Transport In Animals

Question 1

What is the function of the circulatory system ?

Answer 1

To transport substances around the body

Question 2

What are the three things that the circulatory system requires ?

Answer 2

• a liquid to transport substances in - the blood
• A pump to move the liquid - the heart
• A series of pipes to direct the liquid on me that efficiently-the blood vessels

Question 3

What are the two circulatory system ?

Answer 3

• pulmonary circulation

* systemic circulation

Question 4

What is the pulmonary circulation ?

Answer 4

Blood returning from the body, deoxygenated, is pumped to the lungs where oxygen is gained and carbon dioxide is lost, and then returned to the heart

Question 5

What is the systemic circulation ?

Answer 5

Blood that is oxygenated and pumped around the rest of the body, where the cells absorb oxygen and release carbon dioxide, before being returned to the heart

Question 6

What vessels go to and from the heart ?

Answer 6

The vena cava goes to and the aorta goes from the heart

Question 7

What vessels go to and from the lungs ?

Answer 7

The pulmonary vessels

Question 8

What vessels go to and from the liver ?

Answer 8

The hepatic vessels

Question 9

What vessels go to and from the kidney ?

Answer 9

The renal vessels

Question 10

What does the blood consist of ?

Answer 10

Plasma, platelets and red and white blood cells

Question 11

What is plasma ?

Answer 11

• plasma is a straw coloured liquid made up of mainly water.
Plasma carries the blood cells, it carries dissolved nutrients such as glucose and amino acid’s, dissolve waste products including urea and carbon dioxide, hormones, a wide range of proteins.
• The plasma also distribute heat energy around the body

Question 12

What are platelets and what do they do ?

Answer 12

• they help to form clots, preventing blood loss and infection
• they are small cell fragments

Question 13

What do white blood cells do?

Answer 13

They destroy pathogens

Question 14

Where red blood cells made and what is their function ?

Answer 14

• they are made in the bone marrow and only live 100 days before being destroyed by the liver or spleen
• their function is to transport oxygen

Question 15

What do you red blood cells contain and what does this do ?

Answer 15

• They contain Haemoglobin, this is an iron containing protein which combines with oxygen to form oxyhaemoglobin when there is a high oxygen concentration in the surrounding ( the lungs )
• when the concentration of oxygen decreases (in the respiring tissue), the oxyhaemoglobin releases the oxygen

Question 16

What shape are red blood cells and what does this help ?

Answer 16

• they are biconcave
• this increases the surface area to volume ratio and decreasing the distance from the centre of the cell. This allows for efficient diffusion of oxygen in and out of the cell
• they have no nucleus
• meaning that more haemoglobin can be packed into each cell and so more oxygen can be transported

Question 17

What supplies oxygen, glucose and other molecules to the heart ?

Answer 17

Coronary blood vessel

Question 18

Why does the left ventricle have much thicker muscular walls ?

Answer 18

Because the blood must be pumped at a much higher pressure for it go go around the entire body

Question 19

Describe the pulmonary circulation

Answer 19

• deoxygenated blood enters the right atrium through the superior and inferior Vena cava
• The walls of the atrium contract, increasing the pressure. Blood then flows into the right ventricles through the tricuspid valve
• The ventricle contracts, increasing pressure. The tricuspid valve closes, preventing the flow of blood back into the atria
• The right ventricle continues to contract. The rising pressure forces the semilunar valve to open and blood flows out of the heart through the pulmonary artery
• The pulmonary artery carries the blood that is very low in oxygen to the lungs, where it becomes oxygenated

Question 20

Describe the systemic circulation

Answer 20

• oxygenated blood enters the left atrium via the pulmonary vein
• The walls of the atrium contract, increasing the pressure. Blood flows into the left ventricle through the bicuspid valve
• The left ventricle contracts increasing the pressure. The bicuspid valve closes, preventing the flow of blood back into atrium
• The ventricle continues to contract. The rising pressure forces The semilunar valve to open and blood flows out of the heart through the aorta
• The aorta pumps the blood around the body to muscles that need the oxygen

Question 21

Describe arteries

Answer 21

• they transport blood away from the heart all regions of the body
• blood flows at high pressure
• arteries are able to expand and are not damaged by the high-pressure
• they have elastic muscular walls
• they have small lumen

Question 22

Describe veins

Answer 22

• veins carry blood back to the heart
• at low pressure
• they have large lumen
• they have valves
• they have thin outer walls

Question 23

Describe capillaries

Answer 23

• they carry blood through organs
• walls are a single cell thick
• this means short diffusion distance, speeding up movement of molecules

Question 24

Describe the Effects of exercise

Answer 24

• heart rate and stroke volume must increase to provide more bloodflow to the muscles for respiration
• The increased flow of blood also provides extra glucose and remove excess heat energy as well as the carbon dioxide produced in respiration
• muscles produce more CO2
• blood pressure increases

Question 25

What nerve impulse controls your heart rate ?

Answer 25

A part of your brain called the medulla sends nerve impulses

Question 26

Chain of response to exercise

Answer 26

• The muscles produce more CO2 in aerobic respiration
• sensors in the aorta detect this increase
• they send nerve impulses to the medulla
• then the medulla responds by sending nerve impulses along the accelerator nerve
• The accelerated nerve increases the heart rate and also causes the heart beat with more force and so increases blood pressure
• more blood supply to the muscles to meet the demands of increased aerobic respiration

Question 27

What happens when exercise stops ?

Answer 27

• carbon dioxide production returns to normal and the medulla receives fewer impulses
• this responds by sending nerve impulses along a deceleration nerve
• The decelerator nerve decreases the heart rate and reduces stroke volume
• blood pressure returns to normal