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Diversity in Living Organisms Class 9 Notes Science

Facts that Matter   

  • Diversity: This earth is full of organisms of various shapes and sizes. The largest Phylum of animal kingdom alone contains over a million species. There are varieties of plants, right from small grasses to tall Eucalyptus trees. This variety in living beings is called diversity.     
  • Biodiversity: The variety of animals and plants living in a given geographical area is called biodiversity of that geographical area.   
  • Need for a System of Classification: Because of the huge diversity in living beings it becomes very difficult task to study each of them one by one. To make their study easier animals and plants were categorized in groups and subgroups. Thus the system of classification started.   
  • Classification by Aristotle: Aristotle classified animals according to their living environment. So he categorized them as either aquatic or terrestrial.
    Drawbacks of Aristotle’s Classification: Both in sea as well as on land we can find animals and plants. Moreover, there are very small animals, like sea-horse, along with large animals, like whale. So, this was not a good basis of classification.     
  •  Basis of Classification
     (a) Presence or Absence of Nucleus in Cells Prokaryotes:
    Those organisms which have cells without well defined nucleus are called prokaryotes.
    Eukaryotes: Those organisms which have cells with well defined nucleus are called eukaryotes. Presence of nucleus and membrane-bound organelles give better efficiency to cells.
    (b) Number of Cells in an Organism Unicellular: Those organisms having single cell are termed as unicellular organisms. In them the single cell is responsible for carrying out all necessary functions to maintain life.
  • Multicellular: Those organisms having more than one cell are called multicellular organisms. Because of more number of cells there can be some division of labour to gain more efficiency.
    (c) Mode of Nutrition Autotrophs: Organisms producing their own food are called autotrophs. All green plants are autotrophs. They have a pigment (chlorophyll) in green parts which facilitates photosynthesis.

Heterotrophs: Organisms dependent on either plants or animals are called heterotrophs. They don’t have chlorophyll. All animals, fungi and certain bacteria and protozoa belong to this group.
(d) Level of Organisation in Body In multicellular organisms which are small, like hydra particular group of cells are assigned a particular function. But in larger organisms, tissues group to form an organ, which in turn make organ system. For example, in human beings there are separate systems for performing specific tasks.
Even in larger plants there is separate root system for conduction of water and minerals, leaf for photosynthesis and flowers for reproduction.
Based on these characters organisms can be further classified into various sub-groups.     

  •  Evolutionary Relationship or Phylogenetic Relationship Charles Darwin wrote a book ‘The Origin of Species’ in 1859 and gave his theories of evolution. As per his theories all organisms have evolved from unicellular organisms. Primitive body designs came early in evolutionary history leading to more complex designs. This gave rise to such a huge diversity in life forms. Because of common ancestors all organisms are related. The closer evolutionary relation between two organisms is also one of the basis of classification of organisms.   
  • The Hierarchy of Classification
    —Groups Biologists, such as Ernst Haeckel (1894), Robert Whittaker (1959) and Carl Woese (1977) have tried to classify all living organisms into broad categories, called kingdoms.
  •  Whittaker’s Five Kingdom Classification Monera, Protista, Fungi, Plantae, Animalia.   
  • Further Levels of Classification Beyond Kingdom 
    – Phylum (for animals)/Division (for plants)
    – Class, Order, Family, Genus, Species
  • Thus, by separating organisms on the basis of a hierarchy of characteristics into smaller and smaller groups, we arrive at the basic unit of classification, which is a ‘species’. Broadly, a species includes all organisms that are similar enough to breed and perpetuate.
  • Monera 
    – These organisms do not have a defined nucleus or organelles, and are unicellular.
    – Cell wall is present in some organisms of this group.
    – Nutrition: Autotrophic or heterotrophic
    – Examples: Bacteria and blue-green algae.
  • Protista – Unicellular eukaryotic organisms.
    – Locomotion: By hair-like cilia or whip-like flagella for moving around in some members.
    – Nutrition: Autotrophic or heterotrophic.
    – Examples: Algae, protozoans (Plasmodium, Entamoeba)
  • Fungi – Heterotrophic eukaryotic organisms.
    – Nutrition: Saprophytic they use decaying organic materials as food.  
  • Lichens: Some fungi live in a symbiotic relationship with cynobacteria. They are called lichens. The algal part provides food and the fungal part provides minerals and substratum.  
  •  Plantae – Multicellular eukaryotes with cell walls.
    – Nutrition: Autotrophs use chlorophyll for photosynthesis.     
  • Animalia – Multicellular eukaryotes without cell walls.
    – Nutrition Heterotrophs. 

