Discover the Traits and Homes of Living Things: Class 6 Science Notes
Introduction to Living Organisms
Overview of what constitutes a living organism.
Living organisms are characterized by several key features: they are composed of cells, engage in metabolic processes (such as respiration and digestion), respond to stimuli in their environment, reproduce to pass on genetic information, and grow and develop over time.
Additionally, living organisms maintain homeostasis to regulate their internal environment and adapt through evolution.
Examples of various living organisms in different environments.
1.Deserts
Cactus (Cactaceae): Adapted to arid conditions with thick, fleshy stems that store water and spines that reduce water loss and provide protection from herbivores.
Kangaroo Rat (Dipodomys): Efficient kidneys and nocturnal habits help it survive without direct water intake, obtaining moisture from seeds it eats.
2.Oceans
Dolphins (Delphinidae): Intelligent mammals with streamlined bodies and echolocation abilities to navigate and hunt in marine environments.
Coral Reefs: Composed of coral polyps and algae, they form complex structures that provide habitat and protection for numerous marine species.
3.Forests
Tigers (Panthera tigris): Apex predators with camouflage fur and powerful limbs adapted for stalking and hunting prey in dense forests.
Oak Trees (Quercus): Deciduous trees with deep root systems and broad leaves, providing food and habitat for many forest-dwelling organisms.
4.Freshwater Ecosystems
Frogs (Anura): Amphibians with permeable skin for respiration and lifecycle stages both in water and on land.
Water Lilies (Nymphaeaceae): Aquatic plants with broad leaves that float on the water surface, providing habitat and oxygen to aquatic organisms.
5.Polar Regions
Polar Bears (Ursus maritimus): Mammals with thick fur and a layer of blubber for insulation against the cold, adapted to hunting seals on ice.
Lichens: Symbiotic organisms (algae and fungi) that can survive extreme cold and are primary producers in polar ecosystems.
Characteristics of Living Organisms
Nutrition: Process of obtaining and using food for energy
Nutrition is how living things get food and use it for energy. Plants make their food through photosynthesis, while animals eat plants or other animals to get the nutrients they need.
This food is then broken down to release energy, which helps in growth, repair, and daily activities.
Growth: How organisms grow and develop over time
Growth is the process by which living organisms increase in size and develop over time.
This involves cells dividing and increasing in number, as well as cells growing larger.
Through proper nutrition and environmental conditions, organisms develop from simple to more complex forms, reaching maturity.
Respiration: Different methods of breathing and energy production.
Respiration is how living organisms take in oxygen and use it to produce energy from food.
Animals breathe through lungs, gills, or skin, while plants and some microorganisms exchange gases through small openings or cell membranes.
This process releases energy needed for growth, repair, and daily activities.
Response to Stimuli: How organisms respond to environmental changes
Organisms respond to changes in their environment through various behaviors and physiological processes.
For example, plants grow towards light, and animals may move towards food or away from danger. These responses help organisms survive and adapt to their surroundings.
Excretion: Removal of waste products from the body
Excretion is the process by which living organisms remove waste products produced from metabolic activities.
In animals, organs like the kidneys, lungs, and skin help eliminate these wastes, while plants excrete waste through processes like transpiration and shedding leaves.
This process is essential to maintain a healthy internal environment.
Reproduction: Methods by which organisms reproduce and produce offspring
Reproduction is the biological process by which organisms create new individuals or offspring.
There are two main types: asexual reproduction, where a single organism produces offspring identical to itself, and sexual reproduction, involving the combination of genetic material from two parents to create genetically diverse offspring.
Movement: Various types of movement seen in plants and animals
Animals exhibit diverse types of movement such as walking, flying, swimming, and slithering, depending on their body structure and environment.
Plants show movement in various ways, like bending towards light (phototropism), opening and closing flowers, and the rapid movements of certain carnivorous plants.
These movements help organisms survive by enabling them to find food, escape predators, and reproduce.
Types of Habitats
Terrestrial Habitats: Characteristics and examples (forests, deserts, grasslands, etc.)
1.Forests
Characteristics: Forests are dense areas filled with trees and other vegetation. They have a high biodiversity, providing habitats for many species of plants, animals, and microorganisms. Forests play a crucial role in the Earth’s oxygen and carbon cycles.
Examples: Tropical rainforests (Amazon), temperate forests (Eastern United States), and boreal forests (Canada and Russia).
2.Deserts
Characteristics: Deserts are arid regions with very low precipitation, extreme temperatures, and sparse vegetation. Plants and animals in deserts have special adaptations to conserve water and withstand heat.
Examples: Sahara Desert (Africa), Mojave Desert (USA), and the Gobi Desert (Asia).
3.Grasslands
Characteristics: Grasslands are open areas dominated by grasses and have few trees. They have moderate rainfall and are often used for agriculture due to their fertile soil. Grasslands support a variety of herbivores and predators.
Examples: Prairies (North America), savannas (Africa), and steppes (Eurasia).
4.Tundra
Characteristics: Tundra is a cold, treeless region found in the Arctic and on high mountains. It has a short growing season, permafrost, and low biodiversity. Plants are mainly mosses, lichens, and low shrubs.
Examples: Arctic tundra (Alaska, Canada, Russia) and alpine tundra (high mountain ranges worldwide).
