Energy Metabolism

Question 1

What are the 3 types of energy?

Answer 1

• Potential
• Kinetic
• Chemical

Question 2

Where does energy come from?

Answer 2

Sun

Question 3

How is energy derived from the sun?

Answer 3

• Plants photosynthesise sun’s energy (chlorophyll absorbs energy, synthesises H2O & CO2)
• Animals feed on these plants or other animals that have eaten the plant

Question 4

Why do animals need energy?

Answer 4

• Maintenance
• Growth & synthesis
• Activity

Question 5

What are the 3 main chemical molecules that break down to produce energy?

Answer 5

• Carbohydrates
• Fatty acids
• Proteins

Question 6

What happens to the 3 main molecules to produce energy?

Answer 6

• They are oxidised (kreb’s cycle & electron transport chain)
• Produces H2O, CO2, heat & chemical energy in the form of high energy phosphate bonds in ATP

Question 7

What is ATP? What is it made up of?

Answer 7

• Adenosine triphosphote
• Source of energy for use & storage at the cellular level
• Adenine base, ribose sugar & 3 bonded phosphate groups

Question 8

What is energy metabolism?

Answer 8

The overall use of ATP by an animal

Question 9

What is metabolic rate?

Answer 9

Amount of energy used per unit time

Question 10

What is energy measured in?

Answer 10

Joules (J) or kilojoules (kJ)

Question 11

What is power measured in?

Answer 11

Watts

Question 12

What is the basal metabolic rate?

Answer 12

The lowest level of metabolic rate of an animal at rest in a post-absorptive state within its thermal neutral zone (can’t be using energy to generate heat)

Question 13

What doesn’t rely on the sun for energy?

Answer 13

• Chemoautotrophic bacteria & algae
• Hydrothermal vent organisms

Question 14

How do hydrothermal vents & chemoautotrophicbacteria/algae obtain energy?

Answer 14

• Oxidation of inorganic compounds
• Animals that eat these compounds

Question 15

What are ectotherms?

Answer 15

Organisms that depend on external sources for temperature regulation

Question 16

What are the 3 main ways of measuring energy metabolism?

Answer 16

• Direct calorimetry
• Indirect calorimetry
• Doubly labelled water

Question 17

What is direct colorometry?

Answer 17

Measures heat production

Question 18

What is indirect colorometry?

Answer 18

Measures gas exchange: oxygen consumption & carbon dioxide production

Question 19

Why is it useful to use oxygen consumption to measure metabolic rate?

Answer 19

Litre of O2 consumed is the same irrespective of the substrate oxidised (i.e. carb/protein/fat etc)

Question 20

What is the disadvantage of using Carbon dioxide as a measure of metabolic rate?

Answer 20

• Large amounts of CO2 stored in blood as bicarbonate
• During anaerobic metabolism, lactic acid in blood flushes CO2 into lungs, where it exhaled
• Not reliable if doing a single measurement as different breathing styles affect how much CO2 is exhaled

Question 21

What can be used to measure field metabolic rates?

Answer 21

Doubly-labelled water (dlw)
Animals are injected, released & recaptured to analyse blood

Question 22

What 3 main factors affect rate of energy metabolism?

Answer 22

• Climate (temperature)
• Body size
• Activity

Question 23

Describe the relationship between energy expenditure & size of an animal

Answer 23

Total energy expenditure increases as size of animal increases

Question 24

How are relative metabolic rates measured?

Answer 24

• Mass-specific oxygen consumption (oxygen consumed per unit body mass)

Question 25

What is doubly-labelled water?

Answer 25

• Uses D2 18O to measure field metabolic rates
• animals injected with DLW, released, recaptured+ blood analysed
• The difference in elimination rates of isotopes is a measure of carbon dioxide production

Question 26

What is the mouse-to-elephant curve?

Answer 26

Larger animals consume less oxygen per gram body mass than smaller animals

Question 27

Why do smaller mammals need to eat their own body weight?

Answer 27

Consume oxygen at a much faster rate
Example of scaling

Question 28

Describe what is meant by the following equation:

M = aW b

Answer 28

M= metabolic rate
W= animal’s mass
a= constant
b= slope of line (increase in metabolic rate per unit increase in mass)
Relationship between metabolic rate & body mass

Question 29

Why do small mammals have higher mass-specific metabolic rates than large mammals?

Answer 29

• Small mammals have a high SA:V
• Need to produce more heat to compensate for heat loss

Question 30

What is the kleiber relationship?

Answer 30

Relationship between mass & metabolic rate of 0.75

Question 31

What are the products of oxidation of food?

Answer 31

CO2, H2O, energy & heat

Question 32

Why is fat such a useful energy store?

Answer 32

Because it has a high energy yield (39kJ/g)