The Mesozoic era began approximately 250 and ended 65 million years ago. It lasted 185 million years. The Mesozoic is known primarily as the era of dinosaurs. These giant reptiles overshadow all other groups of living beings. But you shouldn’t forget about others. After all, the Mesozoic was the time when real mammals, birds, flowering plants– the modern biosphere was actually formed. And if in the first period of the Mesozoic - the Triassic, there were still many animals on Earth from Paleozoic groups that were able to survive the Permian catastrophe, then in the last period - the Cretaceous, almost all those families that flourished in the Cenozoic era had already formed.

In the Mesozoic, not only dinosaurs arose, but also other groups of reptiles, which are often mistakenly considered dinosaurs - aquatic reptiles (ichthyosaurs and plesiosaurs), flying reptiles (pterosaurs), lepidosaurs - lizards, among which were aquatic forms - mosasaurs. Snakes evolved from lizards - they also appeared in the Mesozoic - the time of their emergence is generally known, but paleontologists argue about the environment in which this occurred - in water or on land.

Sharks flourished in the seas, and they also lived in freshwater bodies. The Mesozoic is the era of the flourishing of two groups of cephalopods - ammonites and belemnites. But in their shadow, the nautiluses, which arose in the early Paleozoic and still exist, lived well, and the familiar squids and octopuses arose.

In the Mesozoic, modern mammals arose, first marsupials and then placentals. In the Cretaceous period, groups of ungulates, insectivores, predators and primates had already emerged.

Interestingly, modern amphibians - frogs, toads and salamanders - also arose in the Mesozoic, presumably in the Jurassic period. So, despite the antiquity of amphibians in general, modern amphibians are a relatively young group.

Throughout the Mesozoic, vertebrates sought to master a new environment for themselves - the air. The first reptiles were able to take off - first small pterosaurs - rhamphorhynchus, then larger pterodactyls. Somewhere on the border of the Jurassic and Cretaceous, reptiles took to the air - small feathered dinosaurs, capable, if not of flight, then certainly of gliding, and the descendants of reptiles - birds - enantiornis and true fan-tailed birds.

A real revolution in the biosphere occurred with the advent of angiosperms - flowering plants. This resulted in an increase in the diversity of insects that became flower pollinators. The gradual spread of flowering plants has changed the appearance of terrestrial ecosystems.

The Mesozoic ended with the famous mass extinction, better known as the “extinction of the dinosaurs.” The reasons for this extinction are not clear, but the more we learn about the events that took place at the end of the Cretaceous, the less convincing the popular hypothesis of a meteorite catastrophe becomes. The Earth's biosphere changed and the ecosystems of the Late Cretaceous were very different from the ecosystems Jurassic period. A huge number of species became extinct throughout the Cretaceous period, and not at all at its end - they simply did not survive the catastrophe. At the same time, evidence is emerging that in some places the typical Mesozoic fauna still existed at the very beginning of the next era - the Cenozoic. So for now, it is not possible to unequivocally answer the question about the causes of the extinction that occurred at the end of the Mesozoic. It is only clear that if some kind of catastrophe did occur, it only pushed the changes that had already begun

The publication will discuss the “trepanation” of the Kimmeridgian brachiopod Russiella in order to display a well-preserved hand apparatus. The brachiopod and hand apparatus are replaced by chalcedony. The brachiopod was found in Lipitsa, Kaluga region, in the uppermost layer, consisting of porous spangolite. The layer is located between flagstone with macroconchs of Aspidoceras ammonites and quaternary. Unfortunately, many paleontologists neglect this top layer, because only imprints of ammonites remain in it, but they come across... >>>

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Mesozoic era(248-65 million years ago) - the fourth era in the evolutionary process of life on our planet. Its duration is 183 million years. The Mesozoic era is divided into 3 periods: Triassic, Jurassic and Cretaceous.

Periods of the Mesozoic era

Triassic period (Triassic). The initial erathema of the Mesozoic era lasts 35 million years. This is the time of formation of the Atlantic Ocean. The single continent of Pangea again begins to break into two parts - Gondwana and Laurasia. Inland continental reservoirs are beginning to actively dry up. The depressions left from them are gradually filled with rock deposits. New mountain heights and volcanoes are appearing and exhibiting increased activity. A huge part of the landmass is still occupied by desert zones with weather conditions, unsuitable for the life of most species of living beings. The salt level in water bodies is rising. During this time period, representatives of birds, mammals and dinosaurs appear on the planet.

