The Flavor Of Pleasure - IELTS Reading Answers & Explanations
From Official Cambridge Guide to IELTS Academic Reading Test 2 · Part 1 · Questions 1–13
Reading Passage
You should spend about 20 minutes on Questions 1–13, which are based on Reading Passage 1 below.
The Flavor of Pleasure
When it comes to celebrating the flavor of food, our mouth gets all the credit. But in truth, it is the nose that knows.
No matter how much we talk about tasting our favorite flavors, relishing them really depends on a combined input from our senses that we experience through mouth, tongue and nose. The taste, texture, and feel of food are what we tend to focus on, but most important are the slight puffs of air as we chew our food what scientists call 'retronasal smell'.
Certainly, our mouths and tongues have taste buds, which are receptors for the five basic flavors: sweet, salty, sour, bitter, and umami, or what is more commonly referred to as savory. But our tongues are inaccurate instruments as far as flavor is concerned. They evolved to recognise only a few basic tastes in order to quickly identify toxins, which in nature are often quite bitter or acidly sour.
All the complexity, nuance, and pleasure of flavor come from the sense of smell operating in the back of the nose. It is there that a kind of alchemy occurs when we breathe up and out the passing whiffs of our chewed food. Unlike a hound's skull with its extra long nose, which evolved specifically to detect external smells, our noses have evolved to detect internal scents. Primates specialise in savoring the many millions of flavor combinations that they can create for their mouths.
Taste without retronasal smell is not much help in recognising flavor. Smell has been the most poorly understood of our senses, and only recently has neuroscience, led by Yale University's Gordon Shepherd, begun to shed light on its workings. Shepherd has come up with the term 'neurogastronomy' to link the disciplines of food science, neurology, psychology, and anthropology with the savory elements of eating, one of the most enjoyed of human experiences.
In many ways, he is discovering that smell is rather like face recognition. The visual system detects patterns of light and dark and, building on experience, the brain creates a spatial map. It uses this to interpret the interrelationship of the patterns and draw conclusions that allow us to identify people and places. In the same way, we use patterns and ratios to detect both new and familiar flavors. As we eat, specialised receptors in the back of the nose detect the air molecules in our meals. From signals sent by the receptors, the brain understands smells as complex spatial patterns. Using these, as well as input from the other senses, it constructs the idea of specific flavors.
This ability to appreciate specific aromas turns out to be central to the pleasure we get from food, much as our ability to recognise individuals is central to the pleasures of social life. The process is so embedded in our brains that our sense of smell is critical to our enjoyment of life at large. Recent studies show that people who lose the ability to smell become socially insecure, and their overall level of happiness plummets.
Working out the role of smell in flavor interests food scientists, psychologists, and cooks alike. The relatively new discipline of molecular gastronomy, especially, relies on understanding the mechanics of aroma to manipulate flavor for maximum impact. In this discipline, chefs use their knowledge of the chemical changes that take place during cooking to produce eating pleasures that go beyond the 'ordinary.
However, whereas molecular gastronomy is concerned primarily with the food or 'smell' molecules, neurogastronomy is more focused on the receptor molecules and the brain's spatial images for smell. Smell stimuli form what Shepherd terms 'odor objects', stored as memories, and these have a direct link with our emotions. The brain creates images of unfamiliar smells by relating them to other more familiar smells. Go back in history and this was part of our survival repertoire; like most animals, we drew on our sense of smell, when visual information was scarce, to single out prey.
Thus the brain's flavor-recognition system is a highly complex perceptual mechanism that puts all five senses to work in various combinations. Visual and sound cues contribute, such as crunching, as does touch, including the texture and feel of food on our lips and in our mouths. Then there are the taste receptors, and finally, the smell, activated when we inhale. The engagement of our emotions can be readily illustrated when we picture some of the wide- ranging facial expressions that are elicited by various foods - many of them hard-wired into our brains at birth. Consider the response to the sharpness of a lemon and compare that with the face that is welcoming the smooth wonder of chocolate.
The flavor-sensing system, ever receptive to new combinations, helps to keep our brains active and flexible. It also has the power to shape our desires and ultimately our bodies. On the horizon we have the positive application of neurogastronomy: manipulating flavor to curb our appetites.
Questions
Questions 1–5 Sentence Completion
Complete the sentences below.
Choose NO MORE THAN TWO WORDS from the text for each answer.
- According to scientists, the term 1 characterises the most critical factor in appreciating flavour.
- 'Savoury' is a better-known word for 2.
- The tongue was originally developed to recognise the unpleasant taste of 3.
- Human nasal cavities recognise 4 much better than external ones.
- Gordon Shepherd uses the word ‘neurogastronomy' to draw together a number of 5 related to the enjoyment of eating.
