25.10.2019

Oviparous animals list. Oviparous mammal: description, features, reproduction and species. Order Monotreme or Oviparous. Characteristics and origin. What are the respiratory organs in amphibians

Subclass Primal Beasts (Prototheria)

Order Monotremes, or Oviparous (Monotremata) (E. V. Rogachev)

Monotremes (or oviparous) are the most primitive among modern mammals, retaining a number of archaic structural features inherited from reptiles (oviposition, the presence of a well-developed coracoid bone not connected to the scapula, some details of the articulation of the bones of the skull, etc.). Their development of the so-called marsupial bones (small bones of the pelvis) is also considered as a legacy of reptiles.

In the presence of distinct coracoid bones, monotremes differ from marsupials and other mammals, in which this bone has become a simple outgrowth of the scapula. At the same time, hairline and mammary glands are two interrelated features that are characteristic of mammals. However, the mammary glands of ovipositors are primitive and similar in structure to the sweat glands, while the mammary glands of marsupials and higher mammals are grape-shaped and similar to the sebaceous glands.

Quite numerous similarities of monotremes with birds are adaptive rather than genetic traits. The laying of eggs by these animals brings monotremes closer to reptiles than to birds. However, in the egg, the yolk in monotremes is much less developed than in birds. The keratinized egg shell is composed of keratin and also resembles the shell of reptile eggs. Birds are also reminiscent of such structural features as some reduction of the right ovary, the presence of pockets in the digestive tract resembling the goiter of birds, and the absence of an external ear. However, these similarities are more of an adaptive nature and do not give the right to speak of any direct relationship between monotremes and birds.

Adult oviparous teeth are absent. In 1888, milk teeth were found in a platypus cub, which disappear in an adult animal; these teeth are varied in structure, as in higher mammals, and the two largest teeth on each jaw have the location and appearance of molars. In terms of body temperature, monotremes occupy an intermediate position between poikilothermic (reptiles) and true warm-blooded (mammals and birds). The body temperature of the echidna fluctuates around 30°C, and that of the platypus around 25°C. But these are only average figures: they change depending on the ambient temperature. So, the body temperature of the echidna when the temperature of the environment changes from + 5 ° to + 30 ° C increases by 4-6 °.

At present, the order of monotremes has 5 living representatives belonging to two families: the platypus and 4 species of echidnas. All of them are distributed only in Australia, New Guinea and Tasmania (Map 1).

Family Platypuses (Ornithorhynchidae)

The only member of the family platypus(Ornithorhynchus anatinus) - was discovered at the very end of the 18th century. during the colonization of New South Wales. In the list of animals of this colony published in 1802, the platypus was first mentioned as "an amphibious animal from the genus of moles ... Its most curious quality is that it has a duck's beak instead of the usual mouth, allowing it to eat in the mud, like birds. ..". It was also noted that this animal digs a hole for itself with its claws. In 1799 Shaw and Nodder gave it a zoological name. European colonists called him "platypus", "duck mole", "water mole". At present, the Australians call it "platypus" (Fig. 14).

The very first scientific description platypus marked the beginning of a fierce debate. It seemed paradoxical that a furry mammal could have a duck's beak and webbed feet. The first platypus skins brought to Europe were considered fake, the product of skilled oriental taxidermists who deceived gullible European sailors. When this suspicion dissipated, the question arose as to which group of animals he should be assigned. The "secrets" of the platypus continued to be revealed: in 1824, Meckel discovered that the platypus has glands that secrete milk. It was suspected that this animal lays eggs, but this was proved only in 1884.

The platypus is a brown-furred animal, about 65 cm long, including the length of a flattened tail similar to that of a beaver. The head ends in the famous "duck's beak", which is really just a snout in the form of an extended beak, covered with a special kind of skin rich in nerves. This "beak" of the platypus is a tactile organ that also serves to obtain food.

The head of the platypus is round and smooth; there is no external ear. The front paws are strongly webbed, but the web that serves as an animal when swimming is folded when the platypus walks on land or if it needs claws to dig a hole. The webs on the hind legs are much less developed. The main role in digging and swimming is played by the front paws, the hind limbs are of great importance when moving on land.

The platypus usually spends about two hours a day in the water. It feeds twice: early in the morning and in the evening twilight. He spends most of his time in his hole, on land.

The platypus feeds on small aquatic animals. He stirs up the silt at the bottom of the reservoir with his beak and catches insects, crustaceans, worms and molluscs. Under water, he feels free, unless, of course, it is possible to catch his breath on the surface from time to time. Diving and rummaging in the silt, he is guided mainly by touch; his ears and eyes are protected by fur. On land, the platypus, in addition to touch, is guided by sight and hearing (Fig. 15).

Platypus burrows are located outside the water, including the entrance, located somewhere under the overhanging shore at a height of 1.2-3.6 m above the water level. Only an exceptionally high flood can flood the entrance to such a hole. An ordinary hole is a semicircular cave dug under the roots of trees, with two or more entrances.

Every year, the platypus goes into a short winter hibernation, after which it has a breeding season. Males and females meet in the water. The male grabs the tail of the female with his beak, and for some time both animals swim in a circle, after which mating takes place.

When the time comes for the female to lay eggs, she digs a special hole. First, it digs a gallery in the slope of the coast from 4.5 to 6 m, at a depth of about 40 cm below the soil surface. At the end of this gallery, the female rips out the nesting chamber. In the water, the female searches for nest material, which she then brings to the hole with the help of her tenacious tail. She builds a nest from water plants, willow twigs or eucalyptus leaves. Too hard material, the expectant mother carefully crushes. Then she clogs the entrance to the corridor with one or more earthen plugs, each 15-20 mm thick. cm; plugs are made with the help of a tail, which uses a spatula like a mason. Traces of this work can be constantly seen on the tail of the female platypus, which in its upper part is shabby, devoid of hair. Thus, the female clogs herself in a dark shelter inaccessible to predators. Even a man could not reveal the secret of her nesting shelter for a long time. Having finished this painstaking and hard work the female lays eggs.

The first time a platypus laid eggs was observed in 1884 by Caldwell in Queensland. After that, she was traced to the Hillsville Nature Reserve in Victoria. These eggs are small (less than 2 cm in diameter), rounded, surrounded by a dirty white shell, consisting not of lime, as in birds, but of a soft, elastic horn-like substance, so that they can easily be deformed. Usually there are two eggs in the nest, sometimes one, three or even four.

The duration of incubation may vary. A well-known expert on Australian animals, David Flay, found out that incubation in a platypus does not exceed 10 days, and can last as long as a week, provided that the mother is in the nest. During incubation, the female lies, curved in a special way, and holds the eggs on her body.

The mammary glands of the platypus, discovered by Meckel in 1824, lack a nipple and open outwards with simple dilated pores. From them, milk flows down the mother's coat, and the cubs lick it off. They are growing fast. During their feeding, the mother also feeds heavily; a case is known when a nursing female ate earthworms and crustaceans overnight in an amount almost equal to her own weight.

The cubs are blind for 11 weeks, then their eyes open, but they remain in the hole for another 6 weeks. These babies, which feed only on milk, have teeth; as the animal grows, the milk teeth disappear and are replaced by simple horny plates. Only after 4 months, young platypuses go on their first brief excursion into the water, where they begin to clumsily search for food. The transition from dairy to adult nutrition is gradual. Platypuses are well tamed and live up to 10 years of age in captivity.

Platypuses are found in Queensland, New South Wales, Victoria, parts of South Australia and Tasmania. They are currently most numerous in Tasmania (Map 1).

The platypus is not picky about the composition of the water in which it seeks food. He endures both cold and clear waters mountain streams of the Australian Blue Mountains, and warm and muddy waters rivers and lakes of Queensland.

Quaternary remains of the platypus have been found in southern Queensland. Fossil platypuses resembled modern ones, but were smaller in size.

Before the migration of man to Australia, the enemies of the platypus were few. Rarely attacked him monitor lizard(Varanus varius) python(Pithon variegatus) and a seal swimming in rivers sea leopard. The rabbits brought by the colonists created a dangerous situation for him. By burrowing, rabbits disturbed the platypus everywhere, and in many areas it disappeared, giving way to their territory. European settlers also pursued the platypus for its pelt. Many animals fell into traps set along the banks of the rivers for rabbits, and into the tops of fishermen.

Wherever people destroyed or disturbed the platypus, the surviving animals left these places. Where the man did not bother him, the platypus perfectly endured the neighborhood with him. To ensure the existence of the platypus, the Australians created a system of reserves and "refuges", among which the most famous are the Hillsville Reserve in Victoria and the West Burley Reserve in Queensland.

The platypus is an easily excitable, nervous animal. According to D. Flay, the sound of a voice or steps, some unusual noise or vibration is enough for the platypus to be out of balance for many days, or even weeks. Therefore, for a long time it was not possible to transport platypuses to zoos in other countries. In 1922, the first platypus ever seen in other countries arrived at the New York Zoo; here he lived only 49 days; every day for an hour it was shown to the public. Transportation became possible thanks to G. Burrell, who invented an artificial dwelling for the platypus, consisting of a water tank (reservoir), a sloping labyrinth imitating a hole with rubber "soil", and a stock of worms to feed the animal. To show the animal to the public, the wire cover of the living chamber of the platypus burrow was displaced.

In the same zoo in New York, platypuses were imported twice: in 1947 and 1958. These transportations were organized by D. Flay. In 1947, three platypuses were transported to New York by sea; one of them died after 6 months, and the other two lived in the zoo for 10 years. In 1958, three more platypuses were airlifted to New York.

