Differenciation between anaerobic metabolism and anaerobic fermentation
Answers
Aerobic fermentation: Aerobic fermentation uses oxygen.
Anaerobic fermentation: Anaerobic fermentation does not use oxygen.
ATP Yield:
Aerobic fermentation: Aerobic fermentation yields 38 ATP molecules
Anaerobic fermentation: Anaerobic fermentation does not produce ATP molecules.
Occurrence:
Aerobic fermentation: Aerobic fermentation occur inside living organisms.
Anaerobic fermentation: Anaerobic fermentation occurs outside living organisms.
Microorganism’s Involvement:
Aerobic fermentation: No microorganisms are involved
Anaerobic fermentation: Microorganisms are involved
Temperature:
Aerobic fermentation: An ambient temperature is not required for the process.
Anaerobic fermentation: Ambient temperature is required for the process.
Technique:
Aerobic fermentation: Aerobic fermentation is an energy production method.
Anaerobic fermentation: Anaerobic fermentation is a decomposition method.
Stages:
Aerobic fermentation: Stages include Glycolysis, Krebs cycle, and electron transport system
Anaerobic fermentation: Anaerobic fermentation has no glycolysis or other stages.
CH4 Production:
Aerobic fermentation: Aerobic fermentation does not produce CH4 .
Anaerobic fermentation: Anaerobic fermentation produces CH4.
Answer:
Explanation:
Oxygen Usage:
Aerobic fermentation: Aerobic fermentation uses oxygen.
Anaerobic fermentation: Anaerobic fermentation does not use oxygen.
ATP Yield:
Aerobic fermentation: Aerobic fermentation yields 38 ATP molecules
Anaerobic fermentation: Anaerobic fermentation does not produce ATP molecules.
Occurrence:
Aerobic fermentation: Aerobic fermentation occur inside living organisms.
Anaerobic fermentation: Anaerobic fermentation occurs outside living organisms.
Microorganism’s Involvement:
Aerobic fermentation: No microorganisms are involved
Anaerobic fermentation: Microorganisms are involved
Temperature:
Aerobic fermentation: An ambient temperature is not required for the process.
Anaerobic fermentation: Ambient temperature is required for the process.
Technique:
Aerobic fermentation: Aerobic fermentation is an energy production method.
Anaerobic fermentation: Anaerobic fermentation is a decomposition method.
Stages:
Aerobic fermentation: Stages include Glycolysis, Krebs cycle, and electron transport system
Anaerobic fermentation: Anaerobic fermentation has no glycolysis or other stages.
CH4 Production:
Aerobic fermentation: Aerobic fermentation does not produce CH4 .
Anaerobic fermentation: Anaerobic fermentation produces CH4.