If a plant A leaf shows reticulate venation and Plant B shows parallel venation, which type of roots will be present in Plant A and Plant B?
Answer (2)
Plant A, with reticulate venation, typically has a taproot system, while Plant B, showing parallel venation, generally has a fibrous root system. These characteristics are associated with their classification as dicots and monocots, respectively. Thus, venation patterns in leaves are closely connected to the type of root systems in plants.
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In biology, the type of venation in a plant's leaf often correlates with the type of root system the plant is likely to have. Let's explore this relationship for Plant A and Plant B:
Plant A with reticulate venation:
Leaves with reticulate venation: In this pattern, the veins form a network similar to a net. This type of venation is commonly found in dicotyledonous plants (dicots).
Root type: Plants with reticulate venation typically possess a taproot system. This means they usually have a main root that grows vertically downward and is larger than the other roots. The smaller roots that grow laterally from the main root are called lateral roots.
Plant B with parallel venation:
Leaves with parallel venation: Here, the veins run parallel to each other from the base to the apex of the leaf. This pattern is predominantly observed in monocotyledonous plants (monocots).
Root type: Plants with parallel venation generally have a fibrous root system. In this system, a dense network of roots is formed where no single root is prominent, and the roots are usually roughly the same size.
In summary, Plant A, with reticulate venation, is likely to have a taproot system, while Plant B, with parallel venation, is expected to have a fibrous root system. This correlation between leaf venation and root type is a helpful characteristic for identifying different types of plants.