Echidna family (Tachyglossidae)

The second family of the monotreme order includes echidnas, covered with needles, like porcupines, but reminiscent of anteaters in type of food. The sizes of these animals usually do not exceed 40 cm. The body is covered with needles, the length of which can reach 6 cm. The color of the needles varies from white to black. Under the needles, the body is covered with short brown hair. The echidna has a thin, pointed muzzle 5 cm ending in a narrow mouth. Longer tufts of hair are usually developed around the ears. The tail is almost not expressed, there is only something like a projection from behind, covered with needles (Table 2).

There are currently 2 genera of echidnas: echidna proper(genus Tachyglossus) living in Australia, and new guinea prochidna(genus Proechidna). In the genus Tachyglossus, 2 species are distinguished: Australian echidna(T. aculeatus), one of the subspecies of which is endemic to New Guinea, and Tasmanian echidna(T. se ~ tosus), characterized by larger sizes and thick hair, from which sparse and short needles stick out. The difference in the fur of these animals is probably due to the colder and wetter climate of Tasmania.

Echidna is found in Australia, in the eastern half of the mainland and at its western tip, in Tasmania and New Guinea. The Tasmanian echidna is found in Tasmania and on several Bass Strait islands.

The discovery of echidna early in the colonization of New South Wales did not immediately receive the attention it deserved. In 1792, Shaw and Nodder described the Australian echidna and named it Echidna aculeata. In the same year, a Tasmanian species was discovered, described by Geoffroy as Echidna setosa. Echidna is a purely terrestrial animal. It lives in dry bush (thickets of bushes), preferring rocky areas. She does not burrow. Her main defense is needles. When disturbed, the echidna curls up into a ball like a hedgehog. With the help of claws, it can partially burrow into loose earth; burying the front of the body, it exposes the enemy only to the needles pointing backwards. During the day, hiding in the voids under the roots, stones or in hollows, the echidna rests. At night, she goes in search of insects. In cold weather, she stays in her lair, falling into a short hibernation, like our hedgehogs. Stocks of subcutaneous fat allow her, if necessary, to starve for a month or more.

The brain of the echidna is more developed than that of the platypus. She has very fine hearing, but poor eyesight: she sees only the closest objects. During his excursions, mostly nocturnal, this animal is guided mainly by the sense of smell.

Echidna feeds on ants, termites and other insects, and sometimes other small animals (earthworms, etc.). She destroys anthills, moves stones, pushing them with her paws, even rather heavy ones, under which worms and insects hide.

The strength of the echidna's muscles is amazing for an animal large sizes. There is a story about a zoologist who locked an echidna in his kitchen for the night. The next morning he was very surprised to see that the echidna had moved all the furniture in the kitchen.

Having found an insect, the echidna throws out its thin, long and sticky tongue, to which the prey sticks.

The echidna has no teeth at all stages of its development, but on the back of its tongue there are horny teeth that rub against the pectinate palate and grind the caught insects. With the help of the tongue, the echidna swallows not only insects, but also earth and detritus, which, getting into the stomach, complete the grinding of food, similar to how it happens in the stomach of birds.

Like the platypus, the echidna incubates the eggs and feeds the young with milk. A single egg is placed in a primitive bag, which is formed by the breeding season (Fig. 16). How the egg gets into the bag is still unknown. G. Burrell proved that the echidna cannot do this with the help of its paws, and put forward another hypothesis: it has a sufficiently flexible body so that, by bending, the female could lay the egg directly into the abdominal bag. One way or another, the egg "hatches" in this bag, where the baby hatches from it. To get out of the egg, the cub breaks the shell with the help of a horny bump on the nose.

Then he sticks his head into a hairy pouch where the mammary glands open, and licks the milk secretions from the hairs of this pouch. The calf stays in the pouch for quite some time until its quills begin to develop. Then the mother leaves him in some shelter, but for some time she visits him and feeds him with milk.

Echidna tolerates captivity well if she has protection from an excess of the sun, from which she suffers greatly. She enjoys drinking milk, eating eggs and other food that can fit in her narrow, tube-like mouth. Her favorite delicacy is raw eggs, in the shell of which a hole is punched, where the echidna can stick her tongue. Some echidnas have lived in captivity for up to 27 years.

Aborigines who love to eat echidna fat often hunted it, and in Queensland they even specially trained dingoes to hunt echidnas.

prochidni(genus Proechidna) are found in New Guinea. They differ from Australian echidnas in having a longer and more curved muzzle ("beak") and high three-toed limbs, as well as small external ears (Fig. 17). In the Quaternary period, two now extinct species of echidnas are known, but this group is unknown in older deposits. The origin of echidnas is as mysterious as that of the platypus.

At present, oviparous, or monotremes, are the only detachment of the subclass cloacae of the mammal class of the chordate type. The second name of this order is the first animals, since these animals, along with marsupials, are the most primitive of all modern mammals. The name of the order is due to the presence of characteristic features in all animals of this group. Monotremes have a cloaca formed by the fusion of the final sections of the intestine and the genitourinary system. Similarly, representatives of amphibians, reptiles and birds have a cloaca. Also, all the first animals lay eggs, and the females feed the hatched cubs with milk.

Scientists believe that in the process of evolution, oviparous descended from reptiles as a side branch from the line of mammals to the advent of marsupial and placental species. The structure of the skeleton of the limbs, skull, circulatory system, sensory organs of oviparous and reptiles is similar. The fossilized remains of the first animals were found in the layers mesozoic era Jurassic or late Cretaceous. Initially, oviparous appeared in Australia, and later they spread to South America and Antarctica. But so far, monotremes have survived only in Australia and on nearby islands (Tasmania, New Guinea).

The oviparous order is divided into two families (platypuses and echidnas), including six species. Oviparous animals of small size (30-70 cm). The physique is dense, the limbs are plantigrade, adapted for digging or swimming. Just like reptiles, primitive animals do not have a placenta. Mammary glands in oviparous mammals lack nipples. And numerous small ducts open right on the animal's stomach in special paired glandular fields. The cubs simply lick the milk from these areas on the mother's skin. The intestines and urogenital sinus in ovipositors flow into the cloaca. The brain of the first animals is arranged quite simply. The cerebral cortex has no convolutions. First animals are considered warm-blooded animals. But despite the presence hairline, the body temperature of oviparous is relatively low, and can vary significantly (from 25 to 35 degrees) depending on fluctuations in ambient temperature.

Echidnas (2 species) and proechidnas (3 species) are terrestrial burrowing animals that live in burrows. They feed on invertebrates, which are mined from the soil, from under the rocks. On the limbs of the echidna there are long claws to dig the ground. The body is covered with hard needles (modified hair). The female usually lays a single egg, which she incubates in a skin pouch on the ventral side until it matures.

Unlike the echidna, the platypus leads a semi-aquatic lifestyle. These animals are covered with thick hard hair, which practically does not get wet in the water. The swimming membrane on the limbs promotes rapid swimming. The presence of horny covers on the jaws, which resemble the beak of anseriformes, is characteristic. This is where the name of the class comes from. The platypus feeds on invertebrates by filtering the water with its beak. Platypuses nest in burrows where they lay and incubate one or two eggs. It is believed that echidnas are secondarily terrestrial mammals, separated from the ancient aquatic animals - platypuses.

Oviparous - belong to the class of mammals, a subclass of cloacae. Among all known vertebrates, monotremes are the most primitive. The squad got its name due to the presence of a special characteristic among the representatives. Oviparous have not yet adapted to live birth and lay eggs to reproduce offspring, and after the babies are born, they feed them with milk.

Biologists believe that monotremes came from reptiles, as an offshoot of a group of mammals, even before the birth of marsupials and placental animals.

Platypus - a representative of oviparous

The structure of the skeleton of the limbs, head, organs circulatory system, the breath of the first animals and reptiles is similar. In the fossils of the Mesozoic era, the remains of oviparous were found. Monotremes then inhabited the territory of Australia, and later occupied the South American expanses and Antarctica.

To date, the first animals can only be found in Australia and the islands located nearby.

Origin and diversity of mammals. Oviparous and real animals.

The ancestors of mammals are reptiles of the Paleozoic. This fact confirms the similarity in the structure of reptiles and mammals, especially at the stages of embryogenesis.

In the Permian period, a group of theriodonts, the ancestors of modern mammals, was formed. Their teeth were placed in the recesses of the jaw. Most animals possessed a bony palate.

However, the environmental conditions that formed during the Mesozoic era contributed to the development of reptiles and they became the dominant group of animals. But the climate of the Mesozoic soon changed dramatically and the reptiles failed to adapt to the new conditions, and mammals occupied the main niche of the animal world.

The mammal class is divided into 2 subclasses:

Subclass First Beasts or Single Pass;
subclass Real animals.

Real animals and monotremes are united by a number of features: a hairy or spiny outer cover, mammary glands, and a hard palate. Also, the first animals have common characteristics with reptiles and birds: the presence of a cloaca, laying eggs, and a similar skeletal structure.

Detachment Single pass - general characteristics

Echidna - a representative of monotremes

Oviparous - animals of small size with a flattened body from top to bottom, short limbs with large claws and a leathery beak. They have small eyes and a short tail. In oviparous, the external auricle is not developed.

Only representatives of the platypus family have teeth and they look like flat plates equipped with protrusions along the edge. The stomach is only for storing food; the intestines are responsible for digesting food. The salivary glands are very developed, large, the stomach passes into the caecum, which, together with the urogenital sinus, flows into the cloaca.

The first animals do not have a real uterus and placenta. Reproduction by laying eggs, there is little yolk in them, and the shell includes keratin. The mammary glands have many ducts that open on the ventral side in special glandular fields, since there are no nipples in monotremes.