Jurassic period (Jura)- the most famous period of the Mesozoic era. It received its name due to the sedimentary deposits of that time found in the Jura (mountain ranges of Europe). The average period of the Mesozoic era lasts about 69 million years. The formation of modern continents begins - Africa, America, Antarctica, Australia. But they are not yet located in the order to which we are accustomed. Deep bays and small seas appear, separating the continents. Active formation of mountain ranges continues. The Arctic Sea floods the north of Laurasia. As a result, the climate is moistened, and vegetation forms in place of deserts.

Cretaceous period (Cretaceous). The final period of the Mesozoic era occupies a time period of 79 million years. Angiosperms appear. As a result of this, the evolution of fauna representatives begins. The movement of continents continues - Africa, America, India and Australia are moving away from each other. The continents of Laurasia and Gondwana begin to break up into continental blocks. Huge islands are forming in the south of the planet. Expanding Atlantic Ocean. The Cretaceous period is the heyday of flora and fauna on land. Due to the evolution of the plant world, fewer minerals enter the seas and oceans. The amount of algae and bacteria in water bodies decreases.

In details periods of the Mesozoic era will be discussed in the following lectures.

Climate of the Mesozoic era

Climate of the Mesozoic era at the very beginning there was one on the entire planet. The air temperature at the equator and poles remained at the same level. At the end of the first period of the Mesozoic era, drought reigned on Earth for most of the year, which was briefly replaced by rainy seasons. But, despite the arid conditions, the climate became significantly colder than it was during the Paleozoic period. Some species of reptiles have completely adapted to cold weather. From these species of animals mammals and birds would later develop.

During the Cretaceous period it becomes even colder. All continents have their own climate. Tree-like plants appear, which lose their foliage during the cold season. Snow begins to fall at the North Pole.

Plants of the Mesozoic era

At the beginning of the Mesozoic, the continents were dominated by lycophytes, various ferns, the ancestors of modern palms, conifers and ginkgo trees. In the seas and oceans, the dominance belonged to algae that formed reefs.

The increased humidity of the climate of the Jurassic period led to the rapid formation of plant matter on the planet. The forests consisted of ferns, conifers and cycads. Thujas and araucarias grew near the ponds. In the middle of the Mesozoic era, two vegetation belts formed:

1. Northern, which was dominated by herbaceous ferns and gingkovic trees;
2. Southern. Tree ferns and cycads reigned here.

In the modern world, ferns, cycads (palm trees reaching 18 meters in size) and cordaites of that time can be found in tropical and subtropical forests. Horsetails, mosses, cypresses and spruce trees had practically no differences from those that are common in our time.

The Cretaceous period is characterized by the appearance of plants with flowers. In this regard, butterflies and bees appeared among insects, thanks to which flowering plants were able to quickly spread throughout the planet. Also at this time, ginkgo trees with leaves that fall off during the cold season begin to grow. Coniferous forests of this time period are very similar to modern ones. These include yews, firs and cypresses.

The development of higher gymnosperms lasts throughout the Mesozoic era. These representatives of the earth's flora got their name due to the fact that their seeds did not have an outer protective shell. The most widespread are cycads and bennettites. In appearance, cicadas resemble tree ferns or cycads. They have straight stems and massive leaves that look like feathers. Bennettites are trees or shrubs. They are similar in appearance to cycads, but their seeds are covered with a shell. This brings the plants closer to angiosperms.

Angiosperms appeared in the Cretaceous period. From this moment it begins new stage in the development of plant life. Angiosperms (flowering plants) are at the top rung of the evolutionary ladder. They have special reproductive organs - stamens and pistil, which are located in the flower cup. Their seeds, unlike gymnosperms, are hidden by a dense protective shell. These plants of the Mesozoic era quickly adapt to any climatic conditions and actively develop. Behind short term Angiosperms began to dominate the entire Earth. Their various types and forms have reached modern world- eucalyptus, magnolia, quince, oleander, walnut trees, oak, birch, willow and beech. Of the gymnosperms of the Mesozoic era, we are now familiar only with coniferous species - fir, pine, sequoia and some others. The evolution of plant life of that period significantly outstripped the development of representatives of the animal world.

Animals of the Mesozoic era

Animals in the Triassic period of the Mesozoic era actively evolved. A huge variety of more developed creatures formed, which gradually replaced the ancient species.

One of these types of reptiles was the animal-like pelycosaurs - sailing lizards. On their backs there was a huge sail, like a fan. They were replaced by therapsids, which were divided into 2 groups - predators and herbivores. Their legs were powerful and their tails were short. Therapsids were much superior to pelycosaurs in speed and endurance, but this did not save their species from extinction at the end of the Mesozoic era.

