The Calvin Cycle is a light-independent cycle, but it does not require darkness. although it can use light again it does not require it.
Calvin cycle does not require direct light for photolysis of water but it needs the energy rich compounds to convert Co2 into hexose sugars. These energy rich compounds such as ATP and Ribulose 1, 5 diphosphate are formed during Hill Reation.
Yes, the Calvin cycle requires 9 ATP for each turn of the cycle. This means that 18 are required to make a glucose molecule.
No, the Calvin cycle does not require oxygen.
Calvin cycle need carbon dioxide.CO2 is reduced to glucose in calvin cycle
no. the suns energy is the energy source that plants use
Yes. Three molecules of CO2 are entered for one turn of the cycle.
No, the light reactions make ATP for the Calvin Cycle by using light energy and water.
yes cuz even the first step of Calvin cycleis the addition of co2
Calvin Cycle only
Comparing the light reactions with the Calvin cycle of photosynthesis, which requires CO2?
CO2
The Calvin cycle
The Reactants for the Light-Independent Cycle(Calvin Cycle) are ATP, CO2, and NADPH
Calvin Cycle only
Comparing the light reactions with the Calvin cycle of photosynthesis, which requires CO2?
CO2
The Calvin cycle
co2
CO2
co2 isn't released in the Calvin cycle it takes in 3 co2 to produce one G3P molecule and does that twice to produce C6H12O6
The Reactants for the Light-Independent Cycle(Calvin Cycle) are ATP, CO2, and NADPH
The Calvin cycle uses carbon from carbon dioxide (CO2) to form carbohydrates.
ATP, NADPH, and CO2
The Electron Transport Chain produces ATP. Extra Information: The ATP produced by the ETC is used in the Calvin Cycle. The Calvin Cycle requires CO2 and NADPH as well for it to work. The Calvin Cycle then produces Glucose (Sugars). The left over Glucose is then used and made as Starch.
CO2, along with ATP and NADPH, is used in the calvin-cycle to make G3P, which then, in most cases, is combined with other G3P to make Glucose.