Phylum Chor data
GENERAL CHARACTERS
1. NOTOCHORD
§ It is an elastic, solid, skeletal rod lying below the nerve cord
and above the alimentary canal.
§ It serves as a primitive internal skeleton and acts as a rigid
axis.
§ It may persist throughout life or it may be replaced partially
or completely by a backbone or vertebral column.
2. DORSAL HOLLOW NERVOUS SYSTEM
§ There is a dorsal, hollow, fluid filled nerve cord.
§ It is formed by enfolding of a mid-dorsal strip of ectoderm and
it generally sinks below the surface.
§ It lies above the notochord and outside the coelom.
§ It persists throughout life in most chordates, but in a few it
degenerates before maturity.
3. GILL CLEFTS
§ These are paired openings leading from the Pharynx to the exterior.
§ Such gill clefts appear during the development of every
chordate, but in many aquatic forms they are lined with vascular lemallae,
which forms gills for respiration.
§ In terrestrial chordates, which never breath by gills, gill
clefts are present during early development but later on, they disappear.
4. PHA-RYNGEAL POUCHES
§ All the chordates have paired pharyngeal pouches at some stage
of their life cycle.
§ These extend from laterally from the anterior part of the
digestive tract towards the body wall.
OTHER FEATURES
§ Chordates are triploblastic.
§ They are bilaterally symmetrical.
§ True coelom is found.
§ They are found in almost all the habitats of the World.
CLASSIFICATION
OF PHYLUM CHORDATA
The Phylum Chordata is divided into two groups which are:
1. Acraniata (Protochordata)
2. Craniata (Vertebrata)
2. Craniata (Vertebrata)
1. GROUP ACRANIATA (PROTOCHORDATA)
§ They are first or simple Chordates.
§ Brain box (Cranium) is absent and hence brain is not prominent.
§ Notochord does not transform into vertebral column.
This group is further divided into
two sub-phyla, which are as follows:
a) Sub-Phylum Urochordata (Notochord in tail)
b) Sub-Phylum Cephalochordata (Notochord head to tail)
a) Sub-Phylum Urochordata (Notochord in tail)
b) Sub-Phylum Cephalochordata (Notochord head to tail)
A)
SUB-PHYLUM UROCHORDATA (NOTOCHORD IN TAIL)
§ They are also known as “Tunicates” because their body is
enclosed in a sac called “Tunic.”
§ All members are marine and sessile.
§ Body possesses two openings, an incurrent or buccal siphon and
an excurrent or Atrial siphon, through these openings exchange of gases and
food or waste material take place.
§ As a result of “Retrogressive metamorphosis” the larva loses its
tail and most of chordate characters and converts into an adult.
E.g: Ascidia, Herdmania etc.
B)
SUB-PHYLUM CEPHALOCHORDATA (NOTOCHORD FROM HEAD TO TAIL)
§ This is a small group of marine animals, body with pointed ends.
§ Usually live buried in sand, in shallow water with anterior end
protruded out.
§ They show all typical chordate characters (hollow dorsal nerve
chord, pharyngeal gill slits and notochord).
§ Only two genera are present around the world.
E.g: Branchiostoma (Amphioxus) etc
2. GROUP CRANIATA (VERTEBRATA)
§ In these chordates brain is protected inside a skeletal brain
box called “CRANIUM.”
§ Also known as “Vertebrates” because notochord is replaced by a
vertebral column.
§ This group is sub-divided into two sub-phyla, which are as
follows:
a) Sub-Phylum Agnatha (Mouth without
Jaws)
b) Sub-Phylum Gnathostomata (Mouth with Jaws)
b) Sub-Phylum Gnathostomata (Mouth with Jaws)
A)
SUB-PHYLUM AGNATHA (MOUTH WITHOUT JAWS)
§ This is a small group of marine vertebrates also known as
“Cyclostomes.”
§ Superficially they resemble the fish but lack the jaw so they
are often known as “Jawless Fishes.”
