Syllabus Edition

First teaching 2023

First exams 2025

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The Gas Exchange System (CIE A Level Biology)

Topic Questions

1a3 marks

Fig. 1 shows the structure of the human gas exchange system.

9-1-fig-1-1
Fig 1

Identify structures VW, and X in Fig. 1.

1b3 marks

For Fig. 1:

(i)

Identify one tissue type that is present in structures V, W, and X but not in structure Y.

[1]

(ii)

Explain the function of the tissue identified in part (i).

[2]

1c2 marks

Fig. 2 is an image of a micrograph showing a cross section through structure Y.

9-1-fig-1-2Fig. 2

Explain one structural adaptation visible in Fig. 2.

1d2 marks

Identify and explain one other feature of structure Y that assists its function.

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2a
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2 marks

Table 1 shows some structures of the breathing system.

Table 1

Structure Sequence (1st, 2nd, 3rd, 4th or 5th)
Trachea  
Alveolus  
Bronchus  
Facial airways  
Bronchioles  

Complete Table 1 by indicating the sequence of structures that are passed through by a molecule of carbon dioxide during exhalation (from 1st to 5th).

2b1 mark

State the name of the organ that drives the processes of inhalation and exhalation in the breathing system.

2c3 marks

The exchange of oxygen occurs between the alveoli and the capillaries in the lungs.

(i)

Give the name of the process by which oxygen is transported from alveolar air into red blood cells.

[1]

(ii)

State one feature of the alveoli that increases the efficiency of gas exchange.

[1]

(iii)

Identify the gas, dissolved in the blood, with which oxygen is exchanged.

[1]

2d
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1 mark

Identify the tissue of the gas exchange system shown in Fig. 1.

qn0IfOVv_micro-alveoli

Fig. 1

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3a
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3 marks

Table 1 compares the features of the human gas exchange system. 

Complete the table by putting a tick () in each box if the feature is present and a cross (×) if the feature is absent in each structure. 

The first row has been done for you. 

Table 1

Structure Structural feature present
Cartilage Elastic fibres Goblet cells Ciliated Epithelium Smooth muscle
Trachea
Bronchi          
Bronchioles          
Alveoli          

3b
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3 marks

Complete the following sentences about the gas exchange system. 

Choose the correct words from the list below.

volume    airways    villi    bacteria    bronchioles   eaten   

cilia    nose    saliva    digested    throat   swallowed

Ciliated epithelial cells have projections called ............... .

The role of these projections is to sweep ............... , dust and mucus out of the ............... .

The dust and mucus are swept towards the ............... where they can be ............... and destroyed by stomach acid. 

3c
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2 marks

Fig. 1 shows different structures in the human airways viewed in cross section under a light microscope.

9-1-fig-2-1Fig. 1

Identify the structures labelled B in Fig. 1 and name the process that takes place here.

3d
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2 marks

Explain one function of structure A in Fig. 1.

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4a
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3 marks

Fig 1. shows an alveolus and a neighbouring capillary.cie-ial-9-1-e-q4a

Fig. 1

Using the terms 'high', 'medium' and 'low', complete the table to show the relative blood concentrations of the substances indicated at the points A, B and C shown in Fig. 1

  A B C
Oxygen      
Haemoglobin/oxyhaemoglobin      
Carbon dioxide      
4b
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3 marks

Each alveolus allows the passage of 6 × 10-3 mm3 of blood per minute when a healthy person is at rest.

This person has 450 million alveoli per lung.

Calculate the flow rate of blood through the lungs of this person. 

State your answer in standard form using the units mm3min-1.

4c
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2 marks

Starting with the innermost layer and travelling outwards, place the following tissues/structures into the order that they are found in a human trachea. 

  • Cartilage
  • Tracheal wall
  • Connective tissue
  • Lumen
  • Ciliated epithelium with glands
4d
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1 mark

C-shaped rings of cartilage strengthen the trachea along its length. These are C-shaped to allow the trachea to narrow under certain circumstances. The trachea runs alongside the oesophagus for much of its length. 

