Yes it does. 3-phosphoglycerate is one of the early products formed during the Calvin Cycle. Which takes place in C3 reactions in plants.
C3 and C4 plants are named after the number of carbon molecules in the first products of their carbon fixation cycles. C3 plants produce 3-phosphoglycerate and C4 plants produce Oxaloacetate.
It requires less water than c3 plants.
The Calvin Cycle occurs in the stroma (inside a chloroplast)
The plants which live in water are aquatic plants.
c4 plants have first product of calvin cycle is oxaloacetic acid but in c3 plants is phospfoglyceric acid
C3 and C4 plants are named after the number of carbon molecules in the first products of their carbon fixation cycles. C3 plants produce 3-phosphoglycerate and C4 plants produce Oxaloacetate.
It requires less water than c3 plants.
c3
C3
Around 50ppm for C3 plants and around 5ppm for C4 plants.
The Calvin Cycle occurs in the stroma (inside a chloroplast)
The plants which live in water are aquatic plants.
c4 plants have first product of calvin cycle is oxaloacetic acid but in c3 plants is phospfoglyceric acid
Bamboo is a C3-plant.
Monocots.
Yes it can
Since C4 plants need for CO2 is more than C3 plants, doubling the concentration of CO2 will have more positive effect on C4 plants. If CO2 is a limiting factor for photosynthesis, both C3 & C4 plants will have positive effect.