Section 6: Stimuli and responses

Question 1

What is a stimulus?

Answer 1

• Detectable change in the internal/external environment of an organism that leads to a response

Question 2

What is a receptor?

Answer 2

• Detects stimulus, specific to 1 stimulus

Question 3

What is a co-ordinator?

Answer 3

• Formulates a suitable response to a stimulus

Question 4

What is an effector?

Answer 4

• Produces response to a stimulus.
• E.g muscle/gland

Question 5

What are the steps in a reflex arc?

Answer 5

• Stimulus - receptor - sensory neurone - co-ordinator - CNS/ Relay Neurone - motor neurone - effector - response

Question 6

What is the importance of a reflex arc?

Answer 6

• Rapid because only 3 neurones and few synapses
• Autonomic does not involve passage to the brain - does not have to be learnt
• Protect from harmful stimuli e.g escape from predators/ prevents damage to the body/tissues

Question 7

What is Taxes?

Answer 7

• Directional response by a simple mobile organism towards a stimulus (positive taxis) or away from a stimulus (negative taxis)

Question 8

What is Kinesis?

Answer 8

• Non-directional responses by simple mobile organism who change the speed of movement or the rate of direction change in response to a non-directional stimulus

Question 9

What is tropism and what is positive and negative tropism?

Answer 9

• Tropism - growth of a part of a plant in response to a directional stimulus
• Positive tropism - growth towards a stimulus
• Negative tropism - growth away from a stimulus

Question 10

What are growth factors?

Answer 10

• Move from growing regions e.g shoot tips/ leaves where they are produced to other tissues where they regulate growth in response to directional stimulus e.g auxins

Question 11

What does IAA do in roots and shoots?

Answer 11

• In roots, IAA inhibits cell elongation
• In shoots IAA promotes cell elongation

Question 12

How IAA promotes phototropism in shoots?

Answer 12

• Cells in tip of shoot produce IAA - transported down shoot
• IAA concentrates on shaded side
• Promotes cell elongation
• Shoot bend towards light

Question 13

How IAA results in gravitropism in roots?

Answer 13

• Cells in tips of shoot produce IAA - transported down shoot
• IAA concentration increases on the lower side of the root
• Inhibits cell elongation
• Root curves downwards towards gravity

Question 14

How is a generator potential produced?

Answer 14

• Mechanical stimulus e.g pressure deforms lamellae and stretch-mediated sodium ion channel
• Sodium ion channels open and sodium ions diffuse into the sensory neurone
• Greater pressure causes more channels to open and more sodium ions to enter
• Causes depolarisation, leading to a generator potential - if Generator potential reaches threshold it triggers an action potential.

Question 15

What does the Pacinian Corpuscle illustrate?

Answer 15

• Receptors only respond only to a specific stimulus (pressure)
• Stimulation of a receptor leads to establishment of a generator potential. When threshold is reached an action potential sent (all or nothing principle)

Question 16

What are some of the differences between rod and cone cells?

Answer 16

• Rods - more at periphery end . Cones - concentrated at fovea
• Rods - 1 type of rod containing 1 pigment. Cones - 3 types of cones containing different pigments
• Rods - connect in groups to 1 bipolar neurone. Cones - 1 cone joins 1 neurone
• Rods - Very sensitive to light. Cones - less sensitive to light
• Rods - Low visual acuity. Cones - high visual acuity
• Rods - Black and white (monochromatic). Cones - Colour (trichromatic)

Question 17

Why are rods more sensitive to light?

Answer 17

• Rods connected in groups to 1 bipolar neurone
• Spatial summation
• Stimulation of each individual cell connected in groups means threshold is more likely met

Question 18

Why do cones have a higher visual acuity?

Answer 18

• 1 cone joins to 1 neurone
• If 2 adjacent cone cells are stimulated, brain receives separate impulses

Question 19

Why do rods have a lower visual acuity

Answer 19

• Rods connected in groups to 1 bipolar neurone
• Spatial summation
• Many neurones only generate 1 impulse/ action potential, regardless of how many neurones stimulated

Question 20

How does cones allow for colour vision?

Answer 20

• 3 types of cones
• With different optical pigments that absorb different wavelengths
• Stimulation of different combinations gives a range of colour perception

Question 21

How is the heart stimulated

Answer 21

• SAN sends out regular waves of electrical activity across both atria
  
  • Causing right/left atria to contract simultaneously. Non-conducting tissue prevents wave crossing directly to ventricles
• Waves of electrical activity reaches AVN which delays impulse, allowing atria to fully contract and empty
• AVN passes wave of electrical activity to Bundle of His which conducts waves between ventricles to the apex of the heart where it branches into smaller fibres - Purkyne fibres

Question 22

Where are the baroreceptors and chemoreceptors located

Answer 22

• In the aorta and carotid arteries

Question 23

What are baroreceptors and chemoreceptors stimulated by

Answer 23

• Baroreceptors are stimulated by high/low blood pressure
• Chemoreceptors are stimulated by blood pH, CO2 conc, O2 conc

Question 24

What happens when there is a low BP

Answer 24

• Baroreceptors detect the low blood pressure
• More frequent impulses to the medulla
• More frequent impulses sent to SAN along sympathetic neurone
• Cardiac muscle contracts more frequently so heart rate increases

Question 25

What happens when there is high blood pressure

Answer 25

• Baroreceptors detect the high blood pressure
• More frequent impulses to medulla.
• More frequent impulses sent to SAN along parasympathetic neurone
• Less frequent impulses sent from SAN. Cardiac muscle contracts less frequently so heart rate decreases

Question 26

What happens when there is a high blood carbon dioxide concentration/ low pH

Answer 26

• Chemoreceptors detect the high carbon dioxide concentration
• More frequent impulses are sent to SAN along sympathetic neurone
• More frequent impulses sent to SAN - cardiac muscle contracts more frequently so heart rate increases

Question 27

What happens when there is a low blood carbon dioxide concentration?

Answer 27

• Chemoreceptors detect low blood CO2
• More frequent impulses sent to medulla
• More frequent impulses sent to SAN along parasympathetic neurone
• Less frequent impulses sent from SAN - cardiac muscle contracts less frequently - heart rate decreases.

Question 28

EXAM QUESTION: Increased intensity of exercise leads to an increased heart rate. Explain why (3)

Answer 28

• Oxygen/carbon dioxide detected by chemoreceptors/ pressure detected by baroreceptors
• Medulla/ cardiac centre involved
• More impulses to SAN/ along sympathetic nerve

Question 29

Why do cones have a higher visual acuity?

Answer 29

• 1 cone joins to 1 neurone
• If 2 adjacent cone cells are stimulated, brain receives separate impulses