Communication and homeostasis

Question 1

What conditions need to be maintained inside cells ?

Answer 1

• temperature
• pH
• aq environment that keeps substrates and products in solution
• freedom from toxins and excess inhibitors

Question 2

Features of a good communication system

Answer 2

• covers the whole body
• enables cells to communicate with each other
• enable specific and rapid communication
• enable both short-term and long-term responses

Question 3

What’s cell signalling?

Answer 3

communication between cells

Question 4

2 major systems of communication that work by cell signalling

Answer 4

• hormonal system
• neuronal system

Question 5

Define homeostasis

Answer 5

MAINTAINING A CONSTANT INTERNAL ENVIRONMENT despite changes in internal or external factors

Question 6

Define negative feedback

Answer 6

MECHANISM that reverses a change, bringing system back to the optimum

Question 7

Define positive feedback

Answer 7

mechanism that increases a change, taking system away from the optimum

Question 8

What’s a sensory receptor?

Answer 8

cells or sensory nerve endings that respond to a stimulus in internal/external environment of organism and creates action potentials

Question 9

aspects maintained by homeostasis

Answer 9

• body temperature
• blood glucose conc
• blood salt conc
• water potential of blood
• blood pressure
• carbon dioxide conc

Question 10

mechanism of homeostasis

Answer 10

stimulus –> receptor (sensory cell) –> cell signalling –> effector–> response

Question 11

Where are thermoreceptors?

Answer 11

• skin
• brain

Question 12

Will conditions remain perfectly constant as a result of negative feedback?

Answer 12

No. there will be fluctuation around the optimum as it may take time to respond and the response may overshoot slightly

Question 13

What’s an endotherm?

Answer 13

organism that uses heat from metabolic reactions to maintain body temperature

Question 14

What’s an ectotherm?

Answer 14

organism that relies on external sources of heat to maintain body temperature

Question 15

How do ectotherms try to absorb more heat when they’re not warm enough?

Answer 15

• move into sunny area
• lie on warm surface
• expose a larger surface area to the sun

Question 16

How do ectotherms avoid gaining more heat when they’re too hot?

Answer 16

• move out of the sun
• move underground
• reduce body surface exposed to the sun

Question 17

Advantages of ectothermy?

Answer 17

• less of their food is used in respiration
• more energy and nutrients from food converted to growth
• need to find less food
• can survive long periods of time without food

Question 18

Disadvantages of ectothermy?

Answer 18

• less active in cooler temperatures so increased risk of predation as they’re unable to escape
• can’t take advantage of food available while they’re cold

Question 19

What’s the hypothalamus?

Answer 19

• the part of the brain that coordinates homeostatic responses
• detects change in core temperature

Question 20

What are exergonic reactions?

Answer 20

those that release energy in the form of heat

Question 21

How does the skin respond when the body is too hot?

Answer 21

• vasodilation of capillaries directs blood to skin surface so more heat radiated from body
• sweat released, heat from blood used to evaporate it.
• hairs and feathers lie flat to reduce insulation and allow greater heat loss

Question 22

How does the skin respond when the body is too cold?

Answer 22

• vasoconstriction of capillaries, blood diverted away from skin surface, less heat is lost
• less sweat secreted, less evaporation, less heat loss
• hairs and feathers stand erect to trap air, which insulates body

Question 23

How does the gaseous exchange system respond when body is too hot?

Answer 23

• panting increases evaporation of water from surface of lungs and airways using heat from blood.

Question 24

How does the gaseous exchange system respond when body is too cold?

Answer 24

• less panting so less heat lost.

Question 25

How does the liver respond when the body is too hot?

Answer 25

• less respiration, less heat released

Question 26

How does the liver respond when the body is too cold?

Answer 26

• increased respiration in hepatocytes, more energy from food converted to heat

Question 27

How do skeletal muscles respond when the body is too hot?

Answer 27

• fewer contractions so less heat released

Question 28

How do skeletal muscles respond when the body is too cold?

Answer 28

• shivering, releasing heat

Question 29

How do blood vessels respond when the body is too hot?

Answer 29

dilation to direct blood to extremities so more heat lost

Question 30

How do blood vessels respond when the body is too cold?

Answer 30

constriction to limit blood flow to extremities so blood is not cooled to much, may lead to frostbite in extreme cases

Question 31

behaviours of endotherms if they’re too hot?

Answer 31

• hide away from sun in the shade
• orientate body to reduce SA exposed to sun
• remain inactive and spread limbs for greater heat loss
• wet skin to use evaporation to cool body

Question 32

behaviours of endotherms if they’re too cold?

Answer 32

• lie in the sun
• orientate body towards sun to increase SA exposed
• become active to generate heat in muscles
• remain dry

Question 33

Advantages of endothermy

Answer 33

• maintain fairly constant body temp regardless of external temperature
• remain active even at low temps so can escape from predators and hunt
• INHABIT COLDER PARTS OF THE PLANET

Question 34

Disadvantages of endothermy

Answer 34

• use a lot of energy intake to maintain body temp in the cold so a lower proportion of energy and nutrients used for growth
• need more food
• overheat in hot weather

Question 35

How is the control of temperature regulated?

Answer 35

• temperature receptors (thermoregulatory centre) in hypothalamus detect change
• hypothalamus sends impulses. Output can be transmitted by the neuronal system for quick responses or hormonal system for longer term responses

Question 36

What does the hypothalamus cause when body temperature is too low?

Answer 36

• changes to skin to reduce heat loss (vasoconstriction)
• release of heat through extra muscle contraction
• increased metabolism to release more energy from exergonic reactions

Question 37

What’s the role of peripheral temperature receptors?

Answer 37

• peripheral temperature receptors in skin monitor temperature in extremities
• info fed to the thermoregulatory centre in hypothalamus
• brain initiates behavioural mechanisms to maintain body temp (move into shade)