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D.6 Transport of respiratory gases
Description
Nature of science:
Scientists have a role in informing the public—scientific research has led to a change in public perception of smoking.(5.1)
Understandings:
- Oxygen dissociation curves show the affinity of hemoglobin for oxygen.
- Carbon dioxide is carried in solution and bound to hemoglobin in the blood.
- Carbon dioxide is transformed in red blood cells into hydrogencarbonate ions.
- The Bohr shift explains the increased release of oxygen by hemoglobin in respiring tissues.
- Chemoreceptors are sensitive to changes in blood pH.
- The rate of ventilation is controlled by the respiratory control centre in the medulla oblongata.
- During exercise the rate of ventilation changes in response to the amount of CO2in the blood.
- Fetal hemoglobin is different from adult hemoglobin allowing the transfer of oxygen in the placenta onto the fetal hemoglobin.
Applications and skills:
- Application: Consequences of high altitude for gas exchange.
- Application: pH of blood is regulated to stay within the narrow range of 7.35 to 7.45.
- Application: Causes and treatments of emphysema.
- Skill: Analysis of dissociation curves for hemoglobin and myoglobin.
- Skill: Identification of pneumocytes, capillary endothelium cells and blood cells in light micrographs and electron micrographs of lung tissue.
Utilization:
- Training camps for athletes are frequently located at high altitude to increase the hemoglobin content of the blood. This puts the athlete at an advantage when they return to lower ground for competition.
Syllabus and cross-curricular links:
Biology
Topic 6.4 Gas exchange
Physics
Topic 3.2 Modelling a gas
Aims:
- Aim 8: Some sports, such as high-altitude mountain climbing or scuba diving, may push the limits of the human body beyond endurance and cause damage. Should they be controlled or banned?
Directly related questions
- 20N.3.HL.TZ0.23c: State the effect of carbon dioxide in blood on the rate of ventilation.
- 20N.3.HL.TZ0.23c: State the effect of carbon dioxide in blood on the rate of ventilation.
- 20N.3.HL.TZ0.c: State the effect of carbon dioxide in blood on the rate of ventilation.
- 18M.3.HL.TZ2.21a: From the diagram, deduce the effect of the disease polycythemia on the proportion of erythrocytes...
- 18M.3.HL.TZ2.21a: From the diagram, deduce the effect of the disease polycythemia on the proportion of erythrocytes...
- 18M.3.HL.TZ2.a: From the diagram, deduce the effect of the disease polycythemia on the proportion of erythrocytes...
- 18M.3.HL.TZ2.21c: Suggest how changes in hemoglobin could help humans become better adapted to living at high...
- 18M.3.HL.TZ2.21c: Suggest how changes in hemoglobin could help humans become better adapted to living at high...
- 18M.3.HL.TZ2.c: Suggest how changes in hemoglobin could help humans become better adapted to living at high...
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18M.3.HL.TZ1.22:
Explain how an increase in cell respiration in a tissue causes increased release of oxygen by hemoglobin in the tissue.
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18M.3.HL.TZ1.22:
Explain how an increase in cell respiration in a tissue causes increased release of oxygen by hemoglobin in the tissue.
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19M.3.HL.TZ1.24b:
Explain how physical exercise affects the affinity of hemoglobin for oxygen. You could supplement your explanation with a labeled diagram.
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19M.3.HL.TZ1.24b:
Explain how physical exercise affects the affinity of hemoglobin for oxygen. You could supplement your explanation with a labeled diagram.
-
19M.3.HL.TZ1.b:
Explain how physical exercise affects the affinity of hemoglobin for oxygen. You could supplement your explanation with a labeled diagram.
-
19M.3.HL.TZ2.23:
Discuss the significance of the oxygen dissociation curves for adult hemoglobin and fetal hemoglobin.
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19M.3.HL.TZ2.23:
Discuss the significance of the oxygen dissociation curves for adult hemoglobin and fetal hemoglobin.
- 19N.3.HL.TZ0.23: Explain how ventilation rate is changed during vigorous physical exercise.
- 19N.3.HL.TZ0.23: Explain how ventilation rate is changed during vigorous physical exercise.
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17N.3.HL.TZ0.23:
Discuss high altitude training for athletes.
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17N.3.HL.TZ0.23:
Discuss high altitude training for athletes.
- 18M.3.HL.TZ2.21b: Suggest how high altitude could lead to polycythemia.
- 18M.3.HL.TZ2.21b: Suggest how high altitude could lead to polycythemia.
- 18M.3.HL.TZ2.b: Suggest how high altitude could lead to polycythemia.
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19M.3.HL.TZ1.24a:
The electron micrograph shows a section through an alveolus showing blood in a capillary.
[Source: © International Baccalaureate Organization 2019]
Identify the cells found at X and Y.
X:
Y:
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19M.3.HL.TZ1.24a:
The electron micrograph shows a section through an alveolus showing blood in a capillary.
[Source: © International Baccalaureate Organization 2019]
Identify the cells found at X and Y.
X:
Y:
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19M.3.HL.TZ1.a:
The electron micrograph shows a section through an alveolus showing blood in a capillary.
[Source: © International Baccalaureate Organization 2019]
Identify the cells found at X and Y.
X:
Y:
- 19N.2.HL.TZ0.1h: Using all the data, discuss whether inoculating mice with the antigen to B. burgdorferi could be...
- 19N.2.HL.TZ0.1h: Using all the data, discuss whether inoculating mice with the antigen to B. burgdorferi could be...
