Oxygen is released out of the plant through stomata as a product of photosynthesis.
Carbon dioxide is the gas needed for photosynthesis that enters through the stomata of the cactus stem.
The stomata
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.
Small pores on the leaf surface are called stomata. They are responsible for regulating the exchange of gases, such as carbon dioxide and oxygen, during photosynthesis.
The stomata are areas on the underside of a leaf from which oxygen from photosynthesis exits, and carbon dioxide enters for photosynthesis.
Oxygen is released out of the plant through stomata as a product of photosynthesis.
More stomata generally lead to increased photosynthesis due to greater intake of carbon dioxide. However, more stomata also result in higher transpiration rates as water is lost through the stomata. Therefore, there is a balance in the number of stomata to optimize both photosynthesis and water conservation for the plant.
Carbon dioxide enters through stomata in leaves, which is needed for photosynthesis. Oxygen and water vapor also exit through the stomata as byproducts of the photosynthesis process.
Carbon dioxide enters through stomata in photosynthesis. This gas is essential for the plant to produce glucose through the process of photosynthesis.
There are none.
oxygen
light
Stomata cells regulate gas exchange in plants by opening to allow for the uptake of carbon dioxide for photosynthesis and the release of oxygen, and closing to prevent water loss through transpiration. This helps plants maintain a balance between photosynthesis and water conservation.
the stomata open
Carbon dioxide is the gas needed for photosynthesis that enters through the stomata of the cactus stem.
Stomata