Transport in Animals (OCR A Level Biology)

Exam Questions

3 hours39 questions
1a4 marks

Describe and explain two ways in which red blood cells are adapted to oxygen transport.

1b2 marks

Haemoglobin is a globular protein made of two alpha polypeptides and two beta polypeptides. Each alpha polypeptide consists of 141 amino acids and each beta polypeptide consists of 146 amino acids.

Calculate the difference in the number of amino acids and DNA bases required for a single alpha polypeptide vs a single beta polypeptide.

1c2 marks

A scientist is looking at a red blood cell under an electron microscope and takes an electron micrograph. The actual diameter of the red blood cell is 7µm but in the micrograph image (shown in Figure 1.1 below), it measures 5 cm. 

X9ZRXFDl_1Figure 1.1

Calculate the magnification used by the scientist in Figure 1.1.  Give your answer to the nearest 100.

1d1 mark

Mammals that live at different altitudes often have different haemoglobin. Suggest how a mammal's haemoglobin might be adapted to live at higher altitudes.

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2a1 mark

Oxyhaemoglobin is the name of the complex that forms when oxygen combines with haemoglobin. This is a reversible reaction meaning oxygen can be offloaded under certain conditions. More oxygen is offloaded in active muscles due to increased concentrations of CO2.

Name the effect being described. 

2b3 marks

An athlete has discovered that he is anaemic. A person suffering from anaemia has a decreased concentration of haemoglobin in their blood.

Suggest and explain how being anaemic may affect the athlete's performance.

2c3 marks

Some anaemic people naturally produce substances which alter the oxygen dissociation curve of their haemoglobin. Figure 2.1 shows the effect of these substances. 

HbA represents a person with anemia. 

Sqhi_GuK_3Figure 2.1

Explain the advantage to a person with anaemia of the change shown in the oxygen dissociation curve in Figure 2.1.

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3a2 marks

The efficient transport of oxygen around the body by haemoglobin relies on the different partial pressures of oxygen and carbon dioxide around the body.

Explain what causes different tissues to have different partial pressures of oxygen and carbon dioxide.

3b2 marks

Larger multicellular organisms have specialised cells and tissues that form mass transport systems.

Explain why they need a mass transport system.

3c2 marks

The circulatory system in mammals is an example of a specialised mass transport System. The table below shows the volume of blood in a man’s left ventricle at different times during one second.

Time (seconds) Volume of blood in left ventricle (cm3)
0.0 115
0.1 125
0.2 98
0.3 68
0.4 53
0.5 58
0.6 85
0.7 93
0.8 103
0.9 115
1.0 119


Use the information above to calculate the heart rate to the nearest bpm.

3d2 marks

Substances such as alcohol can affect an individual's heart rate. During an investigation into alcohol's effect on heart rate, the man from part (b) was given a set amount of alcohol and observed for a period of time. Scientists found that the man’s heart rate increased in speed by 15% 1 hour after alcohol consumption. 

Calculate the difference in heart rate for when the man has had no alcohol and for one hour after alcohol consumption. Give your answer to the nearest bpm.

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4a
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2 marks

Figure 4.1 compares the structure of two main human blood vessels.

6-2-easy-q2a

Figure 4.1

(i)

Identify blood vessel A.

[1]

(ii)

State a reason for your answer in part (i).

[1]

4b
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2 marks

Blood vessel B has a very large lumen.

(i)

Identify blood vessel B.

[1]

(ii)

State one reason for the presence of a large lumen in blood vessel B.

[1]

4c
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2 marks

The flow of blood in veins is not assisted by the pressure generated by the beating of the heart.

List two structures that assist with the flow of blood in veins.

4d
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1 mark

The diagram represents a mammalian circulatory system. Mammals have two separate circulations that supply blood to different organs.

State the name of the circulation that blood vessels T and S form part of.

SKefWwjT_e-3a

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5a
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2 marks

Figure 5.1 shows a blood vessel with two types of blood cell moving through.

lymphocyte-and-rbc-in-a-capillary-sq

Figure 5.1

Name the cells labelled X and Y in Figure 5.1. Justify your answer.