Aquatic Habitats: Characteristics and examples (rivers, lakes, oceans, etc.)

1.Rivers
Characteristics: Rivers are freshwater systems characterized by flowing water that moves continuously from higher elevations to lower elevations, eventually reaching oceans, seas, or lakes. They have varied flow speeds and depths and support diverse ecosystems along their banks and within their waters.
Examples: The Amazon River in South America, the Nile River in Africa, and the Mississippi River in the USA.
2.Lakes
Characteristics: Lakes are large, stationary bodies of freshwater surrounded by land. They can vary in size and depth, supporting different species of plants, fish, and other wildlife. Lakes are important for drinking water, agriculture, and recreation.
Examples: Lake Superior in North America, Lake Victoria in Africa, and Lake Baikal in Russia.
3.Oceans
Characteristics: Oceans are vast saltwater bodies that cover about 71% of the Earth’s surface. They are divided into different zones based on depth and light penetration, each supporting distinct ecosystems. Oceans regulate the Earth’s climate and provide resources such as fish, oil, and minerals.
Examples: The Pacific Ocean, the Atlantic Ocean, and the Indian Ocean.
4.Wetlands
Characteristics: Wetlands are areas where water covers the soil, either permanently or seasonally, creating unique ecosystems. They include marshes, swamps, and bogs. Wetlands are rich in biodiversity and play a critical role in water purification, flood control, and serving as breeding grounds for many species.
Examples: The Everglades in the USA, the Pantanal in South America, and the Okavango Delta in Africa.
Biotic and Abiotic Components:
Biotic Components: Living parts of a habitat like plants and animals
Biotic components are the living parts of a habitat that interact with each other and their environment. They play crucial roles in the ecosystem by contributing to various biological processes.
1.Plants
Role: Plants are primary producers, meaning they produce their own food through photosynthesis. They form the base of the food chain, providing energy and nutrients to herbivores and, subsequently, to carnivores and omnivores. Plants also help in oxygen production and carbon dioxide absorption.
Examples: Trees, shrubs, grasses, flowers, and algae.
2.Animals
Role: Animals are consumers that rely on plants or other animals for food. They can be classified into herbivores (plant-eaters), carnivores (meat-eaters), omnivores (both plant and meat-eaters), and decomposers (organisms that break down dead matter). Animals contribute to the balance of ecosystems through predation, pollination, seed dispersal, and decomposition.
Examples: Mammals, birds, reptiles, amphibians, fish, and insects.
3.Microorganisms
Role: Microorganisms, such as bacteria, fungi, and protozoa, play a vital role in nutrient cycling by decomposing organic matter and recycling nutrients back into the soil. They also help in processes like nitrogen fixation, fermentation, and disease prevention.
Examples: Bacteria, fungi, algae, and protozoa.
Abiotic Components: Non-living parts of a habitat like water, soil, and air
Abiotic components are the non-living parts of a habitat that influence the living organisms and the ecosystem. These components play a crucial role in shaping the environment and the conditions in which organisms live.
1.Water
Role: Water is essential for all living organisms. It acts as a solvent, a medium for chemical reactions, and is crucial for hydration, nutrient transport, and waste removal. Aquatic habitats rely on water as the primary medium for life.
Sources: Rivers, lakes, oceans, groundwater, and rainfall.
Examples: Freshwater in rivers and lakes, saltwater in oceans.
2.Soil
Role: Soil provides nutrients and a physical medium for plants to grow. It supports various microorganisms and small animals that contribute to nutrient cycling and soil health. Soil composition, pH, and texture affect the types of vegetation and organisms that can thrive in an area.
Examples: Clay, silt, sand, loam.
3.Air
Role: Air provides essential gases like oxygen for respiration, carbon dioxide for photosynthesis, and nitrogen for nutrient cycling. Air temperature, humidity, and pressure influence weather patterns and climate, affecting all living organisms.
Examples: Oxygen (O₂), carbon dioxide (CO₂), nitrogen (N₂).
4.Light
Role: Light, primarily from the sun, is crucial for photosynthesis in plants, which forms the base of most food chains. Light also influences behavior and physiological processes in animals, such as circadian rhythms and seasonal activities.
Examples: Sunlight, artificial light.
5.Temperature
Role: Temperature affects metabolic rates, enzyme activity, and overall survival of organisms. Different species are adapted to specific temperature ranges, influencing their distribution and behavior.
Examples: Warm temperatures in tropical regions, cold temperatures in polar regions.
Adaptation in Organisms
Adaptations in Plants: Examples of how plants adapt to different habitats
Plants have amazing ways to survive in different places.
For example, cacti live in deserts and have thick stems to store water and spines instead of leaves to reduce water loss and protect from animals.
Mangrove trees grow in salty coastal areas and have special roots that stick out of the water to get air.
In places with cold winters, like temperate forests, some trees, called deciduous trees, lose their leaves in the fall to save water and energy.
Water lilies live in ponds and have wide, flat leaves that float on the water to get lots of sunlight.
Importance of Habitats for Organisms:
Explanation of how habitats provide necessary conditions for survival
Habitats provide the essential conditions for survival by offering food, water, shelter, and the right climate for plants and animals.
These environments support the specific needs of different species, helping them grow and reproduce.
Each habitat’s unique features ensure that living organisms can find everything they need to thrive.