NEET Biology Class 9Diversity In Living Organisms Question And Answers

Chapter 3 Diversity In Living Organisms Question And Answers

Introduction Of Living Organisms

Have you ever thought of the multitude of life-forms that surround us?

Each organism is different from all others to a lesser or greater extent. For instance, consider yourself and a friend. Clearly, the movement to be made depends on the event that is triggering it.

Are you both of the same height? Does your nose look exactly like your friend’s nose? Is your hand-span the same as your friend’s?

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However, if we were to compare ourselves and our friends with a monkey, what would we say? Obviously, we and our friends have a lot in common when we compare ourselves with a monkey. But suppose we were to add a cow to the comparison? We would then think that the monkey has a lot more in common with us than with the cow. But suppose we were to add a cow to the comparison?

We would then think that the monkey has a lot more in common with us than with the cow.

Activity

We have heard of desi cows and Jersey cows.

Does a desi cow look like a Jersey cow? Do all desi cows look alike? Will we be able to identify a Jersey cow in a crowd of desi cows that don’t look like each other? What is the basis of our identification?

In this activity, we had to decide which characteristics were more important in forming the desired category. Hence, we were also deciding which characteristics could be ignored. Now, think of all the different forms in which life occurs on earth. On one hand we have microscopic bacteria of a few micrometre in size.

While on the other hand we have blue whale and red wood trees of california of approximate sizes of 30 metres and 100 metres repectively. Some pine trees live for thousands of years while insects like mosquitoes die within a few days.

Life also ranges from colourless or even transparent worms to brightly coloured birds and flowers. This bewildering variety of life around us has evolved on the earth over millions of years. However, we do not have more than a tiny fraction of this time to try and understand all these living organisms, so we cannot look at them one by one.

Instead, we look for similarities among the organisms, which will allow us to put them into different classes and then study different classes or groups as a whole.

In order to make relevant groups to study the variety of life forms, we need to decide which characteristics decide more fundamental differences among organisms. This would create the main broad groups of organisms. Within these groups, smaller sub­groups will be decided by less important characteristics.

Chapter 3 Diversity In Living Organisms Basis of Classification

Aristotle Classification

Attempts at classifying living things into groups have been made since time immemorial. Greek thinker Aristotle classified animals according to whether they lived on land, in water or in the air. This is a very simple way of looking at life, but misleading too.

For example, animals that live in the sea include corals, whales, octopuses, starfish and sharks. We can immediately see that these are very different from each other in numerous ways. In fact, their habitat is the only point they share in common. This is no good as a way of making groups of organisms to study and think about.

Requirements for Classification

We therefore need to decide which characteristics to be used as the basis for making the broadest divisions. Then we will have to pick the next set of characteristics for making sub-groups within these divisions.

This process of classification within each group can then continue using new characteristics each time. Before we go on, we need to think about what is meant by ‘characteristics’.

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Characteristics – Its Meaning

When we are trying to classify a diverse group of organisms, we need to find ways in which some of them are similar enough to be thought of together. These ‘ways’, in fact, are details of appearance or behaviour, in other words, form and function.

What we mean by a characteristic is a particular form or a particular function. Most of us have five fingers on each hand is thus a characteristic. We can run, but the banyan tree cannot, is also a characteristic.

To understand how some characteristics are decided as being more fundamental than others, let us consider how a stone wall is built. The stones used will have different shapes and sizes. The stones at the top of the wall would not influence the choice of stones that come below them.

On the other hand, the shapes and sizes of stones in the lowermost layer will decide the shape and size of the next layer and so on. The stones in the lowermost layer are like the characteristics that decide the broadest divisions among living organisms. They are independent of any other characteristics in their effects on the form and function of the organism.

The characteristics in the next level would be dependent on the previous one and would decide the variety in the next level. In Diversity in Living Organisms this way, we can build up a whole hierarchy of mutually related characteristics to be used for classification. Now-a-days, we look at many inter-related characteristics starting from the nature of the cell in order to classify all living organisms.

What are some concrete examples of such characteristics used for a hierarchical classification?