5b
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3 marks

With reference to Figure 5.1, state three ways in which cell X is different to cell Y.

5c
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5 marks

Blood has many components. Plasma is a straw coloured liquid which gives blood its fluidity and is made up primarily of water.

(i)

Identify two properties of water which make it ideal as a main component of blood.

[2]

(ii)

State three substances that are transported in blood plasma.

[3]
5d
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2 marks

Give the evidence seen in Figure.5.1 which identifies the blood vessel as a capillary.

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6a
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2 marks

Exchange of substances between cells and blood occurs via the tissue fluid, shown in Figure 6.1SfWlspR~_tissue-fluid-formation-sq

Figure 6.1

Tick the boxes which correctly describe the conditions inside the capillary at positions A and B in Fig.1.

 

High hydrostatic pressure

low hydrostatic pressure

Water moves out

 Water moves in

A

       

B

       

6b
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3 marks

Figure 6.1 shows another vessel labelled C.

(i)

Give the name of vessel C.

[1]

(ii)

Name two substances which enter vessel C from the surrounding tissues.

[2]

6c
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2 marks

The following table shows the mean pressure (in mmHg) measured in different blood vessels of the body.

Blood vessel Mean blood pressure / mmHg
Aorta 94
Arteries 90
Arterioles 68
Capillaries 24
Venules 10
Veins 3
Vena Cava 2

Calculate the percentage difference between the mean blood pressure of the aorta and vena cava.

Show your working and give your answer to three significant figures.

6d
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2 marks

Describe how the circulatory system maintains one way flow around the body

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1a
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2 marks

Valves control the flow of blood through the heart.

Complete the table below to show the roles of two valves in the heart.

Source
of blood
Valve that controls
blood flow
Destination
of blood
.......................................
.......................................
right semilunar valve .......................................
.......................................
left atrium .......................................
.......................................
left ventricle

1b
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4 marks

A ventricular septal defect (VSD) is a hole in the septum of the heart.

The diagram below shows a heart with VSD.q2b-paper-3-nov-2020-ocr-a-level-biology

Describe and explain why people with VSD can easily become tired.

1c
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1 mark

Creatine kinase (CK) is an enzyme that catalyses reactions in heart muscle. High levels of CK in the blood indicate that a person may have had a heart attack.

Suggest why high levels of CK in the blood indicate that a person may have had a heart attack.

1d
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1 mark

Mice are often used in laboratory studies to research treatments for heart conditions.

These mice are often clones.

Suggest one reason why clones are used in these studies.

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2a
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4 marks

The oxygen dissociation curves for adult haemoglobin and fetal haemoglobin are shown in Fig. 6.1.q6a-paper-3-nov-2020-ocr-a-level-biology

Fig. 6.1

(i)
Outline why it is important that fetal haemoglobin has a higher oxygen affinity than adult haemoglobin.

[2]

(ii)
Myoglobin is a protein found in muscles. Oxygen binds to myoglobin.

A student described the oxygen dissociation curve for myoglobin as follows:

   • When oxygen first becomes available, myoglobin saturation increases at a constant
           rate of 8% per mmHg of oxygen.
   • When there is a slightly higher partial pressure of oxygen, the rate of oxygen binding
           slows gradually until the myoglobin is 100% saturated.
   • The partial pressure at which myoglobin reaches 100% saturation is the partial
           pressure at which adult haemoglobin is 80% saturated.

Sketch an oxygen dissociation curve for myoglobin on Fig. 6.1 based on the description provided above.


Answer on Fig. 6.1 .................................................... [2]

2b
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1 mark

Haemocyanin is an oxygen‐binding pigment that is found in many invertebrate animals, including lobsters.

Fig. 6.2 shows the oxygen dissociation curves for haemoglobin and haemocyanin.

q6b-paper-3-nov-2020-ocr-a-level-biology

Fig. 6.2

What can you conclude about the habitat of a lobster?

2c
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2 marks

When old red blood cells are broken down, each haem group is converted to a molecule called bilirubin. Bilirubin passes through the digestive system. Bilirubin gives faeces their characteristic colour.

