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Is there a pith in a monocot root?
No, monocot roots do not have pith. Pith is a spongy tissue found in the center of dicot stems, but monocot roots typically have a solid central core called the stele.
What is differences of monocot and dicot as to their external and internal structure of stem?
Monocot stems have scattered vascular bundles, a lack of secondary growth, and do not have distinct pith, cortex, and vascular cambium regions. Dicot stems have vascular bundles arranged in a ring, undergo secondary growth, and have distinct pith, cortex, and vascular cambium regions. This results in differences in stem morphology and growth patterns between monocots and dicots.
What is the difference between the arrangement of vascular tissue in the stems of dicots and monocots?
In young dicot and monocot stems do not increase in thickness. Xylem and phloem are arranged in vascular bundles in the cortex. In older stems and all woody stems, the vascular tissues form a cylinder between the cortex and the pith. The vascular bundles in a monocot are scattered throughout the stem.
Do monocots have vascular cambium?
No, monocots do not have a vascular cambium. Vascular cambium is a type of meristematic tissue found in dicots that produces secondary xylem and phloem, allowing for secondary growth in stems. Monocots lack this tissue layer and instead exhibit primary growth throughout their lifespan.
What is erectophile?
"Erotophile" is not a common term. If you were referring to "erectile," it relates to the ability to achieve and maintain an erection. If you meant something else, please provide more context for a more accurate answer.
Is there a pith in a monocot root?
No, monocot roots do not have pith. Pith is a spongy tissue found in the center of dicot stems, but monocot roots typically have a solid central core called the stele.
What is differences of monocot and dicot as to their external and internal structure of stem?
Monocot stems have scattered vascular bundles, a lack of secondary growth, and do not have distinct pith, cortex, and vascular cambium regions. Dicot stems have vascular bundles arranged in a ring, undergo secondary growth, and have distinct pith, cortex, and vascular cambium regions. This results in differences in stem morphology and growth patterns between monocots and dicots.
What are storage tissue in roots and stems?
Pith and cortex are the storage tissues in roots and stems
Why do tulips have soft stems?
Tulips have soft stems because these are annual herbs of monocots.
The parenchyma cells inside the ring of vascular tissue in dicot stems are known as?
The parenchyma cells inside the ring of vascular tissue in dicot stems are known as pith. Pith cells are involved in storage of nutrients, water transport, and provide mechanical support to the stem.
Where is parenchyma tissue found?
This is a ground tissue forming stems and pith in plants.
Why do most monocots have narrow stems?
Most of the monocots have a narrow stem because they have no cortex. Moreover they do not need a lot of water hence the fibrous roots.
What is the difference between the arrangement of vascular tissue in the stems of dicots and monocots?
In young dicot and monocot stems do not increase in thickness. Xylem and phloem are arranged in vascular bundles in the cortex. In older stems and all woody stems, the vascular tissues form a cylinder between the cortex and the pith. The vascular bundles in a monocot are scattered throughout the stem.
Do monocot stem have a vasular cambium?
No, no they do not. As well as not having a cortex, monocot stems don't have a pith either.
What is pith ball?
Lightweight pith balls help to show electrostatic attraction and repulsion.A pith ball picks up electric charge.
What is pith ball made of?
A pith ball is typically made of a lightweight material called pith, which is soft and spongy tissue found in the stems of certain plants like the common rush or the elderberry. This material is ideal for static electricity experiments because it is light enough to be easily manipulated by electrical forces.
Why most monocots have narrow stems?
Embryo with single cotyledonPollen with single furrow or poreFlower parts in multiples of threeMajor leaf veins parallelStem vacular bundles scatteredRoots are adventitiousSecondary growth absent
