5.3-Energy and ecosystems

Question 1

How do plants use the sugars from photosynthesis?

Answer 1

● primarily as respiratory substrates

● to synthesise other biological molecules e.g. cellulose

Question 2

What is biomass?

Answer 2

Total dry mass of tissue or mass of carbon measured over a given time in a specific area.

Question 3

Suggest the units for biomass.

Answer 3

● when an area is being sampled: gm-2

● when a volume (e.g. a pond) is being sampled: gm-3

Question 4

How can the chemical energy store in dry biomass

be estimated?

Answer 4

Using calorimetry.

Energy released = specific heat capacity of water x volume of water (cm3) x temperature increase of water.

Question 5

Why is bomb calorimetry preferable to simple

calorimetry?

Answer 5

Reduces heat loss to surroundings.

Question 6

How could a student ensure that all water had been removed from a sample before weighing?

Answer 6

Heat the sample and reweigh it until the mass reading is constant.

Question 7

Define gross primary production (GPP).

Answer 7

Total chemical energy in plant biomass within a given volume or area.

Question 8

Define net primary productivity (NPP).

Answer 8

Total chemical energy available for plant growth, plant reproduction and
energy transfer to other trophic levels after respiratory losses.

Question 9

Give the mathematical relationship between GPP

and NPP.

Answer 9

NPP = GPP - R

where R represents respiratory losses

Question 10

Why is most of the Sun’s energy not converted to

organic matter?

Answer 10

● Most solar energy is absorbed by atmosphere or reflected by clouds.
● Photosynthetic pigments cannot absorb some wavelengths of light.
● Not all light falls directly on a chlorophyll molecule.
● Energy lost as heat during respiration/ photosynthesis.

Question 11

How can the net production of consumers be calculated?

Answer 11

N = I - (F + R)
I: chemical energy from ingested food
F: energy lost as faeces and urine
R: respiratory losses

Question 12

Why does biomass decrease along a food chain?

Answer 12

● Energy lost in nitrogenous waste (urine) &; faeces.
● Some of the organism is not consumed.
● Energy lost to surroundings as heat.

Question 13

Define primary and secondary productivity.

Answer 13

● rate of primary or secondary production

● biomass in a specific area over a given time period e.g. kJ ha–1 year–1

Question 14

Outline some common farming practices used to

increase the efficiency of energy transfer.

Answer 14

● Exclusion of predators: no energy lost to other organisms in food web.
● Artificial heating: reduce energy lost to maintain constant body temperature.
● Restriction of movement.
● Feeding is controlled at the optimum.

Question 15

Give a general equation for % efficiency.

Answer 15

energy converted to a useful form (J) x 100

/total energy supplied (J)

Question 16

Explain why the length of food chains is limited.

Answer 16

Energy is lost at each trophic level

So there is insufficient energy to support a higher trophic level

Question 17

What is a pyramid of biomass?

Answer 17

Diagram that shows the biomass at each trophic level.

Question 18

Why is a pyramid of biomass preferable to a pyramid of numbers?

Answer 18

Shape of pyramid of numbers may be skewed since a small number of
producers can support many consumers.