Class 9 Science â Chapter: Tissues
ðķ Introduction to Tissues
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Tissue: A group of cells having a common origin, structure, and function.
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In multicellular organisms, tissues enable division of labor.
ðķ Types of Tissues
Tissues are broadly classified into:
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Plant Tissues
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Animal Tissues
ðŠī PLANT TISSUES
ð· 1. Meristematic Tissue (Actively Dividing Cells)
| Type | Location | Function |
|---|---|---|
| Apical Meristem | Tips of roots and shoots | Growth in length |
| Lateral Meristem | Sides of stem and root | Growth in thickness (girth) |
| Intercalary Meristem | At internodes or stem base | Growth in between nodes |
Characteristics:
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Actively dividing
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Small, thin-walled cells
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Dense cytoplasm and prominent nuclei
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No vacuoles (or very small)
ð· 2. Permanent Tissue (Non-Dividing Cells)
Formed from meristematic tissue after differentiation.
ðđ A. Simple Permanent Tissue
| Type | Structure & Features | Function |
|---|---|---|
| Parenchyma | Living cells, thin-walled, loosely packed | Storage, photosynthesis |
| Collenchyma | Living, elongated, thickened at corners | Flexibility and support |
| Sclerenchyma | Dead, thick-walled, no intercellular space | Strength and rigidity |
Special type: Chlorenchyma (photosynthetic parenchyma), Aerenchyma (air spaces in aquatic plants)
ðđ B. Complex Permanent Tissue
Transports food and water.
| Tissue | Elements | Function |
|---|---|---|
| Xylem | Tracheids, vessels, xylem parenchyma, xylem fibers | Transports water & minerals |
| Phloem | Sieve tubes, companion cells, phloem parenchyma, phloem fibers | Transports food |
ð§ ANIMAL TISSUES
ð· 1. Epithelial Tissue (Covering/Protective Tissue)
| Type | Features & Location | Function |
|---|---|---|
| Squamous | Flat cells, lines blood vessels, alveoli | Protection, diffusion |
| Cuboidal | Cube-shaped, lines kidney tubules, glands | Secretion, absorption |
| Columnar | Tall cells, lines intestine, respiratory tract | Absorption, secretion |
| Ciliated | Columnar with cilia, in respiratory tract | Movement of mucus |
| Glandular | Specialized for secretion, forms glands | Secretes enzymes, hormones |
ð· 2. Connective Tissue (Joins, Supports, Protects)
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A type of animal tissue that connects, supports, binds, or separates other tissues and organs.
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Widely spaced cells in an intercellular matrix (can be liquid, jelly-like, or solid).
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Provides structural and functional support.
ðķ Functions of Connective Tissue
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Binding organs together.
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Support and protection of body parts.
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Transport of substances (like oxygen and nutrients).
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Storage of fat.
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Immunity (white blood cells in blood).
ðķ Types of Connective Tissue
Connective tissues are classified into three main categories:
1. Loose Connective Tissue
2. Dense Connective Tissue
3. Specialized Connective Tissue
ð· 1. Loose Connective Tissue
| Type | Structure & Features | Function | Example |
|---|---|---|---|
| Areolar | Loose matrix, fibroblasts, macrophages, collagen & elastin | Binds skin to muscles; fills spaces | Under skin, around organs |
| Adipose | Fat-filled cells (adipocytes) | Insulation, energy storage, shock absorber | Below skin, around kidneys |
ð· 2. Dense Connective Tissue
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Matrix has densely packed collagen fibers for strength.
| Type | Structure | Function | Example |
|---|---|---|---|
| Tendons | Tough, inelastic, made of collagen | Connect muscle to bone | Achilles tendon |
| Ligaments | Elastic, made of collagen + elastin | Connect bone to bone | Knee ligament |
â Tendons = Muscle to Bone
â Ligaments = Bone to Bone
ð· 3. Specialized Connective Tissue
| Type | Matrix Type | Function | Location/Example |
|---|---|---|---|
| Cartilage | Flexible (chondrin) | Smooth surface, reduces friction, flexible | Nose, ear, trachea, joints |
| Bone | Hard (calcium + collagen) | Support, protection, RBC production | Skeleton |
| Blood | Liquid (plasma) | Transport gases, nutrients, hormones | Throughout body (blood vessels) |
| Lymph | Clear, similar to plasma | Immunity, returns leaked fluid to blood | Lymphatic vessels |
ðĐļ Components of Blood
| Component | Function |
|---|---|
| RBC (Red Blood Cells) | Transport oxygen using hemoglobin |
| WBC (White Blood Cells) | Fight infections (immunity) |
| Platelets | Help in blood clotting |
| Plasma | Fluid medium, transports nutrients, waste |
ð Summary Table: Types of Connective Tissue
| Category | Tissue | Matrix Type | Main Function |
|---|---|---|---|
| Loose Connective Tissue | Areolar | Jelly-like | Binding, flexibility |
| Adipose | Fat | Insulation, energy storage | |
| Dense Connective Tissue | Tendons | Collagen fibers | Connect muscle to bone |
| Ligaments | Elastic fibers | Connect bone to bone | |
| Specialized Connective | Cartilage | Chondrin (flexible) | Smooth movement, flexibility |
| Bone | Calcium salts | Support, protection, structure | |
| Blood | Plasma (liquid) | Transport, immunity | |
| Lymph | Plasma-like fluid | Drainage and immune function |
ð Key Characteristics of Connective Tissue
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Cells are not closely packed; embedded in matrix.
