In appearance, the habitats of fish were determined. Superclass Pisces. External building. Features of the external structure of fish

Fish are the largest group of vertebrates. It includes about 30 thousand modern species. Fish are divided into two classes - Cartilaginous fish (sharks, rays) and Bony fish (sturgeon, salmon, herring, crucian carp, perch, pike, etc.). The main criterion for such a division is the substance that makes up the internal skeleton of fish - cartilage or bone.

Fish inhabit various water bodies of our planet: oceans, seas, rivers, lakes, ponds. The aquatic environment is very extensive: the area occupied by the oceans exceeds 70% of the Earth's surface, and the deepest depressions go 11 thousand meters deep into the oceans.

The variety of living conditions in the water influenced the appearance of fish and led to the emergence of a wide variety of forms: the emergence of many adaptations to specific habitat conditions (Fig. 115).

Rice. 115. Fish of various ecological groups: 1,2 - living in the water column (pelagic) tuna and cod: 3 - surface flying fish; 4 - bottom flounder

In fish, the laterally compressed body has a streamlined shape. It has a head, body and tail.

Outside, the body of the fish is covered with skin, in which there are small (like perch) or large (like carp) bone scales. They tile-like overlap each other and tightly cover the body and tail. The scales are constantly growing, and annual rings are formed on it; they can be used to determine the age of the fish (Fig. 116, B, C). There are fish and bare-skinned, without scales (for example, catfish). The body of the fish is slippery, as it is covered with secretions of mucous glands located in the skin. The scales are painted in silver-gray, black tones. Many fish are characterized by bright colors, especially those that live among coral reefs.

Rice. 116. The external structure of the fish: A - the general plan of the structure: 1 - nostril; 2 - eye; 3 - mouth; 4 - gill cover; 5 - pectoral fin; 6 - ventral fins; 7 - dorsal fin; 8 - anus; 9 - anal fin; 10 - lateral line; 11 - tail fin; B - scales with annual rings; B - determining the age of the fish

Fish have limbs - unpaired and paired fins. Unpaired are dorsal, caudal and anal, or caudal. The most important of them is the tail. It serves as the main motor organ - with its help, the fish move forward. Bottom on the sides are paired fins: front - pectoral, rear - abdominal. The pectorals are more mobile, they are involved in turning the body in the water, moving up, down and to the sides. The ventral and non-paired fins hold the body of the fish in a normal, upright position. Three openings are visible behind the ventral fins: anal, genital and urinary. Undigested food residues are ejected through the anal, harmful waste products are excreted through the urinary tract, reproductive products are excreted through the genitals: caviar in females and seminal fluid in males.

On the sides of the body of the fish are the organs of the lateral line - channels lying in the skin under the scales, at the bottom of which there are sensitive cells that perceive water vibrations. These organs allow the fish to perceive streams of water flowing around the body, to distinguish objects due to the waves that depart from these objects.

Other sense organs are located on the head. The border between the head and the body is considered the posterior edge of the gill covers (see Fig. 116, A). They cover their gills and constantly move, providing fresh water rich in oxygen to the gills. The border between the trunk and tail is conditionally drawn at the level of the anus.

A mouth is visible on the front of the head. The mouth of the fish captures food and draws in the water necessary for breathing. Above the mouth are nostrils that open into the organs of smell, with the help of which the fish perceives the smells of substances dissolved in water. The eyes of the fish are quite large. The anterior side of the outer shell (cornea) is flat. Below it is a convex lens (crystalline lens), which gives a reduced image of objects on the retina, cells that perceive light stimuli. Fish see at close range and distinguish colors.

The hearing organs are not visible on the surface of the head: they are located on the sides of the head inside the skull. Sound waves in the water the fish perceives the entire surface of the body. These vibrations cause irritation of the nerve endings of the inner ear, and the resulting excitations are transmitted along the auditory nerves to the brain. Near the inner ear is the organ of balance, thanks to which the fish feels the position of its body, moving up and down.

Lab #6

Subject. The external structure and features of the movement of fish.

Target. To study the external structure and methods of movement of fish.

Equipment: a jar of fish in water, a magnifying glass, a glass slide, fish scales.

Working process

1. Consider a fish in a jar of water. Explain the importance of her body shape.
2. Consider the coloration of the body of the fish on the ventral and dorsal sides. If it is different, then indicate the reasons for these differences.
3. How are the scales on the body of a fish? What significance does this have for the life of fish in the water? Using a magnifying glass, examine the structure of a separate scale.
4. Find the body parts of the fish: head, body, tail. Set their boundaries. Explain the importance of smooth transitions of body parts for the life of fish in water.
5. Find the nostrils, eyes, lateral line of the fish. What is the importance of these organs in the life of a fish? Find out what is the peculiarity of the structure of the eyes.
6. Examine the fins of the fish. Which of them are paired, which are unpaired. Watch how the fins work as the fish moves through the water.
7. Sketch the fish in question. Label the parts of the body in the drawing. Make a conclusion about the adaptability of fish to life in water. Draw a fish scale, marking the light and dark stripes. What is the age of the fish from which this scale was taken?