Explain why bilirubin production and processing is an example of excretion.

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3a
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8 marks

Fig. 16 shows pressure changes during the cardiac cycle.



q16a-paper-1-june-2019-ocr-a-level-biology
Fig. 16

(i)

Using Fig. 16, compare the changes in pressure in the left ventricle with the changes in pressure in the left atrium.
[4]
(ii)
Using Fig. 16, calculate the heart rate of this individual.

Give your answer to 2 significant figures.
heart rate = .......................................................... [1]

(iii)
Using Fig. 16, calculate the percentage change between minimum and maximum pressure in the aorta.

Give your answer to 2 significant figures.
percentage change = .......................................................... [2]

(iv)
Name the valve which closes at point X on Fig. 16.
 [1]
3b
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3 marks

The heart supplies oxygenated blood to the tissues.

VO2max is a measurement of the maximum volume of oxygen that an individual can use during intense exercise in a given time.

Smart watches can estimate the VO2max of an individual by measuring heart rate while exercising.

Having a higher VO2max is associated with improved aerobic fitness.

Two male students exercised for 30 min and used smart watches to record their VO2max.

Table 16 shows their masses and the VO2max values they recorded.

Student Mass (kg)

VO2max (cm3 kg−1min−1)

1 65 50.4
2 57 48.2

                                       Table 16

Student 1 drew the following conclusion from this result:

q16b-paper-1-june-2019-ocr-a-level-biologyStudent 2 said that this conclusion is invalid because several variables have not been controlled.

State three variables necessary for a valid comparison that have not been controlled in the above experiment.

3c
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1 mark

Brown fat is a type of tissue.

Brown fat has a higher need for oxygen because fat cells in this tissue carry out aerobic respiration at a higher rate than fat cells in other tissues.

Suggest which organelle is present in higher numbers in brown fat cells than in other fat cells.

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4a
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6 marks

Mammals and fish both need circulatory systems to transport oxygen to respiring tissues. They have different circulatory systems because they have different oxygen requirements.

Compare and contrast the circulatory systems of mammals and fish.

4b
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2 marks

Acetylcholine (ACh) is a neurotransmitter in mammals. Studies have suggested that it also functions as a hormone in some invertebrate species, such as squid.

When ACh comes into contact with specialised cells in squid skin, it causes them to change colour. These colour changes allow the squid to communicate and to camouflage itself.

ACh is made by cells in the centre of the squid’s body.

Explain how it is possible for ACh to have an effect on cells in the skin of the squid.

4c2 marks

Squid blood contains a blue oxygen-carrying protein called haemocyanin.

High partial pressures of carbon dioxide reduce the affinity for oxygen of haemocyanin.

Suggest a mechanism by which carbon dioxide could reduce the affinity for oxygen of haemocyanin.

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5a
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3 marks

Resistance training with weights can increase muscle mass in the body. It can also lead to vascularisation, where blood vessels become more visible through the skin. Fig. 19.1 shows vascularisation.

q19-paper-1-june-2019-ocr-a-level-biology

Fig. 19.1

Vascularisation occurs in bodybuilders because blood vessels are pushed to the surface by increased muscle mass. They can also become more visible due to reduced body fat and dehydration.

Explain why the visible blood vessels are likely to be veins.

5b
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2 marks

Some bodybuilders use anabolic steroids to increase their muscle mass.

Suggest why anabolic steroids are effective when applied to the surface of the skin.

5c
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9 marks

The illegal use of steroids is widespread in professional sport.

The International Olympic Committee (IOC) tests the urine of athletes to help prevent steroid abuse. 

Fig. 19.2 is a graph showing tests carried out by the IOC between 1986 and 1994.

 
• The bars represent the number of urine samples tested.
• The line shows the percentage of samples testing positive for the steroid testosterone.

q19c-paper-1-june-2019-ocr-a-level-biology

Fig. 19.2

(i)
Calculate the change in the number of samples testing positive for testosterone between 1988 and 1991.

number of samples = .......................................................... [3]

(ii)
Based on the findings in Fig. 19.2, the head of the IOC stated that:
“The IOC is succeeding in reducing the level of steroid abuse in professional sport.”

