My Living World 5 - PDF

Summary

This document covers the breathing system, skeletal system, and sensory organs in the human body. It explains organs, systems, and the functions they perform. The skeletal system is made up of bones, and the breathing system involves lungs and the process of inhalation and exhalation.

Full Transcript

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MY BODY
1
Our body works like a machine with the help of various organs present in it. Organs
are special structures present in our body that perform specific functions. Heart,
eyes and stomach are some of the many organs present in our body. Our body
consists of many systems. A system is a group of organs that work together for a
particular function. For example we studied, in Class-IV, that the mouth, the food
pipe, the stomach and the intestines form the digestive system. Similarly, the nose,
wind pipe and lungs help us in breathing.
In this chapter, we shall study about the breathing system, the skeletal
system and the sensory organs present in our body.

The Breathing System
All living things take in oxygen and give out carbon dioxide. This process
is called breathing. The process of breathing takes place continuously, without
any rest, in all living beings. If this
process stops for more than two
minutes, the living being can die. Diaphragm

Which parts of your body are Air
involved when you breathe?
Let us find out.
The air, that we breathe in, or
inhale, enters our body through the
nasal openings of the nose. The Inhalation Exhalation
nose is connected to two balloon Process of breathing
like structures, inside the body, by a
tube called the wind pipe. The two balloon like structures are called lungs. In the
lungs, oxygen is taken up by the blood and carbon dixoide is unloaded. This carbon
dioxide is then driven out of the body, or exhaled, through the nose. The oxygen
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rich blood, from the lungs, is circulated to
all parts of our body. Blood also collects
The right lung is slightly larger than the left.
carbon dioxide from all parts of the body
and brings it to the lungs.
We, thus, understand that during the
breathing process, oxygen is consumed by
the body. This helps different organs to get Nose
energy to perform different body functions. Mouth
Also, carbon dioxide is driven out of the Wind pipe
body as a waste product. Our breathing
system is always at work because we have Lungs

to keep breathing all the time.
Physical exercises, like running, walking
and playing, help to keep our body and our Diaphragm
breathing system healthy.
Human breathing system

The Skeletal System
Skeletal system makes the framework of the body. It gives shape and support to the
body. The skeletal framework also protects the inner delicate organs.
The skeleton of an adult human being is made up of 206 bones of different
shapes and sizes.
Bones are hard and strong structures.
A child is born, with more than 300 bones.
They are made up of calcium, phosphorus As child grows, some of these bones get
and some other minerals. Bones are living fused together.
entities. They have channels that contain
blood vessels. They also have nerves that are necessary to keep them alive. That
is why we feel pain when any of our bones gets hurt.

Activity:
Take a measuring tape. Measure the length of the part of your leg between the knee and the
feet. Do the same measurement for your parent. Is the length of this leg part same?
Bones increase in length and size up to a certain age.

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The long bones, like the thigh bone
Skull
and the arm bone, are hollow from inside.
This hollow space is filled with cells
and soft materials known as the bone
marrow. Blood cells are manufactured
Rib-Cage
inside this bone marrow. Therefore, bone
marrow is known as the factory for
Backbone
making blood cells.
Let us study about our skeletal
system in some more detail.
Limbs
The main parts of the skeletal system
are:
1. The Skull
2. The Backbone
3. The Rib-cage
4. The Limbs

1. The Skull: It is made up of eight
Skeleton
flat bones. They are closely fused
together. The skull is very important because it protects the most important and
delicate organ of the human body, that is, the brain.

side view front view
Skull

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There are two jaws—upper and lower. The lower jaw is
movable. The movement of lower jaw helps us to eat, talk or
laugh.
2. The Backbone: The backbone is connected to the skull.
It is made up of thirty-three small bones called the vertebrae. Vertebrae
These small bones, taken together make a strong vertebral
column. It protects the spinal cord. These small bones give
flexibility to our back. (What would happen if our backbone
was made of just one straight bone?)

