Mesozoic fish. Mesozoic era. Other reptiles of the Mesozoic era

The Mesozoic era is divided into three periods: Triassic, Jurassic and Cretaceous.

Mesozoic - an era of tectonic, climatic and evolutionary activity. There is a formation of the main contours of modern continents and mountain building on the periphery of the Pacific, Atlantic and Indian oceans; the division of the landmass contributed to speciation and other important evolutionary events. The climate was warm throughout the entire time period, which also played an important role in the evolution and formation of new animal species. By the end of the era, the main part of the species diversity of life approached its modern state.

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✪ The history of the development of life in the Mesozoic era. Part 1. Video lesson in biology Grade 11

✪ Dinosaurs (says paleontologist Vladimir Alifanov)

✪ Dinosaurs and other ancient animals (a selection of esters)

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Geological periods

• Triassic period (251.902 ± 0.024 - 201.3 ± 0.2)
• Jurassic period (201.3 ± 0.2 - 145.0)
• Cretaceous period (145.0 - 66.0).

Tectonics and paleogeography

Compared to the vigorous mountain building of the Late Paleozoic, Mesozoic tectonic deformations can be considered relatively mild. The main tectonic event was the breakup of the Pangea supercontinent into a northern part (Laurasia) and a southern part (Gondwana). Later, they also broke up. At the same time, the Atlantic Ocean was formed, surrounded mainly by passive continental margins (for example, the east coast of North America). The extensive transgressions that prevailed in the Mesozoic led to the emergence of numerous inland seas.

By the end of the Mesozoic, the continents practically took on their modern shape. Laurasia divided into Eurasia and North America, Gondwana - into South America, Africa, Australia, Antarctica and the Indian subcontinent, the collision of which with the Asian continental plate caused intense orogeny with the rise of the Himalayan mountains.

Africa

At the beginning of the Mesozoic era, Africa was still part of the Pangea supercontinent and had a relatively common fauna with it, dominated by theropods, prosauropods and primitive ornithischian dinosaurs (by the end of the Triassic).

Late Triassic fossils are found everywhere in Africa, but are more common in the south than in the north of the continent. As is known, the time line separating the Triassic from the Jurassic period was drawn according to the global catastrophe with the mass extinction of species (Triassic-Jurassic extinction), but the African layers of this time remain poorly understood today.

Early Jurassic fossil deposits are distributed similarly to those of the Late Triassic, with more frequent outcrops in the south of the continent and fewer deposits towards the north. During the Jurassic period, such iconic groups of dinosaurs as sauropods and ornithopods increasingly spread across Africa. Paleontological layers of the middle Jurassic in Africa are poorly represented and also poorly studied.

The Late Jurassic is also poorly represented here, with the exception of the impressive collection of Jurassic Tendeguru fauna in Tanzania, whose fossils are very similar to those found in the paleobiotic Morrison Formation in western North America and date from the same period.

In the middle of the Mesozoic, about 150-160 million years ago, Madagascar separated from Africa, while remaining connected to India and the rest of Gondwana. Fossils from Madagascar have included abelisaurs and titanosaurs.

In the early Cretaceous, a part of the land that made up India and Madagascar separated from Gondwana. In the Late Cretaceous, the divergence of India and Madagascar began, which continued until the modern outlines were reached.

Unlike Madagascar, the African mainland was tectonically relatively stable throughout the Mesozoic. And yet, despite the stability, significant changes occurred in its position relative to other continents as Pangea continued to fall apart. By the beginning of the Late Cretaceous, South America separated from Africa, thus completing the formation of the Atlantic Ocean in its southern part. This event had a huge impact on the global climate by changing ocean currents.

During the Cretaceous, Africa was inhabited by allosauroids and spinosaurids. The African theropod Spinosaurus turned out to be one of the largest carnivores that lived on Earth. Among the herbivores in the ancient ecosystems of those times, titanosaurs occupied an important place.

Fossil deposits from the Cretaceous are more common than those from the Jurassic, but often cannot be radiometrically dated, making their exact age difficult to determine. Paleontologist Louis Jacobs, who has spent considerable time fieldwork in Malawi, argues that African fossil deposits "need more careful excavation" and are bound to prove "fertile ... for scientific discoveries."

Climate

During the last 1.1 billion years in the history of the Earth, there have been three successive ice age-warm cycles, called the Wilson cycles. Longer warm periods were characterized by a uniform climate, a greater diversity of flora and fauna, and a predominance of carbonate sediments and evaporites. Cold periods with glaciations at the poles were accompanied by a decrease in biodiversity, terrigenous and glacial sediments. The reason for the cyclicity is considered to be the periodic process of connecting the continents into a single continent (Pangaea) and its subsequent disintegration.

The Mesozoic era is the warmest period in the Phanerozoic history of the Earth. It almost completely coincided with the period of global warming, which began in the Triassic period and ended already in the Cenozoic era with the Little Ice Age, which continues to this day. For 180 million years, even in the polar regions there was no stable ice cover. The climate was mostly warm and even, without significant temperature gradients, although there was climatic zoning in the northern hemisphere. A large amount of greenhouse gases in the atmosphere contributed to the even distribution of heat. The equatorial regions were characterized by a tropical climate (the Tethys-Pantalassa region) with an average annual temperature of 25-30°C. Up to 45-50°N the subtropical region (Peritethys) extended, then the moderately warm boreal belt lay further, and the polar regions were characterized by a moderately cool climate.

The Mesozoic had a warm climate, mostly dry in the first half of the era and humid in the second. Slight cooling in the late Jurassic and the first half of the Cretaceous, a strong warming in the middle of the Cretaceous (the so-called Cretaceous temperature maximum), at about the same time the equatorial climatic zone appears.

