Transfers Along a Food Chain (Edexcel IGCSE Science (Double Award))
Revision Note
Transfer of Energy
Light energy from the sun enters the first trophic level of food chains when producers convert light energy into chemical energy
Light energy is transferred to chemical energy in the form of carbon-containing compounds within the biomass of producers
Energy and chemical substances are then transferred through food chains when:
primary consumers eat producers, breaking down the carbon compounds within their biomass and using the energy and substances released to build new biomass within their own tissues
secondary consumers eat primary consumers, again breaking down the molecules that make up their biomass and using the energy and substances to build their own tissues
this process is repeated at each trophic level
Some energy and substances are lost to the environment between trophic levels
Energy and chemical substance are transferred through food chains when organisms consume other organisms
Energy Loss Between Trophic Levels
When organisms consume other organisms, not all of the stored energy is passed to the next trophic level; only around 10% of the energy available at each trophic level is converted into biomass at the next level
This explains why food chains are short; the energy available eventually becomes too small to support another trophic level
Energy is lost at each trophic level of a food chain
Explaining energy loss from food chains
Energy may be lost from food chains because consumers are not able to digest and absorb all of the chemical energy stored in food organisms
Organisms rarely eat every part of the organism they are consuming, e.g. many predators do not consume the bones, fur, teeth or claws of their prey, so energy stored in uneaten body parts does not pass to the consumer
Not all the ingested material is digested and absorbed, some is egested as faeces, e.g. plant material can be difficult to digest and passes through the digestive system of herbivores
Once a consumer has digested and absorbed its food, not all of the energy will be converted to biomass; energy may be unavailable for building biomass due to:
heat loss during respiration
transfer into waste products, e.g.
carbon dioxide and water are waste products of respiration
urea is a waste product of protein breakdown
Energy may be unavailable to the next trophic level when it is lost as heat during respiration, when undigested food is egested, and when energy is transferred to waste products
Calculating the efficiency of energy or biomass transfer
You may be asked to calculate the efficiency of energy and biomass transfers between trophic levels using percentages
Worked Example
The food chain below contains four trophic levels, and indicates the total biomass present at each level.
Calculate the efficiency of biomass transfer from the first to the second trophic level. Give your answer to 3 significant figures.
Use the equation:
Answer
Step 1: determine the biomass of the first and second trophic levels
first trophic level = clover = 1450 kg
second trophic level = snails = 138 kg
Step 2: enter numbers into the equation
Examiner Tips and Tricks
Note that energy and biomass are very closely related (energy is stored within the biomass of an organism); this means that:
efficiency of energy transfer can be calculated in exactly the same way as efficiency of biomass transfer
loss of energy results in loss of biomass at each trophic level
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