Body temperature can vary: it does not rise above 36 ° C, but with a significant cooling it can drop to 25 ° C. Echidnas and platypuses do not make sounds, as they lack vocal cords. The life expectancy of echidnas is about 30 years, platypuses - about 10. They inhabit forests, steppes with shrubs and even occur in mountainous areas (at an altitude of up to 2500m.).

Representatives of oviparous have poisonous glands. On the hind limbs there is a bone spur through which a poisonous secret flows. The poison is potent, in many animals it provokes disruption of the functioning of vital organs, it is also dangerous for humans - it causes severe pain and extensive swelling.

Trapping and hunting for representatives of the detachment is prohibited, as they are listed in the Red Book due to the threat of extinction.

Platypus and Echidna

The platypus and echidna are oviparous, mammals, the only representatives of the order.

A small animal about 30-40 cm long (body), tail up to 15 cm, weighing 2 kg. Males are always larger than females. It lives near water bodies.

Five-fingered limbs are well suited for digging the ground, on the coast, platypuses dig holes for themselves about 10 meters in length, equipping them for later life (one entrance is underwater, the other is a couple of meters above the water level). The head is equipped with a beak, like a duck (hence the name of the animal).

Platypuses are in the water for 10 hours, where they get food: aquatic vegetation, worms, crustaceans and mollusks. Swimming membranes between the toes on the front paws (almost not developed on the hind legs) allow the platypus to swim well and quickly. When the animal dives under water, the eyes and ear openings close, but the platypus can navigate the water through sensitive nerve endings in its beak. He even has electroreception.

Platypuses bear cubs for a month and give offspring from one to three eggs. First, the female incubates them for 10 days, and then feeds them with milk for about 4 months, and at the age of 5 months, the platypuses, already capable of independent life, leave the hole.

Oviparous mammals also include echidna, found in forests, looks like a hedgehog. To obtain food, the echidna digs the ground with powerful claws and, with the help of a long and sticky tongue, receives the necessary food (termites, ants).

The body is covered with spines that protect it from predators; when danger approaches, the echidna curls up into a ball and becomes inaccessible to enemies. The female weighs approximately 5kg and lays an egg weighing 2g. Echidna hides the egg in a bag formed by a leathery fold in the abdominal region and wears it, heating it with its warmth, for two weeks. A newborn cub is born with a mass of 0.5 g, continues to live in the mother's pouch, where it is fed with milk.

After 1.5 months, the echidna leaves the pouch, but continues to live in a hole under the protection of its mother. After 7-8 months, the baby is already able to find food on his own and differs from adult only in size.

Question 1. Why can it be argued that oviparous, marsupials and insectivores are very ancient and most primitive mammals?

Oviparous are ancient mammals that have a number of primitive features characteristic of reptiles, from which they originate. Their body temperature is unstable (from 22 to 25 ° C for a platypus or 30 ° C for an echidna). They reproduce by laying eggs that they incubate (platypus) or hatch in a leathery pouch on their belly (echidna). The eggs are covered with a keratinized shell resembling that of reptile eggs.

Marsupials already bear cubs inside the body, but for a very short time (which is associated with a still primitive device compared to higher mammals, their reproductive systems). Cubs are born underdeveloped. Their further development takes place in the bag.

Insectivores are also considered ancient and rather primitive mammals, as they are able to hibernate ( salient feature cold-blooded reptiles), are rather small in size, their dental apparatus consists of a large number of teeth (for example, hedgehogs have 36), which have the same structure, and other primitive features.

Question 2. Why are oviparous and marsupials preserved mainly in Australia and adjacent islands?

Australia lost contact with other continents when more progressive groups of mammals did not yet appear there. Therefore, the marsupials remained the highest and prosperous group of the class of mammals on this continent, which somewhat pushed back the oviparous, but continued to co-exist with them.

Question 3. Why is it necessary to protect rare oviparous, marsupials, insectivores and bats?

These orders of mammals are very ancient and have many primitive features that negatively affect the survival of these animals in competitive habitats. Therefore, a person must take care of their protection.

31. Class Mammals, or Animals. Orders: Monotremes, Marsupials, Insectivores, Bats

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Everyone knows about mammals from the school curriculum. Did you know that an egg-laying mammal is a separate species of animal that lives only on the territory of one continent - Australia? Let's take a look at this special kind animals in more detail.

Discovery of oviparous

For a long time the existence of unique animals of their kind that breed by incubating eggs was not known. The first message about these creatures came to Europe in the 17th century. At this time, the skin of a marvelous creature with a beak, covered with wool, was brought from Australia. It was a platypus. The alcoholized copy was brought only 100 years later. The fact is that platypuses practically do not tolerate captivity. It is very difficult for them to create conditions during transportation. Therefore, observations of them were carried out only in the natural environment.

Following the discovery of the platypus, news came of another creature with a beak, only now it is covered with needles. This is an echidna. For a long time, scientists argued about which class to classify these two creatures. And they came to the conclusion that the platypus and echidna should be placed in a separate detachment. This is how the detachment One-pass, or cloacal, appeared.

Amazing platypus

A unique creature of its kind, leading night image life. The platypus is distributed only in Australia and Tasmania. The animal lives half in the water, that is, it builds holes with access to the water and to land, and also feeds in the water. A creature of small size - up to 40 centimeters. Has, as already mentioned, duck nose yet soft and leathery. Only in appearance it is very similar to a duck. There is also a 15 cm tail, similar to a beaver's tail. The paws are webbed, but at the same time they do not prevent the platypus from walking on the ground and digging holes perfectly.

Since the genitourinary system and intestines exit the animal into one hole, or cloaca, it was assigned to a separate species - cloacae. It is interesting that the platypus, unlike ordinary mammals, swims with the help of its front paws, and the hind legs serve as a rudder. Among other things, let's pay attention to how it reproduces.

Platypus breeding

Interesting fact: before breeding, the animals hibernate for 10 days, and only after that the mating season begins. It lasts almost the entire autumn, from August to November. Platypuses mate in the water, and after a two-week period, the female lays an average of 2 eggs. Males do not participate in the later life of offspring.

The female builds a special hole (up to 15 meters long) with a nest at the end of the tunnel. Lines it with raw leaves and stems to maintain a certain humidity so that the eggs do not dry out. Interestingly, for protection, she also builds a barrier wall 15 centimeters thick.

Only after preparatory work she lays her eggs in the nest. The platypus incubates eggs by curling up around them. After 10 days, babies are born, naked and blind, like all mammals. The female feeds the babies with milk, which flows from the pores directly through the fur into the grooves and accumulates in them. Babies lick milk and thus feed. Feeding lasts about 4 months, and then the kids learn to get food on their own. It was the method of reproduction that gave this species the name "egg-laying mammal".

extraordinary echidna

Echidna is also an egg-laying mammal. This is a land creature of small size, reaching up to 40 centimeters. It also lives in Australia, Tasmania and the islands of New Guinea. In appearance, this animal looks like a hedgehog, but with a long narrow beak, not exceeding 7.5 centimeters. Interestingly, the echidna has no teeth, and it catches prey with the help of a long sticky tongue.

The body of the echidna is covered on the back and sides with spines, which were formed from coarse wool. Wool covers the belly, head and paws is fully adapted for a certain type of food. It feeds on termites, ants and small insects. She leads a daytime lifestyle, although it is not easy to find her. The fact is that she has a low body temperature, up to 32 degrees, and this does not allow her to endure a decrease or increase in ambient temperature. In this case, the echidna becomes lethargic and rests under trees or hibernates.

Echidna breeding method

Echidna is an egg-laying mammal, but it was only possible to prove this at the beginning of the 21st century. The mating games of echidnas are interesting. There are up to 10 males per female. When she decides she's ready to mate, she lays down on her back. At the same time, males dig a trench around it and begin to fight for supremacy. The one who turned out to be stronger copulates with the female.

Pregnancy lasts up to 28 days and ends with the appearance of one egg, which the female moves to the brood fold. It is still not clear how the female moves the egg into the bag, but after 10 days the baby appears. The cub comes into the world incompletely formed.

Young

The birth of such a baby is very similar to the birth of young marsupials. They also pass their final development in the mother's pouch and leave her as adults, ready for independent life. An interesting fact: marsupials are also common only in Australia.

How does the baby echidna appear? He is blind and naked, his hind limbs are not developed, his eyes are covered with a leathery film, and fingers are formed only on the front paws. It takes a baby 4 hours to get to milk. Interestingly, in the mother's pouch there are 100-150 pores that secrete milk through special hairs. The kid just needs to get to them.

The baby is in the mother's pouch for about 2 months. He gains weight very quickly due to nutritious milk. Echidna's milk is the only one that has pink color due to the large amount of iron in it. Feeding continues up to 6.5 months. After the young growth learns to get food on its own.

prochidna

Prochidna is another egg-laying mammal. This creature is much larger than its counterparts. The habitat is the north of New Guinea and the islands of Indonesia. The size of the prochidna is impressive, up to 80 centimeters, while its weight is up to 10 kilograms. It looks like a echidna, but the beak is much longer and the needles are much shorter. She lives in mountainous areas and feeds mostly on worms. The structure of the oral cavity of the prochidna is interesting: her tongue has teeth, and with the help of it she is able not only to chew food, but, as has been noted, even to turn over stones.

This species is the least studied, as it lives in the mountains. But at the same time, it was noticed that the animal does not lose mobility in any weather, does not hibernate and knows how to regulate its own body temperature. Reproduction of egg-laying mammals, to which the prochidna belongs, occurs in the same way as in the other two species. She hatches only one egg, which is placed in a bag on her stomach, and feeds the cub with milk.

