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Strictly speaking, the terms "aerobic" and "anaerobic" refer to the presence and absence of oxygen, respectively. Most of our cells prefer to get their energy by using oxygen to fuel metabolism. During exercise with adequate fuel and oxygen (i.e., aerobic), muscle cells can contract repeatedly without fatigue. During anaerobic or non-oxygen conditions (i.e., higher intensity exercise), muscle cells must rely on other reactions that do not require oxygen to fuel muscle contraction. This anaerobic metabolism in the cells produces waste molecules that can impair muscle contractions. We call this deterioration in performance fatigue.
Fatigue causes you to experience added discomfort and weakening muscles. Eventually you will need to slow down and lower your exercise intensity. Slowing down allows the muscles to once again rely solely on aerobic metabolism and support the removal or chemical conversion of waste molecules.
The problem with the terms "aerobic" and "anaerobic" when applied to exercise is that we actually never switch from total aerobic to total anaerobic metabolic conditions. In reality, the more intensely we exercise, the greater the need for anaerobic energy production. Consequently, it is best to view the terms aerobic and anaerobic as transitions in metabolism, where the proportion between aerobic and anaerobic metabolism changes depending on exercise intensity.
For example, while at rest, we rely on aerobic metabolism to fuel almost all our body's needs for energy. As we start to exercise, such as progressing from sitting to a slow walk, the increased energy needs of muscle contraction require that we increase our breathing and oxygen intake. So long as we increase our exercise intensity slowly, we can maintain our muscles' dependence on aerobic metabolism, and we don't experience symptoms of fatigue.
However, as exercise intensity increases, the need for energy release eventually exceeds that which can be supplied by aerobic metabolism. Our muscles simply need more reactions to support the energy demand. Therefore, anaerobic contribution to metabolism increases. When this happens, we refer to this change in metabolism as a metabolic threshold. This metabolic threshold represents the exercise intensity where we start to produce those waste products of anaerobic metabolism that can eventually lead to fatigue. You see this all the time when watching endurance Olympic events, such as a long distance running race. The athletes run at a pace that hovers around their metabolic threshold, and they can only afford to run faster than this pace near the end of the race. If they increase their pace too early in the race, then they fatigue too early and need to slow down to below their metabolic threshold to recover from the fatigue inducing waste products. This would result in poor performance.
So how do these terms relate to you? Well, it depends on your circumstance and goals. Most of us are non-competitive or non-elite active individuals, who just want to exercise to gain health benefits, feel good and possibly lose weight. Aerobic exercise conditions enable you to exercise for long periods of time, potentially benefiting from the sustained energy expenditure (i.e., calories burned). Aerobic exercise tends to be less stressful to muscles, joints, and your heart, which may be important for individuals with Arthritis, Heart disease, or high blood pressure. However, to more rapidly improve your exercise capacities, tolerance, and performance, some anaerobic exercise training is a necessity. Therefore, performing anaerobic exercise is typically more important for competitive athletes.
When starting a training program, most trainers like to have their clients/athletes start with lower intensity exercise (i.e., aerobic exercise). However, a high reliance on anaerobic metabolism is unavoidable for some types of exercise or activities. For instance, lifting weights is anaerobic. That is why muscles fatigue so rapidly with this type of training. Other types of activities, such as walking up stairs, can also be anaerobic - especially if you are unfit or climb too fast.
Fortunately, we do not need sophisticated equipment to detect when we transition from aerobic to anaerobic exercise. As we approach and pass our metabolic threshold intensity, we start to breath harder, we are forced to really concentration on the exercise/activity, and exercise simply becomes uncomfortable. However, if you simply love gadgets, you can use a heart rate monitor to record the heart rate at which you sense these symptoms of developing over-exertion. You then know that heart rates below this value occur when you're in your aerobic zone, and heart rates above this value reflect an increasing anaerobic contribution to your exercise bout.
What else can I help you with?
Is squamous cell carcinoma aerobic or anerobic?
Aerobic and anaerobic are terms usually applied to bacteriae, in which we differ between different levels of "air tollerance". A squamous cell carcinoma is a neoplasm consisting of the body's own cells (allthough the cells have undergone a transformation into tumor cells). The cells in our body are aerobic (allthough they can metabolize nutrients anaerobically for a short time; the anaerobic metabolism is not efficient enough for survival). therefore the cells of a carcinoma are aerobic.
