Vertebrates

Vertebrates

Vertebrates - Back boned animals:

Not only vertebrates are back boned animals because vertebrata is not the phylum of back boned animals. Chordata is the phylum of back boned animals and vertebrata is the sub-phylum of chordata. Here, back bone is generally considered as notochord. This notochord is strong and rigid to give good support to chordate animals. But in vertebrates, it was modified as jointed backbone which is called as 'vertebrae'. Animals those possess vertebrae is called as vertebrates.

Modern and major classification of vertebrates:

As per the modern day of classification, there are only five classes of vertebrates. They are

• Pisces (Fishes)
• Amphibia (Amphibians such as Frogs and toads,etc.)
• Reptilia (Crocodiles, snakes, Dinosaurs, turtles, etc.)
• Aves (All birds including penguins & excluding bats, etc.)
• Mammalia (Rats, Rabbits, Elephants, Whales, Bats, Human beings, etc.)

Pisces - Aquatic animals:

Pisces is the class where all aquatic animals such as fishes excluding dolphins, whales and some aquatic amphibians and reptiles. Fishes originate in the Devonian period which is considered as the "Age of fishes". Fishes again classified into:

• Agnatha (Jawless fishes)
• Chondrichthyes (Cartilaginous fishes such as shark, ray, etc.)
• Osteichthyes (Bony fishes such as Catfish, Tilapia, Carps, etc.)

We can see that very common adaptation acquired by fishes for aquatic life. They are

• Streamlined body,
• Gills for respiring dissolved oxygen in water,
• Fins present at suitable places for effective swimming.

Amphibians - Animals evolved from water to land:

It is believed that the amphibians evolved from labyrinthodonts which are the transitional animal group between fish and amphibians. The most familiar animals found in amphibians are frogs and toads, etc.

The adaptation acquired by amphibians is:

• Cutaneous respiration when the animals found inside the water,
• Nictitating membrane found in the eye to get clear view inside the water.
• Webbed foot to give effective swimming.

Reptiles - Amazing animals:

Yes, reptiles are very amazing because the size range of animals also very amazing, as it ranges from very small lizard to huge dinosaurs. You can see variety of adaptations in this group because it habituated in water, in land, in damps, in deserts, etc.

Birds - Aerial animals:

Even in invertebrates, insects exhibit flight, but the birds shows exact flight adaptation, that's why it is very perfect aerial animals. The flight adaptations are:

• Reduced bone marrow to reduce bone weight.
• Pored bones
• Air sacs,
• Bursa of fabricius,
• Feathers & wings, etc.

Mammals - Milk feeding animals:

The striking characteristic of mammals is feeding milk to their young ones. Based on their habits and adaptations, it is diverged into various groups such as

• Burrowing rats and moles,
• Flying bats,
• Fast running cheetahs,
• Long leaping kangaroo,
• Aquatic whales and dolphins, etc.

Classify Pisces upto sub-class giving salient features and examples

The super class Pisces (L., Piscis, fish) includes all the fishes which are essentially aquatic forms with paired fins for swimming and gills for locomotion. About 40,000 species of fishes are known. Various workers have provided different schemes of their classification.

However, no classification had been universally accepted because of the confusion due to staggering numbers of fishes and great diversity in their shape, size, habits and habitat.

According to Parker and Haswell (1960) the super class Pisces if sub-divided into three classes.

CLASS-I-PLACODERMI

(i) These include all extinct fishes found from early Devonian to Permian period.

(ii) Body heavily armoured with bony scales or plates.

(iii) Primitive jaws with teeth.

(iv) Paired or unpaired fins were present.

(v) Skeleton bony.

(vi) Notochord persistent throughout life.

(vii) They are immediate ancestors of astracoderms.

The class placodermi includes six subclasses.

(i) Sub-class – I – Acanthodii, Ex: Climatius

(ii) Sub-class – II – Arthrodin, Ex: Cocoosteus

(iii) Sub-class – III – Petalichthyda, Ex: Macropetalch

(iv) Sub-class – IV – Antiarchi, Ex: Pterich thyodes

(v) Sub-class – V – Rhenanida, Ex: Gemuendina

(vi) Sub-class – VI – Palaeospondylia, Ex: Palaeospondylus

CLASS-II – CHONDRICHTHYES:

(i) Mostly marine and predaceous

(ii) Body fusiform or spindle shaped.

(iii) Endeskeleton is cartilaginous

(iv) Skin with placoid scales.

(v) Fins both median and paired all, supported by fin rays. Pelvic fin bears claspers in males.

(vi) Notochord tail fin heterocereal persistant. Vertebrae complete and separate from notochord.

(vii) Mouth ventral in position, jaws p[resent. Teeth are modified placoid scales.

(viii) Digestive system complete, stomach J-shaped, intestine with spiral valves.

(ix) Gill slits separate, 5-7 pairs, laterally placed, without operculum.

(x) Air bladder and lungs absent.

(xi) Heart 2-chambered, poikilothermous.

(xii) Kidneys opisthonephrii, Ureotelic.

(xiii) Sexes separate, Gonads paired, fertilization internal, oviparous or ovoviviparous. It includes two sub-classes.

1. Sub-class-I-SELACHII (Elasmorbranchii

(i) Multiple gill slits on either side protected but individual skin flaps.

