Parallel venation is the term used to describe the arrangement of leaf veins in monocotyledonous plants. The veins are arranged parallel to each other, thus parallel venation (as opposed to the branched or net venation of dicotyledonous plants)
a parallel
Venation is the arrangement of veins in an insect's wing or the leaf of a plant. Such venation is said to be netted if the smaller vessels branch from the larger ones either as in a feather or like the fingers of a hand. Please see the link.
I think it is how the veins are formed, for example: Pinnate venation has one main vain going through the leaf, and other veins branching out. There is also palmate, parallel, and netted. Hope I helped!
A chord truss that is parallel:)
A group of joints that are parallel or nearly parallel.
parallel venation
Parallel venation
parallel venation
Parallel venation.
The canna have parallel venation.
Yes, pea plants exhibit a type of venation known as reticulate venation, not parallel venation. In reticulate venation, the veins form a branching network that resembles a web. This contrasts with parallel venation, where veins run parallel to each other, typically seen in monocots like grasses. Thus, peas do not have parallel venation.
parallel
Parallel venation is when the veins in a leaf run parallel to each other, while reticulate venation is when the veins in a leaf form a branching network. Plants with parallel venation are typically monocots, while plants with reticulate venation are typically dicots.
Corn has leaves with parallel venation as it is monocotyledonous
the leaf of a maize plant has parallel venation
Basil leaves exhibit a type of venation known as "pinnate venation," rather than parallel venation. In pinnate venation, there is a central midrib with smaller veins branching off from it. On the other hand, parallel venation, where veins run parallel to each other, is commonly found in grasses and some other plant families. Therefore, basil does not have parallel venation.
No, it has reticulate venation