Notes Class 10 Science Chapter 13 Our Environment

Notes For All Chapters Science Class 10 CBSE

1. Ecosystem – What are its Components?

Definition of Ecosystem:

An ecosystem is a system where all organisms (plants, animals, microorganisms, humans) interact with the physical surroundings.

It maintains a balance in nature.

It includes:

• Biotic components (living): plants, animals, microbes.
• Abiotic components (non-living): temperature, rainfall, soil, minerals, wind, light.

Types of Ecosystems:

• Natural ecosystems: Forests, ponds, lakes, rivers, seas, deserts.
• Artificial ecosystems: Gardens, crop fields, aquariums.

Example: Garden as an Ecosystem

• Plants: grasses, trees, rose, jasmine, sunflower.
• Animals: insects, birds, frogs.
• Abiotic factors: water, sunlight, soil nutrients.
• Interaction: Plants use sunlight → animals eat plants → decomposers recycle waste.

Aquarium as an Artificial Ecosystem

• Needs: water, oxygen (pump/aerator), food, space, aquatic plants.
• With plants + fish → becomes self-sustaining (plants produce oxygen & food, fish respire & release waste).
• But must be cleaned → unlike ponds/lakes which are naturally balanced.

2. Components of Ecosystem (Functional Groups)

Producers (Autotrophs):

• Green plants & certain bacteria.
• Produce food by photosynthesis.
• Convert solar energy → chemical energy (sugar, starch).

Consumers (Heterotrophs):

Depend on producers (directly/indirectly).

Types:

• Herbivores (primary consumers, e.g., cow, deer, grasshopper).
• Carnivores (secondary/tertiary consumers, e.g., tiger, frog).
• Omnivores (e.g., humans, crow).
• Parasites (e.g., lice, leech).

Decomposers:

• Bacteria, fungi.
• Break down dead organisms & waste.
• Convert complex organic matter → simple inorganic substances → absorbed by plants again.
• Essential for nutrient recycling.
• Without decomposers → garbage & dead bodies pile up, soil fertility decreases.

3. Food Chains and Food Webs

Food Chain:

• Sequence of organisms feeding on each other.
• Each step = trophic level.

Example (forest): Grass → Deer → Tiger

• Producers = 1st trophic level.
• Herbivores = 2nd.
• Small carnivores = 3rd.
• Large carnivores = 4th.

Flow of Energy:

Plants capture ~1% of sunlight energy.

Only 10% of energy passes to next trophic level (rest lost as heat, respiration, digestion).

Therefore:

• Food chains rarely exceed 3–4 levels.
• More individuals exist at lower trophic levels.

Food Web:

• Interconnected food chains in nature.
• Shows complex feeding relationships.

Characteristics of Energy Flow:

• Unidirectional – energy flows from sun → producers → consumers → decomposers, never back.
• Decreasing Availability – energy diminishes at each trophic level.

4. Biological Magnification

Pesticides & harmful chemicals used in crops → washed into soil & water → absorbed by plants → enter food chain.

Non-degradable → accumulate at each level.

Higher trophic levels have maximum concentration (humans at top suffer most).

Effects: presence of pesticide residues in grains, fruits, vegetables, meat.

5. How Do Our Activities Affect the Environment?

Ozone Layer and its Depletion

Ozone (O₃):

• Molecule of 3 oxygen atoms.
• Poisonous near ground, but in upper atmosphere protects life.
• Absorbs ultraviolet (UV) radiation from Sun.
• UV rays cause skin cancer, genetic damage.

Formation:

• O₂ + UV → O + O
• O + O₂ → O₃

Depletion:

• In 1980s ozone began declining.
• Main cause: CFCs (Chlorofluorocarbons) – used in refrigerators, fire extinguishers, aerosols.
• CFCs release chlorine atoms → destroy ozone.

Global Action:

• 1987 → UNEP (United Nations Environment Programme) → Montreal Protocol → freeze CFC production.
• Now → mandatory CFC-free appliances.

6. Managing Garbage We Produce

Waste Generation:

• Household waste: kitchen waste, plastic, wrappers, paper, bottles, clothes, footwear.
• Disposal: dumped in soil/water → environmental problem.

Biodegradable vs. Non-Biodegradable:

1. Biodegradable:

• Broken down by microbes.
• e.g., vegetable peels, paper, leftover food.
• Effect: add nutrients back to soil.

2. Non-Biodegradable:

• Cannot be broken down naturally.
• e.g., plastics, metals, glass.
• Persist for years, cause pollution.
• Harm organisms (choking, toxic leachates).

Problems of Waste:

• Rapid lifestyle changes → more disposable items.
• Excessive packaging → more plastic & non-biodegradable materials.
• Littering at tourist places.
• Sewage & industrial waste → pollute soil & water.

Examples:

• Earlier: plastic cups in trains → non-biodegradable.
• Later: clay cups (kulhads) → caused loss of fertile topsoil.
• Now: paper cups → better option.