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One celled thick upper and lower epidermal layers consist of barrel shaped compactly arranged cells.
Transverse section of monocot leaf. Dicot leaves have an anastamosing network of veins arising from a. Most leaves are usually green due to presence of chlorophyll in the leaf cells. The transverse section depicts the arrangement of different tissues in a particular way from the exterior to the centre as listed below.
The leaf has upper and lower epidermis they are made up of a single layer of thin walled cells. An common example of this is the husk of corn or a blade of grass both are monocots. The outer walls are covered by thick cuticle.
An epidermal layer is present on the upper as well as lower surfaces. Stomata and other epidermal cells are almost always arranged in parallel arrays. Leaf is the main place where photosynthesis occurs.
Monocot leaves have their leaf veinsarranged parallel to each other and the long axis of the leaf parallel vennation. Anatomy of a monocot leaf grass leaf. Transverse section of internal tissues organization of monocot stem maize epidermis is the outermost uniseriate cuticularised layer of parenchyma with stomata.
It is the outermost covering of the stem and is single layered. Anatomy of dicot leaf. Cross section edge of a yucca leaf.
Monocots leaves have an equal number of stomata on each surface while dicots leaves have more stomata on their lower surface. A transverse section of a grass leaf reveals the following internal structures. Key differences between monocot leaf and dicot leaf.
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