Humans and giraffes have the same number of bones in their neck,
i.e. seven. Giraffe’s neck vertebrae are however, much much longer! Backbone
(vertebral column)

3. The Rib-Cage: There are twelve pairs of ribs, forming a cage, around delicate
organs like the heart and
the lungs. These are
curved bones joined to the
backbone and the breast
bone. The last two pairs
of ribs are called floating Breast
bone
ribs. This is because
Ribs
they are connected to the
backbone only and not to
the breast bone.
Floating
4. The Limbs: The ribs
fore limbs, or the arms, are
joined to the spine by the
shoulder girdles and collar Rib-Cage
bone.
The upper arm has only one bone but the lower arm has two bones. The hand
has many small bones in the palm and fingers.
The hind limbs, i.e. the legs, bear the weight of the whole body. The upper part
of the hind limbs is made up of the longest bone in our body. This bone is called
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femur. The femur, or thigh bone, fits into
the hip girdle. The femur is connected to
The smallest bone in our body is the stirrup
the lower two bones of the leg at the knee. bone (stapes) in the ear which measures
There are many small bones in the ankle just 1/4 of a centimetre.
and toe region.

Knee joint

Elbow joint

Bones of Arm Bones of Leg

The Joints
Our bones do not simply work on their own. Carefully observe a skeleten. You will
notice that at many different places, two bones are joined. The bones are held
together to form joints. The end of each bone is covered by a tough, smooth shiny
substance called cartilage. The cartilage-coated bone-ends are kept apart by a thin
film of slippery fluid that works like the oil in a machine. Coating of cartilage and
the slippery fluid are important so that the
bones do not scratch and bump against
each other when we move. The bones are We have over 230 movable and semi-movable
held together by strong stretchy band-like joints in our body.
tissues called ligaments.
Our body has several joints. All joints show movement except the skull. The
bones of the skull are fused and interlocked and thus, show no movement.

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Kinds of Joints
The joints allow movement of bones in different ways.
There are four types of joints present in our body which show different types of
movement. The four types of joints are hinge joint, ball and socket joint, pivot
joint and gliding joint.
Let us study about each one of them separately.
1. The Hinge Joint: It works like the hinge of a door. The bones, connected by
this joint, move in one plane only. The elbow, knee, toe and finger joints are
hinge joints.

Hinge joint in elbow Ball and Socket joint in hip girdle

2. The Ball and Socket Joint: In this
joint, one bone which has a ball-like
end, fits into the hollow socket of Arthritis is a disease that causes joint pain,
another bone. The hip and shoulder swelling and stiffness.
joints are examples of this type of
joint.
3. The Pivot Joint: This type of joint
is found between the skull and the
first two vertebrae of the spine.
Move your skull to find out the
movement of this joint. It moves up
and down (when we signal ‘yes’),
and sideways (when we signal ‘no’).
Pivot joint

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4. Gliding Joint: This kind of joint is present in wrist,
ankle and between any two vertebrae of the spine.
The flexibility of the backbone is because of this type
of joint. We are able to bend forward or backward, or
sideways, owing to the presence of the gliding joint in
the vertebrae.

Activity:
Lets play a game. Let one student come in front of the class and move
one of the body part (say, the shoulder). The other students would have Vertebrae showing
to name the joint involved in that movement. gliding joint

Sense Organs
We know that human beings can smell, see, hear, taste and feel because of five
sensory organs. These sense organs (nose, eyes, ears, tongue and skin) collect
information and send it to the brain for processing. If any one of them is not working
properly, we would not be able to either smell, see, hear, taste or feel, depending
on the sense organ involved.
We now discuss these
Retina
sense organs in some detail.
Cornea
Eyes Pupil
Lens
Each eyeball is placed in a Iris Optic
nerve
bony socket in the skull. They
are protected by eyelids and
eyelashes. These also protect
our eyes from dust and dirt. Inner view of eye (in section)
The dark structure, in the front of the eyeball, is called the iris. The small round
black spot, in its centre, is called the pupil. The pupil allows light to enter the eye.
The retina, at the back of the eyeball, is
the screen on which all images get formed.
The two eyes of a chameleon can move
The eye is connected to the brain by a
independently. Therefore, it can see in
nerve called the optic nerve. two different directions at the same time.