Comparative characteristics

Now let's look at the types of mammals that live on the Australian continent. So, what is the difference between oviparous, marsupial and placental mammals? To begin with, it must be said that all mammals feed their offspring with milk. But the birth of babies has huge differences.

Oviparous animals have one thing in common. They lay eggs like birds and incubate them for a certain amount of time. After the birth of the offspring, the mother's body produces milk, which the babies eat. It should be noted that the cubs do not suck milk, but lick it from the grooves on the female's stomach. The absence of nipples distinguishes oviparous from other mammals.

They have a pouch, hence their name. The pouch is located on the abdomen of females. A newborn baby, having reached it, finds a nipple and, as it were, hangs on it. The fact is that babies are born unformed and spend several more months in their mother's pouch until they are fully developed. It must be said that oviparous and marsupial mammals are similar in this respect. Echidna and prochidna babies are also born underdeveloped and placed in a kind of brood fold.

What about placental mammals? Their babies are born fully formed due to the presence of a placenta in the uterus. Due to it, the process of nutrition and development of the cub takes place. The majority of animals are placental.

Such a variety of species exists on one continent.

Predatory marsupials are considered to be the most primitive in the detachment. In most species, the pouch is not well developed; for example, it appears exclusively during the breeding season in the marsupial marten, and has the appearance of a normal skin fold in the Tasmanian devil. As a rule, marsupial predators live alone, in steppes, forests, deserts and even mountains up to 4000 meters high. As the name implies, they feed on insects or the meat of other animals. A significant part of predatory marsupials prefer to walk on the ground, however, some of them have done well in moving through trees.

The names of many marsupials are identical to the names of their placental relatives living outside of Australia. The reason for this is in the rather strong similarity of both the appearance of these animals and the way of life. So, the marsupial marten moves remarkably through the trees - just like its American and European namesakes. Both ordinary and marsupial jerboas live in deserts and jump on well-developed hind legs. Marsupial mice are also extremely similar to ordinary mice; but unlike rodents, marsupial jerboas and mice eat insects and small animals, and not grass at all.
Placental and marsupial animals are the result of different paths of evolution and, despite the rather strong external similarity, they have very strong differences.

The order of marsupials consists of more than 250 species of animals, which are very different from each other both in appearance and in lifestyle. They are united by the fact that their cubs are born underdeveloped, and the mother carries them for some time in a special brood bag. The order of marsupials also includes herbivores - koalas, kangaroos; and insectivorous nambats and marsupial moles, and predatory Tasmanian devils.

Also, like oviparous, marsupials are not placental ancestors. Marsupials are much more organized than oviparous ones, they give birth to live, albeit underdeveloped, cubs, and do not lay eggs. The body temperature of oviparous is lower than that of marsupials, but the latter still do not have a constant body temperature akin to placental animals.

Oviparous, like other mammals, are descended from reptiles, but they separated from them quite early, forming their own branch of development. This subclass is represented by a single order called monotremes, which in turn combines two families: echidnas and platypuses. These are the most primitive of all living mammals, which do not even have nipples - the cubs lick the milk that is secreted from the tubular glands directly from the mother's coat. These unique animals also have a number of other features - they are quite poisonous, they have a special cesspool, into which both the bladder and intestines open. In addition, platypuses and echidnas are voiceless and toothless. These original animals live in forests, steppes with bushes and mountains up to 2500 m high.

Everyone knows about mammals from the school curriculum. Did you know that an egg-laying mammal is a separate species of animal that lives only on the territory of one continent - Australia? Let's look at this special kind of animal in more detail.

Discovery of oviparous

For a long time, the existence of animals unique in their kind that breed by incubating eggs was not known. The first message about these creatures came to Europe in the 17th century. At this time, the skin of a marvelous creature with a beak, covered with wool, was brought from Australia. It was a platypus. The alcoholized copy was brought only 100 years later. The fact is that platypuses practically do not tolerate captivity. It is very difficult for them to create conditions during transportation. Therefore, observations of them were carried out only in the natural environment.

Amazing platypus

A unique creature of its kind, leading a nocturnal lifestyle. The platypus is distributed only in Australia and Tasmania. The animal lives half in the water, that is, it builds holes with access to the water and to land, and also feeds in the water. A creature of small size - up to 40 centimeters. It has, as already mentioned, a duck nose, but at the same time it is soft and covered with skin. Only in appearance it is very similar to a duck. There is also a 15 cm tail, similar to a beaver's tail. The paws are webbed, but at the same time they do not prevent the platypus from walking on the ground and digging holes perfectly.

Platypus breeding

An interesting fact: before breeding, animals hibernate for 10 days, and only after that the mating season begins. It lasts almost the entire autumn, from August to November. Platypuses mate in the water, and after a two-week period, the female lays an average of 2 eggs. Males do not participate in the later life of offspring.

Only after the preparatory work, she lays eggs in the nest. The platypus incubates eggs by curling up around them. After 10 days, babies are born, naked and blind, like all mammals. The female feeds the babies with milk, which flows from the pores directly through the fur into the grooves and accumulates in them. Babies lick milk and thus feed. Feeding lasts about 4 months, and then the kids learn to get food on their own. It was the method of reproduction that gave this species the name "egg-laying mammal".

extraordinary echidna

Echidna breeding method

Young

The baby is in the mother's pouch for about 2 months. He gains weight very quickly due to nutritious milk. Echidna's milk is the only one that has a pink color due to the large amount of iron in it. Feeding continues up to 6.5 months. After the young growth learns to get food on its own.

prochidna

Comparative characteristics

Such a variety of species exists on one continent.

lesson type - combined

Methods: partially exploratory, problem presentation, reproductive, explanatory-illustrative.

Target: mastering the skills to apply biological knowledge in practical activities, to use information about modern achievements in the field of biology; work with biological devices, tools, reference books; conduct observations of biological objects;

Tasks:

Educational: the formation of a cognitive culture, mastered in the process of educational activities, and aesthetic culture as an ability to have an emotional and valuable attitude towards objects of wildlife.

Developing: development of cognitive motives aimed at obtaining new knowledge about wildlife; cognitive qualities of the individual associated with the assimilation of the foundations of scientific knowledge, mastering the methods of studying nature, the formation of intellectual skills;

Educational: orientation in the system of moral norms and values: recognition of the high value of life in all its manifestations, the health of one's own and other people; ecological consciousness; education of love for nature;

Personal: understanding of responsibility for the quality of acquired knowledge; understanding the value of an adequate assessment of one's own achievements and capabilities;

cognitive: the ability to analyze and evaluate the impact of environmental factors, risk factors on health, the consequences of human activities in ecosystems, the impact of one's own actions on living organisms and ecosystems; focus on continuous development and self-development; the ability to work with various sources of information, convert it from one form to another, compare and analyze information, draw conclusions, prepare messages and presentations.

Regulatory: the ability to organize independently the execution of tasks, evaluate the correctness of the work, reflection of their activities.

Communicative: the formation of communicative competence in communication and cooperation with peers, understanding the characteristics of gender socialization in adolescence, socially useful, educational, research, creative and other activities.

Technologies : Health saving, problematic, developmental education, group activities

Activities (elements of content, control)

Formation of students' activity abilities and abilities to structure and systematize the studied subject content: collective work - study of the text and illustrative material, compilation of the table "Systematic groups of multicellular organisms" with the advisory assistance of expert students, followed by self-examination; pair or group performance of laboratory work with the advisory assistance of a teacher, followed by mutual verification; independent work on the material studied.

Planned results

subject

understand the meaning of biological terms;

describe the features of the structure and the main processes of life of animals of different systematic groups; compare the structural features of protozoa and multicellular animals;

recognize organs and systems of organs of animals of different systematic groups; compare and explain the reasons for similarities and differences;

to establish the relationship between the features of the structure of organs and the functions that they perform;

give examples of animals of different systematic groups;

to distinguish in drawings, tables and natural objects the main systematic groups of protozoa and multicellular animals;

characterize the direction of evolution of the animal world; give evidence of the evolution of the animal world;

Metasubject UUD

Cognitive:

to Work with different sources information, analyze and evaluate information, convert it from one form to another;

draw up abstracts, various types of plans (simple, complex, etc.), structure educational material, give definitions of concepts;

make observations, set up elementary experiments and explain the results obtained;

compare and classify, independently choosing criteria for the specified logical operations;

build logical reasoning, including the establishment of cause-and-effect relationships;

create schematic models highlighting the essential characteristics of objects;

identify possible sources of necessary information, search for information, analyze and evaluate its reliability;

Regulatory:

organize and plan their educational activities - determine the purpose of the work, the sequence of actions, set tasks, predict the results of work;

independently put forward options for solving the tasks set, foresee the final results of the work, choose the means to achieve the goal;

work according to a plan, compare your actions with the goal and, if necessary, correct mistakes yourself;

own the basics of self-control and self-assessment for making decisions and making a conscious choice in educational and cognitive and educational and practical activities;

Communicative:

listen and engage in dialogue, participate in a collective discussion of problems;

integrate and build productive interaction with peers and adults;

adequately use speech means for discussion and argumentation of one's position, compare different points of view, argue one's point of view, defend one's position.

Personal UUD

Formation and development of cognitive interest in the study of biology and the history of the development of knowledge about nature

Receptions: analysis, synthesis, conclusion, transfer of information from one type to another, generalization.

Basic concepts

Diversity of mammals, division into orders; general characteristics of detachments, the relationship between lifestyle and external structure. The importance of mammals in nature and human life, the protection of mammals.

During the classes

Knowledge update ( concentration of attention when learning new material)

Choose the correct answer in your opinion.