§ They have rounded suctorial mouth with many rings of teeth.
§ Paired fins and scales on body.
§ Usually parasitic in nature.
E.g: Hag Fish, Lamprey etc.
B)
SUB-PHYLUM GNATHOSTOMATA (MOUTH WITH JAWS)
§ It is a large group of vertebrates with both upper and lower
jaw.
§ Teeth may be present or absent.
Gnathostomata are divided into two
super classes, which are as follows:
i) Pisces (Fishes)
ii) Tetrapoda
i) Pisces (Fishes)
ii) Tetrapoda
I) SUPER
CLASS PISCES (FISHES)
§ This is the largest group of chordates, which includes half of
the chordate (25,000 species).
§ Study of fishes is called “Ichthyology.”
§ Body is streamlined with paired fins and covered over by dermal
scales.
Super class Pisces is divided into
two classes, which are:
i-a) Chondrichthyes (Cartilage Fishes)
i-b) Osteiochthyes (Bony Fishes)
i-a) Chondrichthyes (Cartilage Fishes)
i-b) Osteiochthyes (Bony Fishes)
I-A) CLASS
CHONDRICHTHYES (CARTILAGE FISHES)
§ Alternate name is “Class Elasmobranchi.”
§ Usually includes marine fishes with endoskeleton of cartilage
(soft bone).
§ Skin contains sharp tiny enamel coated denticles called “Placoid
Scales,” which form exoskeleton.
§ Mouth is ventral in position and tail fin is “Heterocercal.”
§ Five exposed gill slits, which are not covered over by a gill
cover.
§ Common examples are Skates, Sharks, Rays and Scoliodon (Dog
Fish)- a small Shark etc.
I-B) CLASS
OSTEIOCHTHYES (BONY FISHES)
§ Alternate name is “Teleostom,” actually the largest class of
chordates.
§ Includes marine and fresh water fishes.
§ Mouth is present at anterior tip.
§ Endoskeleton in these fishes is made up of hard bone while
exoskeleton is made up of thin bony plates, which are known as “Cycloid” or
“Ctenoid scales.”
§ Gills are covered over on each side by a gill cover called
“Operculum.”
§ An air bladder is present which acts as a hydrostatic organ.
§ Tail fin is usually “Homocercal or Diphycercal.”
§ Common e.g are Eel, Sea-Horse, Flying Fish, Globe Fish etc
LUNG FISHES
§ Zoogeographically important fishes, belonging to group “Dipnoi,
included in Class Osteiochthyes.
§ Only three living genera.
§ They respire by gills and by lungs during drought period
(Lungs-Modified air bladder).
§ Limited distribution in South America, Africa and Australia.
E.g: Protopterus (African Lung Fish)
II) SUPER
CLASS TETRAPODA
It includes following classes:
a) Class Amphibia
b) Class Reptilia
c) Class Aves
d) Class Mammalia
a) Class Amphibia
b) Class Reptilia
c) Class Aves
d) Class Mammalia
A) CLASS AMPHIBIA
§ This class includes the animals that came out of the water and
established a successful life on land.
§ They took advantages of the improved possibilities by remaining
close to water, by keeping a soft and moist skin, by developing lungs and by
evolving a bony skeleton with a strong vertebral column and four legs.
§ They cope with seasonal changes by burrowing during extreme cold
and save water by sealing themselves in a mucous envelop on dry land.
§ The bony endoskeleton is the main body support.
§ The notochord is absorbed during development
§ Breathing is mostly by means of skin and also lung, and also by
lining of buccal cavity.
§ In larva the breathing is mostly by means of external or
internal gills.
§ The circulatory system shows a three chambered heart, with two
atria and one ventricle.
§ The amphibians are “Cold Blooded” (Poikilothermic) that is
having internal temperature that very with the environment.
§ Eggs and sperms are laid in water and fertilization is external.
E.g: Frog and Toads, Salamanders, Newts, Mud puppies etc.
B) CLASS REPTILIA
GENERAL
CHARCTERS
The earliest reptiles evolved from the amphibians.