Questions 6–9 Table Completion
Complete the notes below.
Choose NO MORE THAN TWO WORDS from the text for each answer.
| Face recognition | patterns of dark and light are used to put together a 6 | → | the brain identifies faces | facial recognition is key to our enjoyment of 7 |
| Smell | receptors recognise the 8 in food | → | the brain identifies certain 9 | smell is key to our enjoyment of food |
Questions 10–13 Short Answers
Answer the questions below.
Choose NO MORE THAN ONE WORD from the text for each answer.
Answers & Explanations Summary
| # | Answer | Evidence | Explanation |
|---|---|---|---|
| Q1 | retronasal smell / smell | The taste, texture, and feel of food are what we tend to focus on, but most important are the slight puffs of air as we chew our food what scientists call 'retronasal smell' | Excerpt/Passage Explanation: The passage explains that even though we think about how food feels or tastes, the most important thing for flavor is the air inside our mouth, which scientists name 'retronasal smell'. Answer Explanation: The answer refers to the specific type of smell that happens inside our mouth while we are eating, rather than smelling something through our nostrils from the outside. Reason For Correctness: The correct answer is 'retronasal smell' because the passage states that while we usually pay attention to taste and texture, the 'most important' part of enjoying flavor is the air that moves when we chew. The text explicitly states that 'scientists call' this specific factor 'retronasal smell'. Therefore, 'retronasal smell' is the 'term' that represents the 'most critical factor' mentioned in the question. |
| Q2 | umami | Certainly, our mouths and tongues have taste buds, which are receptors for the five basic flavors: sweet, salty, sour, bitter, and umami, or what is more commonly referred to as savory | Excerpt/Passage Explanation: The passage explains that our tongues have parts that taste five different flavors. It lists "umami" as one of these flavors and says that people usually use the word "savory" to talk about it. Answer Explanation: The answer "umami" is the name of one of the five basic flavors that we can taste with our tongue. Reason For Correctness: The correct answer is "umami" because the passage mentions that it is one of the five primary flavors detected by the taste buds on our tongues. The text explicitly states that umami is "more commonly referred to as savory," which matches the sentence requirement that 'savoury' is a better-known (or more common) name for this specific taste. |
| Q3 | toxins | They evolved to recognise only a few basic tastes in order to quickly identify toxins, which in nature are often quite bitter or acidly sour | Excerpt/Passage Explanation: The passage explains that our tongues developed specifically to spot a small number of tastes so that we could find and avoid poisons (toxins) that usually taste bad. Answer Explanation: The answer is toxins, which are harmful or poisonous substances. Reason For Correctness: The correct answer is correct because the text explains that the tongue changed over a long time (evolved) to help humans find dangerous substances in nature quickly. These dangerous things, or toxins, usually have a bad taste like being very bitter or sour. By identifying these, the tongue helped humans stay safe from eating things that could make them sick. |
| Q4 | internal scents / smells | Unlike a hound's skull with its extra long nose, which evolved specifically to detect external smells, our noses have evolved to detect internal scents | Excerpt/Passage Explanation: The passage explains that human noses are different from a dog's nose because ours are made to find smells from inside us rather than smells from the outside environment. Answer Explanation: The answer refers to the smells that come from inside our bodies (specifically from the food in our mouths) instead of smells from the outside world. Reason For Correctness: The correct answer is 'internal scents' because the text contrasts the human nose with a dog's nose. It explains that while dogs are built to find 'external smells' (smells from the outside), humans have 'evolved' or changed over time to 'detect' or notice smells that come from within, which the text calls 'internal scents'. |
| Q5 | disciplines | Shepherd has come up with the term 'neurogastronomy' to link the disciplines of food science, neurology, psychology, and anthropology with the savory elements of eating, one of the most enjoyed of human experiences | Excerpt/Passage Explanation: The passage explains that Shepherd created a new name to connect different types of science or areas of study to show how much we enjoy eating. Answer Explanation: The answer means different areas of study or science. Reason For Correctness: The correct answer is 'disciplines' because the text explains that Gordon Shepherd created the word 'neurogastronomy' to connect multiple areas of science. These areas, such as food science, neurology, and psychology, are called 'disciplines' in the passage. By using this new term, he brings these different groups of knowledge together to study how and why humans enjoy food. |
| Q6 | spatial map | The visual system detects patterns of light and dark and, building on experience, the brain creates a spatial map | Excerpt/Passage Explanation: The passage explains that our eyes find shapes of light and dark, and then our brain uses what it already knows to create a special map of these shapes. Answer Explanation: The answer refers to a mental picture or layout that the brain creates to organize and understand visual information. Reason For Correctness: The correct answer is derived from the section of the text comparing how we recognize faces to how we recognize smells. The author states that the brain looks at 'patterns' of light and dark to build a 'spatial map,' which is then used to identify or recognize people and places. |