1. What is the common feature of all vertebrates?

the presence of a spine

habitation air-ground environment

multicellularity

2. How is the brain of vertebrates protected?

sink

shell

skull

3. How many types of vertebrates are there?

4. What is the special respiratory organ in fish?

leather

5. What are the respiratory organs of amphibians?

lungs and skin

6. What vertebrates first appeared on earth?

reptiles

Amphibians

7. How do reptiles reproduce?

give birth to cubs

spawn

lay eggs

8. What is the distinguishing feature of birds?

inhabit the air-ground environment

body covered with feathers

only they lay eggs

9. Which group of vertebrates is the most organized on earth?

mammals

10. How do mammals differ from other vertebrates?

feed babies with milk

breathe with lungs

warm-blooded

Learning new material(teacher's story with elements of conversation)

Monotreme mammals: general characteristics, features and origin .

Amazing organisms that lay eggs and feed their young with milk are monotreme mammals. In our article, we will consider the systematics and features of the life of this class of animals. general characteristics class Mammals.

The class Mammals, or Beasts, includes the most highly organized representatives of the Chordata type. Their characteristic feature is the presence of mammary glands in females, the secret of which they feed their cubs. The external features of their structure include the location of the limbs under the body, the presence of hairline and various derivatives of the skin: nails, claws, horns, hooves

Most mammals are also characterized by the presence of seven cervical vertebrae, a diaphragm, exclusively atmospheric breathing, a four-chambered heart, and the presence of a cortex in the brain.

Subclass of the First Beasts. This subclass of Mammals includes a single order called Monotremes.. They got this name due to the presence of a cloaca. This is one opening into which the ducts of the reproductive, digestive and urinary systems open. All these animals reproduce by laying eggs. How can animals with such features be representatives of the class Mammals? The answer is simple. They have mammary glands that open directly to the surface of the body, since monotremes do not have nipples. Newborns lick it off their skin. The primitive features of the structure, inherited from reptiles, are the absence of the cortex and convolutions in the brain, as well as the teeth, the function of which is performed by the horny plates. In addition, their body temperature fluctuates within certain limits depending on its changes in the environment from +25 to +36 degrees. Such warm-bloodedness can be considered quite relative. The egg-laying of monotremes cannot be called real. It is often referred to as an incomplete live birth. The fact is that the eggs do not immediately leave the genital ducts of the animal, but linger there for a certain time. During this period, the embryo develops already by half. After leaving the cloaca, monotremes incubate eggs or carry them in a special leathery bag.

Mammals are monotremes: fossil species Paleontological finds of monotremes are rather few. They belong to the Miocene, Upper and Middle Pleistocene epochs. The oldest fossil of these animals is 123 million years old. Scientists have come to the conclusion that the fossil remains practically do not differ from modern species. Monotreme mammals, whose representatives are endemic, live only in Australia and on the adjacent islands: New Zealand, Guinea, Tasmania.

Echidnas First Beasts- represented by only a few species. The echidna is a monotreme mammal. Due to the fact that its body is covered with long hard needles, outwardly this animal resembles a hedgehog. In case of danger, the echidna curls up into a ball, thus protecting itself from enemies. The body of the animal is about 80 cm long, its front part is elongated and forms a small proboscis. Echidnas are nocturnal predators. During the day they rest, and at dusk they go hunting. Therefore, their eyesight is poorly developed, which is compensated by an excellent sense of smell. Echidnas have burrowing limbs. With the help of them and a sticky tongue, they extract invertebrates in the soil. Females usually lay a single egg, which they hatch in a skin fold.

prochidni These are also representatives of the class Mammals, detachment Monotremes. From their closest relatives, echidnas, they differ in a more elongated proboscis, as well as the presence of three fingers instead of five. Their needles are shorter, most of them hidden in the wool. But the limbs, on the contrary, are longer. Prochidnas are endemic to the island of New Guinea. The basis of the diet of these monotremes is made up of earthworms and beetles. Like echidnas, they catch them with a sticky long tongue, on which numerous small hooks are located.

Platypus. This animal seems to have borrowed its body parts from other representatives of this kingdom. The platypus is adapted to a semi-aquatic lifestyle. Its body is covered with dense thick hair. It is very rigid and practically impermeable. This animal has a duck's beak and a beaver's tail. The fingers have swimming membranes and sharp claws. In males, horny spurs develop on the hind limbs, into which ducts of poisonous glands open. For a person, their secret is not fatal, but it can cause severe swelling, first of a certain area, and then of the entire limb.

No wonder the platypus is sometimes called "God's joke". According to legend, at the end of the creation of the world, the Creator had unused parts from various animals. From them he created the platypus. It is not just an Australian endemic. This is one of the symbols of the continent, the image of which is found even on the coins of this state. This mammal hunts well in the water. But it builds nests and burrows exclusively on land. He swims at a considerable speed, and grabs his prey almost at lightning speed - within 30 seconds. Therefore, aquatic animals have very few chances to hide from a predator. Thanks to valuable fur, the number of platypus has been significantly reduced. At the moment, hunting for them is prohibited.

V.V. Latyushin, E. A. Lamekhova. Biology. 7th grade. Workbook for the textbook by V.V. Latyushina, V.A. Shapkin "Biology. Animals. 7th grade". - M.: Bustard.

Zakharova N. Yu. Control and verification work in biology: to the textbook by V. V. Latyushin and V. A. Shapkin “Biology. Animals. Grade 7 "/ N. Yu. Zakharova. 2nd ed. - M.: Publishing house "Exam"

Presentation Hosting

General characteristics of the detachment monotreme oviparous (Monotremata). Description of the history of the discovery and appearance of the platypus. Features of the organ system and animal metabolism, nutrition and reproduction. Study of the echididae family (Tachyglossidae).

monotreme monotremata platypus echidna

Introduction

Conclusion

List of sources

Introduction

First animals (lat. Prototheria) - a subclass of primitive mammals that combine the features of mammals and reptiles. In this subclass, the only infraclass cloacae is distinguished, which is opposed to the placental and marsupial infraclasses from the subclass Animals. Modern views the first animals form only one detachment - monotremes.

First animals are a small group of species distributed in the Australian region. According to a number of features, the subclass of the first beasts and the infraclass of cloacae are considered the most archaic and primitive among the infraclasses of mammals.

Unlike other mammals, primitive animals reproduce by laying eggs, but more than half of the developmental period of the embryo takes place in the female genital tract. Thus, the laid eggs contain an already sufficiently developed embryo and one can speak not only of oviposition, but also of an incomplete live birth.

In females, instead of nipples, there are areas of the mammary glands from which the offspring licks milk. There are no fleshy lips (effective for sucking). In addition, they, like birds and reptiles, have only one passage.

There is a coat, but homoiothermia (maintaining body temperature at a constant level) is incomplete, body temperature varies between 22-37 ° C.

Monotremes (lat. Monotremata), or oviparous (also sometimes cloacal) - the only modern detachment of the infraclass cloacal.

The name is due to the fact that the intestines and urogenital sinus flow into the cloaca (similarly - in amphibians, reptiles and birds), and do not go out in separate passages.

According to paleontologist K.Yu. Eskov, the fact that the appearance of the first dinosaurs and other archosaurs at one time was marked by a mass (though not complete) extinction of therapsids, the highest forms of which were very close to monotreme mammals in their organization and, according to some assumptions, may have had dairy glands and wool. Nowadays, all types of cesspools live in Australia, New Guinea and Tasmania. Most of the species in this subclass are extinct. Oviparous monotremes are known from Cretaceous fossils and cenozoic era, are currently represented by five species of cloacae in two families (platypuses and echidnas) and one single order (single passers).

According to paleontologist K.Yu. Yeskov, the fact that the appearance of archosaurs (a group of reptiles to which dinosaurs belong) coincided with the massive, but not complete, extinction of therapsids, the highest forms of which were very close to monotreme mammals in their organization, and, according to some assumptions, may , had mammary glands and wool.

Fossil remains of representatives of the monotreme order are known only from Australia. The most ancient finds date back to the Pleistocene and do not differ significantly from modern forms. There are two possible theories explaining the origin of the monotremes. According to one of them, monotremes developed independently and in complete isolation from other mammals, starting from the early period of the emergence of mammals, possibly from their reptile-like ancestors. According to another theory, a group of monotremes separated from the ancient marsupials and acquired its features due to specialization, retaining a number of features characteristic of marsupials, underwent degeneration and, possibly, to a certain extent, returned to the forms of their ancestors (reversion). The first of the theories seems more plausible. Significant differences in morphology between echidnas and platypus emerged in a relatively short period of time - starting from the upper Eocene.

1. Characteristics of the detachment monotreme oviparous (Monotremata)

Monotremes are a small group of the most primitive living mammals. Females lay 1 or 2, rarely 3 eggs (a large amount of yolk is characteristic, the main mass of which is located at one of the poles of the egg). Hatching of young from eggs occurs with the help of a special egg "tooth" formed on a small ovoid bone. Young animals hatched from eggs are fed with milk. During the breeding season, a brood pouch can form on the belly of the female, in which the laid egg matures.

The sizes of single passers are small: the body length is 30-80 cm. They have a heavy build, short plantigrade limbs, specialized for digging or swimming. The head is small, with an elongated "beak", covered with a cornea. The eyes are small, the external auricles are barely visible or absent altogether. The body is covered with coarse hair and spines or soft thick fur. Vibrissae are absent. In the calcaneal region of the hind limbs there is a horny spur, which is especially strongly developed in males. The spur is pierced by a canal - a special duct associated with the so-called shin gland, the function of which is not entirely clear. Apparently, it has some significance in reproduction. It is also suggested (unconvincingly) that the secret of the shin gland is poisonous and the spur serves as a weapon of defense. Mammary glands are tubular. There are no true nipples, and the excretory ducts of the glands open separately from each other on two glandular fields of the female's belly.