Flora and fauna

Giant ferns, tree horsetails, and club mosses are dying out. In the Triassic, gymnosperms, especially conifers, flourish. In the Jurassic, seed ferns die out and the first angiosperms appear (then represented only by tree forms), which gradually spread to all continents. This is due to a number of advantages - angiosperms have a highly developed conducting system, which ensures the reliability of cross-pollination, the embryo is supplied with food reserves (due to double fertilization, a triploid endosperm develops) and is protected by shells, etc.

In the animal kingdom, insects and reptiles flourish. Reptiles occupy a dominant position and are represented by a large number of forms. In the Jurassic period, flying lizards appear and conquer the air. In the Cretaceous period, the specialization of reptiles continues, they reach enormous sizes. Some of the dinosaurs weighed up to 50 tons.

The parallel evolution of flowering plants and pollinating insects begins. At the end of the Cretaceous, cooling sets in, and the area of ​​near-water vegetation is reduced. Herbivores are dying out, followed by carnivorous dinosaurs. Large reptiles are preserved only in the tropical zone (crocodiles). Due to the extinction of many reptiles, a rapid adaptive radiation of birds and mammals begins, occupying the vacated ecological niches. In the seas, many forms of invertebrates and sea lizards are dying out.

Birds, according to most paleontologists, evolved from one of the groups of dinosaurs. The complete separation of arterial and venous blood flow determined their warm-bloodedness. They spread widely over land and gave rise to many forms, including flightless giants.

The emergence of mammals is associated with a number of large aromorphoses that arose in one of the subclasses of reptiles. Aromorphoses: a highly developed nervous system, especially the cerebral cortex, which provided adaptation to the conditions of existence by changing behavior, moving limbs from the sides under the body, the emergence of organs that ensure the development of the embryo in the mother's body and subsequent feeding with milk, the appearance of a coat, complete separation of circulatory circles, the emergence of alveolar lungs, which increased the intensity of gas exchange and, as a result, the overall level of metabolism.

Mammals appeared in the Triassic, but could not compete with dinosaurs and for 100 million years occupied a subordinate position in the ecological systems of that time.

: in 86 tons (82 tons and 4 additional). - St. Petersburg. , 1890-1907.

Age of Reptiles

In the mass consciousness, the Mesozoic era has long been rooted as the era of dinosaurs, who reigned supreme on the planet for a little less than two hundred million years. In part, this is true. But this historical period is not only remarkable from a geological and biological point of view. The Mesozoic era, whose periods (Triassic, Cretaceous and Jurassic) have their own characteristics, is a time division of the geochronological scale, lasting about one hundred and sixty million years.

General characteristics of the Mesozoic

During this huge time span, which started about 248 million years ago and ended 65 million years ago, the last supercontinent Pangea broke up. And the Atlantic Ocean was born. During this period, chalk deposits on the ocean floor were formed by unicellular algae and protozoa. Getting into the zones of collision of lithospheric plates, these carbonate sediments contributed to an increased release of carbon dioxide during volcanic eruptions, which significantly changed the composition of water and the atmosphere. Land life in the Mesozoic era was characterized by the dominance of giant lizards and gymnosperms. In the second half of the Cretaceous period, the mammals familiar to us today began to enter the evolutionary scene, which were then prevented from fully developing by dinosaurs. Significant temperature fluctuations associated with the introduction of angiosperms into the terrestrial ecosystem, and new classes of unicellular algae into the marine environment, have disrupted the structure of biological communities. The Mesozoic era is also characterized by a significant restructuring of food chains, which began closer to the middle of the Cretaceous.

Triassic. Geology, sea creatures, plants

The Mesozoic era began with the Triassic period, which replaced the Permian geological era. Living conditions during this period practically did not differ from those in Perm. There were no birds and grass on Earth at that time. Some part of the modern North American continent and Siberia was at that time the seabed, and the territory of the Alps was hidden under the waters of Tethys - a giant prehistoric ocean. Due to the absence of corals, green algae were engaged in the construction of reefs, which neither before nor after did not play the first role in this process. Also, a characteristic feature of life in the Triassic was the combination of old biological species with new ones that had not yet gained strength. The time of conodonts and cephalopods with straight shells was coming to an end; some types of six-pointed corals have already begun to appear, the flowering of which is yet to come; the first bony fish and sea urchins were formed, having a solid shell that does not decompose after death. Among the terrestrial species, lepidodendrons, cordaites and tree-like horsetails lived out their long lives. They were replaced by coniferous plants, well known to all of us.

Fauna of the Triassic

Among the animals, amphibians began to appear - the first stegocephals, but dinosaurs began to spread more and more widely, including their flying varieties. At first, they were small creatures similar to modern lizards, equipped with various biological devices for taking off. Some had dorsal growths resembling wings. They could not swing, but they managed to successfully descend with their help, like paratroopers. Others were equipped with membranes, which allowed them to plan. Such a prehistoric hang gliders. And Sharovipteryx had a full arsenal of such flight membranes. Its wings can be considered hind limbs, the length of which significantly exceeded the linear dimensions of the rest of the body. During this period, small mammals were already hiding in anticipation of their time, hiding in holes from the owners of the planet. Their time will come. Thus began the Mesozoic era.

Jurassic period

This era has become hugely famous thanks to one Hollywood movie, which is more fiction than reality. True, only one thing is the flowering of the power of dinosaurs, which simply suppressed other forms of animal life. In addition, the Jurassic period is notable for the complete collapse of Pangea into separate continental blocks, which significantly changed the geography of the planet. The population of the ocean floor has undergone extremely strong changes. Brachiopods were replaced by bivalve molluscs, and primitive shells by oysters. Now it is difficult to imagine the richness and splendor of the Jurassic forests, especially on the wet coasts. These are giant trees, and fantastic ferns, extremely lush shrub vegetation. And, of course, a huge variety of dinosaurs - the largest creatures that have ever lived on the planet.