Fish are well adapted to life in the aquatic environment. They have a streamlined body shape, fins that provide movement in the water, sensory organs that allow them to navigate in the water.

Lesson learned exercises

1. In appearance, determine the habitats of the fish shown in Figure 115 (p. 10).
2. What is the structure of the integuments of the body of fish and what is their significance in the life of fish?
3. What sensory organs do fish use to navigate in the water?
4. Name the fins of a fish and describe their functions.

Of the 40-41 thousand species of vertebrates that exist on earth, fish is the most species-rich group: it has over 20 thousand living representatives. Such a variety of species is explained, first of all, by the fact that fish are one of the most ancient animals on earth - they appeared 400 million years ago, that is, when there were no birds, amphibians, or mammals on the globe . During this period, fish have adapted to live in a wide variety of conditions: they live in the World Ocean, at depths of up to 10,000 m, and in alpine lakes, at an altitude of up to 6,000 m, some of them can live in mountain rivers, where the water speed reaches 2 m / s, and others - in stagnant water bodies.

Of the 20 thousand species of fish, 11.6 thousand are marine, 8.3 thousand are freshwater, and the rest are anadromous. All fish belonging to a number of fish, on the basis of their similarity and relationship, are divided according to the scheme developed by the Soviet academician L. S. Berg into two classes: cartilaginous and bone. Each class consists of subclasses, subclasses of superorders, superorders of orders, orders of families, families of genera, and genera of species.

Each species has characteristics that reflect its adaptability to certain conditions. All individuals of a species can interbreed and produce offspring. Each species in the process of development has adapted to the known conditions of reproduction and nutrition, temperature and gas conditions, and other factors of the aquatic environment.

The shape of the body is very diverse, which is caused by the adaptation of fish to various, sometimes very peculiar, conditions of the aquatic environment (Fig. 1.). The following forms are most common: torpedo-shaped, arrow-shaped, ribbon-shaped, eel-shaped, flat and spherical.

The body of the fish is covered with skin, which has the upper layer - the epidermis and the lower - the corium. The epidermis consists of a large number of epithelial cells; in this layer there are mucus secretion, pigment, luminous and poisonous glands. The corium, or skin proper, is a connective tissue permeated with blood vessels and nerves. There are also clusters of large pigment cells and guanine crystals, which give the skin of fish a silvery color.

In most fish, the body is covered with scales. It does not exist in fish swimming at low speeds. The scales ensure the smoothness of the surface of the body and prevent the appearance of skin folds on the sides.

Freshwater fish have bony scales. According to the nature of the surface, two types of bony scales are distinguished: cycloid with a smooth posterior edge (cyprinids, herring) and ctenoid, the posterior edge of which is armed with spines (perch). The age of bony fish is determined from annual rings of bony scales (Fig. 2).

The age of the fish is also determined by the bones (bones of the gill cover, jawbone, large integumentary bone of the shoulder girdle - cleistrum, sections of hard and soft rays of the fins, etc.) and otoliths (calcareous formations in the ear capsule), where, as on the scales, stratifications corresponding to the annual cycles of life.

The body of sturgeon fish is covered with a special type of scales - bugs, they are located on the body in longitudinal rows, have a conical shape.

The skeleton of fish can be cartilaginous (sturgeon and lampreys) and bone (all other fish).

Fish fins are: paired - pectoral, ventral and unpaired - dorsal, anal, caudal. The dorsal fin can be one (for cyprinids), two (for perch) and three (for cod). The adipose fin without bony rays is a soft skin outgrowth on the back of the back (in salmon). The fins provide balance to the body of the fish and its movement in different directions. The caudal fin creates a driving force and acts as a rudder, providing maneuverability of the fish when turning. The dorsal and anal fins support the normal position of the body of the fish, that is, they act as a keel. Paired fins maintain balance and are rudders of turns and depth (Fig. 3).

