What are the types of plant tissues in Class 9 Science?

Plant tissues are of two types: meristematic (apical, lateral, intercalary) which keep dividing, and permanent (simple — parenchyma, collenchyma, sclerenchyma; complex — xylem and phloem) which have stopped dividing and have a fixed function.

What is plant tissues in Class 9 Science (CBSE/NCERT)?

Plant Tissues is a key topic in NCERT Class 9 Science Chapter 3 u2014 Tissues in Action. It explains types of plant tissues u2014 meristematic and permanent u2014 and their structure and function.

Why is meristematic tissue important in NCERT Class 9 Science?

Meristematic tissue is important because it forms the foundation for understanding plant tissues in Chapter 3. Without a clear idea of meristematic tissue, students cannot answer higher-order CBSE questions involving apical, lateral and intercalary meristems.

How is plant tissues tested in the Class 9 Science CBSE exam?

CBSE Class 9 tests this through 1-mark MCQs, 2-mark short answers, 3-mark explanations, 5-mark descriptive questions and 4-mark competency-based questions on meristematic tissue, apical meristem and lateral meristem drawn from NCERT activities.

What are the key terms to remember for plant tissues in Class 9 Science?

Key terms: meristematic tissue, apical meristem, lateral meristem, intercalary meristem, permanent tissue, parenchyma. Each carries exam weightage and regularly appears in the CBSE Class 9 paper.

Is Plant Tissues included in the Class 9 Science syllabus for 2025u201326 CBSE?

Yes, Plant Tissues is part of the NCERT Class 9 Science syllabus (2025u201326) under the new NCERT Exploration textbook. It falls under Chapter 3 and is examined in the annual paper.

How should I prepare plant tissues for the CBSE Class 9 Science exam?

Prepare in three steps. First, read this NCERT part highlighting definitions of meristematic tissue, apical meristem and lateral meristem. Second, solve every in-text and end-of-chapter question. Third, practise competency-based and assertion-reason questions to sharpen reasoning.

What is plant tissues in Class 9 Science (CBSE/NCERT)?

Plant Tissues is a key topic in NCERT Class 9 Science Chapter 3 — Tissues in Action. It explains types of plant tissues — meristematic and permanent — and their structure and function. Core ideas covered include meristematic tissue, apical meristem, lateral meristem, intercalary meristem. Mastering this subtopic is essential for scoring well in the CBSE Class 9 Science exam and for building a strong foundation for the Class 10 board exam, because these concepts repeatedly appear in MCQs, short answers and long-answer questions. This part gives a complete, exam-ready explanation with activities, diagrams and competency-based practice aligned to NCERT.

Why is meristematic tissue important in NCERT Class 9 Science?

Meristematic tissue is important in NCERT Class 9 Science because it forms the foundation for understanding plant tissues in Chapter 3 — Tissues in Action. Without a clear idea of meristematic tissue, students cannot answer higher-order CBSE questions involving apical meristem, lateral meristem, intercalary meristem. School and competitive papers regularly include 2-mark and 3-mark questions on this concept, and competency-based questions often link meristematic tissue to real-life situations. Building clarity here pays off directly in marks at Class 9 and again in the Class 10 board exam.

How is plant tissues tested in the Class 9 Science CBSE exam?

The CBSE Class 9 Science exam tests plant tissues through a mix of 1-mark MCQs, 2-mark short answers, 3-mark explanations with examples, 5-mark descriptive questions (often with diagrams or derivations) and 4-mark competency-based questions. Expect direct questions on meristematic tissue, apical meristem, lateral meristem and application-based questions drawn from NCERT activities. Students who follow the NCERT Exploration textbook thoroughly and practise this chapter's questions consistently score in the 90%+ range.

What are the key terms to remember for plant tissues in Class 9 Science?

The key terms to remember for plant tissues in NCERT Class 9 Science Chapter 3 are: meristematic tissue, apical meristem, lateral meristem, intercalary meristem, permanent tissue, parenchyma. Each of these concepts carries exam weightage and regularly appears in the CBSE Class 9 paper. Write clear one-line definitions of every term in your revision notes and revisit them before the exam. Linking these terms visually through a flowchart or concept map makes recall easier during the Class 9 Science exam.

