Respiratory Quotient (Edexcel International A Level Biology): Revision Note
Respiratory Quotient
The respiratory quotient (RQ) is the ratio of carbon dioxide molecules produced to oxygen molecules taken in during respiration
RQ = CO2 ÷ O2
The formula for the Respiratory Quotient
RQ values of different respiratory substrates
Carbohydrates, lipids and proteins have different typical RQ values
This is because of the number of carbon-hydrogen bonds differs in each type of biological molecule
More carbon-hydrogen bonds means that more hydrogen atoms can be used to create a proton gradient
More hydrogens means that more ATP molecules can be produced
More oxygen is therefore required to breakdown the molecule (in the last step of oxidative phosphorylation to form water)
When glucose is aerobically respired equal amounts of carbon dioxide are produced to oxygen taken in, meaning it has an RQ value of 1
During the breakdown of glucose, six molecules of oxygen is used and six molecules of carbon dioxide is produced. This results in an RQ value of 1 (6CO2 ÷ 6O2)
RQ Values For Different Respiratory Substrates Table
Some questions may ask you to suggest what substrate is being respired during an experiment based on the RQ value – so make yourself familiar with the values in the table
Calculating RQ values
The respiratory quotient is calculated from respiration equations
It involves comparing the ratios of carbon dioxide given out to oxygen taken in
The formula for this is:
Equation to calculate the RQ value of a respiratory substrate
For aerobic respiration the RQ will typically be less than 1 since oxygen is being used to break down the substrate
Should the RQ of an organism be greater than 1, it may indicate that anaerobic respiration is occurring, since very little to no oxygen is used
If you know the molecular formula of the substrate being aerobically respired then you can create a balanced equation to calculate the RQ value
In a balanced equation the number before the chemical formula can be taken as the number of molecules/moles of that compound
This is because the same number of molecules of any gas take up the same volume e.g. 12 molecules of carbon dioxide take up the same volume as 12 molecules of oxygen
Glucose has a simple 1:1 ratio and RQ value of 1 but other substrates have more complex ratios leading to different RQ values
Worked Example
Linoleic acid (a fatty acid found in nuts) has the molecular formula C18H32O2. Calculate the RQ value of this lipid.
Step 1: Write down the respiration equation
C18H32O2 + O2 → CO2 + H2O
Step 2: Balance the equation
C18H32O2 + 25O2 → 18CO2 + 16H2O
Step 3: Use the RQ formula
RQ = CO2 ÷ O2
RQ = 18 ÷ 25
RQ = 0.72
Worked Example
During ethanol fermentation in lettuce roots, glucose is partially broken down. This process is represented by the following equation:
glucose → ethanol + carbon dioxide
Calculate the RQ value.
Step 1: Write down the respiration equation
C6H12O6 → C2H5OH + CO2
Step 2: Balance the equation
C6H12O6 → 2C2H5OH + 2CO2
Step 3: Use the RQ formula
RQ = CO2 ÷ O2
RQ = 2 ÷ 0
RQ = ∞ (infinity)
Examiner Tips and Tricks
Make sure the respiration equation you are working with is fully balanced before you start doing any calculations to find out the RQ value.
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