The respiratory organ is the gills, which are located on both sides of the head and are covered with covers. When breathing, the fish swallows water through the mouth and pushes it out through the gills. Blood from the heart enters the gills, enriched with oxygen, and spreads through the circulatory system. Carp, crucian carp, catfish, eel, loach and other fish that inhabit lake water bodies, where oxygen is often lacking, are able to breathe with their skin. In some fish, the swim bladder, intestines, and special additional organs are able to use atmospheric oxygen. So, snakehead, basking in shallow water, can breathe air through the supragillary organ. The circulatory system of fish consists of the heart and blood vessels. Their heart is two-chambered (has only an atrium and a ventricle), directs venous blood through the abdominal aorta to the gills. The most powerful blood vessels run along the spine. Fish have only one circulation. The digestive organs of fish are the mouth, pharynx, esophagus, stomach, liver, intestines, ending in the anus.

The shape of the mouth in fish is varied. Plankton-feeding fish have an upper mouth, bottom-feeding fish have a lower mouth, and predatory fish have a terminal mouth. Many fish have teeth. Carp fish have pharyngeal teeth. Behind the mouth of the fish is the oral cavity, where food initially enters, then it goes to the pharynx, esophagus, stomach, where it begins to be digested under the action of gastric juice. Partially digested food enters the small intestine, where the ducts of the pancreas and liver flow. The latter secretes bile, which accumulates in the gallbladder. Carp fish do not have a stomach, and food is digested in the intestines. Undigested food remains are excreted into the hindgut and through the anus are removed to the outside.

The excretory system of fish serves to remove metabolic products and ensure the water-salt composition of the body. The main organs of excretion in fish are the paired trunk kidneys with their excretory ducts - the ureters, through which urine enters the bladder. To some extent, the skin, gills and intestines take part in excretion (removal of end products of metabolism from the body).

The nervous system is divided into the central nervous system, which includes the brain and spinal cord, and the peripheral nervous system, which is the nerves extending from the brain and spinal cord. Nerve fibers depart from the brain, the endings of which come to the surface of the skin and form in most fish a pronounced lateral line that runs from the head to the beginning of the rays of the caudal fin. The lateral line serves to orient the fish: determine the strength and direction of the current, the presence of underwater objects, etc.

The organs of vision - two eyes - are located on the sides of the head. The lens is round, does not change shape and almost touches the flat cornea, therefore the fish are short-sighted: most of them distinguish objects at a distance of up to 1 m, and at most 1 they see no more than 10-15 m.

The nostrils are located in front of each eye, leading to a blind olfactory sac.

The organ of hearing of fish is also an organ of balance, it is located in the back of the skull, a cartilaginous, or bone, chamber: it consists of upper and lower sacs in which otoliths are located - pebbles consisting of calcium compounds.

Taste organs in the form of microscopic taste cells are located in the membrane of the oral cavity and on the entire surface of the body. Fish have a well-developed sense of touch.

The reproductive organs in females are the ovaries (ovaries), in males - the testes (milk). Inside the ovary there are eggs, which in different fish have different sizes and colors. The caviar of most fish is edible and is a highly valuable food product. Sturgeon and salmon caviar is distinguished by the highest nutritional quality.

The hydrostatic organ that provides buoyancy to fish is a swim bladder filled with a mixture of gases and located above the entrails. Some demersal fish lack a swim bladder.

The temperature sense of fish is associated with receptors located in the skin. The simplest reaction of fish to a change in water temperature is to move to places where the temperature is more favorable for them. Fish do not have mechanisms of thermoregulation, their body temperature is unstable and corresponds to the temperature of the water or differs slightly from it.

Fish and the environment

Not only different types of fish live in the water, only different types of fish, but also thousands of living beings, plants and microscopic organisms. Reservoirs where fish live differ from each other in physical and chemical properties. All these factors affect the biological processes occurring in the water and, consequently, the life of fish.

The relationship of fish with the environment is combined into two groups of factors: abiotic and biotic.

Biotic factors include the world of animal and plant organisms that surround the fish in the water and act on it. This also includes intraspecific and interspecific relationships of fish.

The physical and chemical properties of water (temperature, salinity, gas content, etc.) that affect fish are called abiotic factors. Abiotic factors also include the size of the reservoir and its depth.

Without knowledge and study of these factors, it is impossible to successfully engage in fish farming.

The anthropogenic factor is the impact of human economic activity on the reservoir. Land reclamation increases the productivity of water bodies, while pollution and water abstraction reduce their productivity or turn them into dead water bodies.

Abiotic factors of water bodies

The aquatic environment where the fish lives has certain physical and chemical properties, the change of which is reflected in the biological processes occurring in the water, and, consequently, in the life of fish and other living organisms and plants.

Water temperature. Different types of fish live at different temperatures. So, in the mountains of California, the lukaniye fish lives in warm springs at a water temperature of + 50 ° C and above, and crucian carp spend the winter in hibernation at the bottom of a frozen reservoir.

Water temperature is an important factor for the life of fish. It affects the timing of spawning, development of eggs, growth rate, gas exchange, digestion.

