5B - Energy transfer in ecosystems

Question 1

What do plants photosynthesise and produce?

Answer 1

biomass

Question 2

What does an ecosystem include?

Answer 2

All the organisms living in a particular area and all the non-living (abiotic) conditions.

Question 3

What are producers?

Answer 3

Organisms that make their own food.

Question 4

What are organisms that make their own food called?

Answer 4

Producers.

Question 5

Give an example of a producer

Answer 5

Plants and algae

Question 6

Why are plants and algae producers?

Answer 6

Because they produce their own food through photosynthesis.

Question 7

How do producers like plants and algae produce their own food?

Answer 7

Through photosynthesis.

Question 8

How do producers photosynthesise to produce their own food?

Answer 8

During photosynthesis plants use energy (from sunlight) and carbon dioxide (from the atmosphere in land-based ecosystems, or dissolved in water in aquatic ecosystems) to make glucose and other sugars.

Question 9

What happens to the sugars (glucose) produced during photosynthesis?

Answer 9

Some are used in respiration, to release energy for growth.

The rest is used to make other biological molecule, such as cellulose.

Question 10

What do the biological molecules make up?

Answer 10

Biomass.

Question 11

What is biomass?

Answer 11

The total mass of living material in a specific area at a given time.

Question 12

What can biomass also be thought of as?

Answer 12

The chemical energy stored in a plant.

Question 13

How is energy transferred through the living organisms of an ecosystem?

Answer 13

When organisms eat other organisms.

Question 14

What are producers eaten by?

Answer 14

Primary consumers.

Question 15

What are primary consumers eaten by?

Answer 15

Secondary consumers.

Question 16

What are secondary consumers eaten by?

Answer 16

Tertiary consumers.

Question 17

What is a saprobiont?

Answer 17

A decomposer.

Question 18

How can biomass be measured?

Answer 18

As dry mass or by using a calorimeter.

Question 19

What can biomass be measured in terms of?

Answer 19

The mass of carbon that an organism contains or the dry mass of its tissue per unit area.

Question 20

What is dry mass?

Answer 20

The mass of the organism with the water removed.

Question 21

How do you measure dry mass?

Answer 21

A sample of the organism is dried, often in an oven set to a low temperature. The sample is then weighed at regular intervals (e.g. every day). Once the mass becomes constant you know that all the water has been removed.

Question 22

How do you know that you have removed all the water from an organism to get the dry mass?

Answer 22

Once the mass becomes constant you know that all the water has been removed.

Question 23

Why is dry mass used as a measure of biomass rather than wet mass?

Answer 23

Because the water content of living tissues varies.

Question 24

What is a typical unit for dry mass?

Answer 24

kg m^-2 (dry mass per given area).

Question 25

What is the mass of carbon present generally taken to be?

Answer 25

50% of the dry mass.

Question 26

How can you estimate the amount of chemical energy stored in biomass?

Answer 26

By burning the biomass in a calorimeter.

Question 27

How can calorimetry be used to measure biomass?

Answer 27

A sample of dry biomass is weighed then burnt in pure oxygen (in a sealed chamber called a bomb) and the energy released is used to heat a known volume of water. The change in temperature of the water is used to calculate the chemical energy of the dry biomass.

Question 28

What is energy measured in?

Answer 28

Joules (J) or kilojoules (kJ).

Question 29

What is fresh mass?

Answer 29

Biomass + water.

Question 30

Why is using fresh mass good?

Answer 30

Easy to access.

Question 31

Why is using fresh mass bad?

Answer 31

Different plants/animals have varying amounts of water.

Question 32

Why is using dry mass good?

Answer 32

More reliable.

Question 33

What is using dry mass bad?

Answer 33

Organisms have to be killed. Time consuming and sometimes is not representative.

Question 34

What is the main issue with using biomass as a way of investigating populations?

Answer 34

Samples may not be representative.

Question 35

What is it better to use as opposed to biomass or numbers?

Answer 35

Energy.

