yes
Guava leaves have reticulate venation. This means the veins branch out and form a network pattern on the leaf surface rather than running parallel to each other.
No, marigold has reticulate venation in its leaves.
Dicotyledonous leaf have reticulate venation and monocotyledonous leaf have parallel venation.
Cassia leaf has reticulate venation. This type of venation is generally found in dicot leaves.
Alternate venation
Guava leaves have reticulate venation. This means the veins branch out and form a network pattern on the leaf surface rather than running parallel to each other.
Yes, it has a Reticulate Venation.
Reticulate venation
Yes, Tulsi plant leaves typically have reticulate venation, which means the veins branch off from a central midrib and form a network throughout the leaf. This pattern helps in the efficient transport of water, minerals, and nutrients within the leaf.
Reticulate venation: The veins are in the form of a network. Leaves of dicotyledonous plants have reticulate venation.
no,maize have parallel venation in leaves
Oh, dude, gram leaves have parallel venation. It's like they're all about those straight lines, none of that fancy branching out like reticulate venation. Gram leaves are just like, "We're keeping it simple, okay?"
The holy Basel (tulsi) leaves have reticulate venation
No, marigold has reticulate venation in its leaves.
Chikoo leaf has reticulate venation. Reticulate venation is a type of venation pattern in leaves where the veins form a network of interconnected veins throughout the leaf blade. This is in contrast to parallel venation, where the veins run parallel to each other along the length of the leaf. Chikoo leaves typically exhibit a reticulate venation pattern.
Dicotyledonous leaf have reticulate venation and monocotyledonous leaf have parallel venation.
Cucumber leaves exhibit reticulate venation, where the veins form a network pattern that branches out across the leaf surface.