The scientific and objective study of animal behaviour, usually with a focus on behaviour under natural conditions, and viewing behaviour as an evolutionarily adaptive trait is called Ethology. All living organisms show some kind of reaction to the external environment. The reaction may be visible or automatic expression in response to stimuli. Stimuli may be chemical, physical or external substance, i.e. light, heat, radiation, sound, touch, gravity etc. The expression of organisms in response to the external environment is called behavior. The study of the behavior is called ethology.
Types of animal behavior
1. Innate or stereotyped behavior: This type of behavior includes inherited mechanisms with which animals face the environment. The innate behavior is migration, leadership, mating, dominance etc. it is genetic behavior so it can be transmitted though generation to generation.
2. Learned behavior: this kind of animal behavior is learned through the course of life cycle, i.e. form past experience. This kind of animal behavior is short lived and depends on the memory of organisms.
The quick or immediate response toward stimulus is called reflex action. This is automatic or involuntary action. The reflex action is also known as automatic response. In this response only a part of body is involved at a given time. It was first studied by Marshall Hall in 1883. There are many example of reflex action in human body, i.e. the blinking of eye, sneezing, hunger etc.In such actions, the impulses are carried by the sensory fibers from the receptor organ to the brain and back to the effector organ. The path or the route through which the impulses travel from the receptor is called a reflex arc. i. Sensory nerves- from receptor to the brain. ii. Motor nerves- From brain to receptor cells.
Mechanism of reflex action
The center of reflex action is spinal cord. And it is controlled by central nervous system. The reflex action comprises four steps- reception, conduction, modulation and effect. The afferent fiber or sensory fiber enters the spinal cord through the dorsal root and carries the impulse from the effectors organ to spinal cord. The efferent fiber or motor fiber passes through the ventral root and carries impulses away from the spinal cord to the effectors organ. The adjustor neuron in spinal cord communicates between afferent and efferent neuron. The reflexes are mainly of two types, they are unconditioned reflex (in born) and conditioned reflex.
Taxes is defined as the movement or orientation of organism in response to external stimulus. Taxes is the movement of an organism in response to a stimulus such as light or the presence of food. Taxes are innatebehavioral responses. A taxis differs from a tropism (turning response, often growth towards or away from a stimulus) in that the organism has motility and demonstrates guided movement towards or away from the stimulus source. It is sometimes distinguished from a kinesis, a non-directional change in activity in response to a stimulus. Taxes may be positive, when orientation of organism is towards the source of stimulus or negative when the orientation of organism is away from the source of stimulus.
Types of taxes
Thermotaxis: It is the moment of organism in response to the temperature, e.g. earthworm. Phototaxis: It is the moment of organism in response to the. For example, the cockroach and earthworm go away from the light. The euglena move towards light. There is of two kind taxis, i.e. positive and negative phototaxis. Geotaxis: It is the moment of organism in response to the gravity is called geotaxis. Earthworm moves deep into the soil. Rheotaxis: It is the moment of organism in response to the water current. Movement of fishes towards the current of water. Chemotaxis: It is the moment of organism in response to the chemicals. The mosquitos fly away from the burning coil or chemical liquid. Klinotaxis: In some organism the receptor cells are distributed on body surface, mostly on dorsal surface of anterior part. They try to orient their body by bending first on one direction and then other which continues until the receptor of two sides is equally stimulated. For e.g. Euglena. Tropotaxis: It is the moment of body in response to a stimulus is straight, not sideways like klinotaxis due to presence of receptor organs in pair. for e.g. Lice and ticks. Telotaxis: The movement animals towards any one of stimulus when they are stimulated by two sources of stimuli. The honey bee moves to flowers in presence of light and in evening she left flowers and moves to hives. Menotaxis: The animals move their body in response to stimulus at a constant angle. Mnemotaxis: Some animals move their body towards complex stimuli. E.g. the returning of ant through the same way they travelled earlier.