Do cells make ethanol as a waste of cellular respiration?
No, ethanol is a byproduct of fermentation...not aerobic or anaerobic respiration
What is process is common between aerobic and anaerobic respiration?
The common process between aerobic and anaerobic respiration is glycolysis, which is the breakdown of glucose into pyruvate. This process occurs in the cytoplasm of cells and produces a small amount of ATP. From there, the pathways diverge with aerobic respiration continuing in the presence of oxygen, while anaerobic respiration proceeds without oxygen through either fermentation or anaerobic respiration.
Would the first organisms be aerobic or anaerobic?
The first organisms on Earth were likely anaerobic, as oxygen levels were low in the early atmosphere. Anaerobic organisms do not require oxygen for metabolism, which would have been advantageous in this environment.
Is aerobic respiration or anaerobic respiration more beneficial for your cells?
anaerobic respiration is definitely more beneficial for your cells becauseAnaerobic respiration (anaerobiosis) refers to the oxidation of molecules in the absence of oxygen to produce energy, in opposition to aerobic respiration which does use oxygen. Anaerobic respiration processes require another electron acceptor to replace oxygen. Anaerobic respiration is often used interchangeably with fermentation, especially when the glycolytic pathway is used for energy production in the cell. They are not synonymous terms, however, since certain anaerobic prokaryotes can generate all of their ATP using an electron transport system and ATP synthase. Definition of anaerobic respiration: the breakdown of food substances in the absence of oxygen with a small amount of energy.aerobic is the absence of air in cells which is a bad thing so anaerobic is the best for cells.
What do aerobic respiration and anaerobic respiration have in common?
Both aerobic respiration and anaerobic respiration are processes that cells use to generate energy from food molecules.
What similarities exist between aerobic respiration and anaerobic respiration?
Both aerobic and anaerobic respiration are processes that cells use to produce energy. They both involve breaking down glucose to create ATP, the energy currency of the cell. However, the main difference is that aerobic respiration requires oxygen, while anaerobic respiration does not.
Cardiac muscle cells can respire in aerobic and anaerobic environments?
Cardiac muscle cells can respire in both aerobic and anaerobic environments. However, the main difference is that the energy required by the cardiac muscle cells is obtained differently in the aerobic and anaerobic environments.
How cells release energy is by?
respiration...either aerobic repiration or anaerobic
Is squamous cell carcinoma aerobic or anerobic?
Aerobic and anaerobic are terms usually applied to bacteriae, in which we differ between different levels of "air tollerance". A squamous cell carcinoma is a neoplasm consisting of the body's own cells (allthough the cells have undergone a transformation into tumor cells). The cells in our body are aerobic (allthough they can metabolize nutrients anaerobically for a short time; the anaerobic metabolism is not efficient enough for survival). therefore the cells of a carcinoma are aerobic.
What is the difference between aerboic and anaerobic resperation?
Aerobic respiration requires oxygen to produce energy, while anaerobic respiration does not require oxygen. Aerobic respiration yields more energy (ATP) compared to anaerobic respiration, but anaerobic respiration is less efficient and produces lactic acid or ethanol as byproducts.
In what ways are aerobic and anaerobic respiration similar?
Aerobic and anaerobic respiration are both processes that cells use to produce energy. They both involve breaking down glucose to create ATP, the cell's energy currency. However, aerobic respiration requires oxygen, while anaerobic respiration does not.
With out oxygen there is only aerobic respiration?
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.
How are aerobic respiration and anaerobic different?
aerobic respiration uses oxygen and anaerobic doesn't; also aerobic produces more ATP or cellular energy***Apex: Oxygen is necessary for aerobic respiration but not for anaerobic respiration.
Do cells make ethanol as a waste of cellular respiration?
No, ethanol is a byproduct of fermentation...not aerobic or anaerobic respiration
Is the Krebs cycle aerobic or anaerobic?
Please think about what you're saying. You asked whether anaerobic repiration is aerobic or anaerobic. I believe you have the answer to your question embedded in your question.
Which of the following cells rely on anaerobic metabolism for ATP production?
Red blood cells rely on anaerobic metabolism for ATP production because they lack mitochondria and thus cannot perform aerobic respiration.