Dinosaur's Last Ball

The largest events of this era in the plant world occurred in the middle of the Cretaceous period. The first flowers bloomed, therefore, angiosperms appeared, which still dominate the flora of the planet. Real thickets of laurels, willows, poplars, plane trees and magnolias have already appeared. In principle, the plant world at that distant time acquired almost modern outlines, which cannot be said about animals. It was the world of ceratopsians, ankylosaurs, tyrannosaurs and the like. It all ended in a grand catastrophe - the largest in earth's history. And the age of mammals has come. Which eventually made it possible for a person to come to the fore, but that's another story.

Which he followed. The Mesozoic era is sometimes referred to as the "era of the dinosaurs" because these animals were the dominant representatives for 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 seen in the type that dominated the Earth. Most of the flora that survived the Permian extinction became plants containing seeds, such as gymnosperms.

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

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

As for the marine animals of the Cretaceous period, sharks and rays became commonplace. survivors of the Permian extinction, such as starfish, were also abundant during the Cretaceous.

On land, the first small mammals began to evolve during the Cretaceous period. First, marsupials appeared, and then other mammals. There were more birds and 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 extinction is commonly referred to as the K-T extinction (Cretaceous-Paleogene extinction). It wiped out all dinosaurs except birds and many other life forms on Earth.

There are different versions as to why the mass disappearance occurred. Most scientists agree that it was some kind of catastrophic event that caused this extinction. Various hypotheses include massive volcanic eruptions that sent massive 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 who depended on them. Others believe that a meteorite fell to Earth, and the dust blocked the sunlight. As the plants and animals that fed on them died out, this led to predators such as carnivorous dinosaurs also dying for lack of food.

Mesozoic era

The Mesozoic era is the era of middle life. It is named so because the flora and fauna of this era are transitional between the Paleozoic and Cenozoic. In the Mesozoic era, the modern outlines of the continents and oceans, modern marine fauna and flora are gradually formed. The Andes and Cordilleras, mountain ranges of China and East Asia were formed. The basins of the Atlantic and Indian oceans formed. The formation of the Pacific Ocean depressions began.

The Mesozoic era is divided into three periods: Triassic, Jurassic and Cretaceous.

Triassic

The Triassic period got its name from the fact that three different rock complexes are attributed to its deposits: the lower one is continental sandstone, the middle one is limestone and the upper one is neiper.

The most characteristic sediments of the Triassic period are: continental sandy-argillaceous rocks (often with coal lenses); marine limestones, clays, shales; lagoonal anhydrites, salts, gypsums.

During the Triassic period, the northern continent of Laurasia merged with the southern continent - Gondwana. The great bay, which began in the east of Gondwana, stretched all the way to the northern coast of modern Africa, then turned south, almost completely separating Africa from Gondwana. A long bay stretched from the west, separating the western part of Gondwana from Laurasia. Many depressions arose on Gondwana, gradually filled with continental deposits.

Volcanic activity intensified in the Middle Triassic. The inland seas become shallow, and numerous depressions are formed. The formation of the mountain ranges of South China and Indonesia begins. On the territory of the modern Mediterranean, the climate was warm and humid. It was cooler and wetter in the Pacific zone. Deserts dominated the territory of Gondwana and Laurasia. The climate of the northern half of Laurasia was cold and dry.

Along with changes in the distribution of sea and land, the formation of new mountain ranges and volcanic regions, there was an intensive change of some animal and plant forms by others. Only a few families passed from the Paleozoic era to the Mesozoic. This gave grounds to some researchers to assert about the great catastrophes that occurred at the turn of the Paleozoic and Mesozoic. However, when studying the deposits of the Triassic period, one can easily see that there is no sharp boundary between them and the Permian deposits, therefore, some forms of plants and animals were replaced by others, probably gradually. The main reason was not catastrophes, but the evolutionary process: more perfect forms gradually replaced less perfect ones.

The seasonal change in temperatures of the Triassic period began to have a noticeable effect on plants and animals. Separate groups of reptiles have adapted to the cold seasons. It was from these groups that mammals originated in the Triassic, and somewhat later, birds. At the end of the Mesozoic era, the climate became even colder. Deciduous woody plants appear, which partially or completely shed their leaves during the cold seasons. This feature of plants is an adaptation to a colder climate.

The cooling in the Triassic period was insignificant. It was most pronounced in northern latitudes. The rest of the area was warm. Therefore, the reptiles felt quite well in the Triassic period. Their most diverse forms, with which small mammals were not yet able to compete, settled over the entire surface of the Earth. The rich vegetation of the Triassic period also contributed to the extraordinary flowering of reptiles.

Gigantic forms of cephalopods have developed in the seas. The diameter of the shells of some of them was up to 5 m. True, gigantic cephalopod mollusks, such as squid, reaching 18 m in length, still live in the seas, but in the Mesozoic era there were much more gigantic forms.

The composition of the atmosphere of the Triassic period has changed little compared to the Permian. The climate became more humid, but the deserts in the center of the continent remained. Some plants and animals of the Triassic period have survived to this day in the region of Central Africa and South Asia. This suggests that the composition of the atmosphere and the climate of individual land areas have not changed much during the Mesozoic and Cenozoic eras.

And yet the stegocephalians died out. They were replaced by reptiles. More perfect, mobile, well adapted to various living conditions, they ate the same food as stegocephalians, settled in the same places, ate young stegocephalians and eventually exterminated them.

Among the Triassic flora, calamites, seed ferns, and cordaites were occasionally encountered. True ferns predominated, ginkgo, bennetite, cycad, coniferous. Cycads still exist in the area of ​​the Malay Archipelago. They are known as sago palms. In their appearance, cycads occupy an intermediate position between palms and ferns. The trunk of cycads is rather thick, columnar. The crown consists of stiff pinnate leaves arranged in a corolla. Plants reproduce by means of macro- and microspores.

Triassic ferns were coastal herbaceous plants with broad, dissected leaves with reticulate venation. Of the coniferous plants, volttia has been well studied. She had a dense crown and cones like spruce.

Ginkgoales were quite tall trees, their leaves formed dense crowns.