Oxygen consumption is directly dependent on water temperature: when it decreases, oxygen consumption decreases, and when it rises, it increases. The temperature of the water also affects the nutrition of the fish. With its increase, the rate of digestion of food in fish increases, and vice versa. So, carp feeds most intensively at water temperature +23...+29°C, and at +15...+17°C it reduces its nutrition by three to four times. Therefore, pond farms constantly monitor the water temperature. In fish farming, pools at thermal and nuclear power plants, underground thermal waters, warm sea currents, etc. are widely used.

The fish of our reservoirs and seas are divided into heat-loving (carp, sturgeon, catfish, eels) and cold-loving (cod and salmon). In the reservoirs of Kazakhstan, mainly heat-loving fish live, with the exception of bred new fish, such as trout and whitefish, which are cold-loving. Some species - crucian carp, pike, roach, marinka and others - withstand fluctuations in water temperature from 20 to 25 ° C.

Heat-loving fish (carp, bream, roach, catfish, etc.) in winter concentrate in areas of the deep zone determined for each species, they show passivity, their feeding slows down or stops completely.

Fish that lead an active lifestyle in the winter (salmon, whitefish, pike perch, etc.) are cold-loving.

The distribution of commercial fish in large bodies of water usually depends on the temperature in different parts of this body of water. It is used for fishing and commercial reconnaissance.

Salinity of water also acts on fish, although most of them withstand its vibrations. The salinity of water is defined in thousandths: 1 ppm is equal to 1 g of dissolved salts in 1 liter of sea water, and it is indicated by the sign ‰. Some fish species can withstand water salinity up to 70‰, i.e. 70 g/l.

According to the habitat and in relation to the salinity of the water, fish are usually divided into four groups: marine, freshwater, anadromous and brackish-water.

Marine include fish that live in the oceans and coastal sea waters. Freshwater fish constantly live in fresh water. Anadromous fish for breeding either move from sea water to fresh water (salmon, herring, sturgeon) or from fresh water to sea water (some eels). Brackish-water fish live in desalinated areas of the seas and in inland seas with low salinity.

For fish living in lake reservoirs, ponds and rivers, it is important the presence of gases dissolved in water- oxygen, hydrogen sulfide and other chemical elements, as well as the smell, color and taste of water.

An important indicator for the life of fish is amount of dissolved oxygen in water. For carp fish, it should be 5-8, for salmon - 8-11 mg / l. When the oxygen concentration decreases to 3 mg/l, the carp feels bad and eats worse, and at 1.2-0.6 mg/l it can die. When the lake becomes shallow, when the water temperature rises and when it is overgrown with vegetation, the oxygen regime deteriorates. In shallow reservoirs, when their surface is covered with a dense layer of ice and snow in winter, the access of atmospheric oxygen stops and after a while, usually in March (if you do not make an ice hole), the death of fish begins from oxygen starvation, or the so-called "zamora".

Carbon dioxide plays an important role in the life of a reservoir, is formed as a result of biochemical processes (decomposition of organic matter, etc.), it combines with water and forms carbonic acid, which, interacting with bases, gives bicarbonates and carbonates. The content of carbon dioxide in water depends on the time of year and the depth of the reservoir. In summer, when aquatic plants absorb carbon dioxide, there is very little of it in the water. High concentrations of carbon dioxide are harmful to fish. When the content of free carbon dioxide is 30 mg/l, the fish feeds less intensively, its growth slows down.

hydrogen sulfide It is formed in water in the absence of oxygen and causes the death of fish, and the strength of its action depends on the temperature of the water. At high water temperatures, fish quickly die from hydrogen sulfide.

With the overgrowth of reservoirs and the decay of aquatic vegetation, the concentration of dissolved organic substances in the water increases and the color of the water changes. In swampy water bodies (brown water), fish cannot live at all.

Transparency- one of the important indicators of the physical properties of water. In clean lakes, plant photosynthesis proceeds at a depth of 10-20 m, in reservoirs with low-transparency water - at a depth of 4-5 m, and in ponds in summer the transparency does not exceed 40-60 cm.

The degree of water transparency depends on a number of factors: in rivers - mainly on the amount of suspended particles and, to a lesser extent, on dissolved and colloidal substances; in stagnant water bodies - ponds and lakes - mainly from the course of biochemical processes, for example, from the blooming of water. In any case, the decrease in the transparency of water is associated with the presence of the smallest suspended mineral and organic particles in it. Getting on the gills of fish, they make it difficult for them to breathe.

Pure water is a chemically neutral compound with equally acidic and alkaline properties. Hydrogen and hydroxyl ions are present in equal amounts. Based on this property of pure water, the concentration of hydrogen ions is determined in pond farms; for this purpose, a water pH indicator has been established. When the pH is 7, then this corresponds to the neutral state of water, less than 7 is acidic, and above 7 is alkaline.