The average body temperature is lower than that of other mammals (platypus on average 32.2°C, echidnas - 31.1°C). Body temperature can vary between 25° and 36°C. The bladder, into which the ureters flow, opens into the cloaca. The oviducts enter the cloaca separately (there is no vagina or uterus). The testicles are located in the abdominal cavity. The penis is fixed on the ventral wall of the cloaca and serves only to remove sperm.

The skull is flattened. The front section is elongated. The cartilaginous skull and the ratio of bones in the roof of the skull are to a certain extent similar to reptiles. Skull roof with anterofrontal and posterior frontal bones; the presence of these bones in the roof of the skull is the only case among mammals. The tympanic bone has the form of a flattened ring that does not fuse with the skull. The bony auditory meatus is absent. The malleus and incus in the middle ear fuse together and have a long process (processus folii). The lacrimal bone is absent. The zygomatic bone is greatly reduced in size or absent. Only monotremes among all mammals have a pre-vomer (praevomer). The premaxilla has a process similar to that of reptiles (processus ascendus); this is the only case among mammals. The articular fossa for the lower jaw is formed by the squamous bone. The lower jaw has only two weakly expressed processes - coronal and angular.

Teeth are present only in young animals or are completely absent. The shape of the teeth to a certain extent resembles the shape of the teeth of the Mesozoic Microleptidae. The skeleton of the forelimb girdle is characterized by a coracoid (coracoideum) and a procoracoid (procoracoi-deum) that are unique among mammals. In the presence of these bones, the similarity of the shoulder girdle of monotremes with the shoulder girdle of reptiles is manifested. Sternum with large breastplate (episternum). The clavicle is very large. Blade without comb. The humerus is short and powerful. The ulna is much longer than the radius. The wrist is short and wide. The fore and hind limbs are five-fingered. Fingers end in claws. In the pelvic girdle of males and females there are so-called marsupial bones (ossa marsupialia), which are attached to the pubic bones. Their function is unclear. The symphysis of the pelvic bones is greatly elongated. The proximal tibia with a large flattened process (peronecranon).

The spinal column consists of 7 cervical, 15-17 thoracic, 2-3 lumbar, 2 sacral, 0-2 coccygeal and 11-20 caudal vertebrae (Fig. 1).

Rice. 1 Platypus Skeleton

The whole body is covered with a highly developed layer of subcutaneous muscles (rap-niculus carnosus). Only in the region of the head, tail, limbs, cloaca and mammary glands, the subcutaneous muscles are not developed. The lower jaw has a musculus detrahens attached to it. inside; this is the only case in mammals. The larynx is primitive and does not have vocal cords.

The brain is generally large, has mammalian features, but retains a number of reptilian features. Large hemispheres with numerous, sometimes few furrows. The structure of the cerebral cortex is primitive. Olfactory lobes are very large. The cerebellum is only partially covered by the cerebral hemispheres. The corpus callosum (corpus callosum) is absent; it is presented only as commissura dorsalis. The sense of smell is highly developed. Jacobson's organ is well developed. The structure of the hearing organs is primitive. Eyes with or without nictitating membrane. The sclera has cartilage. The vascular membrane is thin. Musculus dilatatorius and Musculus ciliaris are absent. The retina has no blood vessels.

The brain of platypuses is devoid of furrows and convolutions and, according to the plan of functional organization, resembles the brain of an echidna. Motor and sensory projections do not overlap all the way, while visual and auditory projections in the occipital pole of the cortex overlap with each other and partially with the somatic projection. Such an organization of the neocortex of the platypus, approaching the cortical plate of reptiles, allows it to be considered as even more primitive in comparison with echidnas.

Consequently, the brain of monotremes still retains many features of the brain of reptiles and at the same time differs from the latter in the general plan of structure characteristic of mammals.

The salivary glands are small or large. The stomach is simple, without digestive glands, which is the only case in mammals. Its function appears to be food storage, similar to that of the crop of birds. The digestive tract is divided into small, large intestines, there is a caecum. The intestines open into the cloaca, which is present in both sexes. The liver is multilobed, with a gallbladder. The heart of monotremes has a structure characteristic of mammals, however, it also retains some reptile-like features, which consist, for example, in the fact that the right atrioventricular opening is equipped with only one valve.

Monotremes live in forests of various types, in steppes overgrown with shrubs, on plains and in mountains, rising up to 2.5 thousand meters above sea level. They lead a semi-aquatic (platypus) or terrestrial (echidna) lifestyle; twilight and nocturnal activity; feed on insects and aquatic invertebrates. Life expectancy up to 30 years. Distributed in Australia, Tasmania, New Guinea.

Modern monotremes in their characteristics, compared with all other modern mammals, are closest to reptiles. However, they are not the ancestors of marsupials or placental mammals, but represent a separate specialized branch in the evolution of mammals. Fossil remains of representatives of the monotreme order are known only from Australia. The most ancient finds date back to the Pleistocene and do not differ significantly from modern forms. There are two possible theories explaining the origin of the monotremes. According to one of them, monotremes developed independently and in complete isolation from other mammals, starting from the early period of the emergence of mammals, possibly from their reptile-like ancestors. According to another theory, a group of monotremes separated from the ancient marsupials and acquired its features due to specialization, retaining a number of features characteristic of marsupials, underwent degeneration and, possibly, to a certain extent, returned to the forms of their ancestors (reversion). The first of the theories seems more plausible. Significant differences in morphology between echidnas and platypus emerged in a relatively short period of time - starting from the upper Eocene. Echidnas are secondarily terrestrial mammals that diverged from ancient aquatic platypuses.

2. Platypus family (Ornithorhynchidae)

The platypus was discovered in the 18th century. during the colonization of New South Wales. A list of the animals of this colony published in 1802 mentions "an amphibious animal from the genus of moles. Its most curious quality is that it has, instead of an ordinary mouth, a duck's beak, which allows it to feed in the mud, like birds."

The first skin of a platypus was sent to England in 1797. Its appearance gave rise to fierce disputes among the scientific community. At first, the skin was considered the product of some taxidermist who sewed a duck's beak to the skin of an animal that looked like a beaver. This suspicion was dispelled by George Shaw, who studied the package and came to the conclusion that it was not a fake (for this, Shaw even cut the skin in search of stitches). The question arose of which group of animals the platypus belongs to. Already after it received its scientific name, the first animals were brought to England, and it turned out that the female platypus does not have visible mammary glands, but this animal, like birds, has a cloaca. For a quarter of a century, scientists could not decide where to attribute the platypus - to mammals, birds, reptiles, or even to a separate class, until in 1824 the German biologist Meckel discovered that the platypus still has mammary glands and the female feeds her cubs with milk. That the platypus lays eggs was only proven in 1884.

The zoological name for this strange animal was given in 1799 by the English naturalist George Shaw - Platypus anatinus, from other Greek. rlbfet (wide, flat) and rpet (paw) and lat. anatinus, "duck". In 1800, Johann-Friedrich Blumenbach, in order to avoid homonymy with the genus of bark beetles Platypus, changed the generic name to Ornithorhynchus, from other Greek. ?snyt "bird", ?egpt "beak". The natives of Australia knew the platypus by many names, including mallangong, boondaburra and tambreet. Early European settlers called it "platypus" (duckbill), "duck mole" (duckmole) and "water mole" (watermole). Currently in English language the name platypus is used.

Appearance

The body length of the platypus is 30-40 cm, the tail is 10-15 cm, it weighs up to 2 kg. Males are about a third larger than females. The body of the platypus is squat, short-legged; the tail is flattened, similar to the tail of a beaver, but covered with hair, which thins noticeably with age. In the tail of the platypus, like the Tasmanian devil, reserves of fat are deposited. Its fur is thick, soft, usually dark brown on the back and reddish or gray on the belly. The head is round. Anteriorly, the facial section is elongated into a flat beak about 65 mm long and 50 mm wide (Fig. 2). The beak is not hard like in birds, but soft, covered with elastic bare skin, which is stretched over two thin, long, arched bones.

The oral cavity is expanded into cheek pouches, in which food is stored during feeding. At the bottom at the base of the beak, males have a specific gland that produces a secretion with a musky odor. Young platypuses have 8 teeth, but they are fragile and quickly wear out, giving way to keratinized plates.

The paws of the platypus are five-fingered, adapted for both swimming and digging. The swimming membrane on the front paws protrudes in front of the toes, but can be bent in such a way that the claws are exposed outward, turning the swimming limb into a digging one. The webs on the hind legs are much less developed; for swimming, the platypus does not use its hind legs, like other semi-aquatic animals, but its front legs. The hind legs act as a rudder in the water, and the tail serves as a stabilizer. The gait of the platypus on land is more reminiscent of the gait of a reptile - he puts his legs on the sides of the body.

Its nasal openings open on the upper side of the beak. There are no auricles. The eyes and ear openings are located in the grooves on the sides of the head. When the animal dives, the edges of these grooves, like the valves of the nostrils, close, so that neither sight, nor hearing, nor smell can function under water. However, the skin of the beak is rich in nerve endings, and this provides the platypus not only with a highly developed sense of touch, but also with the ability to electrolocate. Electroreceptors in the bill can detect weak electric fields, such as those produced by crustacean musculature, which help the platypus find prey. When looking for it, the platypus continuously moves its head from side to side during spearfishing.

Organ systems

The platypus is the only mammal that has developed electroreception. Electroreceptors have also been found in the echidna, but its use of electroreception is unlikely to play a role. important role in search of prey.