A special place among the Triassic gymnosperms was occupied by bennetites - trees with whorled large complex leaves resembling the leaves of cycads. The reproductive organs of bennetites occupy an intermediate place between the cones of cycads and the flowers of some flowering plants, in particular magnoliaceae. Thus, it is probably the bennetites that should be considered the ancestors of flowering plants.

Of the invertebrates of the Triassic period, all types of animals that exist in our time are already known. The most typical marine invertebrates were reef-building animals and ammonites.

In the Paleozoic, animals already existed that covered the bottom of the sea in colonies, forming reefs, although not very powerful. In the Triassic period, when many colonial six-ray corals appear instead of tabulates, the formation of reefs up to a thousand meters thick begins. Cups of six-pointed corals had six or twelve calcareous partitions. As a result of the mass development and rapid growth of corals, underwater forests were formed on the bottom of the sea, in which numerous representatives of other groups of organisms settled. Some of them took part in reef formation. Bivalves, algae, sea urchins, starfish, sponges lived among the corals. Destroyed by waves, they formed coarse-grained or fine-grained sand, which filled all the voids of the corals. Washed out by waves from these voids, calcareous silt was deposited in bays and lagoons.

Some bivalve mollusks are quite characteristic of the Triassic period. Their paper-thin shells with brittle ribs in some cases form whole layers in the deposits of this period. Bivalves lived in shallow muddy bays - lagoons, on reefs and between them. In the Upper Triassic period, many thick-shell bivalve mollusks appeared, firmly attached to the limestone deposits of shallow water basins.

At the end of the Triassic, due to increased volcanic activity, part of the limestone deposits was covered with ash and lavas. Steam rising from the depths of the Earth brought with it many compounds from which deposits of non-ferrous metals were formed.

The most common of the gastropod molluscs were pronebranchial. Ammonites were widely distributed in the seas of the Triassic period, the shells of which in some places accumulated in huge quantities. Having appeared in the Silurian period, they did not yet play a large role among other invertebrates throughout the Paleozoic era. Ammonites could not successfully compete with the rather complex nautiloids. Ammonite shells were formed from calcareous plates, which had the thickness of tissue paper and therefore almost did not protect the soft body of the mollusk. Only when their partitions were bent into numerous folds, ammonite shells gained strength and turned into a real shelter from predators. With the complication of the partitions, the shells became even more durable, and the external structure made it possible for them to adapt to the most diverse living conditions.

Representatives of echinoderms were sea urchins, lilies and stars. At the upper end of the body of sea lilies, there was a flower-like main body. It distinguishes a corolla and grasping organs - “hands”. Between the "hands" in the corolla were the mouth and anus. With “hands”, the sea lily raked water into the mouth opening, and with it the sea animals that it fed on. The stem of many Triassic crinoids was spiral.

The Triassic seas were inhabited by calcareous sponges, bryozoans, leaf-legged crayfish, and ostracods.

The fish were represented by sharks living in freshwater bodies and molluscoids inhabiting the sea. The first primitive bony fish appear. Powerful fins, a well-developed dentition, a perfect shape, a strong and light skeleton - all this contributed to the rapid spread of bony fish in the seas of our planet.

Amphibians were represented by stegocephalians from the group of labyrinthodonts. They were sedentary animals with a small body, small limbs and a large head. They lay in the water waiting for the prey, and when the prey approached, they grabbed it. Their teeth had complex labyrinthine folded enamel, which is why they were called labyrinthodonts. The skin was moistened with mucous glands. Other amphibians came out on land to hunt insects. The most characteristic representatives of labyrinthodonts are mastodonosaurs. These animals, whose skulls reached one meter in length, resembled huge frogs in appearance. They hunted fish and therefore rarely left the aquatic environment.

Mastodonosaurus.

The swamps became smaller, and the mastodonosaurs were forced to inhabit ever deeper places, often accumulating in large numbers. That is why many of their skeletons are now being found in small areas.

Reptiles in the Triassic are characterized by considerable diversity. New groups are emerging. Of the cotylosaurs, only procolophons remain - small animals that fed on insects. An extremely curious group of reptiles were the archosaurs, which included thecodonts, crocodiles, and dinosaurs. Representatives of thecodonts, ranging in size from a few centimeters to 6 m, were predators. They still differed in a number of primitive features and looked like Permian pelycosaurs. Some of them - pseudosuchia - had long limbs, a long tail and led a terrestrial lifestyle. Others, including crocodile-like phytosaurs, lived in the water.

Crocodiles of the Triassic period - small primitive animals of protosuchia - lived in fresh water.

Dinosaurs include theropods and prosauropods. Theropods moved on well-developed hind limbs, had a heavy tail, powerful jaws, small and weak forelimbs. In size, these animals ranged from a few centimeters to 15 m. All of them were predators.

Prosauropods ate, as a rule, plants. Some of them were omnivores. They walked on four legs. Prosauropods had a small head, long neck and tail.

Representatives of the synaptosaur subclass led the most diverse lifestyle. Trilophosaurus climbed trees, fed on plant foods. In appearance, he resembled a cat.

Seal-like reptiles lived near the coast, feeding mainly on mollusks. Plesiosaurs lived in the sea, but sometimes came ashore. They reached 15 m in length. They ate fish.

In some places, footprints of a huge animal walking on four legs are quite often found. They called it the chirotherium. Based on the surviving prints, one can imagine the structure of the foot of this animal. Four clumsy toes surrounded a thick, meaty sole. Three of them had claws. The forelimbs of the chirotherium are almost three times smaller than the hind ones. On the wet sand, the animal left deep footprints. With the deposition of new layers, the traces gradually petrified. Later, the land was flooded with the sea, which hid the traces. They were covered with marine sediments. Consequently, in that era, the sea repeatedly flooded. The islands sank below sea level, and the animals living on them were forced to adapt to new conditions. Many reptiles appear in the sea, which undoubtedly descended from mainland ancestors. Turtles with a wide bone shell, dolphin-like ichthyosaurs - fish-lizards and gigantic plesiosaurs with a small head on a long neck quickly developed. Their vertebrae are transformed, limbs are changed. The cervical vertebrae of an ichthyosaur fuse into one bone, and in turtles they grow, forming the upper part of the shell.

