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Gas Exchange

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Title: Gas Exchange


1
Gas Exchange
  • IB Biology

2
6.4.1 Ventilation, gas exchange and cell
respiration.
  • 1. Ventilation
  • The flow of air in and out of the alveoli is
    called ventilation and has two stages
    inspiration (or inhalation) and expiration (or
    exhalation).
  • Lungs are not muscular and cannot ventilate
    themselves, but instead the whole thorax moves
    and changes size, due to the action of two sets
    of muscles the intercostal muscles and the
    diaphragm.

3
2. Gas Exchange
  • This is the diffusion of gases (oxygen and carbon
    dioxide)
  • There are two sites for gas exchange
  • (a)Alveoli Oxygen diffuses into the blood from
    the alveoli and carbon dioxide diffuses from the
    blood into the alveoli
  • (b)Tissues Oxygen diffuses from blood into the
    cells and carbon dioxide diffuses from cells to
    the blood

4
3. Cell Respiration
  • Aerobic respiration uses oxygen in the
    mitochondria and produces carbon dioxide
  • Anaerobic respiration does not use oxygen but
    still produces carbon dioxide

5
6.4.2 The need for a ventilation system.
  • A ventilation system is needed to maintain
    concentration gradients in the alveoli
  • The steep concentration gradient across the
    respiratory surface is maintained in two ways by
    blood flow on one side and by air flow on the
    other side. The ventilation system replaces
    diffuses oxygen (keeping the concentration high)
    and removes carbon dioxide (keeping the
    concentration low).
  • This means oxygen can always diffuse down its
    concentration gradient from the air to the blood,
    while at the same time carbon dioxide can diffuse
    down its concentration gradient from the blood to
    the air.

6
6.4.3 Features of the alveoli.
  • Large surface area due to the combined spherical
    shape (600 million alveoli 80 m2)
  • Flattened epithelial cells of alveoli and close
    association with capillaries
  • Short diffusion distance from alveoli to blood
    (0.5-1.0 um)
  • Dense capillary network
  • Moist surface for the solution of gases

7
6.4.4 Structure of the ventilation system.
  • (a) Trachea
  • (b) Cartilage ring support
  • (c) Bronchi (plural) Bronchus (single)
  • (d) Lung
  • (e) Heart
  • (f) Sternum
  • (g) Rib cage
  • (h) Bronchioles (j) Alveoli (k) Diaphragm

8
6.4.5 Mechanism of ventilation.
  • The diaphragm contracts and flattens downwards.
  • The external intercostal muscles contract,
    pulling the ribs up and out
  • this increases the volume of the thorax this
    increases the lung and alveoli volume
  • this decreases the pressure of air in the alveoli
    below atmospheric (Boyle's law)air flows in to
    equalise the pressure

9
Ventilation, contd
  • The diaphragm relaxes and curves upwards
  • the external intercostal muscles relax, allowing
    the ribs to fall
  • this decreases the volume of the thorax
  • this decreases the lung and alveoli volume
  • this increases the pressure of air in the alveoli
    above atmospheric (Boyle's law)air flows out to
    equalise the pressure.
  • The abdominal muscles contract, pushing the
    diaphragm upwards
  • The internal intercostal muscles contract,
    pulling the ribs downward
  • This gives a larger and faster expiration, used
    in exercise
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