Features of metabolism

The platypus has a remarkably low metabolism compared to other mammals; his normal body temperature is only 32°C. However, at the same time, he perfectly knows how to regulate body temperature. Thus, being in water at 5°C, the platypus can maintain normal body temperature for several hours by increasing the metabolic rate by more than 3 times.

platypus venom

The platypus is one of the few venomous mammals (along with some shrews and flint teeth that have toxic saliva).

Young platypuses of both sexes have rudiments of horn spurs on their hind legs. In females, by the age of one year, they fall off, while in males they continue to grow, reaching 1.2-1.5 cm in length by the time of puberty. Each spur is connected by a duct to the femoral gland, which during the mating season produces a complex "cocktail" of poisons. Males use spurs during courtship fights. Platypus venom can kill a dingo or other small animal. For a person, it is generally not fatal, but it causes very severe pain, and edema develops at the injection site, which gradually spreads to the entire limb. Pain (hyperalgesia) can last for many days or even months.

Other oviparous - echidnas - also have rudimentary spurs on their hind legs, but they are not developed and are not poisonous.

reproductive system

The reproductive system of the male platypus is normal for mammals, except that his testicles are located inside the body, near the kidneys, and there is also a bifurcated (many-headed) penis, common in most primitive mammals of the monotreme order (platypus, echidna) and marsupial order (possum, koala and others).

The reproductive system of the female differs from that of placental animals. Her paired ovaries are similar to those of a bird or reptile; only the left one functions, the right one is underdeveloped and does not produce eggs.

Sex determination

In 2004, scientists at the Australian National University in Canberra discovered that the platypus has 10 sex chromosomes, not two (XY) like most mammals. Accordingly, the combination XXXXXXXXXX gives a female, and XYXYXYXYXY gives a male. All sex chromosomes are connected into a single complex, which behaves as a whole during meiosis. Therefore, in males, spermatozoa are formed that have chains XXXXX and YYYYY. When sperm XXXXX fertilizes an egg, female platypuses are born, if sperm YYYYY is male platypuses. Although the X1 platypus chromosome has 11 genes that are found on all mammalian X chromosomes, and the X5 chromosome has a gene called DMRT1 that is found on the Z chromosome in birds, being a key sex gene in birds, overall genomic studies have shown that five sex The X chromosomes of the platypus are homologous to the Z chromosome of birds. The platypus lacks the SRY gene (a key gene for sex determination in mammals); it is characterized by incomplete dosage compensation recently described in birds. Apparently, the mechanism for determining the sex of the platypus is similar to that of its reptile ancestors.

Lifestyle and nutrition

The platypus is a secretive nocturnal semi-aquatic animal that inhabits the banks of small rivers and stagnant reservoirs. Eastern Australia on a vast range from the cold plateaus of Tasmania and the Australian Alps to the rainforests of coastal Queensland. In the north, its range reaches the Cape York Peninsula (Cooktown). Less is known about the distribution of the platypus within the mainland. Apparently, it has completely disappeared in South Australia (except for Kangaroo Island) and in most of the Murray-Darling river basin. The reason for this was probably water pollution, to which the platypus is very sensitive. He prefers water temperatures of 25-29.9°C; does not occur in brackish water.

The platypus lives along the banks of water bodies. It shelters in a short straight burrow (up to 10 m long), with two entrances and an inner chamber. One entrance is underwater, the other is located 1.2-3.6 m above the water level, under the roots of trees or in thickets.

The platypus is an excellent swimmer and diver, remaining underwater for up to 5 minutes. In water, he spends up to 10 hours a day, since he needs to eat an amount of food per day that is up to a quarter of his own weight. The platypus is active at night and at dusk. It feeds on small aquatic animals, stirring up silt at the bottom of the reservoir with its beak and catching rising living creatures. They observed how the platypus, feeding, turns over stones with its claws or with the help of its beak. He eats crustaceans, worms, insect larvae; rarely tadpoles, mollusks and aquatic vegetation. Having collected food in the cheek pouches, the platypus rises to the surface and, lying on the water, grinds it with its horny jaws.

In nature, the enemies of the platypus are few. Occasionally it is attacked by a monitor lizard, a python and a sea leopard swimming in the rivers.

reproduction

Every year, platypuses fall into a 5-10-day winter hibernation, after which they have a breeding season. It continues from August to November. Mating takes place in the water. The male bites the female by the tail, and for some time the animals swim in a circle, after which mating takes place (in addition, 4 more variants of the courtship ritual were recorded). The male covers several females; platypuses do not form permanent pairs.

After mating, the female digs a brood burrow. Unlike the usual burrow, it is longer and ends with a nesting chamber. Inside, a nest is built from stems and leaves; The female wears the material, pressing her tail to her stomach. She then plugs the corridor with one or more earth plugs 15-20 cm thick to protect the burrow from predators and floods. The female makes plugs with the help of her tail, which she uses like a mason's trowel. The nest inside is always damp, which prevents the eggs from drying out. The male does not take part in the construction of the burrow and the rearing of the young.

2 weeks after mating, the female lays 1-3 (usually 2) eggs. Platypus eggs are similar to reptile eggs - they are round, small (11 mm in diameter) and covered with an off-white leathery shell. After laying, the eggs stick together with a sticky substance that covers them from the outside. Incubation lasts up to 10 days; during incubation, the female rarely leaves the burrow and usually lies curled up around the eggs.

Platypus cubs are born naked and blind, about 2.5 cm long. The female, lying on her back, moves them to her belly. She doesn't have a pouch. The mother feeds the cubs with milk, which comes out through the enlarged pores on her stomach. Milk flows down the mother's coat, accumulating in special grooves, and the cubs lick it off. The mother leaves the offspring only for a short time to feed and dry the skin; leaving, she clogs the entrance with soil. The eyes of the cubs open at 11 weeks. Milk feeding lasts up to 4 months; at 17 weeks, the cubs begin to leave the hole to hunt. Young platypuses reach sexual maturity at the age of 1 year.

The lifespan of platypuses in nature is unknown; in captivity they live an average of 10 years.

Population status and protection

Platypuses previously served as an object of fishing because of their valuable fur, but at the beginning of the 20th century. hunting them was prohibited. Currently, their population is considered to be relatively stable, although due to water pollution and habitat degradation, the platypus's range is becoming increasingly mosaic. Some damage was caused to it by the rabbits brought by the colonists, who, digging holes, disturbed the platypuses, forcing them to leave their habitable places.

The Australians have created a special system of reserves and "shelters" (sanctuary), where platypuses can feel safe. Among them, the most famous are Hillsville Reserve in Victoria and West Burley in Queensland.

Platypus evolution

Monotremes are the surviving representatives of one of the earliest branches of mammals. The oldest monotreme found in Australia is 110 million years old (Steropodon). It was a small, rodent-like animal that was nocturnal and, most likely, did not lay eggs, but gave birth to severely underdeveloped cubs. The fossilized tooth of another fossil platypus (Obdurodon), found in 1991 in Patagonia (Argentina), indicates that, most likely, the ancestors of the platypus came to Australia from South America, when these continents were part of the Gondwana supercontinent. The closest ancestors of the modern platypus appeared about 4.5 million years ago, while the earliest fossil specimen of Ornithorhynchus anatinus proper dates from the Pleistocene. Fossil platypuses resembled modern ones, but were smaller in size.

In May 2008, it was announced that the platypus genome had been deciphered.

3. Echidna family (Tachyglossidae)

For the first time, European scientists learned about the echidna in 1792, when a member of the Royal Zoological Society in London, George Shaw (the same one who described the platypus a few years later) compiled a description of this animal, mistakenly classifying it as an anteater. The fact is that this amazing nosy creature was caught on an anthill. The scientist did not have any other information about the biology of the animal. Ten years later, Shaw's compatriot anatomist Edward Home discovered one common feature in echidna and platypus - both of these animals have only one opening at the back leading to the cloaca. And already the intestines, and the ureters, and the genital tract open into it. Based on this feature, a detachment of monotremes (Monotremata) was singled out.

Appearance

Echidnas look like a small porcupine, as they are covered with coarse wool and quills. The maximum body length is approximately 30 cm (Fig. 3). Their lips are beak-shaped. Echidna limbs are short and rather strong, with large claws, so they can dig well. The echidna has no teeth, its mouth is small. The basis of the diet is termites and ants, which echidnas catch with their long sticky tongue, as well as other medium-sized invertebrates, which echidnas crush in their mouths, pressing their tongue against the palate.

The echidna's head is covered with coarse hair; the neck is short, almost invisible from the outside. The auricles are not visible. The muzzle of the echidna is elongated into a narrow "beak" 75 mm long, straight or slightly curved. It is an adaptation to searching for prey in narrow crevices and holes, from where the echidna gets it with its long sticky tongue. mouth opening at the end of the beak toothless and very small; it does not open wider than 5 mm. Like the platypus, the "beak" of the echidna is richly innervated. Its skin contains both mechanoreceptors and special electroreceptor cells; with their help, the echidna picks up weak fluctuations in the electric field that occur when small animals move. Not a single mammal, apart from echidnas and platypuses, has had such an electrolocation organ.

Muscular system

The muscles of the echidna are rather peculiar. So, a special muscle panniculus carnosus, located under the skin and covering the entire body, allows the echidna to curl up into a ball in case of danger, hiding the stomach and exposing the spines. The muscles of the muzzle and tongue of the echidna are highly specialized. Her tongue is able to protrude from her mouth by 18 cm (its total length reaches 25 cm). It is covered in slime to which ants and termites stick. The protrusion of the tongue is provided by the contraction of the circular muscles, which change its shape and push it forward, and two geniohyoid muscles, which are attached to the root of the tongue and the lower jaw. The protruding tongue becomes stiffer due to the rapid flow of blood. Its retraction is provided by two longitudinal muscles. The tongue is able to move at high speed - up to 100 movements per minute.

