Write the difference between reticulate and parallel venation. Give examples.
Answers
Explanation:
Difference Between Parallel and Reticulate Venation
In a plant, the veins of the leaf blade or lamina exhibiting the parallel pattern from the base to the tip is known as the parallel venation, on the contrary, when the veins of the leaf blade or lamina in the plants exhibit the web like or net-like pattern on both side of the midrib is known as the reticulate venation.
In a leaf, the arrangement of veins is called as venation. The venation architecture is enormously distributed among the diverse species of the plants. The venation has its importance in the recognition and in differentiating the plants in their characteristics. Variation in leaf venation is much seen in angiosperms.
In a leaf, the arrangement of veins is called as venation. The venation architecture is enormously distributed among the diverse species of the plants. The venation has its importance in the recognition and in differentiating the plants in their characteristics. Variation in leaf venation is much seen in angiosperms.Veins are the part of the vascular tissue, arising from the stem to the leaf. Veins are made up of xylem and phloem, enclosed in the parenchyma, sclerenchyma and bounded by the sheath cells. Xylem helps in water transportation throughout the lamina, while phloem transport nutrients, food or sugars to the whole plants.
In a leaf, the arrangement of veins is called as venation. The venation architecture is enormously distributed among the diverse species of the plants. The venation has its importance in the recognition and in differentiating the plants in their characteristics. Variation in leaf venation is much seen in angiosperms.Veins are the part of the vascular tissue, arising from the stem to the leaf. Veins are made up of xylem and phloem, enclosed in the parenchyma, sclerenchyma and bounded by the sheath cells. Xylem helps in water transportation throughout the lamina, while phloem transport nutrients, food or sugars to the whole plants.Venation also provides mechanical support, protection, coordination is the development of the plants. In this content along with the aim of focussing on the main points which differentiate the parallel and reticulate venation, we will also describe them.
Comparison Chart
Comparison ChartBASIS FOR COMPARISON PARALLEL VENATION RETICULATE VENATION
Comparison ChartBASIS FOR COMPARISON PARALLEL VENATION RETICULATE VENATIONMeaning When veins (or the nerves) are arranged parallel to one another all over the leaf blade or lamina is called as parallel venation. When veins (or the nerves) shows network or web-like arrangement all over the leaf blade or lamina, it is called as reticulate venation.
Comparison ChartBASIS FOR COMPARISON PARALLEL VENATION RETICULATE VENATIONMeaning When veins (or the nerves) are arranged parallel to one another all over the leaf blade or lamina is called as parallel venation. When veins (or the nerves) shows network or web-like arrangement all over the leaf blade or lamina, it is called as reticulate venation.Orientation of veins Parallel to one another. Produce a network or web like structure.
Comparison ChartBASIS FOR COMPARISON PARALLEL VENATION RETICULATE VENATIONMeaning When veins (or the nerves) are arranged parallel to one another all over the leaf blade or lamina is called as parallel venation. When veins (or the nerves) shows network or web-like arrangement all over the leaf blade or lamina, it is called as reticulate venation.Orientation of veins Parallel to one another. Produce a network or web like structure.Occurs in Monocot plants. Dicot plants.
Comparison ChartBASIS FOR COMPARISON PARALLEL VENATION RETICULATE VENATIONMeaning When veins (or the nerves) are arranged parallel to one another all over the leaf blade or lamina is called as parallel venation. When veins (or the nerves) shows network or web-like arrangement all over the leaf blade or lamina, it is called as reticulate venation.Orientation of veins Parallel to one another. Produce a network or web like structure.Occurs in Monocot plants. Dicot plants.Examples Banana, bamboo, wheat, grasses and maize are few examples of the parallel venation. Mango, hibiscus, ficus are few examples of the reticulate venation.
The orientation of veins is parallel to one another in parallel venation, but in reticulate venation, the veins produce a network or web-like structure. Parallel venation is seen monocot plants like banana, bamboo, wheat, maize, etc. Reticulate venation is seen in dicot plants like mango, hibiscus, ficus, etc.
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