Exchange and Transport

Question 1

How are single celled organisms adapted for gas exchange?

Answer 1

Single celled organisms have a high surface area to volume ratio for the exchange of substances to occur via simple diffusion

Question 2

What are adaptations of gas exchange surfaces?

Answer 2

• a large surface area
• short diffusion pathway/ distance
• maintanice of a concentration gradient

Question 3

What is a spiracle?

Answer 3

It’s an opening in the exoskeleton of an insect that has valves
It allows air to enter the insect and flow into the system of trachea - most of the time, the spiracles are closed to reduce water loss

Question 3

What are trachea?

Answer 3

They are tubes within the insects’ breathing system, which leads to the teacheoles

Question 4

How does gas exchange happen in insects?

Answer 4

A large number of tracheoles run between cells and into muscle fibres - the site of gas exchange

Question 5

How is a diffusion gradient maintained?

Answer 5

A concentration gradient is created as oxygen is used by respiring tissue, allowing more to move in by the spiracles by diffusion

Question 6

What happens for very active insects that need a more rapid supply of oxygen?

Answer 6

They create mass flow of air into the tracheal system:
- closing the spiracles
- using muscles to create a pumping movement for ventilation

Question 7

What is the function that lactate plays during flight?

Answer 7

Lactate lowers water potential in the respiring muscle, which causes water to move into the muscles via osmosis, which allows gases to diffuse across more quickly

Question 7

What is the structure of fish gills?

Answer 7

Series of gills on each side of the head, each gill arch is attached to two stacks of filaments. On the surface of each filament, there are rows of lamelle. The lmaelle surface consists of a single layer of flattened cells that cover a vast network of capillaries

Question 8

What are the mechanisms of fish gills?

Answer 8

The capillary system within the lamelle ensures that the blood flow is in the opposite direction to the flow of water. It’s a counter-current system. The counter-current system ensures the concentration gradient is maintained along the whole length of the capillary. Twh water with the lowest oxygen concentration is found adjacent to the most deoxygenated blood

Question 9

What is the structure of a leaf?

Answer 9

Waxy (waterproof) cuticle
Upper epidermis - layer of tightly packed cells
Palisade myseophyll layer - layer of elongated cells containing chloroplasts
Spongy mysophyll layer - layer of cells that contain an extensive network of air spaces
Stomata - press on the underside of the leaf, which allows air to enter
Guard cells - pairs of cells that control the opening and closing of the stomata
Lower epidermis - layer of tightly packed cells

Question 10

What are the mechanisms for leaves of a dictyledonous plant?

Answer 10

• when guard cells are turgid, the stoma remains open, allowing air to enter the leaf
• the air spaces within the spongy mysophyll layer allow carbon dioxide to diffuse rapidly across into cells
• the carbon dioxide is quickly used up in photosynthesis by cells containing chloroplast - maintaining the concentration gradient
• no active ventilation required as the thiness of the plant tissues and the pressure of stomata helps to create a short diffusion pathway

Question 11

Description of the trachea:

Answer 11

That airway that leads from the mouth to the nose to the bronchi. The trachea is lined with mucas - secreating goblet cells and cilla. The cilla sweep microorganisms and dust away from the lungs

Question 11

Description of the lungs:

Answer 11

Humans have two lungs, both of which are a central part of the respiratory system and where gas exchange takes place

Question 12

Description of the bronchi:

Answer 12

Bronchi is plural of bronchus. The left and right bronchi are at the bottom of the trachea and are similar in structure but narrower. The bronchi lead to bronchioles

Question 12

Description of the bronchioles:

Answer 12

These are narrow tubes that carry air from the bronchi to the alveoli. As they are so narrow, they have no supporting cartilage and so can collapse

Question 13

Description of the alveoli:

Answer 13

The main site of gas exchange in the lungs. These are tiny sacs with many structural adaptations to enable efficient gas exchange, such as their thin walls and large surface area to volume ratio

Question 13

Description of the capillary network:

Answer 13

An extensive network of capillaries surrounds the alveoli and is an exchange surface between the lungs and the blood. During gas exchange, oxygen diffuses from the alveoli and into the capillaries, while carbon dioxide diffuses the other way and exhaled

Question 14

Gas exchange tissues:

Answer 14

Cartilage is a strong and flexible tissue found along the tracheal rings
Ciliated epithelium found along the trachea down to the bronchi small projections of cilla, which sweep the mucas, dust, and bacteria upwards away from the lungs and epithelium
Goblet cells can be found scattered throughout the ciliated epithelium in the trachea
The alveoli have a lining of thin and sauamous epithelium that allows for gas exchange
Smooth muscle can be found throughout the walls of the bronchi and bronchioles, which helps regulate the flow of air
Each alveolus is surrounded by an extensive network of capillaries