The ichthyosaur had a row of homogeneous teeth; teeth disappear in turtles. The five-fingered limbs of ichthyosaurs turn into flippers well adapted for swimming, in which it is difficult to distinguish the shoulder, forearm, wrist and finger bones.

Since the Triassic period, reptiles that have moved to live in the sea gradually populate more and more vast expanses of the ocean.

The oldest mammal found in the Triassic deposits of North Carolina is called the dromaterium, which means "running beast." This "beast" was only 12 cm long. Dromatherium belonged to oviparous mammals. They, like the modern Australian echidna and platypus, did not give birth to cubs, but laid eggs, from which underdeveloped cubs hatched. Unlike reptiles, who did not care about their offspring at all, dromateriums fed their young with milk.

Deposits of oil, natural gases, brown and hard coal, iron and copper ores, and rock salt are associated with deposits of the Triassic period.

The Triassic period lasted 35 million years.

Jurassic period

For the first time, deposits of this period were found in the Jura (mountains in Switzerland and France), hence the name of the period. The Jurassic period is subdivided into three divisions: leyas, doger and malm.

The deposits of the Jurassic period are quite diverse: limestones, clastic rocks, shales, igneous rocks, clays, sands, conglomerates formed in a variety of conditions.

Sedimentary rocks containing many representatives of fauna and flora are widely distributed.

Intensive tectonic movements at the end of the Triassic and at the beginning of the Jurassic contributed to the deepening of the large bays that gradually separated Africa and Australia from Gondwana. The gulf between Africa and America deepened. Depressions formed in Laurasia: German, Anglo-Paris, West Siberian. The Arctic Sea flooded the northern coast of Laurasia.

Intense volcanism and mountain-building processes led to the formation of the Verkhoyansk fold system. The formation of the Andes and the Cordillera continued. Warm sea currents have reached the Arctic latitudes. The climate became warm and humid. This is evidenced by the significant distribution of coral limestones and the remains of thermophilic fauna and flora. There are very few deposits of a dry climate: lagoonal gypsum, anhydrites, salts and red sandstones. The cold season already existed, but it was characterized only by a decrease in temperature. There was no snow or ice.

The climate of the Jurassic period depended on more than just sunlight. Many volcanoes, outpourings of magma on the bottom of the oceans heated the water and the atmosphere, saturated the air with water vapor, which then rained on the land, flowing in stormy streams into lakes and oceans. Numerous freshwater deposits testify to this: white sandstones alternating with dark loams.

The warm and humid climate favored the flourishing of the plant world. Ferns, cicadas, and conifers formed extensive marshy forests. Araucaria, arborvitae, cicadas grew on the coast. Ferns and horsetails formed the undergrowth. In the Lower Jurassic, the vegetation throughout the northern hemisphere was fairly uniform. But already starting from the Middle Jurassic, two plant belts can be identified: the northern one, dominated by ginkgo and herbaceous ferns, and the southern one, with bennetites, cicadas, araucaria, and tree ferns.

The characteristic ferns of the Jurassic period were matonii, which have survived to this day in the Malay Archipelago. Horsetails and club mosses almost did not differ from modern ones. The place of extinct seed ferns and cordaites is occupied by cycads, which now grow in tropical forests.

Ginkgoaceae were also widely distributed. Their leaves turned to the sun with an edge and resembled huge fans. From North America and New Zealand to Asia and Europe, dense forests of coniferous plants grew - araucaria and bennetites. The first cypress and, possibly, spruce trees appear.

The representatives of the Jurassic conifers also include sequoia - a modern giant California pine. Currently, sequoias remain only on the Pacific coast of North America. Separate forms of even more ancient plants have been preserved, for example, glassopteris. But there are few such plants, since they were supplanted by more perfect ones.

The lush vegetation of the Jurassic period contributed to the widespread distribution of reptiles. Dinosaurs have greatly evolved. Among them are lizard and ornithischian. Lizards moved on four legs, had five toes on their feet, and ate plants. Most of them had a long neck, a small head and a long tail. They had two brains: one small - in the head; the second is much larger in size - at the base of the tail.

The largest of the Jurassic dinosaurs was the brachiosaurus, reaching a length of 26 m, weighing about 50 tons. It had columnar legs, a small head, and a thick long neck. Brachiosaurs lived on the shores of the Jurassic lakes, fed on aquatic vegetation. Every day, the brachiosaurus needed at least half a ton of green mass.

Brachiosaurus.

Diplodocus is the oldest reptile, its length was 28 m. It had a long thin neck and a long thick tail. Like a brachiosaurus, diplodocus moved on four legs, the hind legs were longer than the front ones. Diplodocus spent most of his life in swamps and lakes, where he grazed and escaped from predators.

Diplodocus.

Brontosaurus was comparatively tall, had a large hump on its back and a thick tail. Its length was 18 m. The vertebrae of the brontosaurus were hollow. Chisel-shaped small teeth were densely located on the jaws of a small head. The brontosaurus lived in swamps, on the shores of lakes.

Brontosaurus.

Ornithischian dinosaurs are divided into bipedal and quadrupedal. Different in size and appearance, they fed mainly on vegetation, but predators are already appearing among them.

Stegosaurs are herbivores. They had two rows of large plates on their backs and paired spikes on their tails that protected them from predators. Many scaly lepidosaurs appear - small predators with beak-shaped jaws.

