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Summary - Unit 3 - Organisms exchange substances with their environment $5.90
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Summary - Unit 3 - Organisms exchange substances with their environment

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  • September 7, 2024
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AQA A Level Biology

Topic 3 Organisms
exchange substances
with their environment
Model answer notes by @biologywitholivia



Topic Understand Memorise Practise


3.1 Surface area to volume ratio


3.2 Gas exchange


3.3 Digestion and absorption


3.4.1 Mass transport in animals


Required practical 5


3.4.2 Mass transport in plants

,AQA A Level Biology Topic 3 Organisms exchange substances with their environment stan.store/biologywitholivia



3.1 Surface area to volume ratio
Describe the relationship between the size and structure of an organism and
its surface area to volume ratio (SA:V)

● As size increases, SA:V tends to decrease
● More thin / flat / folded / elongated structures increase SA:V



How is SA:V calculated? Use an example

Divide surface area (size length x side width x number of sides) by volume (length x width x depth)




Suggest an advantage of calculating SA:mass for organisms instead of SA:V
Easier / quicker to find / more accurate because irregular shapes


What is metabolic rate? Suggest how it can be measured

● Metabolic rate = amount of energy used up by an organism within a given period of time
● Often measured by oxygen uptake → as used in aerobic respiration to make ATP for energy release



Explain the relationship between SA:V and metabolic rate

As SA:V increases (smaller organisms), metabolic rate increases because:
● Rate of heat loss per unit body mass increases
● So organisms need a higher rate of respiration
● To release enough heat to maintain a constant body temperature ie. replace lost heat



Explain the adaptations that facilitate exchange as SA:V reduces in larger
organisms

1. Changes to body shape (eg. long / thin)
● Increases SA:V and overcomes (reduces) long diffusion distance / pathway
2. Development of systems, such as a specialised surface / organ for gaseous exchange e.g. lungs:
● Increases (internal) SA:V and overcomes (reduces) long diffusion distance / pathway
● Maintain a concentration gradient for diffusion eg. by ventilation / good blood supply



2

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AQA A Level Biology Topic 3 Organisms exchange substances with their environment stan.store/biologywitholivia

Exam insight: common mistakes

Mistake Explanation

“As size increases, SA:V increases.” As size increases, SA:V decreases because although both volume and
surface area increase, volume increases faster than surface area.

“Respiration produces heat / energy.” Energy can’t be produced, only released.




3.2 Gas exchange
Explain how the body surface of a single-celled organism is adapted for gas
exchange

● Thin, flat shape and large surface area to volume ratio
● Short diffusion distance to all parts of cell → rapid diffusion eg. of O2 / CO2



Describe the tracheal system of an insect

1. Spiracles = pores on surface that can open / close to allow diffusion
2. Tracheae = large tubes full of air that allow diffusion
3. Tracheoles = smaller branches from tracheae, permeable to allow gas exchange with cells



Explain how an insect’s tracheal system is adapted for gas exchange

● Tracheoles have thin walls
○ So short diffusion distance to cells
● High numbers of highly branched tracheoles
○ So short diffusion distance to cells
○ So large surface area
● Tracheae provide tubes full of air
○ So fast diffusion
● Contraction of abdominal muscles (abdominal
pumping) changes pressure in body, causing air to
move in / out
○ Maintains concentration gradient for diffusion
● Fluid in end of tracheoles drawn into tissues by
osmosis during exercise (lactate produced in
anaerobic respiration lowers ψ of cells)
○ Diffusion is faster through air (rather than
fluid) to gas exchange surface




3

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