leaf of plant
Dorsal side of a leaf
The stomata, which are tiny openings on the surface of leaves, are responsible for exchanging gases such as oxygen and carbon dioxide during photosynthesis and respiration in plants.
The stomata allows the carbon dioxide to enter.
Subsidiary cells form the peripheral part of stomata and gaurd cells form the stomatal pore
stomata
Stomata are found on the underside of plant leaves. To prove this, you can use a microscope to observe and identify the stomata on a leaf's underside. Staining techniques can also be employed to make the stomata more visible for identification.
The stomata, which are tiny openings on the surface of leaves, are responsible for exchanging gases such as oxygen and carbon dioxide during photosynthesis and respiration in plants.
The stomata are the pores and the guard cells control the opening and closing of these pores.
stomata
midday
stomata
Stomata!/ Leaves
The stomata are surrounded by guard cell which are tasked with the graduated opening and closing of the stomata. So, wide ope much carbon dioxide is diffusing into the cells and the rate of photosynthesis is high, but as the stomata work their way towards the closed position the rate of photosynthesis slows down until it can stop completely with no diffusion of CO2 through the closed stomata.
The stomata allows the carbon dioxide to enter.
Subsidiary cells form the peripheral part of stomata and gaurd cells form the stomatal pore
stomata
Stomata density directly affects the rate of transpiration (water loss) in plants. Higher stomata density means more openings for water vapor to escape, leading to increased water loss. Conversely, lower stomata density reduces the rate of transpiration and helps plants conserve water.
Plants Breathe Through Stomata. Stomata is found on the leaves of a plant. To Learn More Check On The Internet