| Q7 | social life | This ability to appreciate specific aromas turns out to be central to the pleasure we get from food, much as our ability to recognise individuals is central to the pleasures of social life | Excerpt/Passage Explanation: The passage says that recognizing people is a main part of the happiness we feel when we are around others, just like smelling aromas is a main part of enjoying food. Answer Explanation: The answer refers to the interactions and fun moments people experience when they spend time with others. Reason For Correctness: The correct answer is found by looking at the section of the text that compares the sense of smell to facial recognition. The author explains that just as being able to smell makes eating food enjoyable, being able to recognize individuals (which involves face recognition) is very important for enjoying our interactions with other people. In the text, 'pleasures' is used as a synonym for 'enjoyment' mentioned in the note. |
| Q8 | air molecules / molecules | As we eat, specialised receptors in the back of the nose detect the air molecules in our meals | Excerpt/Passage Explanation: The passage explains that while we are eating, special parts in the back of our nose find tiny bits in the air that come from our food. Answer Explanation: The answer refers to the tiny particles found in the air from our food that the nose senses. Reason For Correctness: The correct answer is confirmed by the text when it describes how we identify flavors. It explains that as we eat, specific sensors (receptors) in the back of the nose find the 'air molecules' present in our food to help the brain recognize smells. In this context, 'recognise' is a synonym for 'detect'. |
| Q9 | flavors / flavours | Using these, as well as input from the other senses, it constructs the idea of specific flavors | Excerpt/Passage Explanation: The passage explains that the brain takes the signals it receives from the nose and other senses to create a mental understanding of what various flavors are. Answer Explanation: The answer "flavors" or "flavours" refers to the specific tastes of different foods that our brain recognizes after receiving signals from our nose and mouth. Reason For Correctness: The correct answer is "flavors/flavours" because the passage explains the step-by-step process of how we perceive what we are eating. It states that after the nose's receptors detect molecules and send signals, the brain uses that information to "construct the idea" of what the flavor is. This matches the flow of the notes which tracks how receptors recognize something which then leads to the brain identifying the flavor. |
| Q10 | memories | Smell stimuli form what Shepherd terms 'odor objects', stored as memories, and these have a direct link with our emotions | Excerpt/Passage Explanation: The passage explains that smells create what a scientist calls 'odor objects,' and the brain saves these objects as memories. Answer Explanation: The answer means that the brain keeps information about different smells as things it remembers from the past. Reason For Correctness: The correct answer is 'memories' because the text clearly says that 'odor objects' (which are formed by smells) are stored in the brain in that specific form. By saving these as memories, the brain can link smells to emotions and recognize them later. |
| Q11 | prey | Go back in history and this was part of our survival repertoire; like most animals, we drew on our sense of smell, when visual information was scarce, to single out prey | Excerpt/Passage Explanation: The passage explains that in the past, humans used their sense of smell to find the animals they wanted to hunt when it was hard to see them. Answer Explanation: The answer 'prey' refers to animals that are hunted and eaten by other animals. Reason For Correctness: The correct answer is 'prey' because the text explains that humans used their sense of smell to find animals to hunt when 'visual information was scarce.' This phrase means that seeing was difficult. The text uses 'single out' to show how smell helped find the animals. |
| Q12 | chocolate | Consider the response to the sharpness of a lemon and compare that with the face that is welcoming the smooth wonder of chocolate | Excerpt/Passage Explanation: The passage says that the way people look when they eat chocolate shows they are happy. Their face welcomes the flavor, which proves that the food gives them a positive feeling. Answer Explanation: The answer is chocolate, which is a sweet food that makes people feel happy when they eat it. Reason For Correctness: The correct answer is identified because the writer talks about how our feelings (emotions) show on our faces when we taste things. The text describes a person's face 'welcoming' the taste of chocolate. This word 'welcoming' shows that the flavor is linked to a happy or positive emotion. |
| Q13 | appetites | On the horizon we have the positive application of neurogastronomy: manipulating flavor to curb our appetites | Excerpt/Passage Explanation: The passage says that in the future, we might be able to change flavors to help stop people from eating too much. Answer Explanation: The answer means that in the future, changing the way food tastes might be a way to manage how much we want to eat. Reason For Correctness: The correct answer is 'appetites' because the final part of the text mentions that scientists want to use flavor to 'curb' (which means control or limit) how hungry people feel. The text uses the word 'appetites' specifically as the thing that would be controlled through 'manipulating' (or changing) flavor. |