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Activity:
Go out and stand outside for 10-15 minutes on a bright and sunny day. (Take special care not to
look towards the sun directly). Now return to your room. Can you immediately see the things
clearly? Why is it so?

Nose
There are nerve endings present in the nose which carry message about any
chemical substance (odour/fragrance) that enters the nose. This enables us to smell
different substances.

Ears
Human ear is divided into three parts—the outer ear, middle ear and the inner ear.
The portion of the ear, that is visible to us, is known as the external ear. External
ear may vary in shape and size in different animals. The outer ear directs the sound
(waves) to the inner ear. The middle ear has an ear drum, and three small bones,
which convey the vibrations from the ear drum to the inner ear. The inner ear helps
us to hear and maintain the balance of our body.

External ear of various animals

Tongue
We know that different parts of the tongue have taste buds
which are sensitive to four different tastes—sweet, sour,
salty and bitter.

Human tongue has 9,000 taste buds, a pig has 15,000 of them
while a rabbit has 17,000 taste buds.

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Skin
Skin is the largest sense organ of our body.
The skin forms a natural protective covering
of the entire body. It helps us to feel pain,
touch, pressure, hotness and coldness. There are sensory structures in the skin
which help us to feel these sensations.

Sense Organs in Different Aniamals
Let us now discuss how different animals use different organs to sense
different things.
Insects: Insects, such as cockroach,
housefly and butterfly have feelers on
their bodies. These insects smell and taste Insects, like house cricket, can ‘hear’ through
their legs.
with the help of these feelers. The housefly
tastes with its legs.

Feeler

Cockroach

Water Animals: Fish can feel the waves produced in water by other living
animals. They feel these waves through their lateral line. This helps them to detect
their prey or know about the enemy present around them.

Lateral line

Lateral line on a fish
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Birds: Birds have sense organs (eyes, ears, etc.) which enable them to see,
to feel, to smell, to hear and to taste. Besides these responses, birds also make
different sounds to inform other birds about different situations. They make a typical
sound when there is an enemy around. Similarly, they make a particular sound
when they see the availability of food. Birds also group together and make sounds
for setting out in search of food or to call all members for taking rest after day’s
work. They fly in groups often making interesting shapes in the sky.
Reptiles: Some reptiles, like snakes,
have a long tongue which helps them to feel
and smell. A snake senses the availability
of food through its tongue only. The snake
feels different kinds of vibrations on the earth
through its skin. This helps it to detect the
presence of an enemy, a danger or a prey.
Mammals: All mammals have sense organs,
but some mammals have a special power either Snake
to smell, to hear or to see. Dogs have a highly-
developed sense of smell. Bats have a special power to hear high-pitched sounds.
Due to this ability, bats can detect their prey easily even in the dark. This is the reason
why bats hunt at night. They detect their prey with the help of high pitched ‘sounds’
known as ultrasonics.

Keywords
™™ bone marrow cells and soft material in the hollow space of long bones.
™™ cartilage a tough, smooth elastic structure that cushions bones
at their joint.
™™ exhalation the process of breathing air out from the lungs.
™™ inhalation the process of taking air into the lungs.
™™ joint a place where two bones meet.
™™ ligament a strong stretchy band like tissue which attaches bones
together at joints.
™™ pupil a hole that allows light to enter the eyes.
™™ ultrasonics these are sounds (waves) that humans cannot hear.
™™ vertebrae small bones that join together to make backbone.
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Something to Know

A. Fill in the blanks.

1. Wind pipe connects nose to the in mammals.
2. Of the two jaws, only the jaw moves.
3. The backbone protects the.
4. Fish can feel waves with the help of their.
5. A snake uses its to touch and smell objects.
6. Eye is connected to the brain by the nerve.

