In this article, we discover anaerobic respiration, its definition, formula, and the difference between aerobic and anaerobic respiration. Hopefully, by now, you have learned something about aerobic respiration, the process by which oxygen and ATP break down glucose. But what happens when an organism does not have access to oxygen but still needs energy for its metabolic processes? That is where anaerobic respiration comes into play.
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Jetzt kostenlos anmeldenIn this article, we discover anaerobic respiration, its definition, formula, and the difference between aerobic and anaerobic respiration. Hopefully, by now, you have learned something about aerobic respiration, the process by which oxygen and ATP break down glucose. But what happens when an organism does not have access to oxygen but still needs energy for its metabolic processes? That is where anaerobic respiration comes into play.
Anaerobic respiration describes how ATP breaks down glucose to form either lactate (in animals) or ethanol (in plants and microorganisms).
Anaerobic respiration occurs in the cytoplasm (a thick fluid surrounding organelles) of the cell and involves two stages: glycolysis and fermentation. It is a distinct process from aerobic respiration.
Have you ever done an intense workout and woken up the next day with sore muscles? Until recently, the lactic acid produced during anaerobic respiration was to blame for this muscle soreness! It is true that the body switches to anaerobic respiration during intense exercise, but this theory was disproved in the 1980s.
Recent research suggests that stiff muscles are due to various physiological effects in response to the trauma suffered by muscles during exercise. Nowadays, the theory is that lactic acid is a valuable fuel for your muscles, not an inhibitor!
We cover the differences between aerobic and anaerobic respiration in more detail in our article on respiration. However, if you are short on time, we have helpfully summarised them below:
However, it is also important to remember that both processes have some things in common, including:
Anaerobic respiration has only two stages, and both occur in the cell's cytoplasm.
Table 1 should help you recognise the symbols used in the chemical formulas. You might notice some formulas contain numbers before the substance. The numbers balance chemical equations (no atoms are lost during the process).
Table 1. Summary of the chemical symbols.
Chemical Symbol | Name |
Glucose | |
Pi | Inorganic phosphate |
Pyruvate | |
Pyruvic acid | |
Lactic acid | |
Ethanol | |
Acetaldehyde |
The process of glycolysis is the same whether respiration is aerobic or anaerobic. Glycolysis occurs in the cytoplasm and involves splitting a single, 6-carbon glucose molecule into two 3-carbon pyruvate molecules. During glycolysis, several smaller, enzyme-controlled reactions occur in four stages:
The overall equation for glycolysis is:
As mentioned earlier, fermentation can produce two different products depending on which organism respires anaerobically. We will first examine the fermentation process in humans and animals that produces lactic acid.
The process of lactic acid fermentation is as follows:
The overall equation for this is:
Lactic dehydrogenase helps speed up (catalyse) the reaction!
The following diagram illustrates the entire process of anaerobic respiration in animals:
Lactate is a deprotonated form of lactic acid (i.e., a lactic acid molecule missing a proton and with a negative charge). So when you read about fermentation, you often hear that lactate is produced instead of lactic acid. There is no material difference between these two molecules for A-level purposes, but it is important to bear this in mind!
Ethanol fermentation occurs when bacteria and other microorganisms (e.g., fungi) respire anaerobically. The process of ethanol fermentation is as follows:
Overall, the equation for this is:
Pyruvate decarboxylate and aldehyde dehydrogenase are the two enzymes that help catalyse ethanol fermentation!
The following diagram summarises the entire process of anaerobic respiration in bacteria and microorganisms:
The overall equation for anaerobic respiration in animals is as follows:
The overall equation for anaerobic respiration in plants or fungi is:
Only aerobic respiration requires oxygen, whilst anaerobic respiration does not. Anaerobic respiration can only occur without oxygen, altering how glucose breaks down into energy.
Anaerobic respiration does not require oxygen but only occurs when oxygen is absent. It only takes place in the cytoplasm. The products of anaerobic respiration differ in animals and plants. Anaerobic respiration in animals produces lactate, whereas ethanol and carbon dioxide in plants or fungi. Only a small amount of ATP forms during anaerobic respiration.
Anaerobic respiration only has two stages:
Anaerobic respiration is how glucose breaks down in the absence of oxygen. When organisms respire anaerobically, they produce ATP molecules through fermentation, which can produce lactate in animals, or ethanol and carbon dioxide in plants and microorganisms.
The main differences between aerobic and anaerobic respiration are listed below:
The products of anaerobic respiration vary depending on what kind of organism is respiring. The products are ethanol and carbon dioxide (in plants and microorganisms) or lactate (in animals).
Anaerobic respiration requires oxygen. True or False?
False.
Where in the cell does anaerobic respiration occur?
Cytoplasm.
Does anaerobic respiration produce more or less ATP than aerobic respiration?
Aerobic respiration produces more ATP.
What molecule is glucose converted into by the end of glycolysis?
Pyruvate.
How many ATP molecules are produced overall during glycolysis (per glucose molecule)?
2 molecules of ATP for every glucose molecule.
What is the word we use to describe the splitting of ATP into ADP and Pi using water?
Hydrolysis.
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