B3.1

Question 1

Define:

Gas Exchange

Answer 1

Process of absorbing one gas from the environment and releasing another.

☆ All organisms do it.
☆ Large SA and shortened distance (to diffuse across) are needed for effective gas exchange.

Question 2

Define:

Diffusion

Answer 2

(Net) Flow of matter from a region of high concentration to a region of low concentration.

☆ Molecules move randomly, therefore diffusion is a relatively slow process.

Question 3

How Does Diffusion in Small Organisms Occur?

Answer 3

Small Organisms have:
* Large SA to V Ratio
* Small Internal Distance

Therefore, Gas Exchange is via Outer Surface.

Question 4

How Does Diffusion in Large Organisms Occur?

Answer 4

Large Organisms have:
* Small SA to V Ratio
* Large Internal Distance

Therefore, Gas Exchange via Specialized Gas-Exchange Surfaces.

Question 5

List:

Gas-Exchange Surface Properties

Answer 5

• Permeable: O and CO2 can diffuse across easily.
• Large: Total SA is large in relation to the V of the organism.
• Moist: Covered by film of moisture (in terrestrial organisms) so gases can dissolve.
• Thin: Shortened distance, mostly one-cell thick.

Question 6

Define:

Concentration Gradient

Answer 6

Gradual change in concentration of a substance within a particular region.

☆ Needed for diffusion.

Question 7

How Does Diffusion Affect Concentration Gradients?

Answer 7

Diffusion evens out concentration gradients, which could slow and then stop gas exchange. Therefore, concentration gradients must be maintained.

Question 8

Describe:

Diffusion in Alveoli

Answer 8

• O diffuses from air in the alveoli to the adjacent capillaries because the O concentration of blood in the capillaries is lower than in air.
• CO2 diffuses from the blood to air in the alveoli because the CO2 concentration is lower in air.

Question 9

For small, aerobically respiring organisms that use their outer surface for gas exchange:

Answer 9

Cell respiration maintains concentration gradients, as it continually uses O and produces CO2.

Question 10

For large organisms such as fish or mammals:

Answer 10

Blood flows continuously through dense capillary networks in organs specialized for gas exchange. Aerobic respiration causes the blood to have a low O concentration and high CO2 concentration.

Question 11

Define:

Ventilation

Answer 11

Movement of air in and out of lungs; Movement of water across gills.

☆ Maintains concentration gradients.

Question 12

Describe:

Ventilation in Mammals

Answer 12

Periodically expel air from alveoli by exhaling, then replace it by inhaling air. As a result:
* Prevents O concentration from dropping too low for diffusion from air to blood.
* Prevents CO2 concentration from rising too high for diffusion from blood to air.

☆ Rate of ventilation adjusted according to CO2 concentration of blood.

Question 13

Describe:

Air Travel in Lungs

Answer 13

Trachea → Bronchus → Bronchiole → Alveolar Duct → Alveoli