 

  • Classification of Kingdom Plantae

Diversity in Living Organisms Class 9 Notes Science

  • Thallophyta or Algae: Plants that do not have well-differentiated body design fall in this group. The plants in this group are commonly called algae. These plants are predominantly aquatic. Examples are Spirogyra, Ulothrix, Cladophora and Chara.   
  • Bryophyta: These are called the amphibians of the plant kingdom. The plant body is commonly differentiated to form stem and leaf-like structures. However, there is no specialized tissue for the conduction of water and other substances from one part of the plant body to another. Examples are moss (Funaria) and Marchantia.
  •  Pteridophyta: The plant body is differentiated into roots, stem and leaves and has specialized tissue for the conduction of water and other substances from one part of the plant body to another. Some examples are Marsilea, ferns and horse-tails.
Important: The thallophytes, the bryophytes and the pteridophytes have naked embryos that are called spores. The reproductive organs of plants in all these three groups are very inconspicuous, and they are therefore called ‘cryptogamae’, or ‘those with hidden reproductive organs’.
On the other hand, plants with well differentiated reproductive tissues that ultimately make seeds are called phanerogams. Seeds are the result of the reproductive process. They consist of the embryo along with stored food, which serves for the initial growth of the embryo during germination.
  • Gymnosperms: The plants of this group bear naked seeds and are usually perennial, evergreen and woody. Examples are pines and deodar. 
  • Angiosperms: This word is made from two Greek words: angio means covered and sperma
    —means seed. The seeds develop inside an organ which is modified to become a fruit. These are also called flowering plants. Plant embryos in seeds have structures called cotyledons.   
  • Cotyledons: Cotyledons are called ‘seed leaves’ because in many instances they emerge and become green when the seed germinates.

The angiosperms are divided into two groups on the basis of the number of cotyledons present in the seed.
(a) Monocots or Monocotyledonous: Seeds have a single cotyledon.         
(b) Dicots or Dicotyledonous: Seeds have two cotyledons.   

  • Classification of Kingdom Animalia: Kingdom Animalia is further classified into several following phylum. Each phylum has it own classess, sub-classess orders, families, etc.
    (a) Porifera – These are non-motile animals attached to some solid support which comprises  calcium carbonate, silica.
    – There are holes or ‘pores’, all over the body. These lead to a canal system that helps in circulating water throughout the body to bring in food and oxygen.
    – Animals are covered with a hard outside layer or skeleton which comprises of spicules or collagen of both.
    – They have very minimal differentiation and division into tissues.
    – Examples: Sponges

    (b) Coelenterata 
    – Aquatic animals.
    – There is a cavity in the body hence the name Coelenterate (coelom means cavity).
    – Body is made of two layers of cells.
    – Examples: Hydra, Jellyfish

    (c) Platyhelminthes – The body is bilaterally symmetrical, meaning that the left and the right halves of the body have the same design.         
    – There are three layers of cells from which differentiated tissues can be made, that is why such animals are called triploblastic.
    – There is no true internal body cavity or coelom, in which well developed organs can be accommodated.
    – The body is flattened dorsiventrally, meaning from top to bottom, that is why these animals are called flatworms.
    – They are either free-living or parasitic.
    – Examples: Planaria, Liverfluke

    (d) Nematoda – Body is bilaterally symmetrical and triploblastic.
    – Body is cylindrical rather than flattened.
    – False body cavity or a pseudocoelom, is present.
    – These are very familiar as parasitic worms causing diseases, such as the worms causing elephantiasis (filarial worms) or the worms in the intestines (roundworm or pinworms).
    – Examples: Ascaris, Wuchereria

    (e) Annelida – These are bilaterally symmetrical and triploblastic.
    – True body cavity present.
    – Body is divided into many ring like segments, hence the name annelida.
    – Examples: Earthworms, Leech

    (f) Arthropoda 
    – The largest group of animals.
    – These are bilaterally symmetrical and segmented.
    – There is an open circulatory system, and so the blood does not flow in well defined blood vessels.
    – They have jointed legs (the word ‘arthropod’ means ‘jointed legs’).
    – Examples: Ants, Cockroach, Grasshopper, Scorpion

    (g) Mollusca – These are bilaterally symmetrical.
    – Reduced coelomic cavity.
    – The soft body is covered with a hard shell made of calcium carbonate.
    Examples: Snails, Mussels.

    (h) Echinodermata – In Greek, echinos means hedgehog, and derma means skin. Thus, these are spiny skinned organisms.
    – Exclusively free-living marine animals.
    – Triploblastic animals with coelomic cavity.
    – They have a peculiar water-driven tube system that they use for moving around.
    – Skeleton made of calcium carbonate.
    – Examples: Starfish and Sea urchins

     (i) Protochordata – These animals are bilaterally symmetrical, triploblastic and have a coelom.
    – In addition, they show a new feature of body design, namely a notochord, at least at some stages during their lives. 
The notochord is a long rod-like support structure (chord=string) that runs along the back of the animal separating the nervous tissue from the gut. It provides a place for muscles to attach for ease of movement.

