Plant ‘thermometer’ Triggers Springtime Growth By Measuring Night-time Heat - IELTS Reading Answers & Explanations
From Cambridge IELTS 16 Academic Reading Test 3 · Part 3 · Questions 27–40
Reading Passage
Plant ‘thermometer’ triggers springtime growth by measuring night-time heat
A photoreceptor molecule in plant cells has been found to have a second job as a thermometer after dark – allowing plants to read seasonal temperature changes. Scientists say the discovery could help breed crops that are more resilient to the temperatures expected to result from climate change.
A.
An international team of scientists led by the University of Cambridge has discovered that the ‘thermometer’ molecule in plants enables them to develop according to seasonal temperature changes. Researchers have revealed that molecules called phytochromes — used by plants to detect light during the day actually change their function in darkness to become cellular temperature gauges that measure the heat of the night.
The new findings, published in the journal Science, show that phytochromes control genetic switches in response to temperature as well as light to dictate plant development.
B.
At night, these molecules change states, and the pace at which they change is ‘directly proportional to temperature’, say scientists, who compare phytochromes to mercury in a thermometer. The warmer it is, the faster the molecular change — stimulating plant growth.
C.
Farmers and gardeners have known for hundreds of years how responsive plants are to temperature: warm winters cause many trees and flowers to bud early, something humans have long used to predict weather and harvest times for the coming year. The latest research pinpoints for the first time a molecular mechanism in plants that reacts to temperature — often triggering the buds of spring we long to see at the end of winter.
D.
With weather and temperatures set to become ever more unpredictable due to climate change, researchers say the discovery that this light-sensing molecule also functions as the internal thermometer in plant cells could help us breed tougher crops. ‘It is estimated that agricultural yields will need to double by 2050, but climate change is a major threat to achieving this. Key crops such as wheat and rice are sensitive to high temperatures. Thermal stress reduces crop yields by around 10% for every one degree increase in temperature,’ says lead researcher Dr Philip Wigge from Cambridge’s Sainsbury Laboratory. ‘Discovering the molecules that allow plants to sense temperature has the potential to accelerate the breeding of crops resilient to thermal stress and climate change.’
E.
In their active state, phytochrome molecules bind themselves to DNA to restrict plant growth. During the day, sunlight activates the molecules, slowing down growth. If a plant finds itself in shade, phytochromes are quickly inactivated — enabling it to grow faster to find sunlight again. This is how plants compete to escape each other’s shade. ‘Light-driven changes to phytochrome activity occur very fast, in less than a second,’ says Wigge.
At night, however, it’s a different story. Instead of a rapid deactivation following sundown, the molecules gradually change from their active to inactive state. This is called ‘dark reversion’. ‘Just as mercury rises in a thermometer, the rate at which phytochromes revert to their inactive state during the night is a direct measure of temperature,’ says Wigge.
F.
‘The lower the temperature, the slower the rate at which phytochromes revert to inactivity, so the molecules spend more time in their active, growth-suppressing state. This is why plants are slower to grow in winter. Warm temperatures accelerate dark reversion, so that phytochromes rapidly reach an inactive state and detach themselves from the plant’s DNA — allowing genes to be expressed and plant growth to resume.’ Wigge believes phytochrome thermo-sensing evolved at a later stage, and co-opted the biological network already used for light-based growth during the downtime of night.
G.
Some plants mainly use day length as an indicator of the season. Other species, such as daffodils, have considerable temperature sensitivity, and can flower months in advance during a warm winter. In fact, the discovery of the dual role of phytochromes provides the science behind a well-known rhyme long used to predict the coming season: oak before ash we’ll have a splash, ash before oak we’re in for a soak.
Wigge explains: ‘Oak trees rely much more on temperature, likely using phytochromes as thermometers to dictate development, whereas ash trees rely on measuring day length to determine their seasonal timing. A warmer spring, and consequently a higher likeliness of a hot summer, will result in oak leafing before ash. A cold spring will see the opposite. As the British know only too well, a colder summer is likely to be a rain-soaked one.’
H.
The new findings are the culmination of twelve years of research involving scientists from Germany, Argentina and the US, as well as the Cambridge team. The work was done in a model system, using a mustard plant called Arabidopsis, but Wigge says the phytochrome genes necessary for temperature sensing are found in crop plants as well. ‘Recent advances in plant genetics now mean that scientists are able to rapidly identify the genes controlling these processes in crop plants, and even alter their activity using precise molecular “scalpels”,’ adds Wigge. ‘Cambridge is uniquely well-positioned to do this kind of research as we have outstanding collaborators nearby who work on more applied aspects of plant biology, and can help us transfer this new knowledge into the field.’
Questions
Questions 27–32 True / False / Not Given
Do the following statements agree with the information given in the Reading Passage?
