Transport in animals

Question 1

Features of an effective transport system

Answer 1

• fluid to carry nutrients, oxygen and waste around the body (blood)
• exchange surfaces that allow substances to enter and leave blood where its needed (capillaries)
• a pump to create pressure to push fluid around the body (heart)

Question 2

Features of an efficient transport system

Answer 2

• vessels to carry blood by mass flow
• two circuits - one to pick up oxygen and another to deliver it to tissues

Question 3

Describe the single circulation system in fish

Answer 3

• blood flows through heart once for every circuit of the body
• heart —> gills —> body —> heart

Question 4

Describe the double circulation system in mammals

Answer 4

• 2 separate circuits: pulmonary circulation that carries blood to lungs to pick up oxygen and systemic circulation that carries oxygen and nutrients to tissues
• blood flows through heart twice for each circuit of the body
• heart —> body —> heart —> lungs —> heart

Question 5

Disadvantages of single circulatory system in fish

Answer 5

• blood pressure drops as it passes through capillaries in gills
• blood has low pressure blood as it flows towards body, won’t flow quickly
• rate of exchange is limited but fish not as metabolically active as mammals as they don’t regulate their own body temp so need less energy

Question 6

Advantages of double circulatory system

Answer 6

• the heart can increase the pressure of the blood after it has passed through the lungs so blood is under pressure as it flows quickly to the body
• systemic circulation carries blood at a higher pressure than pulmonary.
• faster delivery of oxygen and nutrients (for respiration for energy as they maintain their own body temp) and removal of toxic waste products

Question 7

What are arteries?

Answer 7

vessels that carry blood away from heart

Question 8

What are arterioles?

Answer 8

small blood vessels that distribute blood from artery to capillary

Question 9

What’s a closed circulatory system?

Answer 9

blood held in vessels

Question 10

What’s an open circulatory system?

Answer 10

blood not held in vessels

Question 11

What are veins?

Answer 11

vessels that carry blood back to heart

Question 12

What are venules?

Answer 12

small blood vessels that collect blood from capillary bed and lead into veins

Question 13

Disadvantages of open circulatory systems?

Answer 13

• low bp and slow blood flow
• circulation of blood may be affected by body movements or lack of body movements. When movement stops so does blood flow.

Question 14

Advantages of closed circulatory systems?

Answer 14

• Transport is independent of body movements
• higher bp, faster blood flow
• faster delivery of oxygen and nutrients and removal of carbon dioxide and other wastes

Question 15

order of layers in walls of artery, vein, venule

Answer 15

1) Lumen
2) Endothelium
3) Elastic fibres
4) Smooth muscle
5) Collagen

Question 16

Adaptations of arteries

Answer 16

• thick walls to withstand high bp
• narrow lumen to maintain high bp
• inner wall of lumen folded to allow expansion as blood flow increases
  3 layers:
  1) elastic tissue allows wall to stretch and recoil to maintain bp
  2) middle layer of smooth muscle
  3) outer layer of thick collagen to provide strength to withstand high pressure and recoil to maintain it.

Question 17

adaptation of arterioles

Answer 17

• smooth muscle which can constrict diameter of lumen to divert blood flow to regions demanding more oxygen

Question 18

adaptation of capillaries

Answer 18

• narrow lumen which reduces rate of flow and reduces diffusion distance
• thin walls made of flattened endothelial cells
• leaky walls so plasma and dissolved substances can leave blood

Question 19

adaptation of venule

Answer 19

• thin layers of smooth muscle, elastic tissue and collagen

Question 20

adaptation of veins

Answer 20

• large lumen to ease blood flow
• walls not thick due to low bp
• thinner layers than artery
• they don’t need to stretch and recoil and aren’t actively constricted to reduce blood flow
• valves prevent blood flowing in opposite direction due to low bp
• thin walls can be flattened by action of skeletal muscle.

Question 21

What’s hydrostatic pressure?

Answer 21

pressure that a fluid exerts when pushing against the sides of a vessel or container (pushes fluid out)

Question 22

What’s oncotic pressure?