Generally leadership generally refers to the capacity of the member of a particular group by a certain member. The property of giving guidance, control, and security to other members is called leadership. The leadership requires a Leader and leader can be one individual or group. A real leader will be the one who initiates, stabilizes, or integrates the group. It is found in socially organized animals. The ants, bees, birds, mammals, monkeys, dear etc. show this property.
Migratory behavior of Fish
The migration generally refers to the periodic passing of animal form one place for different purpose. The movement of fishes from one place to another place for food, shelter, breeding, or protection is called migratory behavior of fishes. And mainly for reproduction and feeding. A migratory fish can show (a) Drifting movement (Fish are carried by water current) (b) Random Locomotory movements (Fish move from a point in a uniform environment and spread out so called dispersal.) (c) Orientated swimming movements (d) Dentant and Contranatant movements (movement of fish in relation to water current.)
Types of Migration in fishes
A) Diadromous Migration: These are truly migratory fish which migrate from fresh water to sea water and from sea to fresh water. i) Catadromous migration: The migration of fishes from fresh water to seawater is called catadromous migration. This migration is especially for breeding purpose. During breeding season they move from fresh water to marine water, e.g. Anguila bengalensis. ii) Anadromous migration: The migration of fishes from seawater to fresh water especially for breeding purpose is called anadromous migration. They live their whole life in fresh water and they migrate for only reproduction, e.g. Salmon. B) Potamodromous: Whose migration towards fresh water, e.g. Carps. C)Oceanodromous migration: Confined in ocean for food, e.g. Clupea. D) Latitudinal Migration: migration from south to north and vise-versa, e.g. Swordfish E) Vertical migration: Migration from surface to the depths for food.
Advantages of migration in fish
1. Due to migration fish could get safe shelter and enough food. 2. Migration can ensure better condition for reproduction.
Migratory Behavior of Birds
The movement of birds from one place to another place for food, shelter, breeding, or protection is called migratory behavior of birds. Birds migrate mainly to survive from extreme environment. The species of birds show periodic movement between their summer and winter homes
Types of Migration in birds
1. Latitudinal Migration: The migration of birds from north to south or vice versa is called latitudinal migration. 2. Longitudinal Migration: The migration of bird from east to west or vice versa is called longitudinal migration. 3. Altitudinal Migration: The migration of bird from higher altitude to lower altitude or vice versa is called altitudinal migration. Some birds pass the summer in the mountains regions but return to the lowlands in winter. 4. Seasonal Migration: The migration of birds during season. 5. Irregular or Vagrant migration: Bird leaves their home and disperses in different direction
Modes of flight in migration in birds
1. Diurnal and Nocturnal Fight:Some birds fly during day time (hawks, bluebirds, swallows) and some fly during night time (warblers, sparrows). 2. Routes of migration: Some migratory birds follow definite routs and fly-ways year after year. During flight they make some landmark such as mountains, rivers, stars, sun etc. and some learn their routes from their parent. 3. Altitude of flight: The altitude of flight of birds differs from species to species. Some fly about the height of 400 mater to rarely 1000 meter. 4. Speed and duration of flight: The birds normally fly about 6-7 hour a day and fly at the seed of 30-80 km per hour. In some suitable places they take rest for food. 5. Range of migration: the range of migration mainly depends upon the species of bird and the environmental condition.
Causes of Migration in Birds
1. Due to change in environmental condition and sacristy of food. 2. Due to metabolic stimulus. 3. Due to the physiological change occur in bird. 4. Due to the occurrence of hormones such as Antipituitary hormone and thyroid hormone.
Advantages of migration in birds
1. Due to migration birds could get safe shelter and enough food. 2. Migration can ensure better condition for living. 3. They can enjoy warmer climatic condition throughout whole life.
Disadvantages of migration
1. Some birds lose their way during flight. 2. They are also killed by predators such as hawks during migration. 3. They can be died due to sudden change in environment.
1. Animal Adaptations
It is an adaption of organisms in order to survive in watery environment. The aquatic animal classified into two categories that is primary and secondary aquatic animals. Those animals that live their whole life in water and respire by means of gills are known as primary aquatic animals, e.g. fish. And those animals who can survive in both conditions i.e. in water as well as in land are called secondary aquatic animals, e.g. turtles, crocodiles etc.