Evaluate this statement using the data in Fig. 19.2.

[6]

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6a
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6 marks

The electrical activity of the heart can be monitored using an electrocardiogram (ECG) trace.

Fig. 16.1 shows the ECG pattern for a single normal heartbeat.

q16a-paper-1-specimen-ocr-a-level-biology

Fig. 16.1

Fig. 16.2 shows an ECG trace for a person with normal heart rhythm and Fig. 16.3 shows the trace for a person with tachycardia.

q16a-2-paper-1-specimen-ocr-a-level-biology

Fig. 16.3

(i)
Calculate the percentage increase in heart rate for the person with tachycardia compared to the person with normal heart rhythm.

Use the data between points A and B on Fig. 16.2 and points C and D on Fig. 16.3 for your calculations.
Give your answer to the nearest whole number.
Answer............................... %
[4]
(ii)
The most obvious feature of tachycardia is an increased heart rate.

Using the information in Fig. 16.1, Fig. 16.2 and Fig. 16.3, what are other key features of tachycardia?
[2]
6b
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3 marks

Fig. 16.4 is an ECG trace of a person with an abnormal heart rhythm.

q16b-paper-1-specimen-ocr-a-level-biology

Fig. 16.4

Using the information from Fig. 16.4, what conclusions can you draw about the way in which this person’s heart is functioning abnormally?

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7a
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3 marks

Fig. 21.1 shows a transverse section of a human adrenal gland.

q21-paper-1-june-2019-ocr-a-level-biology

Fig. 21.1

(i)
The table below describes the functions of some hormones produced by different regions of the adrenal gland.

Complete the table using Fig. 21.1 and your own knowledge.

Hormone produced Functions of hormone
adrenaline ....................................................................
....................................................................
....................................................................
......................................
  • increases heart rate
  • increases blood pressure
  • widens pupils
androgens

regulation of sexual characteristics and cell growth

...................................... regulation of metabolism

[2]

(ii)
Using Fig. 21.1, identify the letter and name of the region of the adrenal gland that secretes adrenaline.
 [1]
7b
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6 marks

Phaeochromocytoma is a rare tumour of adrenal gland tissue. It causes increased hormone release from the adrenal glands.

Fig 21.2 shows three ECG traces showing the heart rhythms of three different patients.

•     Patient X has a normal heart rhythm.
•     Patient Y has phaeochromocytoma.
•     Patient Z has bradycardia.

q21b-paper-1-june-2019-ocr-a-level-biology

Fig. 21.2

(i)
Identify patients X, Y and Z by labelling the traces in Fig. 21.2.
[2]
(ii)
Sketch a trace for a patient who has entered atrial fibrillation.

q21b-2-paper-1-june-2019-ocr-a-level-biology
[2]
(iii)
Suggest why reduced heart rate is sometimes seen in people who are very aerobically fit.

[2]

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1a2 marks

Red blood cells are a type of specialised cell with a limited life span of around 120 days; at this point their function has declined and they are destroyed by white blood cells. During their life span, red blood cells are exposed to high levels of physical stress, as well as undergoing the loss of structure of proteins both within the cell and within their cell surface membranes.

Use this information and your knowledge of red blood cells to suggest and explain one special feature of red blood cells that contributes to their short-lived nature.

1b3 marks

Figure 1.1 shows some of the events taking place in and around a red blood cell as it travels through actively respiring tissues.

8-2-fig-2-1Figure 1.1

(i)
Write a word equation to show the process taking place at P.

[1]

(ii)
Explain what is happening at points Q and S

[2]

1c2 marks

The process marked R in Figure.1.1 is involved in generating the Bohr shift. The Bohr shift occurs when carbon dioxide levels are increased from low to high, as shown in Figure 1.2.

8-2-fig-2-2
Figure 1.2

Explain the connection between process R in Figure 1.1 and the Bohr shift shown in Figure 1.2.

