Diversity in Living Organisms
Introduction to Diversity in Living Organisms
We all know that there is an abundance of living organisms present on the earth. Many organisms are not identical to each other.
This variety of living beings present on the earth is called as a Biodiversity.
Biologists have identified and classified more than 1.7 million species of organisms on this earth. Most of these species are found in the tropical regions of the world.
There is a separate branch of Biology called Taxonomy which identifies, names and classifies different organisms present on the earth.
Carolus Linnaeus is known as the Father of the Modern Taxonomy.
Classification of Living Things
Classification presented by Aristotle – He classified animals on the basis of their habitats – land, water and air.
But it can be easily observed that the animals that live in a particular habitat say land are still so different from each other.
Therefore it was decided to classify the living organisms on the basis of a hierarchy.
This hierarchical classification was based on the similarities and dissimilarities in the characteristics of the living organisms.
Organisms having similar characteristics were placed in a similar category.
Why do we need to classify organisms?
1. If we classify organisms into several categories it will be easier for us to study them.
2. It will help us in understanding how these organisms evolve.
3. We can also understand how different organisms are related to each other.
4. We can learn why different organisms are found at distinct geographical conditions.
What is evolution?
Over a course of time the living organisms accumulate changes. These changes could be in their body type or size or their features. These changes allow them to survive better with the change in environment. This is called Evolution. This concept was introduced by Charles Darwin.
Primitive and Advanced Organisms
Primitive Organisms are the ones that have an ancient or body design. Their bodies haven't undergone many changes with time. They are called ‘Lower’ organisms as well.
The Advanced Organisms are those who have recently acquired body changes. They are also called as ‘Higher’ organisms.
Hierarchy Classification - Formation of Kingdoms
Biologists categorized different organisms into several kingdoms.
Classification |
Proposed by |
Type of organisms |
Two kingdom classification |
Carolus Linnaeus in 1758 |
1. Plants |
2. Animals |
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Five Kingdom classification |
Robert Whittaker in 1959 |
1. Monera |
2. Protista |
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3. Fungi |
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4. Plantae |
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5. Animalia |
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Carl Woese in 1977 |
1. Monera |
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(i) Archaea |
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(ii) Eubacteria |
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2. Protista |
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3. Fungi |
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4. Plantae |
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5. Animalia |
The order of Classification
1. Kingdom
2. Phylum / Division
3. Class
4. Order
5. Family
6. Genus
7. Species
Species is called as the Basic Unit of Classification. Species is a group of organisms which can interbreed with each other. The picture below explains how humans are classified in a hierarchical order.
Five Kingdom Classifications
How scientists came up with the idea of kingdoms?
The scientists divided organisms into seven kingdoms on the basis of following criteria -
The organization inside the cells
Prokaryotic Cells – Cells with no definite nucleus
Eukaryotic Cells – Cells with a definite nucleus
The organization of cells in the body
Unicellular – Single-celled organisms
Multicellular – Multi-cell organisms
How organisms obtain their food
Autotrophs – Produce their food on their own
Heterotrophs – Depend on other organisms for their food
Monera |
Protista |
Fungi |
Plantae |
Animalia |
|
Organization inside the cells |
Consists of Prokaryotes. |
Eukaryotes – some of them use appendages to move around such as flagella (whip-like structure) and Cilia (hair-like structure) |
Eukaryotes |
Eukaryotes |
Eukaryotes |
Organization of cells in the body |
Unicellular |
Unicellular |
Initially unicellular. Can become multicellular in later stages of life |
Multicellular |
Multicellular |
Organisms obtain their food |
Some of them are autotrophs like blue green algae while others are heterotrophs |
Both autotrophs and heterotrophs |
Heterotrophs. Most of them are decomposers or may be parasitic. |
Autotrophs |
Heterotrophs |
Presence of cell wall |
Some lack a cell wall while others have a cell wall |
Only some have cell wall |
Have cell walls. They are made up of complex sugar called chitin. |
Have cell walls made of cellulose. |
No cell walls |
Example |
Blue-green algae, Bacteria, Mycoplasma |
Protozoan, Diatoms and Golden algae |
Yeast and Mushroom ( Agaricus), Rhizopus ( Bread mould), Penicillium |
Flowering plants, moss |
Insects, reptiles |
Archaea Kingdom
The monera kingdom is further classified as Archaea. These are microbes (bacteria) that can live in harsh conditions. Since they can live in extreme temperatures they are also called Extremophiles. These organisms lack a cell wall. Their cell membrane is made up of lipids.