In most fresh water bodies, the pH is 6.5-8.5. In summer, with intensive photosynthesis, an increase in pH to 9 and above is observed. In winter, when carbon dioxide accumulates under the ice, its lower values ​​are observed; The pH also changes during the day.

In pond and lake-commodity fish farming, regular monitoring of water quality is established: the pH of the water, color, transparency and its temperature are determined. Each fish farm for conducting hydrochemical water analysis has its own laboratory equipped with the necessary instruments and reagents.

Biotic factors of water bodies

Biotic factors are of great importance for the life of fish. In each reservoir, sometimes dozens of species of fish mutually exist, which differ from each other in the nature of their diet, location in the reservoir, and other characteristics. Distinguish intraspecific, interspecific relationships of fish, as well as the relationship of fish with other aquatic animals and plants.

Intraspecific relations of fish are aimed at ensuring the existence of a species by forming single-species groups: schools, elementary populations, aggregations, etc.

Many fish lead flock image life (Atlantic herring, anchovy, etc.), and most fish gather in flocks only at a certain period (during spawning or feeding). Flocks are formed from fish of a similar biological state and age and are united by the unity of behavior. Schooling is an adaptation of fish to find food, find migration routes, and protect themselves from predators. A school of fish is often called a school. However, there are some species that do not gather in flocks (catfish, many sharks, lumpfish, etc.).

An elementary population represents a grouping of fish, mostly of the same age, similar in physiological state (fatness, degree of puberty, amount of hemoglobin in the blood, etc.), and persists for life. They are called elementary because they do not break up into any intraspecific biological groups.

A herd, or population, is a single-species self-reproducing group of fish of different ages, inhabiting a certain area and tied to certain places of reproduction, feeding and wintering.

An accumulation is a temporary association of several schools and elementary fish populations, which is formed as a result of a number of reasons. These include collections:

spawning, arising for reproduction, consisting almost exclusively of sexually mature individuals;

migratory, arising on the ways of movement of fish for spawning, feeding or wintering;

feeding, formed at the places of feeding of fish and caused mainly by the concentration of food objects;

wintering, arising in the wintering places of fish.

Colonies form as temporary protective groups of fish, usually consisting of individuals of the same sex. They are formed at breeding sites to protect egg clutches from enemies.

The nature of the reservoir and the number of fish in it affect their growth and development. So, in small reservoirs, where there are a lot of fish, they are smaller than in large reservoirs. This can be seen in the example of carp, bream and other fish species, which have become larger in the Bukhtarma, Kapchagai, Chardara and other reservoirs than they were before in the former lake. Zaisan, the Balkhash-Ili basin and in the lake reservoirs of the Kzyl-Orda region.

An increase in the number of fish of one species often leads to a decrease in the number of fish of another species. So, in reservoirs where there is a lot of bream, the number of carp is reduced, and vice versa.

There is competition between individual fish species for food. If there are predatory fish in the reservoir, peaceful and smaller fish serve as food for them. With an excessive increase in the number of predatory fish, the number of fish that serve as food for them decreases and, at the same time, the breed quality of predatory fish deteriorates, they are forced to switch to cannibalism, that is, they eat individuals of their own species and even their descendants.

The nutrition of fish is different, depending on their type, age, and also the time of year.

stern fish are planktonic and benthic organisms.

Plankton from the Greek planktos - soaring - is a collection of plant and animal organisms that live in water. They are completely devoid of organs of movement, or have weak organs of movement that cannot resist the movement of water. Plankton is divided into three groups: zooplankton - animal organisms represented by various invertebrates; phytoplankton are plant organisms represented by a variety of algae, and bacterioplankton occupies a special place (Fig. 4 and 5).

Planktonic organisms tend to be small and have a low density, which helps them float in the water column. Freshwater plankton consists mainly of protozoa, rotifers, cladocerans and copepods, green, blue-green and diatoms. Many of the planktonic organisms are food for juvenile fish, and some are also eaten by adult planktivorous fish. Zooplankton has high nutritional qualities. So, in daphnia, the dry matter of the body contains 58% protein and 6.5% fat, and in cyclops - 66.8% protein and 19.8% fat.

The population of the bottom of the reservoir is called benthos, from the Greek benthos- depth (Fig. 6 and 7). Benthic organisms are represented by diverse and numerous plants (phytobenthos) and animals (zoobenthos).

