Underside the leaf to prevent excess transpiration
The stomata are located on the lower surface of a leaf.
Yes, there are stoma present. Rhoeo leaves have dorsiventral symetry. The dorsal side being pink in color have more stomata and ventral side facing sun is green with less stomata per unit area.
The lower surface of the leaf has the stomata. You can see the reason for this if you cut a leaf in half from upper side to lower side. The upper portion of the leaf consists of tightly packed cells that are full of chloroplasts for taking in light. The lower half of the leaf is made up of loosely arranged cells. This allows room for air to enter the lower part of the leaf through the stomata and contribute carbon dioxide and take away oxygen. The upper surface of the leaf is covered by the cuticle which prevents dehydration, as such the stomata cannot be located or function on the upper surface
It is a DICOT because it has two cotyledons.
The tiny holes in leaves through which carbon dioxide enters are called stomata. Stomata are small pores located on the surface of leaves that open and close to allow for gas exchange, including the intake of carbon dioxide for photosynthesis.
Stomata are found mostly on the underside of leaves, whether monocot or dicot.
The stomata are located on the lower surface of a leaf.
In monocot leaves stomatal distribution is almost evenly on the upper and lower surface of the leaf. In herbacious dicot stomata is distributed more on the lower surface than the upper surface. Lastly in woody dicot there is not stomatal distribution on upper surface but great distribution on lower surface of leaves.
In dicot plants the lower epidermis is frequently ruptured by stomata and thus helps in gaseous exchange and transpiration.
Pondweed does have stomata, It is located on the upper surface on the leaf as it still needs to photosynthesis and cant get sun from underneath.
The distribution of stomata in monocot leaves is usually scattered randomly, while in dicot leaves they are typically more concentrated on the undersurface. This difference is thought to be related to their respective growth habits and adaptations for gas exchange and water regulation. Monocots, which have parallel venation, may benefit from a more even distribution of stomata, while dicots, with more complex venation, may optimize gas exchange by concentrating stomata on the underside.
in dicot, the base of branch root is located at the pericycle
it is a dicot.
dicot
dicot
It is dicot...
Yes, it's a dicot.