Wiki User
∙ 7y agoWant this question answered?
Be notified when an answer is posted
Tap roots are generally found in dicot plants and fibrous roots in monocots. The dicot leaves are dorsiventral and have reticulate venation. The monocot leaves are isobilateral and have parallel venation.
Cassia leaf has reticulate venation. This type of venation is generally found in dicot leaves.
Monocots typically have parallel venation in their leaves, where the veins run parallel to each other from the base to the tip of the leaf. This is in contrast to dicots, which often have a branching venation pattern.
Monocot stems are typically found in plants with parallel venation, while dicot stems are found in plants with reticulate venation. Monocot stems are usually found in the stems of grasses and palms, whereas dicot stems are found in a wide range of flowering plants.
The leaf of a chili plant has pinnately reticulate venation.
Tap roots are generally found in dicot plants and fibrous roots in monocots. The dicot leaves are dorsiventral and have reticulate venation. The monocot leaves are isobilateral and have parallel venation.
Cassia leaf has reticulate venation. This type of venation is generally found in dicot leaves.
1. Reticulate venation and 2. parallel venation
Monocots typically have parallel venation in their leaves, where the veins run parallel to each other from the base to the tip of the leaf. This is in contrast to dicots, which often have a branching venation pattern.
Litchi leaves have a reticulate or netted venation pattern. This means the veins branch out and form a network of veins throughout the leaf.
Monocot plants are marked by seeds with a single cotyledon, parallel-veined leaves, scattered vascular bundles in the stem, the absence of a typical cambium, and an adventitious root system and dicotyledenous plants tend to exhibit the following characteristics (although exceptions may be found): Two embryo leaves - cotyledons. Tap root system - one main root with side roots. Leaves with net venation.
Paddy plants typically have parallel venation, where the veins on the leaf run parallel to each other from the base to the tip of the leaf. This type of venation helps in efficient water and nutrient distribution throughout the leaf surface, which is beneficial for the plant's growth in waterlogged conditions.
Reticulate leaf venation is branching of veins in a net-like pattern, commonly found in dicot leaves, while parallel leaf venation is when veins run parallel to each other, typical in monocot leaves. Reticulate venation allows for more complex vascularization and a diverse arrangement of leaf structures compared to the simpler, more uniform parallel venation.
Monocot leaves typically have parallel veins, while dicot leaves have branching veins. Monocot leaves also usually lack a petiole (leaf stem) and have a sheath that surrounds the stem. Dicot leaves often have a distinct petiole that attaches to the leaf blade.
The modified leaves that are found in embryonic plants are called cotyledons. Cotyledons are the first leaves produced by the plant. They are not true leaves and are considered to be seed-leaves because they are a part of the seed or embryo of the plant.
Yes, there are some plants in the desert with long leaves. A few examples:Palm treesYuccasSotol
The leaf of a chili plant has pinnately reticulate venation.