By nature of food fish of inland waters are divided into:

1. Herbivores that eat mainly aquatic flora (grass carp, silver carp, roach, rudd, etc.).

2. Animal eaters that eat invertebrates (roach, bream, whitefish, etc.). They are divided into two subgroups:

planktophages that feed on protozoa, diatoms and some algae (phytoplankton), some coelenterates, molluscs, eggs and larvae of invertebrates, etc.;

benthophages that feed on organisms that live on the ground and in the soil of the bottom of reservoirs.

3. Ichthyophages, or carnivores that feed on fish, vertebrates (frogs, waterfowl, etc.).

However, this division is conditional.

Many fish have a mixed diet. For example, carp is omnivorous, eating both plant and animal food.

The fish are different according to the nature of the laying of eggs during the spawning period. The following ecological groups are distinguished here;

lithophiles- breed on rocky ground, usually in rivers, on the current (sturgeon, salmon, etc.);

phytophiles- breed among plants, lay eggs on vegetative or dead plants (carp, carp, bream, pike, etc.);

psammophiles- lay eggs on the sand, sometimes attaching it to the roots of plants (peled, vendace, gudgeon, etc.);

pelagophiles- they spawn into the water column, where it develops (amour, silver carp, herring, etc.);

ostracophiles- lay eggs inside

the mantle cavity of molluscs and sometimes under the shells of crabs and other animals (mustards).

Fish are in a complex relationship with each other, life and their growth depend on the state of water bodies, on biological and biochemical processes occurring in the water. For artificial breeding of fish in reservoirs and for the organization of commercial fish farming, it is necessary to study well the existing reservoirs and ponds, to know the biology of fish. Fish-breeding activities carried out without knowledge of the matter can only cause harm. Therefore, fishery enterprises, state farms, collective farms should have experienced fish farmers and ichthyologists.

Lesson number 32. Superclass Pisces. General characteristics, external structure L/R № 6 "The external structure and features of the movement of fish"

Target: the formation of students' ideas aboutfeatures of the external structure associated with living in water; the structure and functions of the limbs, the organs of the lateral line, the organs of hearing, balance.

Activities:

characterize features of the external structure of fish in connection with the habitat.
master methods of working with the determinant of animals.

Reveal features of the adaptability of the internal structure of fish to living in water.
observe and describe the external structure and features of the movement of fish in the course of laboratory work.

Follow rules of conduct in the office, handling laboratory equipment

Textbook and notebook:

Konstantinov V.M. Biology: Grade 7: a textbook for students of educational institutions / V.M. Konstantinov, V.G. Babenko, V.S. Kuchmenko. - M.: Ventana-Graf, 2014

Sumatokhin S.V. Biology: Grade 7: workbook for students of educational organizations / S.V. Sumatokhin. V.S. Kuchmenko. - M.: Ventana-Graf, 2015

During the classes

Orgmoment

Checking the studied material ( Ind survey)

Give a general description of the chordate type.

What are the structural features and life processes of the lancelet?

Appearance.

Length.

Origin of name.

The scientist who first described the lancelet.

Skin covers.

Skeleton.

Location and structure of the neural tube.

The structure of the digestive system.

The processes of nutrition and respiration.

Circulatory system.

excretory organs.

Reproduction.

- Why is it important to study the lancelet?

- What is the complication in the structure of chordates compared to invertebrates?

Learning new material

- Name the classes of cranial. What is common in their structure? ( Conversation on fig 106 page 136)

In adults, the notochord is replaced by the spine.

Nervous system: brain and spinal cord.

The sense organs are well developed.

A special part of the skeleton - the skull protects the brain.

A heart.

Kidneys.

Active lifestyle.

- (Formulation of the problem) We proceed to the study of a special group of cranial, the most numerous. It includes about 30 thousand modern species. These cranial are divided into two classes - cartilaginous and bone. The main criterion for such a division is the substance that makes up the internal skeleton - cartilage or bone.

- What is the name of this group of animals? (Fish)

Fish inhabit various water bodies of our planet: oceans, seas, rivers, lakes, ponds. The aquatic environment is very vast: the area occupied by the oceans exceeds 70% of the Earth's surface, and the deepest depressions go 11 thousand meters deep into the oceans. The variety of living conditions in the water influenced the appearance of fish and led to the emergence of a wide variety of forms: to specific living conditions (Fig. 111).

- What structure of fish will we study today in the lesson? (External)

And the topic of our lesson ... (External structure of fish)

- Consider the features of fish adaptation to the aquatic environment. Remember what features the aquatic environment has? (The slave himself with a textbook, natural objects, oral answers, diagrams in a notebook)

(Higher density than air; lack of sharp temperature fluctuations; mobility; low transparency; low oxygen content compared to air).

Laboratory work number 6.

The external structure and features of the movement of fish.

Target. To study the external structure and methods of movement of fish.