Answer 22

pressure created by the osmotic effect of solutes (pulls water into)

Question 23

what’s plasma?

Answer 23

fluid portion of blood

Question 24

What’s tissue fluid

Answer 24

fluid surrounding cells and tissues

Question 25

What does plasma contain?

Answer 25

• hormones
• amino acids
• glucose
• minerals
• plasma proteins
• oxygen, carbon dioxide

Question 26

What does tissue fluid contain?

Answer 26

• doesn’t contain most cells or plasma proteins found in blood.

Question 27

How does tissue fluid form?

Answer 27

• at arteriole end, hydrostatic pressure of blood is higher than oncotic pushing fluid out of capillary through gaps in the walls.
• RBCs, platelets and most WBCs remain in blood as they’re too large
• tissue fluid surrounds body cells, exchange of carbon dioxide (into fluid), oxygen (into cells) and nutrients occur.
• ONCOTIC PRESSURE REMAINS THE SAME BUT HYDROSTATIC CAN BE ABOVE OR BELOW IT

Question 28

How does tissue fluid return to blood?

Answer 28

• at venule end, oncotic pressure of blood is higher than hydrostatic so fluid drawn into venule
• ONCOTIC PRESSURE REMAINS THE SAME BUT HYDROSTATIC CAN BE ABOVE OR BELOW IT

Question 29

What happens to tissue that doesn’t re-enter blood

Answer 29

• directed to lymphatic system
• lymphatic system drains excess tissue fluid out of tissues and returns it to blood system in subclavian vein in chest

Question 30

What is fluid in lymphatic system called?

Answer 30

lymph

Question 31

What does lymph contain more of than tissue fluid?

Answer 31

lymphocytes as they’re made in lymph nodes which play an important role in immune response

Question 32

The right side of the heart pumps…

Answer 32

deoxygenated blood to the lungs through pulmonary artery

Question 33

The left side of the heart pumps…

Answer 33

oxygenated blood to rest of body through aorta

Question 34

type of muscle in heart

Answer 34

cardiac muscle

Question 35

What are arteries on surface on heart called?

Answer 35

coronary arteries

Question 36

What happens if coronary arteries are constricted?

Answer 36

• reduced delivery of oxygen and nutrients to cardiac muscle which may cause angina or heart attack

Question 37

What’s the tRicuspid valve also known as?

Answer 37

• Right atrioventricular valve
• tri is right

Question 38

What’s the bicuspid valve also known as ?

Answer 38

left atrioventricular valve

Question 39

Deoxygenated blood comes into heart via…

Answer 39

Superior and inferior vena cava

Question 40

Oxygenated blood comes into heart via…

Answer 40

pulmonary vein

Question 41

which valves are at base of major arteries?

Answer 41

semilunar valves which prevent blood returning to heart after ventricles relax

Question 42

Function of tendinous cords attached to atrio-ventricular valves?

Answer 42

prevent valves turning inside out when ventricle walls contract

Question 43

Why are walls of atria thin?

Answer 43

• don’t need to create much pressure

Question 44

Why are the walls of the right ventricle thicker than atria walls?

Answer 44

• enables pumping of blood out of heart
• if pressure is too high, alveoli damaged

Question 45

Why is left ventricle thicker than right?

Answer 45

• blood pumped needs sufficient pressure to overcome resistance of systemic circulation

Question 46

structure of cardiac muscle

Answer 46

• fibres that branch producing cross-bridges (help squeezing action)
• many mitochondria between myofibrils for energy for contraction
• muscle cells separated by intercalated discs which facilitates synchronised contraction
• each cell is divided into contractile units - sarcomeres

Question 47

State the stages in the heart cycle

Answer 47

1) atrial systole
2) ventricular systole
3) diastole

Question 48

Action of valves

Answer 48

• open if pressure behind them is higher
• close if pressure behind them is lower
• when AVV open after atrial systole, valves remain open and blood flows through atria and into ventricles
• AVV close when atria relax

Question 49

how is cardiac muscle myogenic?

Answer 49

can initiate its own contraction

Question 50

define fibrillation?

Answer 50

uncoordinated contraction of the atria and ventricles