The stomata's function is to control the intake and expelling of gasses from the leaf; as well as affecting water loss. The advantage of it's width being able to change means it can respond to conditions to take in more or less CO2 for photosynthesis and retain or release more water as is appropriate
Stomata - little 'mouths' on the leaves - help take in carbon dioxide needed for photosynthesis. While open, they also expel water, which pulls more water up from the roots through capillary pressure.
In terrestrial plants, gas enters and leaves (termed "gas exchange") through cell-lined pores called "stomata." Stomata open and close in response to light and humidity, permitting oxygen, carbon dioxide and water vapor to enter and leave the plant. In most terrestrial plants, the stomata are located on the surface of the leaves, or in cacti, on the surface of the stems. In aquatic plants, gas exchange directly though the tissue surface.
Stomata in lotus are primarily located on the upper surface of the leaves. This adaptation helps to minimize water loss through transpiration by reducing exposure to sunlight and wind, which can promote evaporation. The positioning of stomata on the upper surface also allows for efficient gas exchange and absorption of carbon dioxide.
By waxy deposition on the leaf surface and closing of stomata
The exiting of water through stomata of leaves is known as transpiration. Stomata are small pores on the surface of leaves that allow the exchange of gases. During transpiration, water evaporates from the leaf surface, creating a gradient that causes water to move from the roots, through the plant, and ultimately exit through the stomata. This process plays a crucial role in the movement of water and nutrients throughout the plant.
Stomata in plant leaves allow the exchange of gases with the environment. Oxygen passes out and carbon dioxide passes in. Stomata are holes in the leaf's surface layers , mostly on the underside of the leaves.
stomata which are tiny spots on the underside of the leaf
Stomata that can help plants to exchange gases.
The stomata have to be able to access air easily as its purpose is to take in and give out carbon dioxide oxygen. Since both the water lily and lotus are water plants partially submerged in water, air would be more easily accesible from the upper surface.
Stomata in lotus plant is on the upper side of the leaves . BY:Alvir Tuazon
In terrestrial plants, gas enters and leaves (termed "gas exchange") through cell-lined pores called "stomata." Stomata open and close in response to light and humidity, permitting oxygen, carbon dioxide and water vapor to enter and leave the plant. In most terrestrial plants, the stomata are located on the surface of the leaves, or in cacti, on the surface of the stems. In aquatic plants, gas exchange directly though the tissue surface.
microscopic openings on the surface of leaves that allow gas to pass in and out
Potomageton natans is an aquatic plant and its leaves are floating on water. The upper surface of leaf being away from water has stomata for gaseous exchange from air, the lower surface remains in contact with water, therefore, stomata are present on the upper surface of these leaves.
Stomata in lotus are primarily located on the upper surface of the leaves. This adaptation helps to minimize water loss through transpiration by reducing exposure to sunlight and wind, which can promote evaporation. The positioning of stomata on the upper surface also allows for efficient gas exchange and absorption of carbon dioxide.
By waxy deposition on the leaf surface and closing of stomata
Stomata are pores in the leaf's epidermis, or outer surface. They are used to regulate the outflow of water vapour and oxygen from the plant leaves as well as the inflow of carbon dioxide into the leaves. Stomata are normally found on the underside of the leaves (protected from direct sun and exposure to wind).
The exiting of water through stomata of leaves is known as transpiration. Stomata are small pores on the surface of leaves that allow the exchange of gases. During transpiration, water evaporates from the leaf surface, creating a gradient that causes water to move from the roots, through the plant, and ultimately exit through the stomata. This process plays a crucial role in the movement of water and nutrients throughout the plant.
Water Surface