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What happens during cellular respiration? - OCR 21st CenturyAerobic and anaerobic respiration

All organisms must respire in order to stay alive. Revise cellular respiration, the differences between between aerobic and anaerobic respiration, and how to calculate rates of respiration.

Part of Combined ScienceUsing food and controlling growth

Aerobic and anaerobic respiration

Aerobic respiration

Respiration using oxygen to break down food molecules is called . 'Aero' means air, which contains oxygen, leading to the name aerobic respiration. Glucose is the molecule normally used for respiration - it is the main . Glucose is to release its energy, which is then stored in ATP molecules.

The word equation for aerobic respiration is:

glucose + oxygen 鈫 carbon dioxide + water (+ ATP made)

You need to be able to recognise the chemical formulas:

C6H12O6 + 6O2 鈫 6CO2 + 6H2O

Respiration is a series of chemical reactions, but this equation summarises the overall process. Aerobic respiration breaks down glucose and combines the broken down products with oxygen, making water and carbon dioxide. The carbon dioxide is a waste product of aerobic respiration because cells do not need it.

The first stages of respiration occur in the cytoplasm of plant and animal cells, but most of the stages of respiration that release energy happen in the . Microorganisms do not have mitochondria - they carry out respiration only in the .

Anaerobic respiration

Most organisms cannot respire without oxygen but some organisms and tissues can continue to respire if the oxygen runs out. In conditions of low or no oxygen the process of occurs. The 'an' in 'anaerobic' means without.

During anaerobic respiration, the oxidation of glucose is incomplete - not all of the energy can be released from the glucose molecule as it is only partially broken down. The reaction therefore releases much less energy than aerobic respiration - around only a nineteenth of the energy released during aerobic respiration. This means that fewer molecules of ATP can be made.

Glucose in human muscle cells is converted to during anaerobic respiration:

glucose 鈫 lactic acid (+ ATP made)

The lactic acid is a waste product.

Some plants, and such as yeast can respire anaerobically - it's preferable to release less energy and make less ATP but remain alive.

Glucose in yeast cells is converted to carbon dioxide and , which we refer to simply as 'alcohol':

glucose 鈫 ethanol + carbon dioxide (+ ATP made)

This reaction is also called .

This table compares aerobic and anaerobic respiration:

Aerobic respirationAnaerobic respiration
OxygenPresentAbsent or in short supply.
Oxidation of glucoseCompleteIncomplete. All of the energy available from glucose is not released.
Reactants of respirationGlucose and oxygenGlucose.
Products of respirationCarbon dioxide and water (and ATP)Mammalian muscle - lactic acid (and ATP). Yeast - ethanol and carbon dioxide (and ATP). Some plants - ethanol and carbon dioxide (and ATP).
Amount of ATP madeLarge amountSmaller amount, but produced more quickly.
Oxygen
Aerobic respirationPresent
Anaerobic respirationAbsent or in short supply.
Oxidation of glucose
Aerobic respirationComplete
Anaerobic respirationIncomplete. All of the energy available from glucose is not released.
Reactants of respiration
Aerobic respirationGlucose and oxygen
Anaerobic respirationGlucose.
Products of respiration
Aerobic respirationCarbon dioxide and water (and ATP)
Anaerobic respirationMammalian muscle - lactic acid (and ATP). Yeast - ethanol and carbon dioxide (and ATP). Some plants - ethanol and carbon dioxide (and ATP).
Amount of ATP made
Aerobic respirationLarge amount
Anaerobic respirationSmaller amount, but produced more quickly.