They are further classified into three categories, based on their habitat:( Olympiad)
Halophiles |
Thermophiles |
Methanogens |
These are salt loving bacteria. They live in extremely salty water. |
They live in boiling water such as hot springs and volcanoes. |
They are found in the guts of animals like cow and sheep. They produce methane gas from their dung. |
Moner |
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Protista |
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Fungi |
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Plantae |
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Animalia |
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Who are Saprophytes?
Fungi also called as Saprophytes because they grow over the organic material and survive on them.
What are Symbiotic relationships?
Some species of fungi live in permanent mutually dependent relations with blue-green algae. They are said to have a symbiotic relationship. For Example, Lichens are often found on the bark of the trees.
Kingdom Plantae
The criteria of classification in Planate:
Components of Plants – whether they are distinct or not
Presence of Special Tissues in plants for the transportation of food and water
Presence of Seeds – whether the seeds are present inside the fruits or not
Classification of plants on the ability to produce seeds -
Cryptogams – These plants do not have well developed reproductive organs. The organs cannot be seen clearly as well and appear as if they are hidden. Examples are Thallophyta, Bryophyta and Pteridophyta.
Phanerogams – These plants have well developed reproductive organs hence they can produce seeds. They are further classified as the ones which have seeds hidden inside fruits or not - Gymnosperms and Angiosperms
Criteria |
Thallophyta |
Bryophyta |
Pteridophyta |
Components of plants |
No distinct components. Undifferentiated Body |
Little differentiated body. Distinct components are present as leaves and stem |
Distinct components are present as roots, leaves and stem |
Presence of special tissues- Vascular tissue |
No |
No |
Yes |
Presence of seeds |
No |
No |
No |
Found in |
Aquatic environment, snow |
First terrestrial plants but need water for sexual reproduction. So called as Amphibian of plant kingdom. |
Terrestrial or dry areas |
Example |
Spirogyra, Ulothrix, Volvox |
Moss and liverworts |
Ferns |
Examples of Thallophyta
Examples of Bryophyta
Examples of Pteridophyta
Gymnosperms |
Angiosperms |
|
The ability to produce seeds |
Naked seeds |
Seeds develop in an organ which then turns into the fruit |
Existence |
Exist for long time periods, Evergreen |
Grow for varied time periods |
Type |
Woody, No flowers |
Flowering plants |
Meaning |
Gymno – naked |
Angio – Covered |
Sperm – seeds |
Sperma – seeds |
|
Example |
Pines, Deodar |
Mustard, Maize |
What are Cotyledons?
The seed leaves in Angiosperms are called Cotyledons. They turn green on the germination of the seeds. Angiosperms can be divided into two types on the basis of the presence of cotyledons in them-
Monocotyledons or monocots
Dicotyledons or Dicots
Criteria |
Monocotyledons or Monocots |
Dicotyledons or Dicots |
Cotyledons (Seed Leaves) |
Single Cotyledon |
Two Cotyledons |
Leaves |
Long leaves, with parallel veins |
Broad leaves with network of veins |
Roots |
Fibrous |
Long taproot |
Floral Parts |
Multiples of three |
Multiples of four or five |
Example |
Corn, Wheat, Grass |
Rose, Sunflower, Lily |
Monocots vs Dicots
Kingdom: Animalia
Basic Characteristics of the Animalia Kingdom
1. Animals are eukaryotic, multicellular organisms that lack a cell wall.
2. They are heterotrophs therefore they rely on others for food.
3. They have a growth pattern. The adult animals have a specific shape and size.
4. Most of the organisms have well-defined organ systems such as Respiratory System, Digestion System and so on.
5. Most of the animals can move. They aren’t stationary as Plants.
6. Animals have a nervous system which is why they are able to respond to an external stimulus.
Animals are classified on the basis of differences in their body type and design. The body cavity or coelom in animals contains the organs. Based on the presence of body cavity animals can be categorized as:
1.Coelomate – They have true body cavity called Coelom
2.Pseudocoelomate – It means false cavity. They have a body cavity which is filled with fluid
3.Acoelomate – They have no body cavity at all.