Is Plant Tissues included in the Class 9 Science syllabus for 2025–26 CBSE?

Yes, Plant Tissues is part of the NCERT Class 9 Science syllabus (2025–26) prescribed by CBSE under the new NCERT Exploration textbook. It falls under Chapter 3 — Tissues in Action — and is examined in the annual paper. The current syllabus retains the full treatment of meristematic tissue, apical meristem, lateral meristem as per the NCERT textbook. Because CBSE bases every Class 9 question on NCERT, studying this part thoroughly ensures complete syllabus coverage and guarantees marks from this chapter.

How should I prepare plant tissues for the CBSE Class 9 Science exam?

Prepare plant tissues for the CBSE Class 9 Science exam in three steps. First, read this NCERT part carefully, highlighting definitions and diagrams of meristematic tissue, apical meristem, lateral meristem. Second, solve every in-text question and end-of-chapter exercise — CBSE questions often come directly from NCERT. Third, practise competency-based and assertion-reason questions to sharpen reasoning. Write answers in the exam-style format (point-wise with diagrams) and time yourself. This method delivers confidence and full marks in the exam.

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Plant Tissues — Meristematic and Permanent

🎓 Class 9 Science CBSE Theory Ch 3 — Tissues in Action ⏱ ~13 min

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Plant Tissues — Meristematic and Permanent

Class 9 Science · Chapter 3 · Part 2 — Meristems, Parenchyma, Xylem & Phloem

3.3 Two Big Families of Plant Tissues

Plant tissues fall into two broad groups based on whether the cells are still able to divide. The young, dividing cells form meristematic tissue; once the cells stop dividing and take on a fixed shape and job, they become permanent tissue.

3.3.1 Meristematic Tissue — Where Plants Grow

Meristematic cells are small, thin-walled, packed tightly together with little or no space between them, and have a large nucleus and dense cytoplasm. They divide again and again to produce new cells. Based on where in the plant they are found, three types are recognised.

🌱 Meristem Identifier — Click each yellow zone L1 Remember

Three regions of dividing cells keep a plant growing. Click each yellow patch to reveal which meristem it is and what part of growth it controls.

Fig 3.3 — The three meristematic regions in a plant body

Click any yellow meristem zone above to reveal what kind of growth it controls.

(i) Apical Meristem

Found at the tips of stems, branches and roots. It is responsible for increasing the length of the plant. Whenever you see a shoot growing taller or a root probing deeper, the apical meristem is at work.

(ii) Lateral Meristem (Cambium)

Lies along the sides of the stem and root. It is responsible for increasing the girth (thickness). The annual rings in the trunk of a tree are produced by the lateral meristem.

(iii) Intercalary Meristem

Located between matured tissues, especially at the bases of leaves or above nodes (as in grasses). It helps the plant regrow after damage — that is why a lawn keeps recovering after every mowing.

Mnemonic: A-L-I — Apical (tips), Lateral (sides), Intercalary (in-between).

3.3.2 Permanent Tissues — Mature Workers

When meristematic cells stop dividing and take a fixed structure, they become permanent tissues. These are sub-grouped into simple permanent tissues (one cell type) and complex permanent tissues (more than one cell type).

A) Simple Permanent Tissues

1. Parenchyma

Living cells with thin walls and large vacuoles. They store food, water and air. When they contain chlorophyll they are called chlorenchyma and carry out photosynthesis. In aquatic plants, parenchyma with large air cavities is called aerenchyma, and it gives buoyancy.

Parenchyma — soft tissue for storage and support

2. Collenchyma

Living cells with corners thickened by extra cellulose and pectin. It provides flexibility — bending without breaking — to young stems and leaf stalks. The string-like part you peel off a celery stalk is collenchyma.

Collenchyma — flexible support in young stems

3. Sclerenchyma

Dead cells with very thick walls due to a substance called lignin. There is no space between the cells. Sclerenchyma makes the plant hard and stiff — the husk of a coconut, the rough fibres in jute and the gritty particles in a pear are all sclerenchyma.