1d2 marks

Explain the importance of the Bohr shift to metabolically active tissues.

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2a5 marks

Figure 2.1 shows the oxygen dissociaton curve for the haemoglobin of adults (HbA), as well as for a special type of haemoglobin produced by the cells of foetuses prior to birth; this second type of haemoglobin is known as foetal haemoglobin (HbF).

m-q1

Figure 2.1

Describe and explain the shape of the curve for HbA shown in Figure 2.1.

2b1 mark

Use Figure 2.1 to determine the percentage saturation of the following with oxygen at a partial pressure of oxygen of 4kPa:

    • HbA
    • HbF

2c3 marks

Sickle cell disease is a genetic condition in which a mutation in the gene coding for part of the haemoglobin molecule causes red blood cells to take on a sickled, or crescent, shape. This influences the ability of the red blood cells to pass easily through the capillaries.

An experimental treatment for sickle cell disease involves gene therapy to increase the expression of the gene that codes for HbF, a gene that is normally switched off in adults.

(i)
Suggest how an increase in the expression of HbF could help to treat sickle cell disease.

[1]

(ii)
Suggest why HbF may not be a perfect replacement for HbA.

[2]

2d2 marks

Another form of oxygen-binding protein that exists in the tissues of humans is myoglobin. Myoglobin is present in the muscles where it functions as an oxygen store. It has a higher affinity for oxygen than both HbA and HbF.

Sketch a suggested dissociation curve for myoglobin on Figure 2.1

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3a2 marks

Figure 3.1 below shows changes in pressure in parts of a human heart during one second.   

h-q1Figure 3.1

What does curve Y in Figure 3.1 represent? Explain your answer.

3b2 marks

Between 0.5 and 0.8 seconds in Figure 3.1 there is a period of low blood pressure in the left ventricle. Use your knowledge of the cardiac cycle and the human heart to suggest a reason for this.

3c3 marks

Describe two functions of valves in the mammalian circulatory system. Include a named example.

3d4 marks

Oedema is a condition characterised by an abdomen and limbs that are swollen with  fluid. It is prevalent in poorly developed areas in the African continent due to the low  protein diet of the people living there. Explain how a low protein diet could result in oedema.

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4a4 marks

Figure 4.1 shows a representation of parts of the circulatory system.

8-3-fig-1-1
Figure 4.1

Identify the following blood vessels:

(i)

J

(ii)

K

(iii)

L

i(v)

M

4b2 marks

The heart chambers connecting to blood vessels J and M are similar in structure but not identical.

Describe and explain one structural difference between the two heart chambers.

4c3 marks

Figure 4.2 shows the changes in pressure in the heart and some of the blood vessels.

8-3-fig-1-2
Figure 4.2

Describe and explain the differences in pressure between the heart chamber and blood vessel M.

4d2 marks

Explain why blood pressure in Figure 4.2 continues to drop in blood vessel O and in the capillaries.

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5a4 marks

Figure 5.1 shows the external view of the mammalian heart.

8-3-fig-4-1
Figure 5.1

(i)

Identify the structure marked X.

[1]

(ii)

Suggest and explain one possible symptom that might result from a blockage inside structure X

[3]

5b
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2 marks

Figure 5.2 shows the pressure changes in various parts of the heart during the cardiac cycle.

8-3-fig-4-2
Figure 5.2

Calculate the heart rate of the individual in Figure 5.2

5c3 marks

Figure 5.2 shows separate lines for the left and right ventricles.

(i)

State the reason for this difference

[1]

(ii)

Explain the benefits of this difference to the function of the circulatory system

[2]

5d3 marks

Identify the times on Figure 5.2 at which the following events take place:

(i)

The first ventricular systole begins.

[1]

(ii)

The semilunar valves close.

[1]

(iii)

Diastole begins.

[1]

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6a
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2 marks

The mammalian circulatory system is described as a closed double circulation.

Explain why it is called a closed and double circulation.

6b
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4 marks

Explain how the contractions of the chambers of the heart are coordinated during one cardiac cycle.

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