The evolutionary group of lizards from which mammals would later evolve are the cynodonts (dog teeth). These animals got their name due to their powerful jaw bones and sharp teeth, with which they could easily chew raw meat. Their bodies were covered with thick hair. The females laid eggs, but the newborn cubs fed on their mother's milk.

At the beginning of the Mesozoic era it was formed the new kind lizards - archosaurs (ruling reptiles). They are the ancestors of all dinosaurs, pterosaurs, plesiosaurs, ichthyosaurs, placodonts and crocodylomorphs. Archosaurs, adapted to the climatic conditions on the coast, became predatory thecodonts. They hunted on land near bodies of water. Most thecodonts walked on 4 legs. But there were also individuals that ran on their hind legs. In this way, these animals developed incredible speed. After some time, thecodonts evolved into dinosaurs.

By the end of the Triassic period, 2 species of reptiles predominated. Some are the ancestors of the crocodiles of our time. Others turned into dinosaurs.

Dinosaurs have a body structure that is not similar to other lizards. Their paws are located under the body. This feature allowed dinosaurs to move quickly. Their skin is covered with waterproof scales. Lizards move on 2 or 4 legs, depending on the species. The first representatives were fast coelophysis, powerful herrerasaurs and huge plateosaurs.

Besides dinosaurs, archosaurs gave rise to another species of reptile that was different from the rest. These are pterosaurs - the first lizards that can fly. They lived near bodies of water and ate various insects for food.

Animal world depths of the sea The Mesozoic era is also characterized by a variety of species - ammonites, bivalves, families of sharks, bony and ray-finned fish. The most prominent predators were the underwater lizards that appeared not so long ago. Dolphin-like ichthyosaurs had high speed. One of the giant representatives of ichthyosaurs is Shonisaurus. Its length reached 23 meters, and its weight did not exceed 40 tons.

Lizard-like nothosaurs had sharp fangs. Placadonts, similar to modern newts, searched for mollusk shells on the seabed, which they bit with their teeth. Tanystrophei lived on land. Long (2-3 times the body size), slender necks allowed them to catch fish while standing on the shore.

Another group of sea lizards of the Triassic period are plesiosaurs. At the beginning of the era, plesiosaurs reached a size of only 2 meters, and by the middle of the Mesozoic they evolved into giants.

The Jurassic period is the time of development of dinosaurs. The evolution of plant life gave impetus to the emergence different types herbivorous dinosaurs. And this, in turn, led to an increase in the number of predatory individuals. Some dinosaur species were the size of cats, while others were as large as giant whales. The most gigantic individuals are diplodocus and brachiosaurs, reaching a length of 30 meters. Their weight was about 50 tons.

Archeopteryx is the first creature standing on the border between lizards and birds. Archeopteryx did not yet know how to fly long distances. The beak was replaced by jaws with sharp teeth. The wings ended in fingers. Archeopteryx was the size of a modern crow. They lived mainly in forests and ate insects and various seeds.

In the middle of the Mesozoic era, pterosaurs were divided into 2 groups - pterodactyls and rhamphorhynchus. Pterodactyls lacked a tail and feathers. But there were large wings and a narrow skull with few teeth. These creatures lived in flocks on the coast. During the day they obtained food for themselves, and at night they hid in the trees. Pterodactyls ate fish, shellfish and insects. This group of pterosaurs had to jump from high places to take to the skies. Rhamphorhynchus also lived on the coast. They ate fish and insects. They had long tails with a blade at the end, narrow wings and a massive skull with teeth of different sizes, which were convenient for catching slippery fish.

The most dangerous predator of the deep sea was Liopleurodon, which weighed 25 tons. Huge Coral reefs, in which ammonites, belemnites, sponges and sea mats settled. Representatives of the shark family are developing and bony fish. New species of plesiosaurs and ichthyosaurs, sea turtles and crocodiles appeared. Saltwater crocodiles developed flippers instead of legs. This feature allowed them to increase speed in aquatic environment.

IN Cretaceous period Mesozoic era Bees and butterflies appeared. Insects carried pollen, and flowers gave them food. Thus began a long-term collaboration between insects and plants.

The most famous dinosaurs of the time were the predatory tyrannosaurs and tarbosaurs, the herbivorous bipedal iguanodons, the four-legged rhinoceros-like Triceratops and the small armored ankylosaurs.

