, which was a large dinosaur that had feathers. Answer Explanation: The answer is D, which means Ornithomimosaur. This animal may have used its feathers to scare others of the same kind. Reason For Correctness: The correct answer is D because the passage mentions that the feathers of some dinosaurs were probably used for display: to attract mates or scare off rivals. The Ornithomimosaur had feathers and was too large to fly, which suggests it could have used its feathers to frighten others. |
| Q39 | D | These feathers were probably for display: to attract mates or scare off rivals. They appeared in species such as the ostrich-like Ornithomimosaur | Excerpt/Passage Explanation: The passage says that Ornithomimosaur looked like an ostrich, which is a large bird that cannot fly. This tells us that Ornithomimosaur resembled large birds that exist today. Answer Explanation: The answer is D, which means Ornithomimosaur. This is a type of dinosaur that looked like a large bird but could not fly. Reason For Correctness: The correct answer is D because the passage specifically describes the Ornithomimosaur as "ostrich-like," meaning it looked like a big bird. It did not have the ability to fly, just like some large birds today. This connection makes Ornithomimosaur the right choice. |
| Q40 | C | Some discoveries in the 1970s, like the agile and strangely bird-like Deinonychus, proved that dinosaurs were far more dynamic and intelligent than previously thought | Excerpt/Passage Explanation: The passage says that finding Deinonychus helped scientists realize that dinosaurs were not just big scary animals but could move quickly and were smart. This means that Deinonychus changed how people think about dinosaur intelligence. Answer Explanation: The answer is C, which means the animal is Deinonychus. Reason For Correctness: The correct answer is C because the discovery of Deinonychus showed that dinosaurs were more active and smarter than what scientists thought before. This dinosaur's features helped scientists understand that some dinosaurs might have been intelligent. |