ATP energy
Glycolysis likely evolved first since it is a simple metabolic pathway that can occur in the absence of oxygen, making it a foundational process for cellular metabolism. Oxygenic photosynthesis is thought to have evolved before aerobic respiration because it involves the use of solar energy to produce organic compounds. Aerobic respiration evolved later to efficiently extract energy from these organic compounds in the presence of oxygen.
The role of organic compounds in cellular respiration is to start cellular respiration. Cellular Respiration is a process that creates ATP. So, in order to create ATP you'll need organic compounds. Organic Compounds are converted into ATP during Cellular Respiration. This is the role of organic compound in cellular respiration.
In aerobic respiration, the materials needed are glucose (or other organic molecules), oxygen, and enzymes to catalyze the reaction. In anaerobic respiration, the materials needed are glucose (or other organic molecules) and enzymes to catalyze the reaction. Oxygen is not required for anaerobic respiration, and different types of anaerobic pathways may involve different materials such as nitrate or sulfate.
In aerobic respiration, the final electron acceptor is molecular oxygen O2. With anaerobic respiration, the final electron acceptor is a molecule other than oxygen, such as an organic substance.
Aerobic bacteria in aeration tanks help break down organic matter in wastewater by using oxygen for respiration. This process helps reduce the organic load and pollutants in the water, making it cleaner and safer for discharge into the environment.
Atp can be produce by photosynthesis. Atp is produced in the degradation of organic compounds such as glucose. It also is generated in anaerobic respiration and is released in aerobic respiration.
prevent the destruction of essential organic compounds by oxygen.
The process you are referring to is cellular respiration. During cellular respiration, organic compounds such as glucose are broken down in the presence of oxygen to produce ATP, which is the cell's energy currency. This process occurs in the mitochondria of eukaryotic cells.
Aerobic cellular respiration requires glucose and oxygen. If glucose is not available, the cell can use other carbohydrates or other organic compounds.
Reaction for respiration is a catabolic process. It is where organic compounds are broken into simpler substances through the transfer of electrons.
Glycolysis likely evolved first since it is a simple metabolic pathway that can occur in the absence of oxygen, making it a foundational process for cellular metabolism. Oxygenic photosynthesis is thought to have evolved before aerobic respiration because it involves the use of solar energy to produce organic compounds. Aerobic respiration evolved later to efficiently extract energy from these organic compounds in the presence of oxygen.
Atp can be produce by photosynthesis. Atp is produced in the degradation of organic compounds such as glucose. It also is generated in anaerobic respiration and is released in aerobic respiration.
The role of organic compounds in cellular respiration is to start cellular respiration. Cellular Respiration is a process that creates ATP. So, in order to create ATP you'll need organic compounds. Organic Compounds are converted into ATP during Cellular Respiration. This is the role of organic compound in cellular respiration.
The ATP utilized in transpiration is derived from the respiration of organic molecules. This is what is commonly known as aerobic respiration.
Respiration
cellular respiration
Primary production refers to the process by which autotrophs, primarily plants and phytoplankton, convert inorganic carbon (typically in the form of carbon dioxide) into organic compounds through photosynthesis. This process uses sunlight to transform carbon dioxide and water into glucose and oxygen. Aerobic respiration, on the other hand, is the process by which organisms convert organic compounds back into carbon dioxide and water, releasing energy. Thus, primary production represents the foundation of the food web, providing energy for other organisms, while photosynthesis and aerobic respiration are interlinked processes that cycle carbon and energy through ecosystems.