Most mammals of that period belong to the subclass Allotheria. These are small animals, similar to mice, weighing no more than 0.5 kg. The only exceptional species is the repenomama. They grew up to 1 meter and weighed 14 kg. At the end of the Mesozoic era, the evolution of mammals occurs - the ancestors of modern animals separate from allotheria. They are divided into 3 species - oviparous, marsupial and placental. It is they who replace the dinosaurs at the beginning of the next era. Rodents and primates emerged from the placental species of mammals. Purgatorius became the first primates. The marsupial species gave rise to modern opossums, and the oviparous species gave rise to platypuses.

The airspace is dominated by early pterodactyls and new species of flying reptiles - Orcheopteryx and Quetzatcoatli. These were the most gigantic flying creatures in the entire history of the development of our planet. Together with representatives of pterosaurs, birds dominate the air. During the Cretaceous period, many ancestors of modern birds appeared - ducks, geese, loons. The length of the birds was 4-150 cm, weight - from 20 grams. up to several kilograms.

The seas were dominated by huge predators reaching 20 meters in length - ichthyosaurs, plesiosaurs and mososaurs. Plesiosaurs had very long neck and a small head. Their large size did not allow them to develop high speed. The animals ate fish and shellfish. Mososaurs replaced saltwater crocodiles. These are giant predatory lizards with an aggressive character.

At the end of the Mesozoic era, snakes and lizards appeared, the species of which have reached the modern world unchanged. The turtles of this time period were also no different from those we see now. Their weight reached 2 tons, length - from 20 cm to 4 meters.

By the end of the Cretaceous period, most reptiles began to die out en masse.

Minerals of the Mesozoic era

Associated with the Mesozoic era a large number of deposits natural resources. These are sulfur, phosphorites, polymetals, construction and combustible materials, oil and natural gas.

In Asia, due to active volcanic processes, the Pacific belt was formed, which gave the world large deposits of gold, lead, zinc, tin, arsenic and other types rare metals. In terms of coal reserves, the Mesozoic era is significantly inferior to the Paleozoic era, but even during this period several large deposits of brown and hard coal were formed - the Kansky basin, Bureinsky, Lensky.

Mesozoic oil and gas fields are located in the Urals, Siberia, Yakutia, and the Sahara. Phosphorite deposits have been found in the Volga region and Moscow region.

The Mesozoic era began approximately 250 and ended 65 million years ago. It lasted 185 million years. The Mesozoic era is divided into the Triassic, Jurassic and Cretaceous periods with a total duration of 173 million years. The deposits of these periods constitute the corresponding systems, which together form the Mesozoic group.

The Mesozoic is known primarily as the era of dinosaurs. These giant reptiles overshadow all other groups of living beings. But you shouldn’t forget about others. After all, it was the Mesozoic - the time when real mammals, birds, and flowering plants appeared - that actually formed the modern biosphere. And if in the first period of the Mesozoic - the Triassic, there were still many animals on Earth from Paleozoic groups that were able to survive the Permian catastrophe, then in the last period - the Cretaceous, almost all those families that flourished in the Cenozoic era had already formed.

The Mesozoic era was a transitional period in the development of the earth's crust and life. It can be called the geological and biological Middle Ages.
The beginning of the Mesozoic era coincided with the end of the Variscan mountain-building processes; it ended with the beginning of the last powerful tectonic revolution - the Alpine folding. IN Southern Hemisphere in the Mesozoic, the collapse of the ancient continent of Gondwana was completed, but in general the Mesozoic era here was an era of relative calm, only occasionally and briefly disrupted by light folding.

The progressive flora of gymnosperms (Gymnospermae) became widespread already from the beginning of the Late Permian era. The early stage of development of the plant kingdom - paleophyte, was characterized by the dominance of algae, psilophytes and seed ferns. The rapid development of more highly developed gymnosperms, which characterizes the “plant Middle Ages” (mesophyte), began in the Late Permian era and ended at the beginning of the Late Cretaceous era, when the first angiosperms, or flowering plants (Angiospermae), began to spread. The Cenophyte, the modern period of development of the plant kingdom, began in the Late Cretaceous.

The appearance of gymnosperms was an important milestone in the evolution of plants. The fact is that earlier Paleozoic spore-bearing plants needed water or, at least, a humid environment for their reproduction. This made their resettlement quite difficult. The development of seeds allowed plants to lose such close dependence on water. The ovules could now be fertilized by pollen carried by the wind or insects, and water thus no longer determined reproduction. In addition, unlike a single-celled spore with its relatively small supply of nutrients, the seed has a multicellular structure and is able to provide food for a young plant in the early stages of development for longer. Under unfavorable conditions, the seed for a long time may remain viable. Having a durable shell, it reliably protects the embryo from external dangers. All these advantages gave seed plants good chances in the struggle for existence. The ovule (ovum) of the first seed plants was unprotected and developed on special leaves; the seed that emerged from it also did not have an outer shell. This is why these plants were called gymnosperms.

