Exchange and Transport Systems-Topic 3A

Question 1

Why do all aerobic organisms require a constant supply of oxygen?

Answer 1

To release energy in the form of ATP.

Question 2

What is another word for breathing?

Answer 2

Ventilation

Question 3

What is another word for inhalation and exhalation

Answer 3

inspiration and expiration

Question 4

Name the 3 muscles responsible for movement in the lungs

Answer 4

Diaphragm
Internal intercostal muscles
External intercostal muscles

Question 5

What do organisms need to exchange substances with?

Answer 5

Their environment

Question 6

Cells need to take in …… and ……..

Answer 6

Cells need to take in oxygen ( for aerobic respiration) and nutrients.

Question 7

Cells need to excrete … …. like ….. and ……

Answer 7

Cells need to excrete waste products like carbon dioxide and urea

Question 8

Most organisms need to stay roughly the same …………. so ….. needs to be exchanged too

Answer 8

Most organisms need to stay roughly the same temperature so heat needs to be exchanged too.

Question 9

Will bigger or smaller animals have a higher surface area to volume ratio?

Answer 9

Smaller animals have a higher SA:V ratio.

Question 10

What does an organism need to supply to every one of its cells for respiration?

Answer 10

Glucose and oxygen.

Question 11

Why do organisms need to remove waste products?

Answer 11

To avoid damaging itself

Question 12

In what type of organism can substances diffuse directly into or out of the cell?

Answer 12

Single-celled organisms

Question 13

Why is diffusion across the outer membrane too slow?

Answer 13

Some cells are deep within the body so there’s a big difference between them and outside environment
Low SA:V ratio so cannot exchange enough substances to supply a large volume of animal through small outer surface

Question 14

What is mass transport?

Answer 14

A system to carry substances to and from their individual cells

Question 15

Give examples of behavioural and physiological adaptations

Answer 15

Hippos spend lots of time in the water to help them lose heat
Smaller animals have thick fur or hibernate when weather gets cold.

Question 16

If an animal is more compact what does this mean surrounding its adaptations?

Answer 16

minimising heat loss e.g. through small ears.

Question 17

Why does a small mammal need a relatively high metabolic rate compared to a large mammal?

Answer 17

bigger sa:v ratio so heat lost more easily so higher metabolic rate to generate enough heat to maintain a constant body temperature

Question 18

what are the specialised surfaces mammals evolved to ensure efficient gas exchange?

Answer 18

Lungs

Question 19

How can the ribs be moved?

Answer 19

By the muscles between them

Question 20

What are the lungs?

Answer 20

Specialised organs for gas exchange made of bronchioles and alveoli

Question 21

What is the trachea?

Answer 21

Flexible airways supported by rings of cartilage (windpipe)

Question 22

What are bronchi?

Answer 22

Two divisions of the trachea each leading to 1 lung. They produce mucus to trap dirt.

Question 23

What are bronchioles?

Answer 23

Smaller tubes of the bronchi. They control the flow of air into and out of alveoli

Question 24

What are alveoli?

Answer 24

small “air sacs” where gases are exchanged.

Question 25

In humans gas exchange happens in the…….

Answer 25

Alveoli

Question 26

How are the alveoli adapted for gas exchange?

Answer 26

Thin exchange surface (one cell thick) resulting in short diffusion pathway
A large surface area- due to large number of alveoli.
Also a steep conc grad of oxygen and carbon dioxide between alveoli and capillaries

Question 27

What are bronchioles?

Answer 27

Smaller tubes of the bronchi. They control the flow of air into and out of alveoli

Question 28

What are alveoli?

Answer 28

small “air sacs” where gases are exchanged.

Question 29

In humans gas exchange happens in the…….

Answer 29

Alveoli

Question 30

How are the alveoli adapted for gas exchange?

Answer 30

Thin exchange surface (one cell thick) resulting in short diffusion pathway
A large surface area- due to large number of alveoli.
Also a steep conc grad of oxygen and carbon dioxide between alveoli and capillaries

Question 31

Why would the specialised exchange surfaces often be found inside an organism?

Answer 31

They are thin for increased diffusion rate however this means they will easily break so are inside organisms for protection.

Question 32

What have insects evolved for gas exchange?

Answer 32

An internal network of tubes called tracheae which divide into tracheoles.

Question 33

What does gas enter and leave via in insects?

Answer 33

Pores called spiracles

Question 34

Spiracles are usually …… to prevent …….

Answer 34

Spiracles are usually closed to prevent water loss.

Question 35

How does gas exchange in single celled organisms work?

Answer 35

They have a large SA:V ratio and oxygen absorbed by diffusion across their body surface (cell surface membrane)

Question 36

What is the use of gill lamellae?

Answer 36

To increase the surface area of the gills.

Question 37

What is countercurrent flow?

Answer 37

Blood and water flow over the gill lamellae in opposite directions therefore maintaining a constant diffusion gradient

Question 38

What is parallel flow?

Answer 38

The flow of blood and water over the gill lamellae is in the same direction therefore a diffusion gradient is only maintained across part of the length of gill lamellae

Question 39

How is countercurrent flow more efficient than parallel flow?

Answer 39

As 80% of oxygen available is absorbed compared to 50% of the oxygen available absorbed

Question 40

A student produced sucrose solutions with different concentrations from a concentrated solution. Name the method she would have used to produce these sucrose solutions.

Answer 40

Dilution series.

Question 41

Explain advantages of lipid droplets

Answer 41

Lipid droplets increase surface areas for lipase action.

Makes hydrolysis faster.

Question 42

Name 3 features that increase the rate of diffusion

Answer 42

Large surface area.
Thin (short diffusion pathway)
Maintaining a steep concentration gradient.

Question 43

Blood enters the lamella with ….. oxygen conc and leaves with ….. oxygen conc

Answer 43

Blood enters the lamella with a low O2 conc and leaves with a high O2 conc.

Question 44

Name 3 ways which insects minimise water loss

Answer 44

close their spiracles
waterproof waxy cuticle all over their body
tiny hairs around spiracles reducing evaporation.

Question 45

what is a xerophyte?

Answer 45

a plant specially adapted for life in warm,dry or windy habitats.

Question 46

give examples of adaptations some plants have to conquer heat loss

Answer 46

Hairs on epidermis (to trap moist air)
Stomata sunk in pits to trap moist air which reduces the conc of water between leaf and air.
Curled leaves with stomata inside
Reduced number of stomata
Waxy, waterproof cuticles.

Question 47

Describe a method you could use to find the surface area of a leaf

Answer 47

Draw around leaf on graph paper
Count squares
Multiply by 2 (for upper and lower leaf surface)

Question 48

What is the function of the coronary arteries?

Answer 48

To carry oxygen to the heart muscle.

Question 49

The rise and fall in blood pressure in the aorta is greater than in the small arteries. Suggest why.

Answer 49

Aorta pressure is higher, has elastic tissue for stretch and recoil.