Examples: Balanoglossus, Herdmania and Amphioxus.

(j) Vertebrata These animals have a true vertebral column and internal skeleton, allowing a completely different distribution of muscle attachment points to be used for movement. Vertebrates are bilaterally symmetrical, triploblastic, coelomic and segmented, with complex differentiation of body tissues and organs. All chordates possess the following features:
(i) Notochord
(ii) Dorsal nerve cord
(iii) Triploblastic
(iv) Paired gill pouches
(v) Coelomate       


 Vertebrates are grouped into five classes:

(i) Pisces – Body is streamlined and has fins and tail for swimming.
– Skin is covered with scales.
– Skeleton can be made of bone or cartilage.
– Intake of oxygen is by gills.
– Cold-blooded animals.
– Two-chambered heart is present.
– Examples: Fishes like Rohu, Tuna, Shark

(ii) Amphibia – They are adapted to live both on land and water.
– Respiration is through either gills or lungs.
– Three-chambered heart is present.
– Examples: Frogs, Toads, Salamander

(iii) Reptilia – These are crawling animals.
– Skin is rough and modified to withstand extreme temperatures.
– Heart is three chambered in most, while four chambered in crocodiles.
– Cold-blooded animals.
– Examples: Lizards, Turtles, Snakes

(iv) Aves – Body is covered with feathers and forelimbs are modified for flying.
– Breathing is through lungs.
– Warm blooded animals.
– Four-chambered heart is present.
– Examples: Sparrow, Eagle, Crow, Parrot

(v) Mammalia – Mammary glands are present which produce milk to nurture young ones.
– Skin is covered with hairs and has sweat glands and sebaceous (oil) glands.
– Warm-blooded animals with four-chambered heart.
– Most animals are viviparous (giving birth to live young ones), some are oviparous (producing eggs).
– Examples: Man, Horse, Kangaroo, Lion     

  • Conventions for writing the scientific names:
    1. The name of the genus begins with a capital letter.
    2. The name of the species begins with a small letter.
    3. When printed, the scientific name is given in italics.
    4. When written by hand, the genus name and the species name have to be underlined separately.
The document Diversity in Living Organisms Class 9 Notes Science is a part of the Class 9 Course Biology for Class 9.
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FAQs on Diversity in Living Organisms Class 9 Notes Science

1. What is diversity in living organisms?
Ans. Diversity in living organisms refers to the wide variety of different species of plants, animals, and microorganisms that exist on Earth. It includes the differences in their physical characteristics, genetic makeup, and ecological roles. This diversity is essential for maintaining a balanced ecosystem and ensuring the survival of various species.
2. Why is diversity important in living organisms?
Ans. Diversity is important in living organisms for several reasons. Firstly, it promotes ecological stability by ensuring a balance in the food chain and preventing the overpopulation of certain species. Secondly, it increases the chances of adaptation and survival in changing environmental conditions. Thirdly, it provides a rich source of genetic variation, which is crucial for the development of new medicines, crops, and other scientific advancements.
3. How is the diversity of living organisms classified?
Ans. The diversity of living organisms is classified based on their evolutionary relationships and similarities in their characteristics. The classification system used is called taxonomy. Organisms are grouped into different categories, such as kingdoms, phyla, classes, orders, families, genera, and species. This hierarchical classification helps scientists study and understand the relationships between different organisms.
4. What are the major kingdoms of living organisms?
Ans. The major kingdoms of living organisms are: 1. Kingdom Monera: Composed of prokaryotic organisms, such as bacteria. 2. Kingdom Protista: Composed of eukaryotic organisms, such as algae and protozoa. 3. Kingdom Fungi: Composed of multicellular eukaryotic organisms, such as mushrooms and molds. 4. Kingdom Plantae: Composed of multicellular eukaryotic organisms, such as plants. 5. Kingdom Animalia: Composed of multicellular eukaryotic organisms, such as animals.
5. How do we maintain and conserve the diversity of living organisms?
Ans. Maintaining and conserving the diversity of living organisms is crucial for the well-being of our planet. This can be done through various measures, including: 1. Protecting natural habitats: Preserving forests, wetlands, and other natural habitats helps maintain the diversity of species that inhabit them. 2. Implementing laws and regulations: Governments can enact laws and regulations to protect endangered species, control pollution, and prevent the destruction of habitats. 3. Promoting sustainable practices: Encouraging sustainable agriculture, fishing, and forestry practices helps reduce the negative impact on biodiversity. 4. Raising awareness: Educating people about the importance of biodiversity and the need for conservation can help garner support and action. 5. Establishing protected areas: Creating national parks, wildlife reserves, and marine protected areas helps safeguard ecosystems and the species within them.
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