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Anaerobic respiration is a type of respiration that occurs without the presence of oxygen. During anaerobic respiration, glucose is broken down to produce energy in the form of ATP, but without using oxygen as the final electron acceptor. This process typically results in the production of lactic acid or alcohol as byproducts.
Aerobic roughly means "requiring air," with "air" meaning oxygen. The suffix "ana-" means to take the opposite, much like "un-" or "dis-". Aerobic respiration requires oxygen and anaerobic respiration does not.
Aerobic respiration uses oxygen to produce a large number of ATP molecules, which are used in the cell as energy. Anaerobic respiration used an electron transport chain without oxygen, produces lactic acid, and produces very little ATP and, as such, very little energy.
Humans only store a small amount of glycogen for anaerobic functions (fast, power movements). Aerobic respiration takes over after a short time, burning fat and eventually protein. These sources are more plentiful, and fat is a much more efficient energy storage molecule than glucose. Glycogen is more easily converted to glucose, so it is utilized first.
Well in man, anaerobic respiration takes place during glycolysis. Glycolysis is the process by which one molecule of glucose is broken down, in the abscence of oxygen, to give energy. During glycolysis, only 2ATPs(Adenosine TriPhosphates) are given off. This means that anaerobic respiration in man does not give off much energy. meanwhile aerobic respiration which takes place during the Kreb Cycle gives off 38 ATPs, meaning that in the prescence of Oxygen, more energy is released. Well in man, anaerobic respiration takes place during glycolysis. Glycolysis is the process by which one molecule of glucose is broken down, in the abscence of oxygen, to give energy. During glycolysis, only 2ATPs(Adenosine TriPhosphates) are given off. This means that anaerobic respiration in man does not give off much energy. meanwhile aerobic respiration which takes place during the Kreb Cycle gives off 38 ATPs, meaning that in the prescence of Oxygen, more energy is released. By Isabella Agbaje
No. Aerobic respiration is WITH oxygen. ANaerobic is without. Generally anaerobic process is fermentation, but that doesn't produce nearly as much ATP, and is therefore unfavorable for anything big, like people or animals.
Anaerobic respiration is a type of respiration that occurs without the presence of oxygen. During anaerobic respiration, glucose is broken down to produce energy in the form of ATP, but without using oxygen as the final electron acceptor. This process typically results in the production of lactic acid or alcohol as byproducts.
There are anaerobic and aerobic types of cellular respiration. Anaerobic (including glycolysis) respiration does not involve oxygen. Aerobic (including the Kreb's, or citric acid, cycle and oxidative phosphorylation) respiration requires oxygen, and generates much more energy than anaerobic respiration.
Aerobic roughly means "requiring air," with "air" meaning oxygen. The suffix "ana-" means to take the opposite, much like "un-" or "dis-". Aerobic respiration requires oxygen and anaerobic respiration does not.
Aerobic respiration uses oxygen to produce a large number of ATP molecules, which are used in the cell as energy. Anaerobic respiration used an electron transport chain without oxygen, produces lactic acid, and produces very little ATP and, as such, very little energy.
The process of converting glucose (C6H1206) to energy in the form of ATP is known as anaerobic respiration in humans. The pathway involves glucose as a reactant yielding 2 lactic acids and 2 ATPs.
Humans only store a small amount of glycogen for anaerobic functions (fast, power movements). Aerobic respiration takes over after a short time, burning fat and eventually protein. These sources are more plentiful, and fat is a much more efficient energy storage molecule than glucose. Glycogen is more easily converted to glucose, so it is utilized first.
Even though anaerobic respiration has the two significant drawbacks - lactic acid produced as a waste product; not nearly as much energy is released as with aerobic respiration - it is necessary if, for example, you are running a marathon. In this case, it won't be long before the body's demand for oxygen overtakes supply. This is where anaerobic respiration replaces aerobic respiration. Once you have finished exercising, your heart and breathing rates continue to rise, in order for you to repay your oxygen debt.
Mealworms primarily perform anaerobic respiration, breaking down their food in the absence of oxygen to produce energy. This is because they have a simple respiratory system and do not require as much oxygen as complex organisms.
Well in man, anaerobic respiration takes place during glycolysis. Glycolysis is the process by which one molecule of glucose is broken down, in the abscence of oxygen, to give energy. During glycolysis, only 2ATPs(Adenosine TriPhosphates) are given off. This means that anaerobic respiration in man does not give off much energy. meanwhile aerobic respiration which takes place during the Kreb Cycle gives off 38 ATPs, meaning that in the prescence of Oxygen, more energy is released. Well in man, anaerobic respiration takes place during glycolysis. Glycolysis is the process by which one molecule of glucose is broken down, in the abscence of oxygen, to give energy. During glycolysis, only 2ATPs(Adenosine TriPhosphates) are given off. This means that anaerobic respiration in man does not give off much energy. meanwhile aerobic respiration which takes place during the Kreb Cycle gives off 38 ATPs, meaning that in the prescence of Oxygen, more energy is released. By Isabella Agbaje
Aerobic respiration is a type of cellular respiration that occurs when there is no enough oxygen in the respiratory cells. It is considered to be less efficient since it produces less energy as compared to aerobic respiration.
Aerobic respiration produces more ATP molecules per glucose molecule compared to anaerobic respiration, providing more energy for the cell. Additionally, aerobic respiration does not produce lactic acid or ethanol as byproducts, reducing the risk of harmful acidic conditions in the cell.