B. Match the following:

1. elbow a. longest bone
2. wrist b. eight flat bones
3. hip c. hinge joint
4. femur d. ball and socket joint
5. skull e. gliding joint

C. Tick () the correct option.

1. The joint in the shoulder is an example of a—
(a) hinge joint (b) ball and socket joint
(c) pivot joint (d) gliding joint
2. The framework of bones, that protects our heart and lungs, is known as the—
(a) spinal cord (b) skull (c) rib cage (d) pivot joint
3. Light enters the eyes through the—
(a) pupil (b) cornea (c) retina (d) iris
4. The part of the ear which helps in maintaining balance of our body is—
(a) external ear (b) ear drum (c) middle ear (d) inner ear

D. Answer the following questions in brief.

1. What is breathing?

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2. How are fore limbs connected to the spine?
3. State the importance of the rib-cage in our body.
4. Name the main parts of the skeletal system.
5. State the role of inner ear in the process of hearing.
6. How does a snake detect the presence of an enemy or a prey?

E. Answer the following questions.

1. Why do bones have joints?
2. Why is our backbone made up of many small vertebrae instead of having
one straight long bone?
3. Why is bone marrow known as the factory for making blood cells?
4. How does a ball and socket joint work?
5. Dogs and bats are also mammals like us. How does our sense of smell
compare with that of a dog and our sense of hearing with that of a bat?
6. Do you breathe even when you are sleeping? Give reason for your
answer.

The students of Class-V were asked to prepare posters for the coming parent-
teacher meet. The teacher assigned different roles to different students. All of them
did their work happily in a sincere and organised way. They all helped one another.

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Their work was liked and praised by all the visitors. The teacher compared their
work with the ‘Breathing System’ when she taught that topic in the class.

1. State the values displayed by the students.
2. Discuss how doing work in an organised and helpful way is useful for one
and all.
3. Why did the teacher compare their work with the ‘Breathing System’?

Something to Do
1. Try to make riddles about the functions of sense organs. One example is
given below:

I am an organ that helps you to see,
Coloured disc in white, can you recognise me!

Answer: Eye
2. Find out how your external ear compares with that of the external ear of
other mammals like cow, horse and elephant. What differences are there?
Also find out about any other functions performed by the external ear of
these animals.
3. There are many things in the house that have joints, e.g., door and scissors.
Compare the joints of your body with different joints that you see in various
appliances in your house. Record your results in the following table:

Name of the joint in our body
Joint in an appliance which is similar
Hinge joint Hinge of the door
Ball and Socket joint
Pivot joint
Gliding joint

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PLANTS
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Plants need energy in much the same way as humans, animals and birds. They
need energy to grow, to replace their worn out parts, to get rid of wastes, and to
reproduce. Like all organisms, plants also get the energy, they need, from food.
Plants are special because they synthesise or prepare their own food.

How do Plants Prepare Food?
A plant makes its food in its green leaves. Thus, green leaves are the food
factories of the plant. The process, by which green plants make their food, is called
photosynthesis. Photo means ‘light’ and synthesis means ‘putting together’.
Plants need raw materials like
carbon dioxide and water. These are
converted into food in the presence of
sunlight and chlorophyll.
Carbon dioxide is taken from air
through stomata. Stomata are the
tiny pores present on the leaf surface.
Water, required by the plant, is drawn
from the soil through the roots. Sunlight
is available during the day-time.
Chlorophyll, which is essential for
completing the process, is the green-
Process of photosynthesis
coloured pigment present in the green
leaves of plants.
Some plants need extra food in addition to what they prepare by photosynthesis.
These are plants that grow in poor soil which lacks nitrogen salts. They get their
extra nourishment from insects.

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Plants, that trap and feed on insects, are called insectivorous plants.
Venus flytrap and Pitcher plant are two examples of such plants. They trap insects
in their sticky leaves which have special shapes. The insects get suffocated, when
they are trapped in the leaf, and die. The bodies of these insects are then broken
down, digested and consumed by the plant.