HABIT AND HABITAT
Reptiles are generally well adapted to life on land, in semi-dry, completely dry and even desert habitat.
Reptiles are generally well adapted to life on land, in semi-dry, completely dry and even desert habitat.
NATURE
§ All reptiles lay their eggs on land.
§ They are cold-blooded animals and are less active during low
temperature.
STRUCTURAL FEATURES
§ They possess dry skin covered with epidermal scales.
§ In some lizards and crocodiles, small bony plates develop below
the epidermal scales.
§ The skeleton is built on the same plane as that of amphibians,
but is much stronger to support their body weight.
§ Respiration takes place exclusively through lungs.
§ Heart is three chambered, two auricles and one incompletely
divided ventricle. (In Crocodiles, the ventricle is completely divided into two
chambers.)
§ The excretion takes place through kidneys. The reptiles secrete
much of their waste products in form of non-toxic “Uric-Acid.”
REPRODUCTION
§ In most reptiles fertilization is internal.
§ Eggs are provided with a shell and are laid on land.
§ The early development of embryo takes place on the large
quantities of yolk and albumin present in the egg.
§ Due to the presence of a protective membrane called “AMNION” in
the egg, reptiles are included in the “Amniota Group” of Vertebrates.
EXAMPLE
Alligators, Crocodile, Snake, Turtle and Gecko etc.
Alligators, Crocodile, Snake, Turtle and Gecko etc.
C) CLASS
AVES (BIRDS)
EVOLUTION
§ Aves have evolved from reptiles.
§ As they acquired the capability of true flight they were able to
exploit the aerial environment and became the largest class of terrestrial
vertebrates.
CHARACTERS
OF CLASS AVES
HABIT AND
HABITAT
The birds live from pole to pole in all type of ecological zones. They all breed
The birds live from pole to pole in all type of ecological zones. They all breed
on land.
FLIGHT AND ADAPTATION
§ Feathers differentiate birds from all other vertebrates.
§ Feathers originated as extraordinary development of Reptilian
scales.
§ Instead of growing all over the body and spreading evenly, the
feathers grow in definite tracts.
§ The feathers play an important role in the thermoregulation of
birds. They trap air, which is a bad conductor of heat and so prevent loss of
body heat.
§ To fly efficiently the birds have reduced their body weight in a
variety of ways.
§ Many bones become hollow, thin and light.
§ Synsacrum and pygostyle are formed by the fusion of vertebrae
and give strength to skeleton.
§ Birds possess strong muscles to control the use of wing in flight.
ADAPTATION FOR COMMUNICATION
§ They possess large eyes with well-developed sight.
§ The birds communicate with members of their species with sound
signals for which the sense of hearing is well developed.
STRUCTURAL FEATURES
§ The great mobility of neck is helpful in feeding, nest building,
preening and defence.
§ There are developed a number of types of bills according to
their feeding habits.
§ The digestive system of birds is compact and can accommodate
large quantity of food.
§ The food is stored for a short period in the crop.
§ “Gizzard” possess thick muscular wall with horny lining, small
stones swallowed by birds are passed on the gizzard for grinding the food.
§ The “Syrinx” or sound-producing organ is found in no other
vertebrate except the birds. It is located at the junction between the trachea
and the paired bronchi.
§ The lungs of birds are small, solid, spongy and slightly
distensible. They are in contact with a number of air sacs.
MIGRATION
IN BIRDS
A large number of species of birds exhibit a deep-rooted phenomenon of migration, during which they travel long distances from their summer breeding homes towards areas of warm climate.
A large number of species of birds exhibit a deep-rooted phenomenon of migration, during which they travel long distances from their summer breeding homes towards areas of warm climate.