Nervous system

echidnas poor eyesight However, the sense of smell and hearing are well developed. Their ears are sensitive to low frequency sounds, which allows them to hear termites and ants under the soil. The brain of the echidna is better developed than that of the platypus, and has more convolutions.

Until recently, it was believed that the echidna is the only mammal that does not see dreams. However, in February 2000, scientists from the University of Tasmania found that a sleeping echidna goes through a phase of REM sleep, but that it depends on the ambient temperature. At 25°C, the echidna had a GD phase; however, as the temperature increased or decreased, it decreased or disappeared.

Lifestyle and nutrition

This is a terrestrial animal, although if necessary it is able to swim and cross fairly large bodies of water. Echidna is found in any landscape that provides it with enough food - from moist forests to dry bush and even deserts. It is also found in mountainous areas, where snow lies part of the year, and on agricultural lands, and even in the metropolitan suburbs. The echidna is active mainly during the day, but hot weather makes it switch to a nocturnal lifestyle. The echidna is poorly adapted to the heat, since it does not have sweat glands, and its body temperature is very low - 30-32°C. In hot or cold weather, it becomes lethargic; with a strong cold snap, it hibernates for up to 4 months. Stocks of subcutaneous fat allow her, if necessary, to starve for a month or more.

Echidna feeds on ants, termites, less often other insects, small mollusks and worms. She digs up anthills and termite mounds, digs through the forest floor with her nose, strips the bark from fallen rotten trees, shifts and overturns stones. Having found insects, the echidna throws out its long sticky tongue, to which the prey sticks. The echidna has no teeth, but the root of the tongue has keratin teeth that rub against the pectinate palate and thus grind food. In addition, the echidna, like birds, swallows earth, sand and small stones, which complete the grinding of food in the stomach.

Echidna leads a solitary lifestyle (with the exception of the mating season). This is not a territorial animal - echidnas encountered simply ignore each other; it does not suit permanent burrows and nests. For rest, the echidna settles in any convenient place - under the roots, stones, in the hollows of fallen trees. The echidna runs badly. Its main defense is thorns; a disturbed echidna rolls up into a ball, like a hedgehog, and if it has time, it partially burrows into the ground, exposing its back to the enemy with raised needles. It is very difficult to pull the echidna out of the dug hole, because it strongly rests on its paws and needles. Among the predators that hunt echidnas are Tasmanian devils, as well as cats, foxes and dogs introduced by people. Humans rarely pursue her, as the skin of the echidna is of little value and the meat is not particularly tasty. The sounds that an alarmed echidna makes are reminiscent of soft grunts.

One of the largest fleas, Bradiopsylla echidnae, is found on echidnas, the length of which reaches 4 mm.

reproduction

Echidnas live so secretly that the features of their mating behavior and reproduction were published only in 2003, after 12 years of field observations. It turned out that during the courtship period, which lasts from May to September (in different parts of the range, the time of its onset varies), these animals are kept in groups consisting of a female and several males. Both females and males at this time emit a strong musky smell, allowing them to find each other. The group feeds and rests together; when crossing, echidnas follow in single file, forming a "train" or caravan. Ahead is a female, followed by males, which can be 7-10. Courtship lasts up to 4 weeks. When the female is ready to mate, she lies down, and the males begin to circle around her, throwing clods of earth aside. After some time, a real trench 18-25 cm deep forms around the female. The males violently push each other, pushing them out of the trench until one victorious male remains inside the ring. If there was only one male, the trench is straight. Mating (on the side) lasts about an hour.

Pregnancy lasts 21-28 days. The female builds a brood burrow, a warm, dry chamber often dug under an empty anthill, termite mound, or even under a pile of garden debris next to human habitation. Usually in the clutch there is one leathery egg with a diameter of 13-17 mm and weighing only 1.5 g.

For a long time it remained a mystery how the echidna moves the egg from the cloaca to the brood pouch - its mouth is too small for this, and its paws are clumsy.

Presumably, postponing it, the echidna deftly curls up into a ball; while the skin on the abdomen forms a fold that releases a sticky fluid. When it hardens, it glues the egg that has rolled out onto the stomach and at the same time gives the bag a shape (Fig. 4).

Brood pouch of a female echidna

After 10 days, a tiny cub hatches: it is 15 mm long and weighs only 0.4-0.5 g. When it hatches, it breaks the egg shell with the help of a horny bump on the nose, an analogue of the egg tooth of birds and reptiles. The eyes of a newborn echidna are hidden under the skin, and the hind legs are practically not developed. But the front paws already have well-defined fingers. With their help, the newborn moves from the back of the bag to the front in about 4 hours, where there is a special area of skin called the milky field, or areola. In this area, 100-150 pores of the mammary glands open; each pore is provided with a modified hair. When the cub squeezes these hairs with his mouth, milk enters his stomach. The high iron content gives echidna milk its pink color.

Young echidnas grow very quickly, in just two months increasing their weight by 800-1000 times, that is, up to 400 g. The cub remains in the mother's pouch for 50-55 days - until the age when it develops spines. After that, the mother leaves him in a shelter and until the age of 5-6 months comes to feed every 5-10 days. In total, milk feeding lasts 200 days. Between 180 and 240 days of life, the young echidna leaves the hole and begins to lead an independent life. Sexual maturity occurs at 2-3 years. Echidna breeds only once every two years or less; according to some reports - once every 3-7 years. But the low rate of reproduction is compensated by her long duration life. In nature, the echidna lives up to 16 years; the recorded longevity record at the zoo is 45 years.

Population status and protection

Echidnas do well in captivity, but do not breed. Get offspring Australian echidna succeeded only in five zoos, but in no case the young animals survived to adulthood.

Conclusion

Since 1798, disputes between zoologists in England, France and Germany have not subsided. They argued as to what place in the taxonomy should be put these "animals with one hole", or, in scientific terms, monotremes. This special subclass of mammals consists of only two families - echidnas and platypuses, whose representatives are found only in Eastern Australia, New Guinea and Tasmania. Even the fossil remains of their extinct ancestors have never been found anywhere else.

The names of these animals, which, with the light hand of the British, came into use in all countries, scientific point vision is wrong: echidna is pretty known species eels, and therefore it would be more correct to call it a platypus hedgehog; the British call the platypus platypus, while it is known throughout the scientific world that one species of beetles was named that way back in 1793. The Germans often call the platypus and echidna cesspool animals, which is especially tactless, because it suggests some kind of alleged uncleanliness of these animals or their adherence to sewers. Meanwhile, this name means only one thing: in these animals, the intestines and the urogenital canal do not open outwards with independent holes (as in other mammals), but, like in reptiles and birds, they flow into the so-called cloaca, which communicates with the external environment with one hole. So an unappetizing name should in no case scare anyone away and suggest latrines. On the contrary, these animals are very clean: if they settle near human habitation, they do not live in polluted rivers, but only in reservoirs with clean drinking water.

Today, neither platypuses nor echidnas can be considered endangered or endangered. These animals have almost no natural enemies; only a carpet python, a fox or a marsupial devil can covet them. Some platypuses die in the tops of the fishermen: they swim there, but they no longer find a way out, so they cannot go upstairs for the necessary portion of air and suffocate. Until now, it has not been possible to convince fishermen to use tops with a hole at the top.

However, since 1905, platypuses have been under the full protection of the Australian state and have since bred quite successfully. They are found up to a height of 1650 meters above sea level. Most of them are in Tasmania. There platypuses are met even in the suburbs of the capital - the city of Hobart. Zoologist Sharland believes that the intricate labyrinths of platypuses with nesting chambers can be found even under the streets of the suburbs. But one should not think that it is so easy for any strolling summer resident to see a platypus - one must not forget that this is a very cautious animal, leading a predominantly nocturnal lifestyle.

List of sources

1. Brem A.E. Animal life: In 3 vols. Vol. 1: Mammals. - M.: TERRA, 1992. - 524 p.

2. Gilyarov M.S. and other Biological Encyclopedic Dictionary, M., ed. Soviet Encyclopedia, 1989.

3. Klevezal G.A. Principles and methods for determining the age of mammals, M.: Tovarishtvo nauch. ed. KMK, 2007. - 283 p.

4. Lopatin I.K. Zoogeography. - Minsk: The highest school. 1989. - 318 p. ISBN 5-339-00144-X

5. Pavlinov I.Ya. Systematics of modern mammals. - M.: From the Moscow University. 2003. - 297 p. ISSN 0134-8647

6. Pavlinov I.Ya., Kruskop S.V., Varshavskii A.A. and etc. land mammals Russia. - M.: From KMK. 2002. - 298s. ISBN 5-87317-094-0

7. http://www.zooclub.ru/wild/perv/2.shtml

Oviparous animals list. Oviparous mammal: description, features, reproduction and species. Order Monotreme or Oviparous. Characteristics and origin. What are the respiratory organs in amphibians

Subclass Primal Beasts (Prototheria)

Order Monotremes, or Oviparous (Monotremata) (E. V. Rogachev)

Origin and diversity of mammals. Oviparous and real animals.

Detachment Single pass - general characteristics

Platypus and Echidna

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General characteristics of the detachment monotreme oviparous (Monotremata). Description of the history of the discovery and appearance of the platypus. Features of the organ system and animal metabolism, nutrition and reproduction. Study of the echididae family (Tachyglossidae).

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