- 19N.2.HL.TZ0.h: Using all the data, discuss whether inoculating mice with the antigen to B. burgdorferi could be...
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20N.3.HL.TZ0.23a:
Using the graph, explain the Bohr shift.
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20N.3.HL.TZ0.23a:
Using the graph, explain the Bohr shift.
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20N.3.HL.TZ0.a:
Using the graph, explain the Bohr shift.
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20N.3.HL.TZ0.23b:
State two modes of transport of carbon dioxide in blood.
1.
2.
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20N.3.HL.TZ0.23b:
State two modes of transport of carbon dioxide in blood.
1.
2.
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20N.3.HL.TZ0.b:
State two modes of transport of carbon dioxide in blood.
1.
2.
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20N.3.HL.TZ0.23d:
Describe what happens to the hemoglobin from old or damaged red blood cells that are broken down.
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20N.3.HL.TZ0.23d:
Describe what happens to the hemoglobin from old or damaged red blood cells that are broken down.
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20N.3.HL.TZ0.d:
Describe what happens to the hemoglobin from old or damaged red blood cells that are broken down.
- 22M.1.HL.TZ1.40: What is the role of HCG in early pregnancy? A. It prevents the degeneration of the corpus luteum...
- 22M.1.HL.TZ1.40: What is the role of HCG in early pregnancy? A. It prevents the degeneration of the corpus luteum...
- 23M.1.HL.TZ1.20: Which characteristic of the subclavian vein distinguishes it from the subclavian artery? A. ...
- 23M.1.HL.TZ1.20: Which characteristic of the subclavian vein distinguishes it from the subclavian artery? A. ...
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23M.3.HL.TZ1.20a:
Compare and contrast the effect on men and women of an increase in serum cholesterol.
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23M.3.HL.TZ1.20a:
Compare and contrast the effect on men and women of an increase in serum cholesterol.
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23M.3.HL.TZ1.a:
Compare and contrast the effect on men and women of an increase in serum cholesterol.
- 23M.3.HL.TZ1.22a: Calculate how long all the heart chambers are in diastole at the same time.
- 23M.3.HL.TZ1.22a: Calculate how long all the heart chambers are in diastole at the same time.
- 23M.3.HL.TZ1.a: Calculate how long all the heart chambers are in diastole at the same time.
- 23M.3.HL.TZ1.23a: State where in the body the blood would be flowing at point X on the graph.
- 23M.3.HL.TZ1.23a: State where in the body the blood would be flowing at point X on the graph.
- 23M.3.HL.TZ1.a: State where in the body the blood would be flowing at point X on the graph.
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23M.3.HL.TZ2.24:
Scientific evidence demonstrates that reducing total cardiovascular risk results in the prevention of coronary heart disease. The chart shows attributable deaths in global population (in thousands) due to six leading cardiovascular risk factors.
[Source: Mendis, Shanthi, Puska, Pekka, Norrving, B, World Health Organization, World Heart Federation et al. (2011). Global
atlas on cardiovascular disease prevention and control / edited by: Shanthi Mendis ... [et al.]. World Health Organization.
Graph of attributable deaths due to selected risk factors.]Describe how two named risk factors shown in the graph can lead to coronary heart disease.
1.
2.
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23M.3.HL.TZ2.24:
Scientific evidence demonstrates that reducing total cardiovascular risk results in the prevention of coronary heart disease. The chart shows attributable deaths in global population (in thousands) due to six leading cardiovascular risk factors.
[Source: Mendis, Shanthi, Puska, Pekka, Norrving, B, World Health Organization, World Heart Federation et al. (2011). Global
atlas on cardiovascular disease prevention and control / edited by: Shanthi Mendis ... [et al.]. World Health Organization.
Graph of attributable deaths due to selected risk factors.]Describe how two named risk factors shown in the graph can lead to coronary heart disease.
1.
2.
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23M.2.HL.TZ2.6a:
Explain how changes to the cell cycle can result in tumour formation.
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23M.2.HL.TZ2.6a:
Explain how changes to the cell cycle can result in tumour formation.
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23M.2.HL.TZ2.a:
Explain how changes to the cell cycle can result in tumour formation.
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23M.1.SL.TZ1.25:
The light micrograph shows the structure of blood vessels in a muscle.
[Source: Calvo, J.L., n.d. [image online] Available at: https://www.shutterstock.com/image-photo/muscular-artery-veinnervebundles-
surrounded-785176687 [Accessed 12 January 2022].]
Which blood vessel is shown by X?
A. A veinB. An artery
C. An arteriole
D. A capillary
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23M.1.SL.TZ1.25:
The light micrograph shows the structure of blood vessels in a muscle.
[Source: Calvo, J.L., n.d. [image online] Available at: https://www.shutterstock.com/image-photo/muscular-artery-veinnervebundles-
surrounded-785176687 [Accessed 12 January 2022].]
Which blood vessel is shown by X?
A. A veinB. An artery
C. An arteriole
D. A capillary
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23M.2.SL.TZ1.3a:
Annotate the diagram by adding arrows to show how deoxygenated blood enters the heart.
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23M.2.SL.TZ1.3a:
Annotate the diagram by adding arrows to show how deoxygenated blood enters the heart.
-
23M.2.SL.TZ1.a:
Annotate the diagram by adding arrows to show how deoxygenated blood enters the heart.
- 23M.1.SL.TZ2.27: The diagram shows the pressure changes in the left atrium, left ventricle and aorta during part...
- 23M.1.SL.TZ2.27: The diagram shows the pressure changes in the left atrium, left ventricle and aorta during part...