Characteristics – Some Examples

• A eukaryotic cell has membrane-bound organelles, including a nucleus, which allow cellular processes to be carried out efficiently in isolation from each other. Therefore, organisms which do not have a clearly demarcated nucleus and other organelles would need to have their biochemical pathways organised in very different ways. This would have an effect on every aspect of cell design. Further, nucleated cells would have the capacity to participate in making a multicellular organism because they can take up specialised functions. Therefore, this is a basic characteristic of classification.
• Do the cells occur singly or are they grouped together and do they live as an indivisible group? Cells that group together to form a single organism use the principle of division of labour. In such a body design, all cells would not be identical. Instead, groups of cells will carry out specialised functions. This makes a very basic distinction in the body designs of organisms. As a result, an Amoeba and a worm are very different in their body design.
• Do organisms produce their own food through the process of photosynthesis?Being able to produce one’s own food versus having to get food from outside would make very different body designs necessary.
• Of the organisms that perform photosynthesis (plants), what is the level of organisation of their body?

We can see that, even in these few questions that we have asked, a hierarchy is developing. The characteristics of body design used for classification of plants will be very different from those important for classifying animals. This is because the basic designs are different, based on the need to make their own food (plants), or acquire it (animals).

Therefore, these design features (having a skeleton, for example) are to be used to make sub-groups, rather than making broad groups.

Chapter 3 Diversity In Living Organisms Classification & Evolution

Basis for Classification

All living things are identified and categorised on the basis of their body design in form and function. Some characteristics are likely to make more wide-ranging changes in body design than others. So, once a certain body design comes into existence, it will shape the effects of all other subsequent design changes, simply because it already exists.

In other words, characteristics that came into existence earlier are likely to be more basic than characteristics that have come into existence later. This means that the classification of life forms will be closely related to their evolution.

What is Evolution?

Most life forms that we see today have arisen by an accumulation of changes in body design that allow the organism possessing them to survive better.

Charles Darwin first described this idea of evolution in 1859 in his book, The Origin of Species. When we connect this idea of evolution to classification, we will find some groups of organisms which have ancient body designs that have not changed very much.

We will also find other groups of organisms that have acquired their particular body designs relatively recently.

Those in the first group are frequently referred to as primitive or lower organisms, while those in the second group are called advanced or higher organisms.

In reality, these terms are not quite correct since they do not properly relate to the differences. All that we can say is that some are Older organisms, while some are Younger organisms.

Chapter 3 Diversity In Living 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 Classification

The classification Whittaker proposed has five kingdoms: Monera, Protista, Fungi, Plantae and Animalia, and is widely used.

These groups are formed on the basis of their cell structure, mode and source of nutrition and body organisation.

Woese Classfication

The modification Woese introduced by dividing the Monera into Archaebacteria (or Archaea) and Eubacteria (or Bacteria) is also in use.

Understanding Biodiversity for NEET

Naming of Subgroups

Further classification is done by naming the sub-groups at various levels as given in the following scheme:

KingdomPhylum (for animals) / Division (for plants)  Class orderFamilyGenusspecies

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’.

So what organisms can be said to belong to the same species? Broadly, a species includes all organisms that are similar enough to breed and perpetuate.

Monera

Organisms of this class do not have a defined nucleus or organelles, nor do any of them show multi-cellular body designs. Some of them have cell walls while some do not. The mode of nutrition of organisms in this group can be either by synthesising their own food (autotrophic) or getting it from the environment (heterotrophic).

Examples

Protista

This group includes many kinds of unicellular eukaryotic organisms.Some of these organisms use appendages, such as hair-like cilia or whip-like flagella for moving around. Their mode of nutrition can be autotrophic or heterotrophic.

Examples

Fungi

These are heterotrophic eukaryotic organisms. They use decaying organic material as food and are therefore called Saprophytes. Many of them have the capacity to become multicellular organisms at certain stages in their lives.They have cell-walls made of a tough complex sugar called chitin.

Examples

Some fungal species live in permanent mutually dependent relationships with blue-green algae (or cyanobacteria). Such relationships are called Symbiotic. These symbiobic life forms are called Lichens.We have all seen lichens as the slow-growing large coloured patches on the bark of trees.

Plantae

These are multicellular eukaryotes with cell walls. They are autotrophs and use chlorophyll for photosynthesis. Thus, all plants are included in this group. Since plants and animals are most visible forms of the diversity of life around us, we will look at the subgroups in this category later.

Animalia

These include all organisms which are multicellular eukaryotes without cell walls. They are heterotrophs. Again, we will look at their subgroups a little later in upcoming slides.