In boxes on your answer sheet, write
TRUE if the statement agrees with the information
FALSE if the statement contradicts the information
NOT GIVEN if there is no information on this
Questions 33–37 Matching Information
The Reading Passage has eight sections, A-H.
Which section contains the following information?
Write the correct letter, A-H, in boxes on your answer sheet.
Questions 38–40 Sentence Completion
Complete the sentences below.
Choose NO MORE THAN TWO WORDS from the passage for each answer.
Write your answers in boxes on your answer sheet.
- Daffodils are likely to flower early in response to 38 weather.
- If ash trees come into leaf before oak trees, the weather in 39 will probably be wet.
- The research was carried out using a particular species of 40.
Answers & Explanations Summary
| # | Answer | Evidence | Explanation |
|---|---|---|---|
| Q27 | NOT GIVEN | An international team of scientists led by the University of Cambridge has discovered that the ‘thermometer’ molecule in plants enables them to develop according to seasonal temperature changes. | Excerpt/Passage Explanation: The passage talks about scientists from Cambridge discovering a molecule in plants that acts like a thermometer for the plants. Answer Explanation: The answer indicates that there is no information in the passage about other scientists' surprise regarding the discovery. Reason For Correctness: The correct answer 'NOT GIVEN' is accurate because the passage does not mention anything about how other scientists reacted to the discovery made by the Cambridge scientists. Therefore, there is no way to determine if the discovery caused surprise among other scientists based on the provided information. |
| Q28 | TRUE | It is estimated that agricultural yields will need to double by 2050, but climate change is a major threat to achieving this. | Excerpt/Passage Explanation: The passage mentions that agricultural yields, which represent the amount of crops produced, will need to double by 2050. However, it also states that climate change poses a significant threat to achieving this increase in production. Answer Explanation: The answer means that it is possible that the target for agricultural production by 2050 might not be met. Reason For Correctness: The correct answer is TRUE because the passage highlights the challenge of doubling agricultural yields by 2050 due to the threat posed by climate change. This indicates that there is a possibility of missing the target for agricultural production by 2050. |
| Q29 | TRUE | Key crops such as wheat and rice are sensitive to high temperatures. Thermal stress reduces crop yields by around 10% for every one degree increase in temperature | Excerpt/Passage Explanation: The passage says that important crops like wheat and rice are affected by high temperatures. Answer Explanation: The answer suggests that wheat and rice are negatively impacted by a rise in temperatures. Reason For Correctness: The correct answer is TRUE because the passage explicitly states that key crops, such as wheat and rice, are sensitive to high temperatures. It implies that these crops indeed suffer when temperatures increase. |
| Q30 | NOT GIVEN | researchers say the discovery that this light-sensing molecule also functions as the internal thermometer in plant cells could help us breed tougher crops. | Excerpt/Passage Explanation: The passage talks about how a discovery related to light-sensing and temperature regulation in plant cells could help in developing stronger crops. Answer Explanation: The answer indicates that it is not mentioned whether it is possible to develop crops that require less water. Reason For Correctness: The correct answer is 'NOT GIVEN' because the passage only discusses the relationship between light-sensing molecules and internal thermometers in plant cells to breed tougher crops, but it does not mention anything about developing crops that require less water. |
| Q31 | FALSE | During the day, sunlight activates the molecules, slowing down growth. If a plant finds itself in shade, phytochromes are quickly inactivated — enabling it to grow faster to find sunlight again. | Excerpt/Passage Explanation: The passage explains that when plants are in sunlight, the molecules are activated, which slows down their growth. On the other hand, when plants are in shade, certain molecules are inactivated, allowing them to grow faster to seek sunlight again. Answer Explanation: The answer suggests that plants do not grow faster in sunlight than in shade. Reason For Correctness: The correct answer is FALSE because the passage clearly states that plants actually grow faster in shade as certain molecules are inactivated, enabling them to grow faster to find sunlight. |
| Q32 | FALSE | At night, however, it’s a different story. Instead of a rapid deactivation following sundown, the molecules gradually change from their active to inactive state. | Excerpt/Passage Explanation: The passage talks about how phytochromes change during the night. Instead of quickly deactivating as they do at daytime, they gradually transition from being active to inactive. Answer Explanation: The answer is saying that phytochromes do not change their state at the same speed day and night. Reason For Correctness: The correct answer is FALSE because the passage clearly states that phytochromes change their state differently at night compared to during the day. They do not change at the same speed day and night, as they have a gradual transition at night instead of rapid deactivation. |