Among the most numerous and most curious gymnosperms of the beginning of the Mesozoic era we find the Cycas, or sago. Their stems were straight and columnar, similar to tree trunks, or short and tuberous; they bore large, long and usually feathery leaves
(for example, the genus Pterophyllum, whose name means “feathery leaves”). Outwardly, they looked like tree ferns or palm trees.
In addition to the cycads, great importance in the mesophyte they acquired Bennettitales, represented by trees or shrubs. They mostly resemble true cycads, but their seed begins to develop a tough shell, which gives Bennettites an angiosperm-like appearance. There are other signs of adaptation of Bennettites to conditions of a drier climate.

In the Triassic, new forms came to the fore. Conifers are spreading quickly, and among them are firs, cypresses, and yews. Among the ginkgos, the genus Baiera has become widespread. The leaves of these plants had the shape of a fan-shaped plate, deeply dissected into narrow lobes. Ferns have taken over damp, shady places along the banks of small bodies of water (Hausmannia and other Dipteraidae). Forms that grow on rocks (Gleicheniacae) are also known among ferns. Horsetails (Equisetites, Phyllotheca, Schizoneura) grew in the swamps, but did not reach the size of their Paleozoic ancestors.
In the middle mesophyte (Jurassic period), the mesophytic flora reached the culmination point of its development. Hot tropical climate in what are now temperate zone areas was ideal for tree ferns to thrive, while smaller fern species and herbaceous plants preferred the temperate zone. Among the plants of this time, gymnosperms continue to play a dominant role
(primarily cycads).

The Cretaceous period is marked by rare changes in vegetation. The flora of the Lower Cretaceous still resembles in composition the vegetation of the Jurassic period. Gymnosperms are still widespread, but their dominance ends at the end of this time. Even in the Lower Cretaceous, the most progressive plants suddenly appeared - angiosperms, the predominance of which characterizes the era of new plant life, or Cenophyte.

Angiosperms, or flowering plants (Angiospermae), occupy the highest level of the evolutionary ladder of the plant world. Their seeds are enclosed in a durable shell; there are specialized reproductive organs (stamen and pistil) assembled into a flower with bright petals and a calyx. Flowering plants appear somewhere in the first half of the Cretaceous period, most likely in a cold and dry mountain climate with large temperature differences.
With the gradual cooling that marked the Cretaceous, they captured more and more new areas on the plains. Quickly adapting to their new environment, they evolved at amazing speed. Fossils of the first true angiosperms are found in the Lower Cretaceous rocks of Western Greenland, and a little later also in Europe and Asia. In a relatively short time, they spread throughout the Earth and reached great diversity.

From the end of the Early Cretaceous era, the balance of forces began to change in favor of angiosperms, and by the beginning of the Upper Cretaceous their superiority became widespread. Cretaceous angiosperms belonged to the evergreen, tropical or subtropical types, among them were eucalyptus, magnolia, sassafras, tulip trees, Japanese quince trees, brown laurels, walnut trees, plane trees, and oleanders. These heat-loving trees coexisted with typical flora temperate zone: oaks, beeches, willows, birches. This flora also included gymnosperms conifers (sequoias, pines, etc.).

For gymnosperms, this was a time of surrender. Some species have survived to this day, but their total numbers have been declining all these centuries. A definite exception is conifers, which are still found in abundance today.
In the Mesozoic, plants made a great leap forward, surpassing animals in terms of development rates.

Mesozoic invertebrates were already approaching modern ones in character. A prominent place among them was occupied by cephalopods, to which modern squids and octopuses belong. The Mesozoic representatives of this group included ammonites with a shell twisted into a “ram’s horn”, and belemnites, the inner shell of which was cigar-shaped and overgrown with the flesh of the body - the mantle. Belemnite shells are popularly known as “devil’s fingers.” Ammonites were found in such numbers in the Mesozoic that their shells are found in almost all marine sediments of this time. Ammonites appeared in the Silurian, they experienced their first flowering in the Devonian, but reached their highest diversity in the Mesozoic. In the Triassic alone, over 400 new genera of ammonites arose. Particularly characteristic of the Triassic were ceratids, which were widespread in the Upper Triassic marine basin of Central Europe, the deposits of which in Germany are known as shell limestone.

