Tag: internal structure of monocots
Questions Related to internal structure of monocots
The character of monocot is
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Net-veined leaves
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Annual rings
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Seed with two masses of stored food
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Conducting strands scattered in ground tissue
In a monocotyledenous stem the vascular bundles are not arranged in a circle but are usually scattered throughout the ground tissue. There is no clearly defined pith as there is in many dicotyledonous species.
An example of monocots showing secondary growth in stem is
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Lilium
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Cocos
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Asparagus
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Yucca
Secondary growth is increase in the circumference / girth of the plant organs due to the formation of secondary tissues in stelar and extra stelar regions. Normally secondary growth takes place in roots and stem of dicotyledons and gymnosperms. Due to lack of cambium in monocotyledons, secondary growth is absent. But exceptionally, secondary growth takes place in some monocotyledons, such as palm, Yucca, Dracaena etc.
Conjoint, collateral and closed vascular bundles are found in
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Monocot stem
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Monocot root
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Dicot stem
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Dicot root
In monocot stem vascular bundles are found irregularly scattered in the ground tissue. Towards the periphery, the bundles are smaller in size, while towards the centre, they are larger in size. The smaller bundles are younger, while the larger ones are older. Hence, the arrangement is described as centrifugal.
Cambium found in vascular bundles of dicot stem is _______________.
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Intercalary meristem
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Fascicular cambium
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secondary meristem
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All of the above
Atactostele is found in
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Dicot stem
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Monocot stem
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Dicot root
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Monocot root
Atactostele is a type of eustele, found in monocots, in which the vascular tissue in the stem exists as scattered bundles. Most seed plant stems possess a vascular arrangement, which has been interpreted as a derived siphonostele and is called as eustele. There is also a variant on the eustele found in monocots, like maize and rye. The variation has numerous scattered bundles in the stem and is called as an atactostele.
The stele present in Equisetum is
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Haplostele
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Actinostlele
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Plectostele
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Siphonostele
- Haplostele consist of smooth ore of xylem which is surrounded by a phloem ring.ex-Seleginella
- Actinostele consist of star shape xylem core with many radiating arms.ex-Lycopodium
- Plectostele consist of xylem core broken into a number of parallel plates.ex-Lycopodium clavatum
- Siphonostele is a protostele with central pith and considered to be the most advance stele.ex-Equisetum.
Which of the following tissue is absent in vascular bundles of monocot stem?
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Xylem
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Phloem
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Cambium
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All of the above
Which of the following would you consider to prove that a plant is a monocot?
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Leaves with reticulate venation
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Taproot system
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Vascular bundles are closed
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Presence of cambium
In the monocots, the vascular bundles are of the collateral and closed type. The closed vascular bundles lack the cambium and cannot show secondary growth. In the stem, vascular bundles are found scattered in the ground tissue. They are more in number at the periphery as compared to the centre. In the monocot roots, the vascular bundles are closed type an found in the stele.
Conjoint and closed vascular bundles with no phloem parenchyma may be observed in
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Monocot stem
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Monocot root
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Dicot stem
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Dicot root
In monocot stem, all the vascular bundles, the xylem and phloem are in the same line; cambium is absent; phloem is external to xylem; protoxylem faces the centre. Hence, the vascular bundles are described as conjoint, collateral, endarch and closed.
Hypodermis in monocotyledonous stem is?
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Parenchymatous
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Chlorenchymatous
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Collenchymatous
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Sclerenchymatous
The region present below the epidermis in monocot stem is hypodermis. It is composed with sclerenchyma. Sclerenchyma is dead mechanical tissue. It provides mechanical strength to the stem.
So, the correct option is 'Sclerenchyma’.