These are the things that plants make by photosynthesis:
Six facts about photosynthesis - KScience
Equation: C6H12O6 lactic acid + 2ATP + CO2 Reactant: Products: Organism: Organelle: 3 Interesting Facts: Glucose lactic acid, 2ATP, and 6 molecules of carbon dioxide.
The energy for photosynthesis comes from light
The H+ collected in the Kreb's Cycle are used to make approximately 28-32 ATP.
Anaerobic cellular respiration is the process by which all organisms use C6H12O6 to make CO2 and 2 ATP.
Photosynthesis and respiration form a cycle that keeps …
Respiration refers to the metabolism of oxygen and the release of carbon dioxide. In it is a positive term, a process vital to life. But photorespiration is an entirely negative term because it represents a severe loss to the process of using light energy in photosynthetic organisms to fix carbon for subsequent carbohydrate synthesis. By leading to the loss of up to half of the carbon that has been fixed at the expense of light energy, photorespiration undoes the work of photosynthesis.
10 facts about photosynthesis | scholarly search
The acidity was found to arise from the opening of their stomata at night to take in CO2 and fix it into malic acid for storage in the large vacuoles of their photosynthetic cells. It could drop the pH to 4 with a malic acid concentration up to 0.3M . Then in the heat of the day, the stomata close tightly to conserve water and the malic acid is decarboxylated to release the CO2 for fixing by the Calvin cycle. PEP is used for the initial short-term carbon fixation as in the , but the entire chain of reactions occurs in the same cell rather than handing off to a separate cell as with the C4 plants. In the CAM strategy, the processes are separated temporally, the initial CO2 fixation at night, and the malic acid to Calvin cycle part taking place during the day.
What Is Photosynthesis? From Light Energy to Chemical …
The connection to hot and dry conditions comes from the fact that all the plants will close their stomata in hot and dry weather to conserve moisture, and the continuing fixation of carbon from the air drops the CO2 dramatically from the atmospheric concentration of nominally 380 ppm (2004 value). If the CO2 compensation point is lower on the above scale, the plant can operate in hotter and dryer conditions. The limits are placed by the fact that begins to fix oxygen rather than CO2, undoing the work of photosynthesis. C4 plants shield their rubisco from the oxygen, so can operate all the way down to essentially zero CO2 without the onset of photorespiration.