Venus flytrap Pitcher plant
Insectivorous Plants

Reproduction in Plants
All living things reproduce to maintain their race and number on earth. The process,
by which a living thing produces more of its own kind, is called reproduction.
Plants also reproduce their own kind. They do so mainly in two ways:
1. Reproduction through seeds.
2. Reproduction through different parts of a plant, like underground stem, stem
cutting, root and leaf.
Let us study these two ways in some detail.

1. Reproduction through Seeds
The seeds of a plant usually develop inside the fruit. As the fruit ripens, the seeds
become mature. These seeds get dispersed through various agents like air, water,
insects and human beings. All the seeds, that drop on the soil, do not grow to
form new plants. Many of them die due to unfavourable conditions. Only those
seeds, which get favourable conditions, like appropriate air, water, soil and proper
temperature, grow to form new plants.

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The Seychelles coconut, found only in the Seychelles Islands near Africa, produces the largest
seeds amongst all plants. The fruit, of this palm tree, looks like two coconuts joined together.
This is also called the “double coconut”.

Let us now study the structure of the seed.
Structure of the Seed
Take some gram or bean Seed coat
seeds. Soak them for 10-
12 hours in water. Now pick
up one seed and observe Micropyle Cotyledons
its structure carefully. We
will notice that it has a hole Entire seed Seed split open
that allows water to enter its
Parts of a bean seed
inside. This hole is known
as the micropyle. The seed is covered by an outer layer called the seed coat.
Inside the seed coat, there are seed leaves, also called cotyledons. Some plants,
like pea, gram and bean have two cotyledons whereas wheat, rice and maize have
only one cotyledon. Inside the seed leaves, there is a baby plant. The baby plant
has a tiny root and a tiny shoot. The cotyledons store food for the baby plant to
grow.

Growth of the Plant
The baby plant starts growing into a new plant when it gets appropriate amount of
air and water, and the temperature, around it, is neither too hot nor too cold. To
start with, the cotyledons provide food to the growing plant. Later on, the plant starts
making its own food with the help of its leaves.

Activity:
Soak some moong dal and wheat seeds in separate dishes for 10-12 hours. Observe and compare
their structures. Report the differences in their structures, observed by you, to your teacher.

Seed Germination
We know that a plant usually grows from a seed. The process, by which a seed
grows and develops into a seedling, i.e. young plant, is called seed germination.

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Stages of germination in a bean seed

Seeds need favourable conditions to grow and develop into a seedling. Let us
do an activity to study the conditions that are necessary for germination of a seed.

Activity:
Take some seeds of gram, or moong dal. Put them separately in four glass dishes, labelled as
A, B, C and D. Keep them for 4-5 days under the conditions as given below:
Dish Conditions Present

A Keep seeds on moist cotton at room temperature.

B Keep seeds without water at room temperature.

C Keep seeds in a dish completely filled with water at room
temperature.

D Keep the dish, having seeds, on moist cotton in an ice-box
or a refrigerator.

After 4-5 days, we will observe that the seeds, present in the glass dishes B, C and D, have not
germinated. The seeds of dish A show good germination. It is due to the fact that in dish A,
there is appropriate amount of water, air and warmth needed for germination. In the other glass
dishes, one, or other, of these favourable conditions, is missing.

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On the basis of the above activity, complete the following:

Dishes Conditions present Condition missing

B Air
Warmth _______________

C Water
Warmth _______________

D Air
Water _______________

We can, thus, conclude that appropriate amount of water, air and correct warmth
are necessary for germination of seeds.

A healthy birch tree can produce up to one million seeds a year.

Is it possible to grow some plants without seeds? Let us find out.

2. Reproduction by Different Parts of the Plant
In many plants, reproduction takes place through other parts of the plant. A new
plant can grow (i) from the underground stem, (ii) by stem cutting, (iii) from roots or
(iv) from leaves of a plant. This type of reproduction, in which a new plant arises
from some part of a plant, without the involvement of seeds, is called vegetative
reproduction.

Vegetative Reproduction
It is of great importance because it is an easier and faster method of increasing the
number of the same plant. It also helps to grow plants, like banana, which bear no
seeds.
Let us now study how the different parts, of a plant, are involved in the process
of vegetative reproduction.