Chapter 3 Diversity In Living Organisms Worksheet 1

Question 1. The five kingdom classification includes Kingdoms Monera, Protista, Fungi, Planate, and Animalia. Bacteria are classified under Kingdom

1. Fungi
2. Protista
3. Monera
4. Animalia

Answer. 3. Monera

Question 2. In micro-organisms, locomotion occurs through different methods. Cilia are body structures that help them in movement. They also move with the help of pseudopodia. Which of the following organisms moves with the help of pseudopodia?

1. Euglena
2. Bacteria
3. Amoeba
4. Paramecium

Answer. 3. Amoeba

WBBSE Class 9 Diversity in Living Organisms Q&A

Question 3. Which locomotive structure is exhibited by amoeba?

1. Pseudopodia
2. Flagella
3. Cilia
4. Fins

Answer. 1. Pseudopodia

Chapter 3 Diversity In Living Organisms Plantae

The first level of classification among plants depends on whether the plant body has well differentiated, distinct components. The next level of classification is based on whether the differentiated plant body has special tissues for the transport of water and other substances within it. Further classification looks at the ability to bear seeds and whether the seeds are enclosed within fruits.

Thallophyta

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

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 specialised tissue for the conduction of water and other substances from one part of the plant body to another.

Examples

Pteridophyta

In this group, the plant body is differentiated into roots, stem and leaves and has specialised 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.

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. This group is further classified, based on whether the seeds are naked or enclosed in fruits, giving us two groups: gymnosperms and angiosperms.

Gymnosperms

This term is made from two Greek words: gymno- means naked and sperma- means seed. The plants of this group bear naked seeds and are usually perennial, evergreen and woody. Examples are pines, such as 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. Cotyledons are called ‘seed leaves’ because in many instances they emerge and become green when the seed germinates. These are also called flowering plants. Plant embryos in seeds have structures called cotyledons.

Thus, cotyledons represent a bit of pre-designed plant in the seed. The angiosperms are divided into two groups on the basis of the number of cotyledons present in the seed. Plants with seeds having a single cotyledon are called monocotyledonous or monocots. Plants with seeds having two cotyledons are called Dicots.

Chapter 3 Diversity In Living Organisms Animalia

These are organisms which are eukaryotic, multicellular and heterotrophic. Their cells do not have cell-walls. Most animals are mobile. They are further classified based on the extent and type of the body design differentiation found.

Porifera

Porifera means organisms with holes. These are non-motile animals attached to some solid support. There are hole s or pores, all over the body. Some of these species live in colonies (corals), while others have a solitary like-span (Hydra). These lead to a canal system that helps in circulating water throughout the body to bring in food and oxygen.

These animals are covered with a hard outside layer or skeleton. The body design involves very minimal differentiation and division into tissues. They are commonly called sponges, and are mainly found in marine habitats.

Jellyfish and sea anemones are common examples.

Coelenterata

These are animals living in water. They show more body design differentiation. There is a cavity in the body. The body is made of two layers of cells: one makes up cells on the outside of the body, and the other makes the inner lining of the body. Some of these species live in colonies (corals), while others have a solitary like-span (Hydra). Jellyfish and sea anemones are common examples.

Platyhelminthes

The body of animals in this group is far more complexly designed than in the two other groups we have considered so far. 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, which is why such animals are called triploblastic.

This allows outside and inside body linings as well as some organs to be made. There is thus some degree of tissue formation. However, there is no true internal body mcavity or coelom, in which well-developed organs can be accommodated. The body is flattened dorsiventrally, meaning from top to bottom, which is why these animals are called flatworms.

They are either free-living or parasitic. Some examples are free-living animals like planarians, or parasitic animals like liverflukes.

Annelida

Annelid animals are also bilaterally symmetrical and triploblastic, but in addition they have a true body cavity. This allows true organs to be packaged in the body structure. There is, thus, extensive organ differentiation This differentiation occurs in a segmental fashion, with the segments lined up one after the other from head to tail. These animals are found in a variety of habitats- fresh water, marine water as well as land.

Earthworms and leeches are familiar examples.

Nematoda

The nematode body is also bilaterally symmetrical and triploblastic. However, the body is cylindrical rather than flattened. There are tissues, but no real organs, although a sort of body cavity or a pseudo-coelom, 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).