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Matrix decides the nature of tissue (solid in bone, liquid in blood).
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Highly vascular (except cartilage).
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Provides support, strength, protection, and transportation.
Would you like:
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Labeled diagrams of connective tissues?
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A summary PDF or printable worksheet?
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A comparison chart with other tissues?
| Type | Features & Function | Example |
|---|---|---|
| Areolar | Loose, connects tissues and organs | Between skin and muscles |
| Adipose | Stores fat, acts as insulator | Below skin |
| Tendons | Connect muscles to bones | Strong, flexible |
| Ligaments | Connect bones to bones | Elastic, support joints |
| Cartilage | Flexible, smooth, less vascular | Ear, nose, trachea |
| Bone | Hard, calcium-rich, supports body | Skeleton |
| Blood | Fluid connective tissue, transports nutrients, O2 | Blood vessels |
ð· 3. Muscular Tissue
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The muscular system is responsible for movement, posture, and locomotion in animals, including humans.
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It consists of muscles and associated structures (like tendons).
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Muscles work by contraction and relaxation.
ðķ Functions of the Muscular System
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Movement â voluntary (e.g., walking) and involuntary (e.g., heartbeat).
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Posture and body support.
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Circulation â cardiac muscles pump blood.
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Digestion â smooth muscles move food.
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Heat production â through muscle activity (e.g., shivering).
ðķ Types of Muscles in the Human Body
| Muscle Type | Structure | Location | Control | Function |
|---|---|---|---|---|
| Skeletal Muscle | Long, cylindrical, striated, multinucleated | Attached to bones | Voluntary | Movement of body parts |
| Smooth Muscle | Spindle-shaped, non-striated, uninucleated | Walls of internal organs (stomach, intestine, blood vessels) | Involuntary | Movement of internal organs |
| Cardiac Muscle | Branched, striated, uninucleated | Heart | Involuntary | Pumps blood throughout the body |
ð· 1. Skeletal Muscles (Voluntary Muscles)
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Attached to the skeleton via tendons.
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Also called striated muscles due to banded appearance.
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Work under conscious control.
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Fatigue quickly.
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Examples: Biceps, triceps, quadriceps.
ð· 2. Smooth Muscles (Involuntary Muscles)
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Found in walls of internal organs (except heart).
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Also called non-striated or unstriated muscles.
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Work automatically (involuntary).
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Do not fatigue easily.
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Examples: Muscles in stomach, intestines, urinary bladder.
ð· 3. Cardiac Muscles (Heart Muscles)
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Found only in the heart.
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Involuntary but striated like skeletal muscle.
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Highly resistant to fatigue.
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Rhythmic and continuous contractions.
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Specialized for pumping blood.
ðķ Muscular Movements
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Flexion â Bending a joint (e.g., bending elbow).
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Extension â Straightening a joint.
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Abduction â Moving a limb away from the body.
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Adduction â Moving a limb toward the body.
ðķ Properties of Muscles
| Property | Description |
|---|---|
| Contractility | Ability to shorten forcefully |
| Extensibility | Ability to be stretched |
| Elasticity | Ability to return to original shape after stretch |
| Excitability | Responds to stimulation (nerve impulse) |
ð§Đ Fun Facts
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Muscles make up 40â50% of body weight.
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The strongest muscle (by size) is the masseter (jaw muscle).
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The largest muscle is the gluteus maximus.
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Cardiac muscle contracts about 70â80 times per minute (over 100,000 times a day!).
ð Summary Table
| Feature | Skeletal Muscle | Smooth Muscle | Cardiac Muscle |
|---|---|---|---|
| Control | Voluntary | Involuntary | Involuntary |
| Appearance | Striated | Non-striated | Striated |
| Nuclei | Multinucleated | One nucleus | One nucleus |
| Location | Bones | Internal organs | Heart |
| Fatigue | Fatigues easily | Slow to fatigue | Never fatigues |
| Type | Structure and Control | Location | Function |
|---|---|---|---|
| Striated | Long, cylindrical, voluntary | Attached to bones | Body movement |
| Smooth | Spindle-shaped, involuntary | Internal organs (intestine) | Movement of food, urine |
| Cardiac | Branched, involuntary | Heart | Pumping blood |
ð· 4. Nervous Tissue (Control and Coordination)
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Made of neurons and neuroglial cells.
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Neuron has: Cell body, axon, and dendrites.
Functions:
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Receives stimuli and transmits messages.
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Coordinates body functions.
ðķ Summary Table: Differences Between Plant and Animal Tissues
| Feature | Plant Tissue | Animal Tissue |
|---|---|---|
| Growth | Limited to meristems | Uniform throughout |
| Types | Simple and complex | More diverse |
| Function | Support, transport, photosynthesis | Movement, coordination, support |
| Cell Wall | Present | Absent |
| Vascular Tissue | Present (xylem, phloem) | Blood is fluid connective tissue |
ð Key Points to Remember
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Tissues are important for efficient body functioning.
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Plants have simple organization; animals have complex tissue specialization.
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Study diagrams of:
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Meristematic tissue
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Simple and complex tissues (plant)
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Types of epithelium, muscle tissue, neuron (animal)
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