Water can enter easily on the bottom of the leaf. Going through the vascular veins and entering through the stomata, water travels through the leaf in the process of photosynthesis.
generally xerophytic plants have sunken stomata
Plants in the shade have more stomata because they need to maximize their ability to capture light energy for photosynthesis in low light conditions. Stomata allow for gas exchange, which is necessary for photosynthesis to occur. Having more stomata enables shade plants to take in more carbon dioxide for photosynthesis, despite the reduced light levels.
earthworm-skin plants-stomata
No , stomata are not present in mushroom as they are fungi . Stomata are present in plants for gaseous exchange .
Plants without stomata include mosses, liverworts, hornworts, and algae. These plants lack true leaves and therefore do not have specialized structures like stomata for gas exchange.
stomata =Specialized passages through the cuticle that enable plants to exchange gases.
terrestrial plants
A few examples of plants that do not have stomata are liverworts, hornworts, and some mosses. These plants have specialized structures that allow for gas exchange without traditional stomata.
Tiny openings on plant leaves are called stomata. Stomata are responsible for gas exchange, allowing plants to take in carbon dioxide for photosynthesis and release oxygen and water vapor.
Water lilies will have less. Water plants have stomata on the sides exposed to air. Or if totally submerged, there are no stomata present. A cactus is covered with stomata but not as much as average plants.
The structure in the epidermis that gaseous exchange occurs in plants is through the stomata. A stomata is a tiny opening or pore in the epidermis.
Stomata