1. Phylum- Porifera
Phylum- Porifera
Level of Organization – Cells are present
Symmetry – Asymmetrical
Segmentation – No segments
Body Cavity/ Coelom – No
Presence of Organs – No
Examples – Sycon, Spongilla, Euspongia
Other Characteristics-
They cannot move and are attached to a support.
They have pores in their body
These pores form a Canal system through which water and food circulate in the body and waste is removed.
They have a skeleton made of spongin protein and calcium carbonate – hard covering on them
2. Phylum- Coelenterata
Phylum- Coelenterata
Level of Organization – Tissues, Cells have two layers – so called as Diploblastic Organism
Symmetry – Radial
Segmentation – No segments
Body Cavity/ Coelom – No
Presence of Organs – No
Examples – Aurelia (Jellyfish) and Adamsia ( Sea Anemone)
Other Characteristics –
Some of them live in colonies - They are physically attached to each other such as Corals
Some of them live solitary such as Hydra
3. Phylum Platyhelminthes
Phylum Platyhelminthes
Level of Organization – Organs, The cells have three layers – so are called Triploblastic
Symmetry – Bilaterally Symmetrical - Left half of the body is identical to the right half
Segmentation – No segments
Body Cavity/ Coelom – No so called as Acoelomates
Presence of Organs – Yes
Examples – Taenia solium (Tapeworm), Fasciola hepatica (Liver Fluke)
Other Characteristics -
They have a flat body and thus are called Flatworms
They can be Free-living like Planaria or parasitic.
4. Phylum Nematoda
Phylum Nematoda
Level of Organization – Tissues so are called Triploblastic
Symmetry – Bilaterally Symmetrical - Left half of the body is identical to the right half
Segmentation – No segments
Body Cavity/ Coelom - False body cavity so called as Pseudocoelomates
Presence of Organs – Organ System Level Organisation
Examples – Parasitic worms and worms in the intestine
Other Characteristics–
They are called as RoundWorms.
Sexual dimorphism visible - Female and male worms are distinct.
5. Phylum Annelida
Phylum Annelida
Level of Organization – Organ system level, the cells have three layers so called Triploblastic
Symmetry – Bilaterally Symmetrical
True Segmentation – Present (organs can be identified separately)
Body Cavity/ Coelom – True body cavity so called as Coelomates
Presence of Organs – Definite organs
Examples – Leech, Earthworms
Other Characteristics –
They are found in freshwater and marine water.
They have closed Circulatory system.
6. Phylum Arthropoda
Phylum Arthropoda
Level of Organization – Organ systems
Symmetry – Bilaterally symmetrical
Segmentation – Present (organs can be identified separately)
Body Cavity/ Coelom – True body cavity
Presence of Organs – Definite organs
Examples – Prawns and butterflies
Other Characteristics
They have jointed legs
They have an open circulatory system – There are no well-defined blood vessels
They have chitinous exoskeleton
7. Phylum Mollusca
Phylum Mollusca
Level of Organization – Organ systems, The cells have three layers– called Triploblastic
Symmetry – Bilaterally symmetrical
Segmentation – Little segmentation
Body Cavity/ Coelom – Reduced
Presence of Organs – Definite organs
Examples – Snails
Other Characteristics
Body is divided into head, Visceral Mass and Muscular Foot.
Some of the molluscs have hard external shell like that of Snails and some have internal reduced shell like that in Octopus.
They have an open circulatory system
There is a kidney-like organ for excretion
8. Phylum Echinodermata
Phylum Echinodermata
Level of Organization – Organ systems, the cells have three layers –– called Triploblastic
Symmetry – Bilaterally symmetrical in larval stage and Radially symmetrical in Adults.
Segmentation – No
Body Cavity/ Coelom – True body cavity
Presence of Organs – Definite organs
Examples – Starfish, Sea cucumber
Other Characteristics-
They have Spiny dermis made of calcium carbonate
They have a water vascular system which helps in feeding and locomotion.