By the end of the Triassic, most ancient groups of ammonites died out, but representatives of the Phylloceratida survived in Tethys, the giant Mesozoic Mediterranean Sea. This group developed so rapidly in the Jurassic that the ammonites of this time surpassed the Triassic in the variety of forms. During the Cretaceous, cephalopods, both ammonites and belemnites, remained numerous, but during the Late Cretaceous the number of species in both groups began to decline. Among the ammonites at this time, aberrant forms appeared with an incompletely twisted hook-shaped shell (Scaphites), with a shell elongated in a straight line (Baculites) and with a shell irregular shape(Heteroceras). These aberrant forms appeared, apparently, as a result of changes in the course of individual development and narrow specialization. The terminal Upper Cretaceous forms of some branches of ammonites are distinguished by sharply increased shell sizes. In the genus Parapachydiscus, for example, the shell diameter reaches 2.5 m.

The mentioned belemnites also acquired great importance in the Mesozoic. Some of their genera, for example, Actinocamax and Belenmitella, are important fossils and are successfully used for stratigraphic division and accurate determination of the age of marine sediments.
At the end of the Mesozoic, all ammonites and belemnites became extinct. Of the cephalopods with an external shell, only the genus Nautilus has survived to this day. More widespread in modern seas are forms with internal shells - octopuses, cuttlefish and squids, distantly related to belemnites.
The Mesozoic era was a time of unstoppable expansion of vertebrates. Of the Paleozoic fishes, only a few transitioned into the Mesozoic, as did the genus Xenacanthus, the last representative of the freshwater sharks of the Paleozoic, known from freshwater sediments of the Australian Triassic. sea ​​sharks continued to develop throughout the Mesozoic; Most modern genera were already represented in the Cretaceous seas, in particular, Carcharias, Carcharodon, lsurus, etc.

Ray-finned fish, which arose at the end of the Silurian, initially lived only in freshwater reservoirs, but with the Permian they began to enter the seas, where they multiplied unusually and from the Triassic to the present day they retained a dominant position.
Reptiles became most widespread in the Mesozoic, becoming truly the dominant class of this era. In the course of evolution, a variety of genera and species of reptiles appeared, often of very impressive size. Among them were the largest and most bizarre land animals the earth has ever bore. As has already been said, by anatomical structure The most ancient reptiles were close to labyrinthodonts. The oldest and most primitive reptiles were the clumsy cotylosaurs (Cotylosauria), which appeared already at the beginning of the Middle Carboniferous and became extinct by the end of the Triassic. Among cotylosaurs, both small animal-eating and relatively large herbivorous forms (pareiasaurs) are known. The descendants of cotylosaurs gave rise to the entire diversity of the reptile world. One of the most interesting groups of reptiles that developed from cotylosaurs were the beast-like animals (Synapsida, or Theromorpha), their primitive representatives (pelycosaurs) have been known since the end of the Middle Carboniferous. In the middle of the Permian period, pelycosaurs, known mainly from North America, die out, but in the Old World they are replaced by more progressive forms that form the order Therapsida.
The predatory theriodonts (Theriodontia) included in it are already very similar to primitive mammals, and it is no coincidence - it was from them that the first mammals developed by the end of the Triassic.

During the Triassic period, many new groups of reptiles appeared. These include turtles, ichthyosaurs ("fish lizards"), well adapted to marine life, resembling dolphins in appearance, and placodonts, clumsy armored animals with powerful flattened teeth adapted for crushing shells, and also plesiosaurs that lived in the seas, having a relatively small head, more or a less elongated neck, a wide body, flipper-like paired limbs and a short tail; Plesiosaurs vaguely resemble giant shellless turtles. In the Jurassic, plesiosaurs, like ichthyosaurs, reached their peak. Both of these groups remained very numerous into the Early Cretaceous, being extremely characteristic predators of the Mesozoic seas.
From an evolutionary point of view, one of the most important groups of Mesozoic reptiles were thecodonts, small predatory reptiles of the Triassic period, which gave rise to the most diverse groups - crocodiles, dinosaurs, flying lizards, and, finally, birds.

However, the most remarkable group of Mesozoic reptiles were the well-known dinosaurs. They developed from thecodonts back in the Triassic and took a dominant position on Earth in the Jurassic and Cretaceous. Dinosaurs are represented by two groups, completely separate - saurischia (Saurischia) and ornithischia (Ornithischia). In the Jurassic, real monsters could be found among dinosaurs, up to 25-30 m long (including tail) and weighing up to 50 tons. Of these giants, the best known forms are Brontosaurus, Diplodocus and Brachiosaurus. And in the Cretaceous period the evolutionary progress of dinosaurs continued. Among the European dinosaurs of this time, bipedal iguanodonts are widely known; in America, four-legged horned dinosaurs (Triceratops) Styracosaurus, etc.), somewhat reminiscent of modern rhinoceroses, became widespread. Interesting and relatively small armored dinosaurs(Ankylosauria), covered with a massive bony shell. All named forms were herbivores, as well as giant duck-billed dinosaurs (Anatosaurus, Trachodon, etc.), which walked on two legs. In the Cretaceous, predatory dinosaurs also flourished, the most remarkable of which were such forms as Tyrannosaurus rex, whose length exceeded 15 m, Gorgosaurus and Tarbosaurus. All of these forms, which turned out to be the greatest land predatory animals in the entire history of the Earth, walked on two legs.