Equipment: jar with fish in water, magnifying glass, glass slide, fish scales.

Working process

Consider a fish in a jar of water. Explain the importance of her body shape.

Consider the coloration of the body of the fish on the ventral and dorsal sides. If it is different, then indicate the reasons for these differences. (in fish, the belly is lighter than the back, from above the back merges to a certain extent with the dark background of the bottom, and from below the light belly is less noticeable against the light background of the water surface).

How are the scales on the body of a fish? What significance does this have for the life of fish in the water? Using a magnifying glass, examine the structure of a separate scale. (Outside, the body of the fish is covered with skin, in which there are small (like a perch) or large (like a carp) bony scales. They tile-like overlap each other and tightly cover the body and tail. The scales are constantly growing, and annual rings are formed on it, they can determine the age of the fish (Fig. 112, B, C). There are fish and bare-skinned, without scales (for example, catfish). The scales are painted in silver-gray, black tones. Many fish are characterized by a bright color, especially for those that live among coral reefs.

And what kind of fish to the touch? (she is slippery, covered with mucus).

Why do you think? . (The body of the fish is slippery, as it is covered with secretions of mucous glands located in the skin to reduce resistance during movement and protect against bacteria).

Find the body parts of the fish: head, body, tail. Set their boundaries (Fig. 112). Explain the importance of smooth transitions of body parts for the life of fish in water. ( streamlined body shape, without sharp transitions).

Find the nostrils, eyes, lateral line of the fish. What is the importance of these organs in the life of a fish? Find out what is the peculiarity of the structure of the eyes.

Examine the fins of the fish. Which of them are paired, which are unpaired. Watch how the fins work as the fish moves through the water.

1. Fins

   Unpaired

   Paired

   Dorsal

   Tail (serves as the main motor organ - with its help the fish move forward)

   Anal

   Thoracic (participate in turning the body in water, moving up, down and to the sides)

   Abdominal (and unpaired keep the body of the fish in a normal, upright position)

   Sketch the fish in question. Label the parts of the body in the drawing. Make a conclusion about the adaptability of fish to life in water. Draw a fish scale, marking the light and dark stripes. What is the age of the fish from which this scale was taken?

Adaptability of fish to the aquatic environment

Aquatic factors

Adaptations to environmental factors

1

Density of water

Streamlined body shape, mucus, tiled scales, fins.

2

Transparency

Protective coloring; organs of vision are the eyes.

3

Solutes, low oxygen content

Gill breathing, smell.

4

Fluidity

Lateral line organs.

5

High pressure at depth

Change in body shape from fusiform to ribbon-shaped and disc.

6

Strong absorption of sunlight

Different coloration, luminous organs in deep-sea fish.

Three openings are visible behind the ventral fins: anal, genital and urinary. Undigested food residues are ejected through the anal, harmful waste products are excreted through the urinary tract, reproductive products are excreted through the genitals: caviar in females and seminal fluid in males.

On the sides of the body of the fish arelateral line organs - channels lying in the skin under the scales, at the bottom of which there are sensitive cells that perceive water vibrations. These organs allow the fish to perceive streams of water flowing around the body, to distinguish objects due to the waves that depart from these objects.

Other sense organs are located on the head. The rear edge is considered the boundary between the head and the body.gill covers (see Fig. 112, A). They cover their gills and constantly move, providing fresh water rich in oxygen to the gills. The border between the trunk and tail is conditionally drawn at the level of the anus.

A mouth is visible on the front of the head. The mouth of the fish captures food and draws in the water necessary for breathing. Located above the mouthnostrils , opening into the organs of smell, with the help of which the fish perceives the smells of substances dissolved in water.

The eyes of the fish are quite large. The anterior side of the outer shell (cornea) is flat. Below it is a convex lens (crystalline lens), which gives a reduced image of objects on the retina, cells that perceive light stimuli. Fish see at close range (nearsighted) and distinguish colors.

The hearing organs are not visible on the surface of the head: they are located on the sides of the head inside the skull and are calledinner ear . Sound waves in the water the fish perceives the entire surface of the body. Located next to the inner earbalance organ , thanks to which the fish feels the position of its body, moving up and down.

CONCLUSION: Fish are well adapted to life in the aquatic environment. They have a streamlined body shape, fins that provide movement in the water, sensory organs that allow them to navigate in the water.

Consolidation of the studied material . (Conversation)

In appearance, determine the habitats of the fish shown in Figure 111.

Name the features of fish adaptation to life in water.

- Complete any of the sentences

I will always be... I won't... Today I understood... Today I thought...