Question 36

How can you determine the dry mass (biomass) of the total population/the area being investigated?

Answer 36

Scale up the result from the sample if needed.

Question 37

How is energy lost from the sun to the producer?

Answer 37

• Over 90% of the sun’s energy is reflected back to space.
• Not all wavelengths of light can be absorbed (e.g. green light).
• Light may not fall on a chlorophyll molecule.

Question 38

How is energy lost from the producer to the primary consumer?

Answer 38

• Much of the plant material can’t be accessed.
• Some material can’t be digested.
• Excretory losses.
• Respiratory losses (in endotherms only).
• Death and decay.

Question 39

How is energy lost between consumers?

Answer 39

• Excretory losses.
• Respiration.
• Indigestible material (e.g. bones).
• Death and decay.

Question 40

What are GPP and NPP types of?

Answer 40

Chemical energy stores.

Question 41

What does GPP stand for?

Answer 41

Gross primary production.

Question 42

What is GPP?

Answer 42

The total amount of chemical energy converted from light energy by plants, in a given area.

Question 43

What is the equation linking GPP and NPP?

Answer 43

NPP = GPP - R

Question 44

What does the R mean in the equation that links NPP and GPP?

Answer 44

Respiratory losses.

Question 45

How is approximately 50% of the GPP lost?

Answer 45

To the environment as heat when plants respire (respiratory losses - R).

Question 46

Approximately how much GGP is lost to the environment as heat when plants respire (respiratory losses - R)?

Answer 46

Approximately 50%.

Question 47

What does NPP stand for?

Answer 47

Net primary production.

Question 48

What is NPP?

Answer 48

The energy available to the plant for growth and reproduction - the energy stored in the plant’s biomass. It is also the energy available to organisms at the next stage in the food chain (the next trophic level). These include herbivores and decomposers.

Question 49

What are herbivores?

Answer 49

Animals that eat the plants.

Question 50

What is primary production often expressed as?

Answer 50

A rate - e.g. the total amount of chemical energy (or biomass) in a given area, in a given time.

Question 51

What are typical units of primary production?

Answer 51

kJ ha^-1 year^-1 (kilojoules per hectare per year) or kJ m^-2 yr^-1.

Question 52

What is is called when primary production is expressed as a rate?

Answer 52

Primary productivity.

Question 53

What is primary productivity.

Answer 53

When primary production is expressed as a rate.

Question 54

When do plants convert light energy to chemical energy?

Answer 54

During photosynthesis.

Question 55

How do you work out NPP in plants?

Answer 55

NPP = GPP - R

Question 56

How do you work out NPP in consumers?

Answer 56

NPP = I - (F + R)

Question 57

Where do consumers store chemical energy?

Answer 57

In their biomass.

Question 58

How do consumers get energy?

Answer 58

By ingesting plant material, or animals that have eaten plant material.

Question 59

Roughly how much of the total available energy is lost?

Answer 59

90%.

Question 60

What happens to the energy left after losses?

Answer 60

It is stored in the consumers’ biomass and is available to the next trophic level.

Question 61

What is the energy left after losses called?

Answer 61

The consumers’ net production.

Question 62

How can the net production of consumers be calculated?

Answer 62

N = I - (F + R)

Question 63

What does the N stand for in the equation to work out net production?

N = I - (F + R)

Answer 63

NPP - net primary production.

Question 64

What does the I stand for in the equation to work out net production?

N = I - (F + R)

Answer 64

Chemical energy in ingested food.

Question 65

What does the F stand for in the equation to work out net production?

N = I - (F + R)

Answer 65

Chemical energy lost in faeces and urine.

Question 66

What does the R stand for in the equation to work out net production?

N = I - (F + R)

Answer 66

Energy lost through respiration.

Question 67

What can the net production of consumers also be called?

Answer 67

Secondary production (or secondary productivity when it’s expressed as a rate).

Question 68

How do you calculate the efficiency of energy transfer (what is the equation)?

Answer 68

Efficiency = (Energy available after the transfer / Energy available before the transfer) x 100.