At the end of the Triassic, the thecodonts also gave rise to the first crocodiles, which became abundant only in the Jurassic period (Steneosaurus and others). In the Jurassic period, flying lizards appeared - pterosaurs (Pterosauria), also descended from thecodonts.
Among the flying dinosaurs of the Jurassic, the most famous are Rhamphorhynchus and Pterodactylus; among the Cretaceous forms, the most interesting is the relatively very large Pteranodon. Flying lizards became extinct by the end of the Cretaceous.
In the Cretaceous seas, giant predatory mosasaurian lizards, exceeding 10 m in length, became widespread. Among modern lizards, they are closest to monitor lizards, but differ from them, in particular, in their flipper-like limbs. By the end of the Cretaceous, the first snakes (Ophidia) appeared, apparently descended from lizards that led a burrowing lifestyle.
Towards the end of the Cretaceous, there was a mass extinction of characteristic Mesozoic groups of reptiles, including dinosaurs, ichthyosaurs, plesiosaurs, pterosaurs and mosasaurs.

Representatives of the class of birds (Aves) first appear in Jurassic deposits. The remains of Archaeopteryx, a well-known and so far the only known first bird, were found in lithographic shales of the Upper Jurassic, near the Bavarian city of Solnhofen (Germany). During the Cretaceous period, the evolution of birds proceeded at a rapid pace; The characteristic genera of this time were Ichthyornis and Hesperornis, which still had serrated jaws.

The first mammals (Mattalia), modest animals no larger than a mouse, descended from animal-like reptiles in the Late Triassic. Throughout the Mesozoic they remained few in number and by the end of the era the original genera were largely extinct. Most ancient group mammals were triconodonts (Triconodonta), to which the most famous of the Triassic mammals, Morganucodon, belongs. Appears in the Jurassic
a number of new groups of mammals - Symmetrodonta, Docodonta, Multituberculata and Eupantotheria. Of all the named groups, only the Multituberculata survived the Mesozoic, the last representative of which died out in the Eocene. Polytuberculates were the most specialized of the Mesozoic mammals, convergently they had some similarities with rodents. The ancestors of the main groups of modern mammals - marsupials (Marsupialia) and placentals (Placentalia) were Eupantotheria. Both marsupials and placentals appeared in the Late Cretaceous. The most ancient group of placentals are insectivores (insectivora), which have survived to this day.



The origin of life on Earth occurred about 3.8 billion years ago, when the formation of the earth's crust ended. Scientists have found that the first living organisms appeared in an aquatic environment, and only after a billion years did the first creatures emerge on the surface of the land.

The formation of terrestrial flora was facilitated by the formation of organs and tissues in plants and the ability to reproduce by spores. Animals also evolved significantly and adapted to life on land: internal fertilization, the ability to lay eggs, and pulmonary respiration appeared. An important stage in development was the formation of the brain, conditioned and unconditioned reflexes, and survival instincts. The further evolution of animals provided the basis for the formation of humanity.

Dividing the history of the Earth into eras and periods gives an idea of ​​the features of the development of life on the planet in different time periods. Scientists identify particularly significant events in the formation of life on Earth in separate periods of time - eras, which are divided into periods.

There are five eras:

• Archean;
• Proterozoic;
• Paleozoic;
• Mesozoic;
• Cenozoic.

The Archean era began about 4.6 billion years ago, when planet Earth was just beginning to form and there were no signs of life on it. The air contained chlorine, ammonia, hydrogen, the temperature reached 80°, the level of radiation exceeded permissible limits, under such conditions the origin of life was impossible.

It is believed that about 4 billion years ago our planet collided with a celestial body, and the consequence was the formation of the Earth’s satellite, the Moon. This event became significant in the development of life, stabilized the planet’s rotation axis, and contributed to the purification of water structures. As a result, the first life arose in the depths of the oceans and seas: protozoa, bacteria and cyanobacteria.

The Proterozoic era lasted from approximately 2.5 billion years ago to 540 million years ago. Remains of unicellular algae, mollusks, and annelids were discovered. Soil begins to form.