Arthropoda

This is probably the largest group of animals. These animals are bilaterally symmetrical and segmented. There is an open circulatory system, and so the blood does not flow in well-defined blood vessels. The coelomic cavity is blood-filled. They have jointed legs (the word ‘arthropod’ means ‘jointed legs’).

Examples : Prawns, Butterflies, houseflies, spiders, scorpions and crabs.

Mollusca

In the animals of this group, there is bilateral symmetry. The coelomic cavity is reduced. There is little segmentation. There is a foot that is used for moving around.

Examples are snails and mussels.

Echinodermata

In Greek, echinos means hedgehog, and derma means skin.Thus, these are spiny skinned organisms. These are exclusively free-living marine animals. They are triploblastic and have a coelomic cavity. They also have a peculiar water-driven tube system that they use for moving around. They have hard calcium carbonate structures that they use as a skeleton.

Examples: Starfish and sea urchins

Chapter 3 Diversity In Living Organisms Worksheet 2

Question 1. Which type of plant produces flowers and seeds but not fruits?

1. Bryophyte
2. Pteridophyte
3. Angiosperm
4. Gymnosperm

Answer. 4. Gymnosperm

Question 2. A particular plant produces flowers, seeds, and fruits. Its body is divided into stem, roots, and leaves. The plant described here is a

1. bryophyte
2. Angiosperm
3. pteridophyte
4. gymnosperm

Answer. 2. Angiosperm

Question 3. Which table correctly matches the organisms with their respective phyla?

1. Organism    Phylum
   Cockroach   Cnidaria
   Earthworm  Mollusca
   Hydra          Annelida
   Snail            Arthropoda
2. Organism    Phylum
   Cockroach   Arthropoda
   Earthworm  Annelida
   Hydra          Cnidaria
   Snail            Mollusca
3. Organism    Phylum
   Cockroach   Arthropoda
   Earthworm  Cnidaria
   Hydra         Mollusca
   Snail           Annelida
4. Organism    Phylum
   Cockroach  Mollusca
   Earthworm  Annelida
   Hydra         Arthropoda
   Snail           Cnidaria

Answer.

2.  Organism     Phylum
Cockroach    Arthropoda
Earthworm   Annelida
Hydra          Cnidaria
Snail             Mollusca

Question 4. The presence of body pores is a unique feature of

1. worms
2. sponges
3. molluscs
4. arthropods

Answer. 2. sponges

Question 5. Invertebrates can be either symmetrical (i.e. their bodies can be divided into equal parts) or asymmetrical (i.e. their bodies cannot be divided into equal parts). Symmetrical body structures are of two types: bilateral (i.e. the body can be divided into two equal halves in one plane) and radial (i.e. the body can be divided into equal parts in more than one plane). Which of the following invertebrates exhibits radial symmetry?

1. Sponge
2. Annelid
3. Echinoderm
4. Roundworm

Answer. 3. Echinoderm

Question 6. Annelids are segmented worms. Their bodies can be divided into two equal halves. Which of the following organisms is an annelid?

1. Liver fluke
2. Tape worm
3. Earth worm
4. Round worm

Answer. 3. Earth worm

Question 7. Phyla have been named according to the characteristic features of the organisms that belong to it. For example, phylum Porifera is so named because of the presence of pores on the body structures of the animals that belong to this phylum. Organisms that have jointed legs are classified as

1. Annelids
2. Nematodes
3. Arthropods
4. Echinoderms

Answer. 3. Arthropodas

Question 8. Animals have been divided into two groups: vertebrates and invertebrates. Animals that have backbones are called vertebrates, whereas animals that do not have backbones are called invertebrates. Which of the following characteristic features is not found in vertebrates?

1. Gill slits
2. Notochord
3. Nervecord
4. Jointed legs

Answer. 4. Jointed legs

Question 9. Arthropods are one of the largest phyla of the animal kingdom. The presence of which of the following features is characteristic of arthropods?

1. Jointed appendages
2. Bilateral symmetry
3. Circulatory system
4. Excretory organs

Answer. 1. Jointed appendages

Question 10. Use the following information to answer the next question. Apple snail is a soft bodied invertebrate. Its body is divisible into a head, foot, and a hard shell. With which group of organisms are apple snails associated?