(ii) A spiracle behind each eye.

(iii) Cloaca present.

Ex: Scolodon (shark), Torpedo (Electric ray) pristis (saw fish)

(ii) sub-class-II – HOLOCEPHALUI

(i) Single gill opening on either side covered by a fleshy operculum.

(ii) No spiracles, cloaca and sales.

(iii) Single nasal opening.

Ex: Chimaeras or Rat fishes.

Class-III- OSTEICHTHYES (Teleostomi)

(i) Body is spindle shaped.

(ii) Median and paired fins are present.

(iii) Tail fin is usually Homocercal.

(iv) Endoskeleton is partly or wholly bony.

(v) Skin covered by 3 types of dermal scales ganoid, cycloid or ctenoid. Some without scales. No placoid scales.

(vi) Mouth terminal or subterminal Jaws usually with teeth. Cloaca lacking, anus present.

(vii) Gills are covered by a common operculum on either side.

(viii) An air (swim) bladder often present with or without duct connected t pharynx.

(ix) Adult kidneys mesonephric.

(x) Well developed lateral line system. Internal ear with 3 semicircular canals.

(xi) Sexes separate, Gonads paired fertilization usually external.

(xii) Mostly oviparous, rarely ovoviviparous or viviparous.

This subclass includes two sub-classes.

Sub-class-I – Sarcopterygii

(i) Paired fins are leg-like or lobed with a fleshy, bony central axis covered by scales.

(ii) Internal nares present.

(iii) All are fresh water forms.

Ex: - Latimeria (living fossil)

Protopterus & Lepidosiren

(Lung-fishes)

Sub-class II – Actinoptergii

(i) Paired fins thin, broad without fleshy basal lobes.

(ii) Double external nares are present

(iii) Popularly called ray-finned fish.

This subclass is divided into the infraclasses or super orders

(i) Chondrostei Ex: - Polypterus

(ii) Holostei Ex: - Lepidosteus

(iii) Telestoei Ex: - Labeo, Catla

Carp Culture

Carp is robust fish, capable of muddying the water and tearing bottom vegetations. It prefers shallow bodies of water and feeds on almost anything found underneath like insects, shells, and worms. If cultured or domesticated, it can be trained to eat aquatic plants, kangkong, boiled camote, bread crumbs and rice bran. for higher yield, however, fish meal made from corn, copra and soybean is advisable.

Choosing Breeders.
Selecting breeders is important in maintaining a carp farm. It determines the regular output of fry and its quality.

The Bureau of Fisheries and Aquatic Resources (BFAR) has come with the following guidelines in choosing good spawners:

1) The body must be firm to the touch but not hard. The belly should be not wide .

2) The body’s depth must be relatively high.

3) The caudal peduncle must be both broad and flexible.

4) The head should be small, the snout pointed.

5) The scales should be proportionately large and in straight rows.

6) The anal pore should be situated close to the caudal peduncle.

Maintain appropriates sets of breeders to have a regular output of fry.

Spawning.
Because constant temperature and favorable weather conditions, carp spawns consistently all year round in the country.

This happens early in the morning when the water surface cools down to 18 degree Celsius . The female carp swims near the water surface followed by the male carp. They rub each other’s bodies until the female lays egg.

Three days after fertilization, the eggs begin to hatch. The newly hatched larva, about 5.5 mm long, is very delicate and transparent. It rarely moves, settling on the water’s bottom or on any floating object. The second day, the larva starts to swim a little. After another day, the larva becomes active, swimming from the surface to the bottom. During these stages, the larva or fry lives and eats from the yolk sac. The sac disappears on the third day and the fry actively searches for food. Supplement fry feed with hard-boiled egg yolk or powdered milk spread on the water’s surface.

Culture of carp.
A nursery pond has to be constructed where carp fry or larvae are initially grown. Common size of the nursery pond is 5 x 10 m, a depth of 0.5 m.

Before filling up the water, clean the nursery thoroughly. Get rid of harmful animals that may feed on the fry.

Stock the nursery pond with fry numbering about 1,500 to 3,000. Feed with milk, wheat flour or boiled eggs yolk by spreading them on the water surface. Supplement with rice bran, bread crumbs or fish meal. Feed them two times a day, in the morning at 8 o’clock and in the afternoon at 3 o’clock.

A rearing pond, where carp is cultured until it reaches marketable size, must be constructed with these dimensions: 15 x 50 m, 1.5 to 2 m deep. Just like the nursery pond, it should be first thoroughly cleaned before filling with water. This is done by exposing the bottom until it is thoroughly dry.

Next comes the application of fertilizer. This conditions and enriches the pond bottom, encouraging the growth of aquatic plants, moss and algae. These are important natural food and should therefore be abundant. Chicken dropping is the most commonly used being cheaper and more readily available in large quantities.

Initially apply the chicken manure to the pond bottom before filling up with water. Repeat application every other week.

When carp fry reaches a length of about 5 to 7 cm, they are transferred from the nursery to the rearing pond.

Harvesting and marketing.
Since carp can be cultured throughout the year, harvest can be scheduled. Harvesting can be done 6 months after the introduction of fry to the rearing pond.

Catch the carp using a gill net or seine

Retailers themselves buy the harvest and in turn sell them to household consumers. The harvest can also be transported to different markets for better prices.