SUB-CLASSES
OF AVES
There are two main sub-classes of
aves, which are:
i) Sub-Class Ratitae (Flightless Birds)
ii) Sub-Class Carinatae (Free-Flying Birds)
i) Sub-Class Ratitae (Flightless Birds)
ii) Sub-Class Carinatae (Free-Flying Birds)
I) SUB CLASS RATITAE (FLIGHTLESS
BIRDS)
§ This sub-class includes modern big sized flight less birds.
§ They comparatively have heavy weight and their wings are either
vestigial or rudimentary.
§ They have a flat sternum without keel.
§ Their flight muscles are poorly developed.
§ The distribution of these birds is restricted to few areas of
the World.
E.g: Ostrich, Rhea, Emu, Cassowary, Kiwi and Penguin.
II) SUB-CLASS CARINATAE (FREE FLYING
BIRDS)
§ In this sub-class modern flying birds are included.
§ They are usually small, light weight birds with highly developed
wings and feathers with interlocking system.
§ They possess sternum with a crest like keel to accommodate the
hightly developed pectoral flight muscles.
§ The flying birds are distributed all around the World.
E.g: Sparrow, Pigeons, Myna, Bulbul, Hoopoes, Crow, Doves,
Parrots, Fowls, Cuckoo and Ducks etc.
D) CLASS
MAMMALIA
GENERAL
CHARACTERS
Early mammals are originated from reptiles. The distinctive
characteristic of mammals are at the highest grade of development in animal
kingdom.
HABIT AND
HABITAT
Mostly terrestrial, a few aquatic.
Mostly terrestrial, a few aquatic.
NATURE
§ They are warm-blooded animals.
§ They can maintain a fairly high body temperature and so can
successfully survive in colder areas of the world.
TEMPERATURE REGULATION
§ Heat is generated by high metabolic rate of their body and is
lost by increasing blood circulation in the skin and evaporation of sweat.
§ The mammalian body temperature is maintained at 35˚C-40˚C.
APPARENT FEATURE
§ All mammals possess hair on skin.
§ Sweat glands and sebaccous glands are present on skin.
§ Mammary glands secrete milk in females.
§ External ears (Pinna) are present.
§ Teeth are heterodont i.e. not uniform. The different types of
teeth are: Incisors, Canine, Premolars, Molars.
SKELETAL SYSTEM
§ Skull with two occipital condyles is present.
§ Lower jaw is composed of single bone on each side.
§ Vertebrae are “Gastrocentrous,” composed of three pieces i.e.
the centrum and two epiphyses.
§ Digits of fore and hind limbs are usually five.
§ Cervical (Neck) vertebrae are seven.
INTERNAL FEATURES
§ A thick muscular septum “Diaphram” is present between abdomen
and thoracic cavity.
§ Heart is four-chambered.
§ R.B.Cs are non-nucleated.
§ Brain with four optic lobes.
§ Kidney is metanephrous.
§ The stomach is simple sac but rarely complicated.
REPRODUCTION
§ Mammals give birth to young ones (Viviparous), which are
nourished by parents. Except Prototherians that lay eggs.
§ Fertilization is internal.
§ Development of eggs occurs in the uterus of female, where the
developing embryo develops relationship with mother (Placenta).
§ After the birth of the child, the mother nourished her young
ones.
CLASSIFICATION
OF CLASS MAMMALIA
Mammals are divided into three sub-class:
1. SUB-CLASS PROTOTHERIA
Includes the egg laying mammals. For example Duck billed, Echidna (Spiny anteater).
Includes the egg laying mammals. For example Duck billed, Echidna (Spiny anteater).
2. SUB-CLASS METATHERIA
Includes the pouched mammals, also known as “Marsupial mammals.” For example Kangaroo, Koala Bear and Opossums etc.
Includes the pouched mammals, also known as “Marsupial mammals.” For example Kangaroo, Koala Bear and Opossums etc.
3.
SUB-CLASS EUTHERIA
Includes the placental mammals. For example Monkey, Cow, Elephant, Cat, Dog, Bat, Whale and Human being etc.
Includes the placental mammals. For example Monkey, Cow, Elephant, Cat, Dog, Bat, Whale and Human being etc.
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