In the Jurassic period, flying lizards first appear. They flew with the help of a leathery shell stretched between the long finger of the hand and the bones of the forearm. Flying lizards were well adapted to flight. They had light tubular bones. The extremely elongated outer fifth finger of the forelimbs consisted of four joints. The first finger looked like a small bone or was completely absent. The second, third and fourth fingers consisted of two, rarely three bones and had claws. The hind limbs were quite strongly developed. They had sharp claws at their ends. The skull of flying lizards was relatively large, as a rule, elongated and pointed. In old lizards, the cranial bones fused and the skulls became similar to the skulls of birds. The premaxilla sometimes grew into an elongated toothless beak. Toothed lizards had simple teeth and sat in recesses. The largest teeth were in front. Sometimes they stick out to the side. This helped the lizards to catch and hold prey. The animal spine consisted of 8 cervical, 10–15 dorsal, 4–10 sacral, and 10–40 caudal vertebrae. The chest was wide and had a high keel. The shoulder blades were long, the pelvic bones were fused. The most characteristic representatives of flying lizards are pterodactyl and rhamphorhynchus.

Pterodactyl.

Pterodactyls in most cases were tailless, different in size - from the size of a sparrow to a crow. They had wide wings and a narrow skull extended forward with a small number of teeth in the front. Pterodactyls lived in large flocks on the shores of the lagoons of the late Jurassic sea. During the day they hunted, and at nightfall they hid in trees or in rocks. The skin of pterodactyls was wrinkled and bare. They ate mainly fish, sometimes sea lilies, mollusks, and insects. In order to take off, pterodactyls had to jump off rocks or trees.

Rhamphorhynchus had long tails, long narrow wings, a large skull with numerous teeth. Long teeth of various sizes arched forward. The lizard's tail ended in a blade that served as a rudder. Ramphorhynchus could take off from the ground. They settled on the banks of rivers, lakes and seas, fed on insects and fish.

Ramphorhynchus.

Flying lizards lived only in the Mesozoic era, and their heyday falls on the late Jurassic period. Their ancestors were apparently extinct ancient reptiles pseudosuchia. The long-tailed forms appeared before the short-tailed ones. At the end of the Jurassic, they became extinct.

It should be noted that flying lizards were not the ancestors of birds and bats. Flying lizards, birds and bats originated and developed in their own ways, and there are no close family ties between them. The only thing they have in common is the ability to fly. And although they all acquired this ability due to a change in the forelimbs, the differences in the structure of their wings convince us that they had completely different ancestors.

The seas of the Jurassic period were inhabited by dolphin-like reptiles - ichthyosaurs. They had a long head, sharp teeth, large eyes surrounded by a bone ring. The length of the skull of some of them was 3 m, and the body length was 12 m. The limbs of ichthyosaurs consisted of bone plates. Elbow, metatarsus, hand and fingers did not differ much in shape from each other. About a hundred bone plates supported a wide flipper. Shoulder and pelvic girdle were poorly developed. There were several fins on the body. Ichthyosaurs were viviparous animals. Along with ichthyosaurs lived plesiosaurs. They had a thick body with four flipper-like limbs, a long serpentine neck with a small head.

In the Jurassic, new genera of fossil turtles appear, and at the end of the period, modern turtles.

Tailless frog-like amphibians lived in fresh water. There were a lot of fish in the Jurassic seas: bony, rays, sharks, cartilaginous, ganoid. They had an internal skeleton made of flexible cartilaginous tissue impregnated with calcium salts: a dense bony scaly cover that protected them well from enemies, and jaws with strong teeth.

Of the invertebrates in the Jurassic seas, ammonites, belemnites, sea lilies were found. However, in the Jurassic period, there were much fewer ammonites than in the Triassic. The Jurassic ammonites also differ from the Triassic in their structure, with the exception of the phyloceras, which did not change at all during the transition from the Triassic to the Jura. Separate groups of ammonites have preserved mother-of-pearl to our time. Some animals lived in the open sea, others inhabited bays and shallow inland seas.

Cephalopods - belemnites - swam in whole flocks in the Jurassic seas. Along with small specimens, there were real giants - up to 3 m long.

The remains of internal shells of belemnites, known as "devil's fingers", are found in Jurassic deposits.

In the seas of the Jurassic period, bivalve mollusks, especially those belonging to the oyster family, also developed significantly. They start to form oyster jars.

Significant changes are undergoing sea urchins that settled on reefs. Along with the round forms that have survived to this day, there lived bilaterally symmetrical, irregularly shaped hedgehogs. Their body was stretched in one direction. Some of them had a jaw apparatus.

The Jurassic seas were relatively shallow. The rivers brought muddy water into them, delaying gas exchange. Deep bays were filled with decaying remains and silt containing large amounts of hydrogen sulfide. That is why in such places the remains of animals, carried by sea currents or waves, are well preserved.

Sponges, starfish, sea lilies often overwhelm Jurassic deposits. In the Jurassic period, "five-armed" sea lilies became widespread. Many crustaceans appear: barnacles, decapods, leaf-legged crayfish, freshwater sponges, among insects - dragonflies, beetles, cicadas, bedbugs.

In the Jurassic period, the first birds appear. Their ancestors were the ancient reptile pseudosuchia, which also gave rise to dinosaurs and crocodiles. Ornithosuchia is most similar to birds. She, like birds, moved on her hind legs, had a strong pelvis and was covered with feather-like scales. Part of pseudosuchia moved to live on trees. Their forelimbs were specialized for grasping branches with their fingers. There were lateral depressions on the skull of Pseudosuchia, which significantly reduced the mass of the head. Climbing trees and jumping on branches strengthened the hind limbs. Gradually expanding forelimbs supported the animals in the air and allowed them to glide. An example of such a reptile is scleromochlus. His long thin legs indicate that he jumped well. The elongated forearms helped the animals to climb and cling to the branches of trees and bushes. The most important moment in the process of turning reptiles into birds was the transformation of scales into feathers. The heart of the animals had four chambers, which ensured a constant body temperature.