Suggest why the trachea has to become narrower on occasions. 

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5a
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1 mark

The lungs are often described as the main organ of human gas exchange.

State the tissue that the lungs exchange gases with.

5b
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2 marks

Draw straight lines to link each of the airways shown to their approximate internal diameters.

airways-join-boxes

5c
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2 marks

Around 55% of the inner surface of the trachea is coated with cilia, whereas in the bronchi, the coverage is approximately 47% and in the bronchioles, the value is 27%.

Suggest a reason for this pattern.

5d
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1 mark

Cartilage tissue, like that found in the breathing system, has a limited ability to repair itself in case of disease or injury.

Identify one feature of cartilage that explains this. 

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1a3 marks

Explain how the alveoli are adapted to maximise gas exchange efficiency in mammals.

1b
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2 marks

An adult has a total alveolar surface area of 5.2 x 107 mm2. One alveolus has a surface area of 0.104 mm2.

Calculate how many alveoli this person has in each lung. Give your answer as an ordinary number, not in standard form.

1c3 marks

Allergies occur when the immune system responds to a normally non-harmful antigen known as an allergen. Some allergic reactions affect the gas exchange system and can make breathing more difficult.

Suggest the events that could occur in the gas exchange system in response to an allergen that might make breathing more difficult.

1d4 marks

Serious allergic reactions can sometimes lead to asthma attacks which can be very dangerous.

Scientists investigated the effect of a drug called albuterol which can be used to treat asthma. They divided a large number of asthma patients into three groups; A, B and C. The groups were treated as follows:

  • Group A inhaled a fixed volume of spray containing albuterol every day
  • Group B was given an inhaler that contained no active drug
  • Group C did not receive any treatment

The scientists measured the forced expiratory volume (FEV) of each patient at regular intervals. The FEV is the volume of air forced out of the lungs in the first second when breathing out. The scientists recorded each patient’s FEV before treatment started and after 30 days of treatment. They then calculated the mean increase in FEV for each group. Their results are shown in Fig.1.

MasBcbv__2

Fig. 1

Evaluate the effectiveness of albuterol in the treatment of patients with asthma.

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2a
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3 marks

Describe the pathway taken by a molecule of oxygen from the outside air to the blood of a human.

2b
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3 marks

Premature babies can suffer from a deficiency of pulmonary surfactant, a substance that prevents alveolar collapse. This can lead to a condition known as respiratory distress syndrome (RDS). Fig. 1 below shows the possible appearance of the lung tissue of an RDS patient and the appearance of normal lung tissue.

6d47aa2e-db32-44ac-a1cc-73082aed8c40

Atlas of Pulmonary Pathology, CC BY-SA 2.0

Fig. 1

(i)

Identify and label healthy lung tissue on Fig. 1.

[1]

(ii)
Explain the effect of RDS on the lung tissue shown in Fig. 1.

[2]

2c
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4 marks

RDS can be treated by the administration of an alternative form of pulmonary surfactant to the lungs. The graph shown in Fig. 2 gives the effect of different variations of pulmonary surfactant on the lung volume of rabbits at different pressures. The variations include pulmonary surfactant isolated from sheep lungs, as well as synthetic versions of pulmonary surfactant that contain its separate lipid and protein components. Note that cm H2O is a unit of pressure.yu4lonm-h-1c

Fig. 2

Use the information provided to explain why each of the following statements is incorrect:

(i)

Pulmonary surfactant is essential for lung expansion.

[1]

(ii)

Phospholipids are the active component of pulmonary surfactant.

[1]

(iii)

Pulmonary surfactant from sheep is the most effective treatment for RDS in premature babies.

[2]

2d
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2 marks

The form of pulmonary surfactant produced in mammalian lungs contains proteins known as SP-A and SP-D, which are known to be involved with the activation of phagocytes.

Suggest, with a reason, a symptom that would result from a deficiency of SP-A and SP-D proteins.

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3a
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4 marks

Fig. 1 shows a tissue sample taken from a human lung. Two cells are labelled A and B.

9-1-3ah

Fig. 1

Identify cell A and cell B and describe their function.

