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Rev Notes ch07 e

The document discusses gas exchange in humans. It describes the human breathing system including the respiratory tract and structures that aid breathing. It then discusses gas exchange that occurs in the air sacs of the lungs between air and blood. It also describes the transport of respiratory gases via red blood cells and hemoglobin. Finally, it covers ventilation and how inhalation and exhalation are achieved through movements of the rib cage and diaphragm.

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37 views4 pages

Rev Notes ch07 e

The document discusses gas exchange in humans. It describes the human breathing system including the respiratory tract and structures that aid breathing. It then discusses gas exchange that occurs in the air sacs of the lungs between air and blood. It also describes the transport of respiratory gases via red blood cells and hemoglobin. Finally, it covers ventilation and how inhalation and exhalation are achieved through movements of the rib cage and diaphragm.

Uploaded by

jokes Nerd
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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7 Gas exchange in humans

7.1 The human breathing system

1 The human breathing system ĩ␤⏠䲣䴙Ī consists of the respiratory tract ( ) and
structures that aid breathing:

nasal cavity ( 滣僼) pharynx ( ⑥)

nostril ( 滣⫼) epiglottis ( 㚫⍕)


larynx ( )
bronchiole (  )
intercostal muscle trachea (  )
(  )

rib ( )

air sac ()


bronchus
inner pleural
(  )
membrane ( )
lung ( )
outer pleural
membrane ( )
pleural cavity () diaphragm

( )

2 The path of air flowing through the respiratory tract into the lungs:

nasal cavity pharynx larynx trachea

bronchus bronchiole (in lungs) air sac (in lungs)

New Senior Secondary Mastering Biology  Oxford University Press 2014


(Second Edition) -1-
3 Features of nostrils and the nasal cavity to keep the incoming air clean, moist and warm:

Feature Function

In the nostrils - Hairs - Filter large dust particles

In the lining - Mucus-secreting - Secrete mucus  ġto trap dust particles and bacteria


of nasal cells   - The mucus also moistens the incoming air


cavity - Ciliated epithelial - Their cilia  beat to sweep the mucus towards the
cells   pharynx
- Capillaries - Blood in capillaries warms the incoming air

7.2 Gas exchange in the air sacs


1 Gas exchange between the air in the air sac and the blood in the capillary:
deoxygenated blood ( 仢㯏埨)
from pulmonary artery ( ≽傰)
red blood cell

1 Oxygen is inhaled.
3 Oxygen 3 Carbon dioxide
diffuses into 2 Oxygen dissolves
is exhaled.
the red blood in the water film.
cells.

2 Carbon dioxide
epithelium ( )
diffuses into
(one-cell thick)
the air sac.
water film

1 Carbon dioxide
diffuses out from
oxygenated blood ( ) to
the capillary.
pulmonary veins ( )
2 Adaptive features of air sacs for gas exchange:

Feature of air sacs Adaptation for gas exchange

Large in number Provides a large surface area for diffusion

Thin walls (one-cell thick epithelium) Reduce the diffusion distance

Moist inner surfaces Allow gases to dissolve in water film for diffusion

Richly supplied with capillaries A steep concentration gradient can be maintained for
diffusion

Lying close to capillaries Reduces the diffusion distance

New Senior Secondary Mastering Biology  Oxford University Press 2014


(Second Edition) -2-
3 Exhaled air contains less oxygen and more carbon dioxide than inhaled air. Exhaled air is
also saturated with water vapour and is warmer than inhaled air.

7.3 Transport of respiratory gases


1 Adaptive features of red blood cells for carrying oxygen:

Feature of red blood cells Adaptation for carrying oxygen

Fully packed with haemoglobin - Allows the red blood cells to carry a large amount of
 oxygen

Biconcave disc shape  - Provides a large surface area to volume ratio for
the diffusion of oxygen
- Provides a short distance for the diffusion of oxygen

No nucleus when mature - Provides more room for holding haemoglobin

2 The transport of oxygen:


a) In lungs (high oxygen concentration) b) In body tissue (low oxygen concentration)
inhaled air

body cell

oxygen
air sac

capillary
haemoglobin + oxygen oxyhaemoglobin oxyhaemoglobin haemoglobin + oxygen

red blood cell blood flow direction

3 The transport of carbon dioxide:

a) In body tissue (high carbon dioxide concentration) b) In lungs (low carbon dioxide concentration)
exhaled
body cell

CO2
air sac

enzyme 炼 炼 炼 炼
HCO3 + H enzyme CO2 + H2O
+ +
capillary CO2 + H2O H + HCO3 HCO3 HCO3
plasma
red blood cell blood flow direction

New Senior Secondary Mastering Biology  Oxford University Press 2014


(Second Edition) -3-
7.4 Ventilation

1 Ventilationġġ involves inhalation  and exhalation  . It is brought about by the
movements of the rib cage and the diaphragm:

Inhalation Exhalation

Intercostal muscles Contract Relax

Rib cage Moves upwards and outwards Moves downwards and inwards

Diaphragm muscles Contract Relax

Diaphragm Becomes flattened Recoils   to dome shape

Volume of thoracic Increases Decreases


cavity

Air pressure in the Becomes lower than atmospheric Becomes higher than atmospheric
lungs pressure pressure

Air flow Rushes into the lungs Forced out of the lungs

2 The change in volume of lungs during inhalation and exhalation:


volume of lungs

inhalation exhalation inhalation exhalation

time (s)
0 2 4 6 8

3 The change in air pressure in the lungs during inhalation and exhalation:
air pressure
in the lungs

inhalation exhalation inhalation exhalation

atmospheric
pressure

time (s)
0 2 4 6 8

New Senior Secondary Mastering Biology  Oxford University Press 2014


(Second Edition) -4-

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