The air at the beginning of the era was not yet saturated with oxygen, but in the process of life, bacteria inhabiting the seas began to increasingly release O 2 into the atmosphere. When the amount of oxygen was at a stable level, many creatures took a step in evolution and switched to aerobic respiration.

Palaeozoic includes six periods.

Cambrian period(530 - 490 million years ago) is characterized by the emergence of representatives of all species of plants and animals. The oceans were inhabited by algae, arthropods, and mollusks, and the first chordates (haikouihthys) appeared. The land remained uninhabited. The temperature remained high.

Ordovician period(490 – 442 million years ago). The first settlements of lichens appeared on land, and megalograptus (a representative of arthropods) began to come ashore to lay eggs. In the depths of the ocean, vertebrates, corals, and sponges continue to develop.

Silurian(442 – 418 million years ago). Plants come to land, and the rudiments of lung tissue form in arthropods. The formation of the bone skeleton in vertebrates is completed, and sensory organs appear. Mountain building is underway and different climatic zones are being formed.

Devonian(418 – 353 million years ago). The formation of the first forests, mainly ferns, is characteristic. Bone and cartilaginous organisms appear in reservoirs, amphibians began to come to land, and new organisms—insects—are formed.

Carboniferous period(353 – 290 million years ago). The appearance of amphibians, the subsidence of the continents, at the end of the period there was a significant cooling, which led to the extinction of many species.

Permian period(290 – 248 million years ago). The earth is inhabited by reptiles; therapsids, the ancestors of mammals, appeared. The hot climate led to the formation of deserts, where only hardy ferns and some conifers could survive.

The Mesozoic era is divided into 3 periods:

Triassic(248 – 200 million years ago). Development of gymnosperms, appearance of the first mammals. The split of land into continents.

Jurassic period(200 - 140 million years ago). The emergence of angiosperms. The appearance of the ancestors of birds.

Cretaceous period(140 – 65 million years ago). Angiosperms (flowering plants) became the dominant group of plants. Development of higher mammals, true birds.

The Cenozoic era consists of three periods:

Lower Tertiary period or Paleogene(65 – 24 million years ago). The disappearance of most cephalopods, lemurs and primates appear, later parapithecus and dryopithecus. The development of the ancestors of modern mammal species - rhinoceroses, pigs, rabbits, etc.

Upper Tertiary period or Neogene(24 – 2.6 million years ago). Mammals inhabit land, water, and air. The appearance of Australopithecines - the first ancestors of humans. During this period, the Alps, Himalayas, and Andes were formed.

Quaternary or Anthropocene(2.6 million years ago – today). A significant event of the period was the appearance of man, first the Neanderthals, and soon Homo sapiens. Vegetable and animal world acquired modern features.

Which was followed by . The Mesozoic Era is sometimes called the "Age of the Dinosaurs" because these animals were the dominant species throughout much of the Mesozoic.

After the Permian mass extinction wiped out more than 95% of ocean life and 70% of land species, a new Mesozoic era began about 250 million years ago. It consisted of the following three periods:

Triassic period, or Triassic (252-201 million years ago)

The first big changes were noticed in the type that dominated the Earth. Most of the flora that survived the Permian extinction were seed-bearing plants such as gymnosperms.

Cretaceous period, or Cretaceous (145-66 million years ago)

The last period of the Mesozoic was called the Cretaceous. The growth of flowering land plants occurred. They were helped by newly appeared bees and warm climatic conditions. Conifers were still numerous during the Cretaceous.

In terms of Cretaceous marine animals, sharks and rays became commonplace. , survivors of the Permian extinction, such as sea ​​stars, were also abundant during the Cretaceous.

On land, the first small mammals began to develop during the Cretaceous period. First marsupials appeared, and then other mammals. Appeared more birds and there were more reptiles. The dominance of dinosaurs continued, and the number of carnivorous species increased.

At the end of the Cretaceous and Mesozoic, another thing happened. This disappearance is usually called K-T extinction(Cretaceous-Paleogene extinction). It destroyed all dinosaurs except birds and many other life forms on Earth.

Exist different versions as to why the mass extinction occurred. Most scientists agree that there was some kind of catastrophic event that caused this extinction. Various hypotheses include massive volcanic eruptions that released huge amounts of dust into the atmosphere, reducing the amount of sunlight reaching the Earth's surface and thereby causing the death of photosynthetic organisms such as plants and those that depended on them. Others believe that a meteorite fell to Earth and dust blocked the sunlight. Because the plants and animals that fed on them died out, this led to predators such as carnivorous dinosaurs also dying due to lack of food.