3b
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2 marks

Cell A is adapted for its function. 

Describe and explain one structural feature of cell A that makes it well adapted for gas exchange. 

3c
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5 marks

Scientists grew alveolar epithelium cells in culture for 10 days. The cells were exposed to hydrogen peroxide. Hydrogen peroxide is a toxin that is found in cigarette smoke. Each day the scientists calculated the mass of cells that died each hour. Their results are shown in Table 1 below. 

Table 1

Day Mass of alveolar epithelium cells died in 1 hour / µg Rate of cell death
0 0.06  
2 0.08  
4 0.12  
6 0.16  
8 0.21  
10 0.25  

(i)

For each day, calculate the rate of cell death per minute. Record the rates in standard form and give an appropriate unit.

[2]

(ii)

Plot a suitable graph of your processed data on the grid in Fig. 2.

[3]

graph-paper

Fig. 2

3d
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3 marks

Alpha-1-antitrypsin is a protein that reduces the activity of enzymes that can damage lung tissue. Hydrogen peroxide reduces the activity of alpha-1-antitrypsin. Scientists investigated the effect of different concentrations of hydrogen peroxide on the activity of alpha-1-antitrypsin. Fig. 3 shows their results.

9-1-3dh

Fig. 3

Use Fig. 3 and the information from part (c) to explain why long-term smokers suffer from shortness of breath.

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4a
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2 marks

Air can contain pollutants such as particulate matter; solid and liquid particles that are suspended in air.  A high concentration of particulate matter can result in the death of some alveolar epithelium cells which are then replaced by non-specialised, thickened tissue. 

Explain the effect of this on gas exchange within the lungs. 

4b
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2 marks

Particulate matter exposure has been linked to mortality. Fig. 1 shows the particulate matter concentration and attributable mortality rate per 100 000 of the population for three global regions from the year 2000 to 2020. 

particulate-air-pollution-lung-disease-deaths

Fig. 1

Calculate the percentage change in the particulate matter concentration in South East Asia. Give your answer to three significant figures.

4c
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4 marks

A student studied Fig. 1 and concluded that an increase in particulate matter concentration correlated with an increase in particulate matter-attributable mortality rate. 

Use Fig. 1 to assess this conclusion. 

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5a
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3 marks

Fig. 1 shows a micrograph of a section of lung tissue. It contains a cross-section of part of an airway within the lung.

bronchiole-micrograph

Dr. Yale Rosen, CC BY-SA 2.0, via Flickr

Fig. 1

(i)

Suggest the name of the type of airway shown in Fig. 1.

[1]

(ii)

Describe the evidence from Fig. 1 that supports your answer to part (i).

[2]

5b
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4 marks

Fig. 2 represents the same type of airway as that shown in Fig. 1 in a person with Chronic Obstructive Pulmonary Disease (COPD).

FpWkwl8C_bronchiole-copd-micrograph

Fig. 2

(i)

Use Fig. 2 to describe the impacts of COPD on the airways.

[2]

(ii)

Explain how COPD would affect lung function.

[2]

5c
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3 marks

A person suffering from COPD may present with symptoms such as fatigue. 

Explain why this is the case. 

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1a3 marks

Fig.1 shows different structures in the human airways viewed in cross section under a light microscope.

9-1-fig-2-1
Fig. 1

Identify the tissues or structures labelled A to C in Fig. 1.

1b1 mark

Give one difference in the composition of C between the trachea and bronchi, and the bronchioles.

1c
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2 marks

Emphysema is a condition that can affect the lungs of individuals frequently exposed to cigarette smoke or high levels of air pollution. Fig. 2 shows two microscope images of the structures labelled B in Fig.1; one shows the normal structure of B while the other shows the structure of B when affected by emphysema. The images are shown at x40 magnification.

9-1-fig-2-2
Fig. 2

The line marked X in Fig. 2 is 8.5 mm in length.

Use the information provided to calculate the actual diameter of the structure measured by line X. Give your answer in µm.