1. Molluscans
2. Arthropods
3. Sponges
4. Worms

Answer. 1. Molluscans

Question 11. Which of the following organisms does not have an exoskeleton?

1. Snail
2. Oyster
3. Crabs
4. Starfish

Answer. 1. Snail

Question 12. Plants cannot move from one place to another. However, they can produce food for themselves. Animals depend on plants and other animals for their food and move from once place to another in search of food. Sponges are an exception to the animal category since they cannot move. Sponges obtain nutrition by

1. depending on other plants
2. producing their own food
3. filter-feeding from the water
4. catching and stinging their prey

Answer. 3. filter-feeding from the water

Question 13. Which of the following animals belong to the arthropod group?

1. Hummingbird
2. Butterfly
3. Starfish
4. Whale

Answer. 2. Butterfly

Question 14. Scorpions are commonly present in deserts. Which of the following groups of animals does the scorpion belong to?

1. Echinoderms
2. Arachnids
3. Molluscs
4. Reptiles

Answer. 2. Arachnids

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. Protochordates may not have a proper notochord present at all stages in their lives or for the entire length of the animal. Protochordates are marine animals.

Examples: Balanoglossus, Herdemania Amphioxus

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:

• have a notochord
• have a dorsal nerve cord
• are triploblastic
• have paired gill pouches
• are coelomate.

Vertebrates are grouped into five classes.

• Pisces
• Amphibia
• Reptilia
• Aves
• Mammals

Pisces

These are fishes. They are exclusively water-living animals. Their skin is covered with scales/ plates.

They obtain oxygen dissolved in water by using gills. The body is streamlined, and a muscular tail is used for movement. They are cold-blooded and their hearts have only two chambers, unlike the four that humans have. They lay eggs.

We can think of many kinds of fish, some with skeletons made entirely of cartilage, such as sharks, and some with a skeleton made of both bone and cartilage, such as tuna or rohu.

Examples

Amphibia

These animals differ from the fish in the lack of scales, in having mucus glands in the skin, and a three-chambered heart. Respiration is through either gills or lungs. They lay eggs. These animals are found both in water and on land.

Frogs, toads and salamanders are some examples

Reptilia

These animals are cold-blooded, have scales and breathe through lungs. While most of them have a three-chambered heart, crocodiles have four heart chambers. They lay eggs with tough coverings and do not need to lay their eggs in water, unlike amphibians. Snakes, turtles, lizards and crocodiles fall in this category

Aves

These are warm-blooded animals and have a four-chambered heart. They lay eggs. There is an outside covering of feathers, and two forelimbs are modified for flight. They breathe through lungs. All birds fall in this category.

Mammals

Mammals are warm-blooded animals with four-chambered hearts. They have mammary glands for the production of milk to nourish their young. Their skin has hairs as well as sweat and oil glands. Most mammals familiar to us produce live young ones.

However, a few of them, like the platypus and the echidna lay eggs, and some, like kangaroos give birth to very poorly developed young ones. Some examples are shown below.

Chapter 3 Diversity In Living Organisms Worksheet 3

Question 1. Which of the following features is present only in vertebrates?

1. Gill slits
2. Body fur
3. Bodysymmetry
4. Circulatory system

Answer. 1. Gill slits

Question 2. Fishes are adapted to live in water. They can swim because of the presence of ___(i)____, while their___(2)____help them breathe in water. The niches in the second statement are completed by the information in row.

1. 1 – Scales, 2-Nose
2. 1 – Scales , 2-Gills
3. 1 – Scales , 2-Nose
4. 1 – Scales, 2-Gills

Answer. 3. 1 – Scales , 2-Nose

Question 3. All fishes have gills, fins, and a back bone. Which of the following organisms is a fish?

1. Cat fish
2. Shell fish
3. Jelly fish
4. Silver fish

Answer. 1. Cat fish

Step-by-Step Guide to Diversity Questions

Question 4. Amphibians are organisms that can live both on land and in water. Although they can live on land, they have to return to water in order to reproduce. Which of the following organisms is an amphibian?

1. Crocodile
2. Penguin
3. Frog
4. Seal

Answer. 3. Frog

Question 5. Amphibians can live in water as well as on land. They use different structures for breathing on land and in water. The respiratory structures that they use for breathing on land and in water are _____1____ and _____2_____ respectively. Which row completes the two niches in the last statement?

