Answers :
1οΈβ£ Answer: Meristematic tissue π±
π§ Explanation: Meristematic tissue drives plant growth because its cells remain actively dividing. π¬ Meristematic cells are small, have dense cytoplasm and thin walls, and produce new cells that differentiate into permanent tissues for primary and secondary growth.
2οΈβ£ Answer: True β
π§ Explanation: Meristematic cells are undifferentiated and capable of continuous division. π Their high mitotic activity supplies cells for growth, repair, and tissue formation in roots and shoots.
3οΈβ£ Answer: At root and shoot tips (apical meristems) π
π§ Explanation: Apical meristems at root and shoot tips are responsible for primary (lengthwise) growth. πΏ These regions contain actively dividing cells that form new tissues for elongation.
4οΈβ£ Answer: Parenchyma π
π§ Explanation: Parenchyma cells (especially leaf mesophyll) contain chloroplasts and perform photosynthesis. βοΈ They also store nutrients and aid gas exchange, making them multifunctional in green parts.
5οΈβ£ Answer: False β
π§ Explanation: Sclerenchyma cells are typically dead at maturity and have thick, lignified walls. πͺ΅ Their rigidity and lignin content provide structural support, unlike living supportive tissues.
6οΈβ£ Answer: Xylem π§
π§ Explanation: Xylem conducts water and dissolved minerals from roots to shoots using tracheids and vessel elements. π° These structures form continuous tubes that enable efficient upward transport.
7οΈβ£ Answer: Phloem π―
π§ Explanation: Sieve tube elements and companion cells are components of phloem, which transports sugars and organic nutrients from sources to sinks. βοΈ Companion cells support sieve elements metabolically and enable translocation.
8οΈβ£ Answer: True β
π§ Explanation: Collenchyma provides flexible support to growing stems and leaves because of its unevenly thickened primary walls. 𧩠Being living and pliable, it supports growth without restricting elongation.
9οΈβ£ Answer: Small vacuole and thin cell walls π§«
π§ Explanation: Meristematic cells have thin primary walls, dense cytoplasm, a prominent nucleus, and small/absent vacuoles. βοΈ These features support rapid mitotic activity and ongoing division.
1οΈβ£0οΈβ£ Answer: Lateral meristem π
π§ Explanation: Lateral meristems (e.g., vascular cambium) cause secondary growth, increasing stem and root thickness. π³ They produce secondary xylem inward and secondary phloem outward.
1οΈβ£1οΈβ£ Answer: True β
π§ Explanation: Intercalary meristemsβfound in grasses at internodes or leaf basesβenable rapid elongation and regrowth after grazing or cutting. πΎ Their position allows localized lengthening of stems and leaves.
1οΈβ£2οΈβ£ Answer: Thick lignified walls πͺ΅
π§ Explanation: Sclerenchyma cells are defined by heavily thickened, lignified secondary walls that give rigidity and mechanical strength. ποΈ They form fibers or sclereids that support mature tissues.
1οΈβ£3οΈβ£ Answer: Phloem π¬
π§ Explanation: Phloem transports organic nutrients (mainly sucrose) from leaves to growing and storage tissues via sieve tubes and companion cells. π This source-to-sink translocation fuels growth and storage.
1οΈβ£4οΈβ£ Answer: True β
π§ Explanation: Some permanent cells (especially parenchyma) can dedifferentiate and regain meristematic activity during wound healing or tissue culture. π¬ This plasticity underlies regeneration and vegetative propagation.
