venation
perallel veins
Leaf venation refers to the pattern of veins in a leaf. There are two main types of leaf venation: parallel venation, where the veins run alongside each other in a parallel pattern, and reticulate venation, where the veins branch and form a network-like pattern across the leaf. The type of venation can be used as a characteristic for identifying plant species.
The veins in a grass leaf run parallel, marking it as a monocot
The veins are branching up and down the leaf instead of branching up from a thick, center midrib.
Reticulate venation is a type of leaf venation pattern in which the veins form a network branching structure throughout the leaf. This pattern is common in dicotyledonous plants and allows for efficient nutrient transport and support for the leaf.
pinately netted
Reticulate venation is a type of leaf venation pattern where the veins form a network or grid-like structure across the leaf. It is common in dicotyledonous plants and serves to distribute nutrients and water efficiently throughout the leaf.
Venation is how a the leaf veins are organized. Netted venation is when there are larger veins with many smaller veins branches making a type of web pattern.
Cabbage leaves have reticulate venation, which means the veins form a network pattern throughout the leaf.
A sycamore leaf exhibits a palmate vein pattern, characterized by several primary veins that radiate from a central point at the base of the leaf. These main veins branch outwards, resembling fingers extending from the palm of a hand. The secondary veins then further divide, creating a network that enhances the leaf's structural integrity and facilitates nutrient transport. The overall design contributes to the leaf's ability to efficiently capture sunlight and withstand environmental stress.
The patten of veins on a dicot leaf are called netted veins. With netted veins, several main veins begin near the base of the leaf and radiate outward.
Type your answer here... parallel venation