1. 1 – Skin, 2-Trachea
2. 1 – Skin , 2-Gills
3. 1 – Lungs, 2-Gills
4. 1 – Lungs, 2-Trachea

Answer. 3. 1 – Lungs, 2-Gills

Question 6. Light hollow bones are a characteristic feature of

1. birds
2. fishes
3. reptiles
4. mammals

Answer. 1. birds

Question 7. Which of the following features is characteristic of vertebrates?

1. Presence of fins
2. Presence of eyes
3. Presence of back bone
4. Presence of exoskeleton

Answer. 3. Presence ofbackbone

Question 8. Warm blooded organisms can maintain a constant body temperature throughout the year. Which of the following animals is warm blooded?

1. Frog
2. Lion
3. Shark
4. Snake

Answer. 2. Lion

Practice Questions on Living Organisms Diversity

Question 9. Cold blooded organisms are organisms that cannot maintain their body temperature. Which of the following organisms is cold blooded?

1. Penguin
2. Frog
3. Bear
4. Rat

Answer. 2. Frog

Question 10. Warm blooded animals are able to maintain their body temperature in a wide range of temperatures in the environment. Which of the following mammals is not warm blooded?

1. Bats
2. Dogs
3. Humans
4. Dolphins

Answer. 1. Bats

Question 11. Which of the following sets of features is common to all birds?

1. Teeth, beaks and wings
2. Feathers, wings and beaks
3. Backbone, teeth and wings
4. Backbone, beaks and scales

Answer. 2. Feathers, wings and beaks

Question 12. Organisms which do not have a backbone are known as invertebrates. Invertebrates are the most biodiverse group of animals on earth All animals except fish, amphibians, reptiles, birds and mammals are invertebrates.Which of the following statements about invertebrates is true?

1. Echinoderms have more than ten feeding arms
2. Arthropods do not have jointed appendages
3. Molluscs do not have an advanced nervous system
4. Annelids have segmented body without appendages

Answer. 1. Echinoderms have more than ten feeding arms

Question 13. Ammonia is toxic to the body and is excreted directly in an aquatic environment. Terrestrial animals tend to conserve water and ammonia is converted to urea, since it is less toxic than ammonia. However, the excretion of urea requires large amounts of energy. Therefore, to conserve this energy, birds excrete uric acid. Which of the following animals excretes the most dilute urine?

1. Birds
2. Fish
3. Lizards
4. Monkeys

Answer. 2. Fish

Examples of Classification in Living Organisms

Question 15. Mammals are one of the most evolved groups of Kingdom Animalia. The characteristic feature common to all mammals is the

1. presence of mammary glands
2. presence of clawed digits
3. absence of parental care
4. absence of body hair

Answer. 1. presence of mammary glands

Chapter 3 Diversity In Living Organisms Competitive Worksheet

Question 1. Earthworms have a true cavity. They are characterized by a segmented body and organised organ systems. Which of the following phylum categories do earthworms belong to?

1. Molluska
2. Annelida
3. Arthropida
4. Coelenterata

Answer. 2. Annelida

Question 2. Annelids were the first organisms to exhibit a segmented body in which segments were lined one after another. Annelids are also characterized by the presence of a true body cavity and an orderly arrangement of organ systems.Which of the following animals belong to the phylum annelida class?

1. Pin worm
2. Tape worm
3. Earth worm
4. Round worm

Answer. 3. Earth worm

Question 3. Poriferans are organisms with a simple body organisation. Glass sponges, bath sponges, and sycons are classified as poriferans.Which of the following features of the phylum porifera is true?

1. They are unicellular
2. They are active predators
3. They show bilateral symmetry
4. They cannot reproduce sexually

Answer. 3. They show bilateral symmetry

Question 4. Sponges are primitive, marine and sedentary organisms. The three classes of sponges include calcarea, hexactinellida and demospongiae.Which of the following organisms belongs to the phylum porifera class?

1. Corals
2. Hydra
3. Jellyfish
4. Euplectella

Answer. Euplectella

Conceptual Questions on Applications of Biodiversity

Question 5. Amphibians evolved from fishes. Which of the following distinguishes amphibians from fishes?