Sclerenchyma — dead, thick-walled cells for hardness

Feature	Parenchyma	Collenchyma	Sclerenchyma
Cells	Living, thin-walled	Living, corner-thickened	Dead, thick-walled (lignin)
Function	Storage, photosynthesis	Flexible support	Hardness, rigidity
Example	Soft pulp of fruit	Leaf stalk of celery	Coconut husk, jute fibre

Special simple tissue: Epidermis

The single outer layer of a plant body is the epidermis. It is covered with a waxy cuticle in aerial parts, and it has tiny pores called stomata for gaseous exchange. In roots, some epidermal cells extend out as root hairs to absorb water.

B) Complex Permanent Tissues

Complex tissues are made of more than one cell type that act together. The two main complex tissues form the plant's plumbing system — together called the vascular tissue.

Xylem — water and mineral transport (upward)

Xylem carries water and dissolved minerals from the roots upward to leaves. It is made of four cell types:

Tracheids — long, tapering, dead cells with pitted walls.
Vessels — long tube-like dead cells joined end-to-end with cross-walls dissolved.
Xylem parenchyma — the only living cells in xylem; store food.
Xylem fibres — dead, thick-walled cells, give support.

Fig 3.4 — Cell types in xylem

Phloem — food transport (in any direction)

Phloem carries food (mainly sucrose) made in the leaves to all other parts of the plant. It also has four cell types:

Sieve tubes — long living cells joined end to end with sieve plates having pores.
Companion cells — small living cells beside sieve tubes that keep them alive.
Phloem parenchyma — for storage.
Phloem fibres — only dead cells in phloem, give support.

Fig 3.5 — Cell types in phloem

Direction of transport: Xylem moves substances upward only (roots → leaves). Phloem moves food both up and down from the leaves to wherever it is needed (this is called translocation).

Activity 3.2 — Looking for Plant Tissues with Your EyesL3 Apply

Predict first: Take a stalk of celery (or stem of any soft plant). Where do you think the strong fibres lie — on the outside or in the middle?

Cut a transverse section of a soft stem like balsam (or buy a celery stalk).
Place the section on a slide and add a drop of safranin or red ink. Wait for two minutes.
Observe under a lens — the lignified xylem and sclerenchyma will appear deep red.
Note where the coloured tissue is located.

The xylem and sclerenchyma fibres are arranged in patches just under the epidermis (collenchyma layer) and around the vascular bundles. This is the strong skeletal tissue of the stem.

Competency-Based Questions

A bonsai gardener carefully prunes the tip of every shoot to keep the plant short. He never cuts the base of the stem. Strangely, the plant still becomes thicker year by year.

Q1. Which meristem has been removed by pruning, and which is still active? L3

Pruning removes the apical meristem (so the plant cannot increase length). The lateral meristem (cambium) is still active and continues to make the trunk thicker.

Q2. Why are sclerenchyma cells described as 'dead but useful'? L2

Their cytoplasm dies, but their thick lignified walls remain and provide mechanical strength to the plant — like wooden pillars holding up a roof.

Q3. Identify the tissue: living cells, large air cavities, found in lotus stems.

(a) Sclerenchyma
(b) Aerenchyma
(c) Collenchyma
(d) Phloem fibres

(b) Aerenchyma — the air cavities provide buoyancy.

Q4. Differentiate between xylem vessels and sieve tubes in two points. L2

(i) Vessels are dead, sieve tubes are living. (ii) Vessels carry water upward; sieve tubes carry food in any direction.

Q5. Why is phloem said to be a 'two-way' transport tissue? L4

Food made in leaves can be sent upward to growing buds and fruits or downward to roots, depending on where it is needed. Hence transport happens in both directions.

Assertion–Reason Questions

Choose: (A) Both A and R true and R explains A. (B) Both true but R does not explain A. (C) A true, R false. (D) A false, R true.

Assertion: Sclerenchyma provides hardness to plant parts.

Reason: Sclerenchyma cells have thick walls deposited with lignin.

(A) — lignin is the substance that makes cell walls hard, hence the rigidity.

Assertion: Companion cells are very important for the working of phloem.

Reason: Sieve tubes have very little cytoplasm and depend on companion cells for life functions.

(A) — sieve tubes lose nuclei and cannot survive alone, so companion cells keep them alive.

Assertion: Cambium is responsible for the increase in girth of a tree.

Reason: Cambium is an apical meristem.

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