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(a) Reproduction through underground stem: In plants, like banana, ginger
and potato, a new plant grows from the underground stem. In these plants, a
part of the stem, present underground, grows and develops roots and shoots
to make new plants.

New plant

Eye

Underground
stem
Ginger Potato
(b) Reproduction by stem cutting: New plant can also be grown by using the
stem cutting of a grown up plant. Stem cuttings are used for growing plants
like sugarcane, bougainvillea, rose and grapes.

Cutting is New plant
Cutting planted

Rose cutting

(c) Reproduction through root: When the fleshy roots of some plants, like
Dahlia and Asparagus, are placed in water, very many roots appear at the
lower end and shoots appear at the upper end. In sweet potato, new plants
arise from its root itself.

Dahlia Sweet potato

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(d) Reproduction through leaf: In plants like Bryophyllum, new young plants arise
from the notches of the leaves where small buds are present. These small buds
get detached from the leaf and develop into new plants.
New plant from the notches

Bryophyllum

We can, thus, say that different plants reproduce, either through seeds, or from
some other part of the plant. They maintain their number and race through an
appropriate method of reproduction.

Seed Dispersal
We know that flowers produce fruits and most fruits bear seeds. However, all seeds,
of a given plant, do not germinate near their mother plants. This is because they will
then have to struggle to get sufficient air, water, sunlight and nutrients and many of
them would die. Nature, therefore, enables the seeds to move over to other places.
It does so through various agents, such as air, water, animals, birds, insects and
human beings. They all help in the transfer of seeds to different places. The process
of transfer of seeds, to different places, is called seed dispersal.
We now discuss, in some detail, about the different methods of seed dispersal.

Different Ways of Seed Dispersal
Human-made ways: Humans select seeds of useful plants and sows them in the
soil to get new plants. You must have seen farmers sowing seeds of different useful
plants like wheat, maize and mustard.

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Natural ways: Plants, especially those growing in forests, use lots of natural
methods to scatter their seeds. These are given below:
1. Dispersal by wind: The seeds of madar (aak), thistle and dandelion get
dispersed through wind. These seeds are very light, small and have hair on
them. The hair enable them to fly with the wind and get dispersed.

Dispersal of seeds by wind

2. Dispersal by water: Plants, which are near water bodies (sea, river, lake),
disperse their seeds through water. Coconut, water lily, Hydrilla and lotus
are examples of plants which disperse their seeds through water. The seeds
float on the water for some distance before being carried away. They sink
into mud on the shore, or on the fringes, of the water body.

Coconut Lotus
Dispersal of seeds by water

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3. Dispersal by birds, insects and rodents: Sparrows, ants, rats, squirrels,
etc., carry fruits and grains to their burrows, nests and other places. They
drop some grains, or seeds, on their way. These may grow into plants in the
new environment.

Dispersal of grains/seeds by birds, insects and rodents

4. Dispersal by human and animals: Fruits, which are fleshy and juicy, are
eaten by humans, and other animals, and their seeds get thrown away. Seeds
of watermelon, papaya, mango, pumpkin and gourd often get dispersed by
this method. These seeds can grow into new plants under suitable, and
favourable, conditions.
Many plants, like castor, burdock, cockleburr and mimosa, depend on
animals, including humans, to carry their seeds away from their parent plants.
Their fruits are thorny or have hooks on them. They get stuck to the clothes
of humans, or skin and fur of animals. They get carried to different places
where they fall down and grow into new plants.

Dispersal of seeds of fruits by humans and animals

5. Dispersal through cracking and bursting: Some fruits crack and burst
on ripening and scatter their seeds far away from the parent plant. These
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may grow into new plants. Seeds of pea, ladyfinger, bean and balsam get
dispersed by this method.

Dispersal of seeds by cracking and bursting

Now you know why, and how, plants grow at all places. The dispersal of seeds
plays an important role in increasing the number of plants all over the earth.