In the late Jurassic period, the first birds appear - Archeopteryx, the size of a dove. In addition to short feathers, Archeopteryx had seventeen flight feathers on its wings. The tail feathers were located on all tail vertebrae and were directed back and down. Some researchers believe that the feathers of the bird were bright, like those of modern tropical birds, others - that the feathers were gray or brown, and others - that they were variegated. The mass of the bird reached 200 g. Many signs of Archeopteryx indicate its family ties with reptiles: three free fingers on the wings, a head covered with scales, strong conical teeth, and a tail consisting of 20 vertebrae. The vertebrae of the bird were biconcave, like those of fish. Archeopteryx lived in araucaria and cicada forests. They fed mainly on insects and seeds.

Archeopteryx.

Among mammals, predators appeared. Small in size, they lived in forests and dense bushes, hunting small lizards and other mammals. Some of them have adapted to life in trees.

Deposits of coal, gypsum, oil, salt, nickel and cobalt are associated with the Jurassic deposits.

This period lasted 55 million years.

Cretaceous period

The Cretaceous period got its name because powerful chalk deposits are associated with it. It is divided into two sections: lower and upper.

Mountain-building processes at the end of the Jurassic significantly changed the outlines of the continents and oceans. North America, previously separated from the vast Asian continent by a wide strait, joined with Europe. In the east, Asia joined America. South America completely separated from Africa. Australia was where it is today, but was smaller. The formation of the Andes and the Cordillera, as well as individual ranges of the Far East, continues.

In the Upper Cretaceous period, the sea flooded vast areas of the northern continents. Western Siberia and Eastern Europe, most of Canada and Arabia were under water. Thick strata of chalk, sands, and marls accumulate.

At the end of the Cretaceous period, mountain building processes are again activated, as a result of which the mountain ranges of Siberia, the Andes, the Cordillera and the mountain ranges of Mongolia were formed.

The climate has changed. In the high latitudes in the north, during the Cretaceous period, there was already a real winter with snow. Within the boundaries of the modern temperate zone, some tree species (walnut, ash, beech) did not differ in any way from modern ones. The leaves of these trees fell for the winter. However, as before, the climate as a whole was much warmer than today. Ferns, cycads, ginkgos, bennetites, conifers, in particular sequoias, yews, pines, cypresses, and spruces were still common.

In the middle of the Cretaceous, flowering plants flourish. At the same time, they are replacing representatives of the most ancient flora - spore and gymnosperms. It is believed that flowering plants originated and developed in the northern regions, subsequently they settled throughout the planet. Flowering plants are much younger than conifers known to us since the Carboniferous period. Dense forests of giant tree ferns and horsetails had no flowers. They adapted well to the conditions of life of that time. However, gradually the humid air of the primary forests became more and more dry. There was very little rain, and the sun was unbearably hot. The soil dried up in areas of primary swamps. Deserts arose on the southern continents. Plants have moved to areas with a cooler, wetter climate in the north. And then the rains came again, saturating the damp soil. The climate of ancient Europe became tropical, and forests similar to modern jungles arose on its territory. The sea recedes again, and the plants that inhabited the coast in a humid climate found themselves in a drier climate. Many of them died, but some adapted to the new living conditions, forming fruits that protected the seeds from drying out. The descendants of such plants gradually populated the entire planet.

The soil has also changed. Silt, the remains of plants and animals enriched it with nutrients.

In primary forests, plant pollen was carried only by wind and water. However, the first plants appeared, the pollen of which fed on insects. Part of the pollen stuck to the wings and legs of insects, and they carried it from flower to flower, pollinating plants. In pollinated plants, the seeds ripened. Plants that were not visited by insects did not multiply. Therefore, only plants with fragrant flowers of various shapes and colors spread.

With the advent of flowers, insects also changed. Among them, insects appear that cannot live without flowers at all: butterflies, bees. Pollinated flowers develop into fruits with seeds. Birds and mammals ate these fruits and carried the seeds over long distances, spreading the plants to new parts of the continents. Many herbaceous plants appeared, populating the steppes and meadows. The leaves of the trees fell off in autumn, and curled up in the summer heat.

Plants spread throughout Greenland and the islands of the Arctic Ocean, where it was relatively warm. At the end of the Cretaceous, with the cooling of the climate, many cold-resistant plants appeared: willow, poplar, birch, oak, viburnum, which are also characteristic of the flora of our time.

With the development of flowering plants, by the end of the Cretaceous, the bennetites died out, and the number of cycads, ginkgos, and ferns significantly decreased. Along with the change in vegetation, the fauna also changed.

Foraminifers spread considerably, the shells of which formed thick deposits of chalk. The first nummulites appear. Corals formed reefs.

Ammonites of the Cretaceous seas had shells of a peculiar shape. If all the ammonites that existed before the Cretaceous period had shells wrapped in one plane, then the Cretaceous ammonites had elongated shells, bent in the form of a knee, spherical and straight ones were encountered. The surface of the shells was covered with spikes.

According to some researchers, the bizarre forms of Cretaceous ammonites are a sign of the aging of the entire group. Although some representatives of ammonites still continued to multiply at a high rate, their vital energy in the Cretaceous period almost dried up.

According to other scientists, ammonites were exterminated by numerous fish, crustaceans, reptiles, mammals, and outlandish forms of Cretaceous ammonites are not a sign of aging, but mean an attempt to somehow protect themselves from excellent swimmers, which bony fish and sharks had become by that time.

The disappearance of ammonites was also facilitated by a sharp change in physical and geographical conditions in the Cretaceous.

Belemnites, which appeared much later than ammonites, also completely die out in the Cretaceous period. Among the bivalve mollusks there were animals, different in shape and size, closing the valves with the help of teeth and pits. In oysters and other mollusks attached to the seabed, the valves become different. The lower sash looked like a deep bowl, and the upper one looked like a lid. Among the Rudists, the lower wing turned into a large thick-walled glass, inside of which there was only a small chamber for the mollusk itself. The round, lid-like top flap covered the lower one with strong teeth, with which it could rise and fall. Rudists lived mainly in the southern seas.

In addition to bivalve mollusks, whose shells consisted of three layers (outer horny, prismatic and mother-of-pearl), there were mollusks with shells that had only a prismatic layer. These are mollusks of the genus Inoceramus, widely settled in the seas of the Cretaceous period - animals that reached one meter in diameter.