1d4 marks

Individuals suffering from emphysema can experience a symptom known as cyanosis, where the fingers and lips take on a blueish discolouration.

With reference to Fig. 2 suggest why individuals with emphysema might experience cyanosis. Note that deoxygenated blood is darker in colour than oxygenated blood. 

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2a
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2 marks

Fig. 1 is an image of an electron micrograph showing a cross section through the lining of part of the human gas exchange system. The magnification of Fig. 1 is x5000.

9-1-fig-3-1
Fig. 1

The line marked Z in Fig.1 measures 3.1 cm.

Calculate the actual length of the structure measured by line Z. Give your answer in µm.

2b4 marks

For Fig.1:

(i)

Identify the type of tissue shown.

[1]

(ii)

Identify structures X and Y.

[2]

(iii)

Name one location in the gas exchange system where the structures identified in part (ii) would both be found.

[1]

2c4 marks

Explain the functions of structures X and in Fig.1.

2d3 marks

Certain lung conditions can lead to remodelling of the lining of the airways and an increase in the numbers of structure Y from Fig.1. This is known as cell metaplasia and can lead to damaging symptoms.

Suggest three symptoms that may result from metaplasia of structure Y from Fig.1.

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3a
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1 mark

Fig. 1 shows two images of lung tissue.

  • A is a photomicrograph of healthy lung tissue
  • B is a photomicrograph of lung tissue from a person with emphysema, a chronic obstructive pulmonary disease (COPD)

The images are both at magnification ×40.

fig1-1-qp-octnov-2018-9700-22

Fig. 1

Name the structure labelled H in Fig. 1A.

3b
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2 marks

Calculate the actual diameter of the alveolus at X–Y.

Write down the formula and use it to make your calculation.

When measured with a ruler on the page, the image of alveolus X-Y would appear as follows:

oct-2018-series-2-paper-2-q1b-with-ruler---sq

Give your answer to the nearest whole micrometre (μm).

3c
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4 marks

Gas exchange in the lungs occurs in the alveoli.

Describe the process of gas exchange in healthy lungs and suggest how this compares with gas exchange in the diseased lung shown in Fig. 1B.

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4a
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2 marks

Smoking cigarettes is known to damage ciliated epithelial tissue in the airways. 

Explain the effect of damaged ciliated epithelial tissue on the gas exchange system. 

4b
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6 marks

Fig. 1 shows the number of lung cancer deaths in men and women aged between 25 and 79 in the UK between 1970 and 2023.

cie-ial-9-1-m-4b

Fig.1

(i)

Compare the lung cancer death rates of men and women shown in Fig. 1.

[4]

(ii)

Explain the advantage of calculating the death rate per 100 000 of the population.

[2]

4c
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3 marks

Calculate the percentage change in death rates in men between the maximum number of deaths and the minimum number of deaths. Give your answer to two significant figures.

4d
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4 marks

Fig. 2 shows the difference in lung tissue between a non-smoker (A) and a cigarette smoker (B).

cie-ial-9-1-m-4d

Fig. 2

(i)

Identify the lung tissue shown in Fig. 2.

[1]

(ii)

Use Fig. 2 to explain how changes in the lungs might contribute to a reduction in the overall health of individuals who smoke cigarettes.

[3] 

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5a
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2 marks

Fig.1 shows a section of tissue in the airways. 

lung-airways-ciliated-epithelium-mucus

Fig. 1

Explain the role of mucus in the airways.

5b
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3 marks

Chloride ions contribute to the production of mucus, ensuring that the mucus is at the correct viscosity within the airways. Note that the 'viscosity' of a liquid refers to the ease with which it flows; a low-viscosity liquid flows easily, while a high-viscosity liquid flows less easily.

Suggest how the movement of chloride ions, as shown in Fig. 1, can alter the viscosity of mucus.

5c
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2 marks

The tissue shown in Fig. 1 is found within the structure represented in Fig. 2

cie-ial-9-1-m-q5c

Fig. 2

(i)

Identify the structure shown in Fig. 2.

[1]

(ii)

Give a reason for your answer to part (i).

[1]

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