The stomata better be open so that plenty of carbon dioxide diffuses into the leaf and feeds into the Calvin cycle and makes sugars, specifically glyceraldehyde-3-phosphate.
In most plants stomata is usually opened on leaves to preserve water. As a result, CO2 is added during the Calvin Benson Cycle.
CAM plants
during Calvin Benson cycle carbon dioxide from the air is used to produce glucose and other compounds.
The C4 plants tend to keep their stomata closed during the day to conserve water.
Closed.
In most plants stomata is usually opened on leaves to preserve water. As a result, CO2 is added during the Calvin Benson Cycle.
In most plants stomata is usually opened on leaves to preserve water. As a result, CO2 is added during the Calvin Benson Cycle.
In most plants stomata is usually opened on leaves to preserve water. As a result, CO2 is added during the Calvin Benson Cycle.
CAM plants
during Calvin Benson cycle carbon dioxide from the air is used to produce glucose and other compounds.
the final product of the calvin benson cycle used to produce glucose is?
The C4 plants tend to keep their stomata closed during the day to conserve water.
It is widely known that CAM plants open their stomata at night time to fix the CO2 in form of organic acids. However, during the light reactions in daytime O2 is evolved while the stomata are closed and there is no way out. The question goes to the possible mechanism by which these plants can handle this high oxygen level during the daytime, while the stomata are closed. Do these plants have an oxygen accumulation and release system like that of CO2? Is such a mechanism studied or described elsewhere?
Closed.
the final product of the calvin benson cycle used to produce glucose is?
They are used in the Calvin-Benson cycle.
They are usually closed during these periods so that they wont loose any water because of transpiration.