1οΈβ£5οΈβ£ Answer: It produces secondary xylem inward and secondary phloem outward π
π§ Explanation: The vascular cambium is a lateral meristem that adds secondary xylem (wood) inward and secondary phloem outward, contributing to secondary (thickening) growth and growth rings. π²
π Topics Covered
What this summary covers β at a glance β
- Definition and features of meristematic tissue π±
- Types of meristems: apical, lateral, intercalary ππ
- Primary vs secondary growth β role of apical and lateral meristems πΏπ³
- Permanent tissues: parenchyma, collenchyma, sclerenchyma β structure & function ππͺ΅
- Conducting tissues: xylem (water) & phloem (organic food) π§π―
- Key cellular features used in identification (cell wall, vacuole, lignin, living/dead at maturity) π¬
Core concepts β succinct explanations π§
Meristematic tissue
Definition: Groups of undifferentiated, actively dividing plant cells that give rise to new cells for growth. Key: growth & division
- Features: Small cells, dense cytoplasm, large nucleus, thin primary walls, small vacuoles.
- Function: Provide new cells for differentiation into permanent tissues (primary and secondary growth).
Types of meristem
- Apical meristem β at root & shoot tips; responsible for primary growth (lengthening). π
- Lateral meristem β vascular cambium & cork cambium; responsible for secondary growth (thickening). π
- Intercalary meristem β at internodes or leaf bases (common in grasses); enables rapid regrowth. πΎ
Permanent tissues β types & roles π§©
Simple permanent tissues
| Tissue | Structure | Function |
|---|---|---|
| Parenchyma | Thin walls, living cells, chloroplasts in leaves | Photosynthesis, storage, repair, gas exchange |
| Collenchyma | Living cells, unevenly thickened walls | Flexible support in young stems & leaves |
| Sclerenchyma | Thick, lignified secondary walls; often dead at maturity | Rigid support & protection (fibres, sclereids) |
Complex permanent tissues (conducting)
- Xylem β tracheids & vessel elements; conducts water & minerals upward; cells usually dead at maturity. π§
- Phloem β sieve tube elements & companion cells; transports organic nutrients (sugars) source β sink. π¬
Important features to remember (Quick facts) β‘
- Meristematic cells: actively dividing, thin walls, small vacuoles.
- Sclerenchyma: lignified walls β dead support cells (wood/fibres).
- Collenchyma: living support that allows elongation (uneven wall thickening).
- Xylem vs Phloem: xylem = water (root β shoot), phloem = food (source β sink).
- Vascular cambium: lateral meristem producing secondary xylem (inward) and phloem (outward).
How the 15 quiz questions map to the topic π―
- Identification of meristematic vs permanent tissues (definition & role).
- Meristematic cell attributes (undifferentiated, mitotic).
- Location of apical meristems (root & shoot tips).
- Function of parenchyma (photosynthesis & storage).
- Sclerenchyma maturity status (dead at maturity).
- Function of xylem (water conduction).
- Components & role of phloem (sieve tubes + companion cells).
- Role of collenchyma (flexible support).
- Typical meristem cell features (small vacuole, thin wall).
- Role of lateral meristem in secondary growth.
- Intercalary meristems in grasses (regrowth).
- Characteristic of sclerenchyma (lignified walls).
- Phloem role in organic nutrient transport.
- Dedifferentiation potential of some permanent cells (parenchyma).
- Vascular cambium function (secondary xylem & phloem formation).
Revision checklist & exam tips β
- Memorize distinguishing features of meristematic vs permanent cells (wall thickness, vacuole size, division ability).
- Remember locations: apical β tips, lateral β cambium, intercalary β internodes.
- Be able to match tissue to function: xylem = water, phloem = food, parenchyma = photosynthesis/storage, collenchyma = flexible support, sclerenchyma = rigid support.
- Practice short-answer lines describing one clear feature and one clear function for each tissue (helps in board exams).
- Use labelled diagrams (apical meristem, vascular cambium cross-section) when asked for structure & function.
Key terms (glossary) ποΈ
- Dedifferentiation: permanent cells reverting to a mitotic state (e.g., parenchyma in tissue culture).
- Lignin: complex polymer that strengthens cell walls (characteristic of sclerenchyma and xylem).
- Sieve tube: elongated phloem element that transports sugars; relies on companion cells.
- Vascular cambium: meristematic ring responsible for secondary growth (wood formation).