1. Amphibians can reproduce on both land and water
2. Amphibians can live on both land and water
3. Amphibians metamorphose into adults
4. Amphibians exhibit bilateral symmetry

Answer. 2. Amphibians can live on both land and water

Question 6. A closed circulatory system consists of the heart, arteries and veins. In an open circulatory system, blood does not flow through the arteries and veins. Which of the following organisms does not have an open circulatory system?

1. Ant
2. Leech
3. Spider
4. Octopus

Answer. 4. Octopus

Question 7. In some animals, the mouth acts as the organ of ingestion as well as egestion. This type of digestive system is called incomplete digestive system.Which of the following animals has a complete digestive system?

1. Coral
2. Jelly fish
3. Lobster
4. Portuguese man of war

Answer. 3. Lobster

Question 8. The space between the body wall and the wall of the digestive tract is known as the coelom. Animals are divided into different groups based on the nature of the coelom. For example, coelomates have a true coelom, pseudocoelomates have a false body cavity, and acoelomates do not have a body cavity. Which of the following organisms is classified as an acoelomate?

1. Frog
2. Bird
3. Earthworm
4. Flatworm

Answer. 4. Flatworm

Question 9. Which three organisms are classified as vertebrates?

1. Scorpions, crocodiles, and mice
2. Crocodiles, frogs, and rabbits
3. Rabbits, mice, and scorpions
4. Frogs, prawns, and spiders

Answer. 2. Crocodiles, frogs, and rabbits

Question 10. Although, bats can fly, they are not classified as birds. Bats differ from birds because they

1. have light and hollow bones
2. have fur-covered bodies
3. are warm-blooded
4. feed on insects

Answer. 2. have fur-covered bodies

Question 11. A certain warm blooded chordate has hair on its body and a layer of fat under the skin for insulation. The animal has mammary glands and a four chambered heart. The described animal belongs to the class

1. Aves
2. Pisces
3. Reptilia
4. Mammalia

Answer. 4. Mammalia

Key Terms Related to Biodiversity for Class 9

Question 12. Sting ray is a chordate with dorsoventrally flattened body. It has fins for locomotion and a tail. It has well developed organ systems, with a two chambered heart. Sting ray belongs to the class

1. Pisces
2. Reptilia
3. Amphibia
4. Mammalia

Answer. 1. Pisces

Question 13. An organism has a star-like appearance. It has a water vascular system that helps it in movement. The digestive system is present but excretory organs are absent in it.The described organism belongs to the phylum

1. echinodermata
2. coelenterata
3. arthropoda
4. molluska

Answer. 1. echinodermata

Question 14. Mollusks are soft bodied animals that lack appendages. Their body is divided into a head, foot, and visceral mass. Which of the following animals is a mollusk?

1. Pila
2. Prawn
3. Ascaris
4. Scypha

Answer. 1. Pila

Question 15. Leeches are worms that have segmented bodies without exoskeletons. They have a tube-like alimentary canal and they reproduce sexually. Leeches belong to Phylum

1. Annelida
2. Nematoda
3. Molluska
4. Arthropoda

Answer. 1. Annelida

Question 16. Michael saw the picture of an invertebrate in his Life Science book. It had tentacles around its mouth. It also had stinging cells called nematocysts. However, the major organ systems were not present in its body. The organism described here is

1. a coelenterate
2. an arthropod
3. a mollusk
4. an annelid

Answer. 1. a coelenterate

Question 17. Which type of plant produces flowers and seeds but not fruits?

1. Bryophyte
2. Pteridophyte
3. Angiosperm
4. Gymnosperm

Answer. 4. Gymnosperm

Question 18. A particular plant produces flowers, seeds, and fruits. Its body is divided into stem, roots, and leaves. The plant described here is a

1. bryophyte
2. angiosperm
3. pteridophyte
4. gymnosperm

Answer. 2. angiosperm

Question 19. Reptiles are a group of vertebrates. Lizards, snakes, crocodiles etc are examples of reptiles. Which of the following characteristics cannot be attributed to reptiles?

1. They are cold-blooded
2. They have clawed digits
3. They breathe through lungs
4. They have smooth and slimy skin

Answer. 4. They have smooth and slimy skin

Question 20. Arthropods are the largest group of organisms on Earth. Which characteristic feature is common to all arthropods?

1. Soft body
2. Segmented body plan
3. Lack of digestive system
4. Lack of circulatory system

Answer. 2. Segmented body plan