The well known Indian Scientist, Prof. J.C. Bose, proved, through his experiments, that plants
have life. He invented an instrument, called the crescograph, which could be used to measure
the rate of growth of a plant.

Keywords
™™ chlorophyll green pigment in leaves.
™™ cotyledons  parts of the seed that contain food for the
baby plant.
™™ germination the growing of baby plant from seed.
™™ photosynthesis process by which green plants make their own
food.
™™ seed coat  the thick outer covering of the seed, which
protects the baby plant.
™™ seed dispersal the transfer of seeds to places away from the
mother plant.
™™ seedling  the small baby plant that grows out of seed.
™™ vegetative reproduction type of reproduction without seeds.

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Something to Know

A. Fill in the blanks.

1. are known as food factories of the plant.
2. Plants, like , reproduce through roots.
3. and are the raw materials needed for
photosynthesis.
4. is a small hole present on the seed.
5. Movement of seeds, from one place to another, is called.

B. Match the following:

1. type of reproduction without seeds a. chlorophyll
2. green pigment present in leaves b. banana
3. a fruit that does not bear seeds c. bryophyllum
4. reproduction through leaves d. pea and ladyfinger
5. dispersal of seeds through cracking e. vegetative reproduction

C. Tick () the correct option.

1. The small baby plant, coming out of a seed is known as the—

(a) grain (b) stomata (c) root (d) seedling
2. The process, by which a plant make its own food, is called—
(a) photosynthesis (b) germination (c) reproduction (d) dispersal
3. Which of these plants has only one cotyledon?
(a) gram (b) pea (c) wheat (d) bean
4. For proper germination, a seed needs—
(a) water only
(b) just the right temperature
(c) air only
(d) water, air as well as the appropriate temperature
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5. Lotus seeds are dispersed mainly through—
(a) insects (b) birds (c) air (d) water

D. Answer the following questions in brief.

1. Name the pigment present in green leaves of a plant.
2. Why do some plants feed on insects?
3. Name the two methods of reproduction in plants.
4. State the conditions required for the proper germination of a seed.
5. Name two plants that reproduce through stem cuttings.

E. Answer the following questions.

1. Why do all seeds not germinate to form new plants?
2. Seeds do not germinate when they are kept in an ice-box or refrigerator.
Why?
3. State the importance of vegetative reproduction in plants.
4. List any three natural ways of seed dispersal. Give one example for each
of them.
5. How can one grow a rose plant without seeds?
6. State the function of following:
(a) seed coat (b) cotyledons (c) micropyle
7. Write the ways of dispersal of seeds in the following plants.
Plants
Ways/Agents of Dispersal of seeds

Madar
Lotus
Castor
Beans
Mango
Water lily

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Riya’s neighbours went to Chennai for 20 days during summer vacation. They
requested Riya’s mother to take care of their plants in their absence.
Riya and her mother took this responsibility happily.They watered the plants regularly
and shielded them from the heat of the sun during day time. When the neighbours
returned home, they thanked Riya and her family for taking good care of their plants.

1. In what ways Riya and her mother took care of plants?
2. State the qualities of Riya that are depicted by this situation.
3. What could have happened if Riya and her mother had not taken care of
their neighbour’s plants?

Something to Do
1. Have you ever thought of planting a sapling on your birthday or gifting saplings
as return gift to your friends? Do such activities help to save environment?
Discuss.
2. Draw well-labelled diagrams of five different seeds in your notebook.

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3. Solve the crossword puzzle.
Across
1. The process by which a seed
produces a baby plant (11)
4. Important for plant growth (4)
6. A young plant (8)
Down
2. A plant that grows from stem
cuttings (4)
3. Store food for the baby plant
(10)
5. Lotus seeds are dispersed by
_____ (5)

4. Take some seeds of wheat and moong dal. Soak them in water overnight
and put them in soil. Record your observations and compare the results with
your classmates. Discuss the same with your teacher.
Record your observations with diagrams in the following manner.

Germination of Seeds

Days
Observations Diagrams of the
seed/seedling/plant

Day 1

Day 3

Day 5

Day 7

Day 9

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