9. Phylum Chordata
Characteristics of Chordates -
They have a notochord. It is a rod-shaped structure that provides skeletal support to the body. It is found in the embryonic stage of all chordates and in adult stages for some chordates.
A nerve cord that connects brain.
Most aquatic animals have a Pharyngeal slit that allows the exit of water
They have a post-anal Tail made up of muscles and skeletal elements that helps in balancing.
Characteristics of Chordates
Subphylum Protochordate
Subphylum Protochordate
Level of Organization – Organ systems, the cells have three layers– called Triploblastic
Notochord present in some stage of life.
Symmetry – Bilaterally symmetrical
Segmentation – No
Body Cavity/ Coelom – Present
Presence of Organs – Definite organs
Examples – Ascidia, Herdmania
Subphylum Vertebrata
Subphylum Vertebrata
Level of Organization – Organ systems, highly developed tissues, the cells have three layers – Upper layer and the inner layer – called Triploblastic
Symmetry – Bilaterally symmetrical
Segmentation – Yes
Body Cavity/ Coelom – Present, well-defined
Presence of Organs – Definite organs
Examples – Mammals , Birds, Fishes
Other Characteristics -
They have vertebral column develops from notochord.
The internal skeleton muscles can attach at various points of the body
There is a dorsal hollow nerve cord in the upper side of the back
Cold-blooded Animals and Warm- blooded Animals
Cold-blooded Animals |
Warm-blooded Animals |
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They cannot maintain a constant body temperature |
They can maintain a constant body temperature |
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They obtain heat from the environment surrounding them |
They obtain heat from the food they eat |
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Their body temperature can vary as per the surrounding temperature |
They maintain a temperature of around 35 – 40 degree Celsius irrespective of the surrounding temperature |
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They regulate heat in their bodies by changing colors or by being in sunlight |
They regulate their body heat by metabolic processes and adaptive mechanisms such as hibernation and sweating. |
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Examples – Fishes, Reptiles, Insects, Amphibians |
Examples – Mammals and Birds |
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Body Type |
Heart Chambers |
Cold-blooded / Warm- blooded (Body Temperature) |
Respiration |
Reproduction |
Found at |
Examples |
|
Pisces / Fish |
They have scales or plates on their body,muscular tail, some have skeleton made up of cartilage, some have skeleton made up of bones and cartilage |
2 chambers |
cold blooded |
gills |
Eggs |
Water |
Synchiropus splendidus (Mandarin fish), Scoliodon (Dog fish) |
Amphibia |
Have smooth and slimy skin |
3 Chambers |
cold blooded |
Gills in larval stage and lungs in adult stage |
Eggs |
Land and water. |
Toad, Hyla (Tree frog) |
Reptilia |
Have dry scales |
3 Chambers except Crocodile which has 4 heart chambers |
Cold blooded |
lungs |
Eggs |
Land, Water |
Turtles, King Cobra |
Aves / Birds |
They have waterproof skin which is covered with feathers,They have a beak or bill rather than teeth, Their forelimbs are developed into wings, They have hollow bones or pneumatic bones |
4 Chambers |
Warm blooded |
Lungs |
Eggs |
Land, air |
Crow, Pigeon |
Mammalia |
Have skin with hair and sweat glands |
4 Chambers |
Warm blooded |
Lungs |
give birth to young ones except Duck billed Platypus and Echidna |
Land, water, air |
Humans. Cats |
Classification of Animalia Kingdom
Nomenclature of Living Organisms
Why is nomenclature required?
It will help people identify an organism with a standard name anywhere in the world.
The whole hierarchy of an organism is not mentioned in the name. Only genus and species of the organisms are mentioned. Concept of Binomial nomenclature was given by Carolus Linnaeus.
Conventions for Binomial Nomenclature –
Genus name starts with a capital letter
Species name starts with a small letter
The scientific name of an organism is written in Italics while printing
The genus name and species name should be underlined separately while writing
Some examples of scientific name
Leo: Panthera leo
Tiger: Panthera Tigris
Human: Homo sapiens
Mango: Mangifera indica