In the Cretaceous period, many new species of gastropods appear. Among sea urchins, the number of irregular heart-shaped forms is especially increasing. And among sea lilies, varieties appear that do not have a stem and float freely in the water with the help of long feathery “arms”.

Great changes have taken place among the fish. In the seas of the Cretaceous period, ganoid fish are gradually dying out. The number of bony fish is increasing (many of them still exist today). Sharks gradually acquire a modern look.

Numerous reptiles still lived in the sea. The descendants of ichthyosaurs that died out at the beginning of the Cretaceous reached 20 m in length and had two pairs of short flippers.

New forms of plesiosaurs and pliosaurs appear. They lived on the high seas. Crocodiles and turtles inhabited freshwater and saltwater basins. Large lizards with long spikes on their backs and huge pythons lived on the territory of modern Europe.

Of the terrestrial reptiles for the Cretaceous period, trachodons and horned lizards were especially characteristic. Trachodons could move both on two and on four legs. Between the fingers they had membranes that helped them swim. The jaws of trachodons resembled a duck's beak. They had up to two thousand small teeth.

Triceratops had three horns on their heads and a huge bone shield that reliably protected animals from predators. They lived mostly in dry places. They ate vegetation.

Triceratops.

Styracosaurs had nasal outgrowths - horns and six horny spikes on the posterior edge of the bone shield. Their heads reached two meters in length. The spikes and horns made styracosaurs dangerous to many predators.

The most terrible predatory lizard was a tyrannosaurus rex. It reached a length of 14 m. Its skull, more than a meter long, had large sharp teeth. Tyrannosaurus moved on powerful hind legs, leaning on a thick tail. Its front legs were small and weak. From the tyrannosaurs, fossilized traces remained, 80 cm long. The step of the tyrannosaurus was 4 m.

Tyrannosaur.

Ceratosaurus was a relatively small but fast predator. He had a small horn on his head and a bone crest on his back. Ceratosaurus moved on its hind legs, each of which had three fingers with large claws.

Torbosaurus was rather clumsy and preyed mainly on sedentary scolosaurs, which resembled modern armadillos in appearance. Thanks to powerful jaws and strong teeth, Torbosaurs easily gnawed through the thick bone carapace of scolosaurs.

Scolosaurus.

The flying lizards still continued to exist. The huge pteranodon, whose wingspan was 10 m, had a large skull with a long bone crest on the back of the head and a long toothless beak. The body of the animal was relatively small. Pteranodons ate fish. Like modern albatrosses, they spent most of their lives in the air. Their colonies were by the sea. Recently, the remains of another Pteranodon have been found in the Cretaceous of America. Its wingspan reached 18 m.

Pteranodon.

There are birds that could fly well. The Archeopteryx are completely extinct. However, some birds had teeth.

In Hesperornis, a waterfowl, the long finger of the hind limbs was connected to the other three by a short swimming membrane. All fingers had claws. From the forelimbs, only slightly bent humerus in the form of a thin stick remained. Hesperornis had 96 teeth. The young teeth grew inside the old ones and replaced them as soon as they fell out. Hesperornis is very similar to the modern loon. It was very difficult for him to move on land. Raising the front part of the body and pushing off the ground with its feet, Hesperornis moved in small jumps. However, in the water he felt free. He dived well, and it was very difficult for the fish to avoid his sharp teeth.

Hesperornis.

Ichthyornis, contemporaries of the Hesperornis, were the size of a dove. They flew well. Their wings were strongly developed, and the sternum had a high keel, to which powerful pectoral muscles were attached. The beak of the Ichthyornis had many small, recurved teeth. The small brain of ichthyornis resembled the brain of reptiles.

Ichthyornis.

In the late Cretaceous period, toothless birds appear, whose relatives - flamingos - exist in our time.

Amphibians are no different from modern ones. And mammals are represented by predators and herbivores, marsupials and placentals. They do not yet play a significant role in nature. However, at the end of the Cretaceous period - the beginning of the Cenozoic era, when giant reptiles died out, mammals spread widely across the Earth, taking the place of dinosaurs.

There are many hypotheses regarding the reasons for the extinction of dinosaurs. Some researchers believe that the main reason for this was mammals, which appeared in abundance at the end of the Cretaceous period. Predatory mammals exterminated dinosaurs, and herbivores intercepted plant food from them. A large group of mammals fed on dinosaur eggs. According to other researchers, the main reason for the mass death of dinosaurs was a sharp change in physical and geographical conditions at the end of the Cretaceous period. Cooling and droughts led to a sharp decrease in the number of plants on Earth, as a result of which the dinosaur giants began to feel a lack of food. They perished. And predators, for which dinosaurs served as prey, also died, because they had nothing to eat. Perhaps the heat of the sun was not enough for the embryos to mature in the eggs of dinosaurs. In addition, the cold snap had a detrimental effect on adult dinosaurs. Not having a constant body temperature, they depended on the temperature of the environment. Like modern lizards and snakes, they were active in warm weather, but in cold weather they moved sluggishly, could fall into winter stupor and became easy prey for predators. Dinosaur skin did not protect them from the cold. And they almost did not care about their offspring. Their parental functions were limited to laying eggs. Unlike dinosaurs, mammals had a constant body temperature and therefore suffered less from cold snaps. In addition, they were protected by wool. And most importantly, they fed their cubs with milk, took care of them. Thus, mammals had certain advantages over dinosaurs.

Birds that had a constant body temperature and were covered with feathers also survived. They incubated the eggs and fed the chicks.

Of the reptiles, those who hid from the cold in burrows that lived in warm areas survived. From them came modern lizards, snakes, turtles and crocodiles.

Large deposits of chalk, coal, oil and gas, marls, sandstones, bauxites are associated with the deposits of the Cretaceous period.

The Cretaceous period lasted 70 million years.