| Q33 | H | Cambridge is uniquely well-positioned to do this kind of research as we have outstanding collaborators nearby who work on more applied aspects of plant biology, and can help us transfer this new knowledge into the field. | Excerpt/Passage Explanation: The passage talks about how researchers at Cambridge have collaborators nearby who are experts in applying plant biology research. These experts can help in practical implementation or use of the new knowledge obtained. Answer Explanation: The answer suggests that specialists who can utilize the research findings are mentioned in section H of the passage. Reason For Correctness: The correct answer is H because the excerpt specifically mentions collaborators who work on applied aspects of plant biology and can assist in applying the new knowledge. Therefore, specialists who can make use of the research findings are likely to be discussed in section H of the passage. |
| Q34 | D | Discovering the molecules that allow plants to sense temperature has the potential to accelerate the breeding of crops resilient to thermal stress and climate change. | Excerpt/Passage Explanation: The passage talks about how finding the molecules that help plants sense temperature could make it easier to grow crops that can handle hot weather and climate change. Answer Explanation: The answer points to section D in the passage. Reason For Correctness: The correct answer, which is section D, is supported by the information in the passage where it mentions the potential benefit of the research findings in helping breed crops that are resilient to thermal stress and climate change. This aligns with the idea of a reference to a potential benefit of the research findings. |
| Q35 | G | In fact, the discovery of the dual role of phytochromes provides the science behind a well-known rhyme long used to predict the coming season: oak before ash we’ll have a splash, ash before oak we’re in for a soak. | Excerpt/Passage Explanation: The passage talks about how a scientific discovery supports a well-known saying that helps predict the weather based on the order in which certain trees produce leaves. Answer Explanation: The answer indicates that the section containing scientific support for a traditional saying is section G. Reason For Correctness: The correct answer is G because it directly mentions the scientific basis found for a traditional rhyme that has been used to forecast the weather based on the growth of oak and ash trees. |
| Q36 | C | warm winters cause many trees and flowers to bud early, something humans have long used to predict weather and harvest times for the coming year. | Excerpt/Passage Explanation: The passage talks about how warm winters cause trees and flowers to bud early. Humans have used this early bud behavior to predict the weather and harvest times for the upcoming year. Answer Explanation: The answer refers to the tradition of people making plans based on the behavior of plants. Reason For Correctness: The correct answer is C because it directly matches the information in the excerpt where it mentions humans using plant behavior to predict weather and harvest times. This aligns with the concept of people traditionally making plans based on plant behavior. |
| Q37 | A | The new findings, published in the journal Science, show that phytochromes control genetic switches in response to temperature as well as light to dictate plant development. | Excerpt/Passage Explanation: The passage talks about new research findings that have been published in a journal called Science. Answer Explanation: The answer points to section A as the reference to where the research findings have been reported. Reason For Correctness: The correct answer is A because the excerpt specifically mentions that the new findings were published in the journal Science, which indicates that section A contains a reference to where the research has been reported. |
| Q38 | warm / warm winter | Other species, such as daffodils, have considerable temperature sensitivity, and can flower months in advance during a warm winter. | Excerpt/Passage Explanation: The passage talks about how some plants, like daffodils, can start blooming much earlier than usual when the winter is warm. Answer Explanation: The answer indicates that daffodils are likely to bloom early in response to warm weather and that a wet weather can be predicted if ash trees leaf out before oak trees. Reason For Correctness: The correct answer matches the information provided in the passage where it mentions daffodils blooming early in response to a warm winter. This supports the idea that daffodils are likely to flower early in warm weather, highlighting the correlation between temperature and the timing of plant events. |
| Q39 | summer | A warmer spring, and consequently a higher likeliness of a hot summer, will result in oak leafing before ash. A cold spring will see the opposite. As the British know only too well, a colder summer is likely to be a rain-soaked one. | Excerpt/Passage Explanation: The passage explains that if the weather is warmer in spring, it will lead to a hot summer, causing oak trees to leaf before ash trees. A colder spring will result in the opposite happening. Answer Explanation: The answer 'summer' indicates the time when the weather prediction for a wet season is mentioned in the text. Reason For Correctness: The correct answer is 'summer' because the excerpt specifically talks about a connection between spring weather and the likelihood of a hot summer, suggesting that summer will be wet if ash trees come into leaf before oak trees. |
| Q40 | mustard plant / mustard plants / mustard | The new findings are the culmination of twelve years of research involving scientists from Germany, Argentina and the US, as well as the Cambridge team. The work was done in a model system, using a mustard plant called Arabidopsis | Excerpt/Passage Explanation: The passage talks about a study that took 12 years involving scientists from different countries. They used a specific plant called Arabidopsis for their research. Answer Explanation: The answer refers to the particular species of plant used in the research, which is a type of mustard plant. Reason For Correctness: The correct answer is 'mustard plant' because the excerpt mentions the use of a mustard plant named Arabidopsis in the research, aligning with the information provided. |