2. CONTENT
• What is locomotion and movement ?
• Why do animals need to do locomotion ?
• Movement in animals
• Organs of locomotion in microorganisms
• Organs of locomotion in invertebrates
• Organs of locomotion in vertebrates
• Organs of locomotion in sea animals
• Organs of locomotion in Aerial animals
• Movement in plants
• Movement humans
• Bibliography
3. • Locomotion means movement or the ability to
move from one place to another.
• Movement is an act of moving.
This is
locomotion
4. Why do animals need to do
locomotion ?
• Animals need to do locomotion because they
need to:
1. Search for food and; water and shelter
2. escape from danger example prey
3. Avoid unfavorable condition example
migration
4. reproduce or to find a mate
5. Movement in animals
• All animals move at some time in their lives. Even those animals which are fixed or
stationary begin life as free-swimming organisms. In certain organisms, the life-
cycle consists of a sedentary (polyp ) generation alternating with a swimming (
medusa ) generation. For example. The jelly fish spends most of its life as medusa,
while corals and sea anemones spend most of their lives as polyps.
• Most animal run, crawl, swim, fly with aid of limbs. The limbs are moved by
muscles which are attached to the skeleton. When the muscles contract they move
the skeleton, and with it part or all of the body.
• Not all animals need limbs to move quickly:
1) Snake are limbless. A snake moves by forming its body into zig - zag, gripping the
ground with its undersides and pushing itself forward. The fastest snake, the black
mamba, can reach over 30km/h.
2) animals such as flatworms often move by undulating in a continuous ripple.
7. Organs of locomotion in
microorganisms
• Flagella : a flagellum is a whiplike appendage that sticks out of the body. The
flagellum moves the organism through the water, somewhat like the proppeler of
an airplane pulls it through the air. Hence we can say that the flagellum acts like a
little motor.
the flagellum is located on the anterior ( front ) end, and twirls in such a way as to
pull the cell through the water. Example : euglena and chlamydomanas
• Cilia : the outer surface of the cell of certain organisms like the paramoecium is
covered with many hundreds of tiny hair-like structure scalled cilia. These act like
microscopic oars to push through the water enabling the organism to swim. In
paramoecium the speed of motion is about four times its own length per second.
As it moves through the water it rotate on its axis and small particles of debris and
food are collected and swept into the gullet.
• Pseudopodia: Formation of Pseudopodia ( false legs ) in any direction leads to
movement of the animal in that direction. Movement due to Pseudopodia is
known as amoeboid movement. Example –amoeba.
8.
9. Organisms of locomotion in
invertebrates
• The organs of locomotion in the lower animals are varied wings, tube feet,
muscular feet and walking legs are some of the locomotry organs found in these
animals.
• Some invertebrates like roundworms, flatworms, squids, octopus, jellyfish, etc.,
lack special organs of locomotion. Such land animals are propelled by the muscular
contractions while aquatic animals swim by pumping water in and out of their
body.
10. Organisms of locomotion in
vertebrates
• There are five classes of vertebrates :
1. Pisces ( fish )
2. Amphibians ( frogs, toads, salamander )
3. Reptiles ( snakes, turtles, crocodiles, lizards )
4. Aves ( birds )
5. Mammals ( humans, whales, dolphins, bats, horses, rats, pigs, bears, seals,
walruses, etc. )
• Of these members of the class Pisces are exclusively aquatic. Amphibians, certain
reptiles, birds, and mammals are able to move on the land as well in water.
11. Organisms of locomotion in sea
animals
Fins, flippers and webbed feet
• Movement in water is facilitated by means of flippers in whales, seals and sea
lions, fins in fishes and webbed feet in ducks and frogs.
• Fins are modified limbs arising as flat appendages on the body of the fish. most
fish swim with side to side strokes of their tale fin, accompanied by a wriggling
movement of the body. They use their fins for steering ( changing direction) and
balance.
• Dolphins , porpoises, manatees and whales are mammals that live their entire life
in water. They have a streamlined body and a powerful tail, which they move up
and down to propel themselves through the water. Their forelimbs are paddle-like
flippers, used for balance and steering. They have no hindlimbs.
• Some animals like hippopotamuses and walruses spend much, but not all, of their
time in water. They swim by moving their forelimbs and their hindlimbs.
13. Organisms of locomotion in Aerial
animals
Wings
• Wings are expanded appendages speialised for flight.
• In birds, the forelimbs are modified into wings.
• Birds flap their wingd in order to fly. A bird gets most of its lift
by flapping its wings. This motion pushes air downwards,
producing an upward reaction force or upthrust. Also, when
the wings are apread, the volume is increased. Thus, the
upthrust also increase.
14. Bird flying
This picture shows how the bird is pushing the air down and making its
movement up to fly.
15. Movement in plants
• Plants can move too. They move when they grow towards the light, also
their stems grow upwards and their roots grow down.
• Protoplasm is sensitive to various external agencies such as heat, light,
electricity, gravity, certain chemicals, etc., which act as stimuli and plants
or plant organs often respond to such stimuli by movement of their body
in a particular direction.
Movement in plants
16. Movement in humans
• The framework of the human body the skeleton, the muscles and the skin
is a strong yet flexible construct. The 206 bones that make up the adult
skeleton support the body and work with muscles and nerves to move the
body's various parts.
• The human body has about 650 muscles responsible for movement and
even the smallest motion requires at least 2 muscles working in
opposition.
• All movements that change the positions of the bony parts of the body,
occur at joints. The skeletal system consists of many separate bones, most
of which are held together at joints by flexible connective tissue. Joints are
necessary since bones are too rigid to bend without causing damage.
19. Joints
• Joints are the place where two bones meet. All of your bones, except for one (the
hyoid bone in your neck), form a joint with another bone. Joints hold your bones
together and allow your rigid skeleton to move.
• Some of your joints, like those in your skull, are fixed and don't allow any
movement. The bones in your skull are held together with fibrous connective
tissue
• Other joints, such as those between the vertebrae in your spine, which are
connected to each other by pads of cartilage, can only move a small amount.
20. Body joints
These are all the joints which are available in our body like elbows and
knees
21. Bibliography
• A textbook of biology by Anita Prasad for class
VII
• www.google.com/imghp
• http://www.bbc.co.uk/science/humanbody/b
ody/factfiles/joints/ball_and_socket_joint.sht
ml
• www.google.com