Primary aquatic adaptation
Body Contour: the head, body and tail are compressed, stream-lined. Locomotory organ:Fins are present in the body; Tail is present for change in direction. Swim Bladder: it is a hollow organ filled with air or gas. Respiration By gills: It is the main adaptation feature which utilizes dissolve oxygen. Lateral fin system: it helps to detect pressure changes in surrounding and maintain the body according to the water current. Skin and scales: Mucus gland present and this protects body from external injuries. Presence of nictitating membrane: it is present on eyes which protects from dirty water and ensure vision. Osmoregulation: The control of water current and salt concentration is called osmoregulation
Secondary Aquatic adaptation:
Body-Contour: The body counter has become stream lined, e.g. Cetacae, sirenia etc. Skeleton: The bones of secondary aquatic forms are light and hollow. Locomotion: They possess elongated body and reduced limbs. Shortening of neck: they bear short neck which helps the animal to be in balance and to swim in the water easily. Integument: They are characterized by the loss of armor, hair and skin glands. Respiration: They possess long breathers. Lungs are large and highly elastic. Skull modification: the pointed snout cuts the water current. Submergence: They all have capacities to swim under water
2. Amphibious Adaptions
The amphibians are the first group among the chordates that live outside water. Most of the amphibians are well adapted to the particular environment of their surroundings. The amphibians show both their aquatic and terrestrial nature
Adaptation for living in water
Body contour: The body is compact; boat shaped which offers least resistance during swimming and diving. Hind Limbs: Long, muscular and powerful hind limbs. Respiration: They show cutaneous respiration in water but use gills in larvae stage. Eye-lids: The transparent nictitating membrane.
Adaptation for living in land
The toads the terrestrial than frogs. They have two pairs of limbs for walking or swimming and leaping. The Eyes-lids are moveable. The skeleton system is large and bony. Respiration is takes place by lungs and skin. The tongue is sticky and protrussible. The tree frog, Rhacophorus shows flying adaption
1. Arboreal Adaptations: These are tree living animals and lead arboreal mode of life. Wall and rock climbers: They provide with calws and adhesive discs in their limbs, e.g. Lizards. Terrestrio-arboreal forms: They usually nest on the trees and make periodical visits to the ground, e.g. sloth bear, rodents. Arboreal Forms: They are usually tree dwellers. Stout body: They have stout and laterally compressed body. Strong chest and ribs: The strengthening of the chest, ribs and limbs girdles. Strong girdle bones: In the pelvic gridle the ilium is very broad and it serves to support the viscera. Grasping type of feet: Feet are prehensile or non-prehensile. Dry skin: The body is usually covered with dry skin provided with scales. Protrusible tongue: They have long protrusible tongue to catch prey. Presence of neck: It provides mobility to the head, which enhances the efficiency of eyes. Claws: The digits have sharp and well developed claws in arboreal animals. Voltant Adaptations: Animals inhabiting the aerial environment show many Volant adaptation. The adaptation to fly is Volant adaptation is called Volant adaptation. There are two types of flight: a) Active Flight: It has long and sustained flight through air. It seen in birds, insects and bats. Body Contour: They possess boat shaped body without proteuberances. Wings: The fore limbs are modified into wings which help for the flight. Reduction in body weight: The bones are hollow and many air sacs are present inside. Flight muscle: They possess three type of flight muscle, i.e. pectoralis major, pectoralis minor and coracobrachialis. Presence of neck and beak: The neck is highly mobile and mouth produced into beak. Bipedal locomotion: The hind limbs are modified for walking. Perching mechanism: In birds, the hind limbs are used for the perching mechanism. Broad sternum: It is broad, longitudinal ventral keel for attachment of flight muscle. Air sacs: They have air sacs which supply more oxygen and make body weight light. Short tail: The tail is used for the balancing during flight. Sense organ: The brain has enlarged optical lode. b) Passive flight: Animals cannot fly for long time. In this type animal take leap or jump from higher place to lower place, e.g. flying dragon, birds, squirrel etc.