D / s Paragraph 30, read, answer questions

The littoral zone is a place where there are almost no fish, since this is not yet a "full-fledged" reservoir, but the border of the coast and the tidal zone. Therefore, only some fish risk entering the littoral. These include, in particular, the mudskipper, which stores water behind its cheeks and can get out even farther than the littoral, climbing trees and intertwining roots. During high tide, jumpers often sit on the branches of trees, firmly clinging to them with their fused ventral fins. There are 10-12 species of these fish, which have a head resembling that of a hippopotamus, with bulging frog eyes.

They travel overland in search of earthworms and other living creatures, crawler fish, oblong, reaching 15 cm in length. Californian gillicht gobies live without water in a damp and cool place for several days. Eels can crawl on the ground and outside the littoral, moving to other water bodies if necessary. Some fish, such as sphinx blennies, can sit on the littoral for a short time when thrown out by the tide, waiting for a new wave. Protopter, lepidosiren and horntooth can live for some time without water in the littoral due to the presence of special lungs. Some multifeathers can crawl out to the littoral and "travel" along it. In puddles formed by the tide, juveniles of the flag-tailed kulia prefer to stay. Only on the border of the littoral and the continental shelf is there water all the time, there are small fish like dogs, medium-sized catfish, greenfinches, needle fish, some coral fish, as well as lungfish and some cartilaginous ganoid fish.

Shallow water zone, or continental shelf

The shallow water zone, or the continental shelf, is the habitat of important commercial fish: sturgeon, sprat, anchovy and many others. Herring, horse mackerel, tuna and other fish often come here in times of abundance of food. Among the small fish of temperate waters, the first place in terms of total mass is occupied by anchovies, followed by predators: cod, sharks. In this zone, fry of many species live their childhood. Atherina-grunion fish, living in flocks in the shallow water zone of Mexico and California, breed in the intertidal zone, burying their eggs in the sand at the water's edge during high tide. At low tide, the eggs develop in the warm and moist sand. In other species of atherine, the eggs have filamentous appendages, with which it is attached to some kind of substrate.

They are found among continental shelf fish and sucker fish, in which the fused ventral fins form a sucker that allows them to cling to coastal stones even during heavy seas. Live on the continental shelf and many fish that do not have a special commercial value: dogs, greenfinches, "cockerels".

In Australia, dangerous fish also live in the continental shelf zone: for example, sand and white sharks. In other places, sharks are found in shallow water: hammerhead shark, herring shark, blue shark, but there are also safe species, such as leopard and cat sharks.

Coral reefs: The zone of super-wealth of the seas

Coral reefs are a zone where all the brightest, strangest and funniest fish are gathered in one heap. Only on one Great Barrier Reef you can find one and a half thousand of the most diverse in shape and color of fish species, from clowns to rag-pickers.

Coral reefs formed over many millions of years in shallow areas of warm waters near the Antilles and Sunda Islands, not far from Australia, Africa, Madagascar, Sri Lanka. Tiny skeletons of coral polyps gradually layered on top of each other formed coral islands.

The reef zone is home to many planktivorous and herbivorous fish, which attract many predators, and cartilaginous fish make up a large proportion of them.

The entire community of animals and plants of coral reefs is divided into several ecological groups. So, parrot fish, whose teeth are very similar to an arched beak, which is extremely convenient for biting off pieces of coral and algae, are destructors, that is, coral destroyers. Among other destructors, the crown of thorns starfish is widely known.

Let's talk now about the simplest of all types of relationships between fish - the predator-prey relationship. There are a lot of predators here on the reefs! This is especially true for sharks. The most common are the so-called reef sharks. There are sand, and white, and prickly, and herring sharks. There is even a carpet shark, which, like scorpionfish and monkfish, is flat and camouflaged with outgrowths! "Sea shadows" are always ready to grab a wounded or gaping fish. Of the stingrays, there are stingrays, a variety of electric stingrays and sawfish. But next to these dangerous fish swim their harmless relatives - manta rays (as mentioned in Chapter 3, it can harm a person only if it accidentally hits a boat).

There are also bony predators. These are barracudas, and moray eels, and scorpion fish, and anglers, and groupers - there is no place to list! They can send most of their "neighbors" on the reef to a better world - except for larger fish.

I did not talk separately about the fauna of the bottom zone, since it is close in terms of fauna to the reef zone. However, there are some interesting fish there. For example, an ordinary mistake from the percops order. The way it burrows into the sand is curious: swimming head first near the bottom, it abruptly switches to reverse and, sticking its tail into the sand, quickly sinks into it completely, working with its fins. There are also many unusual types of eels.

Fish are one of the most amazing aquatic animals. What features allowed them to adapt to life in these conditions? From our article you will learn about the external structure of fish and their diversity.

Habitat

No wonder they say about confident people: "Feels like a fish in water." These animals are unable to absorb oxygen from the air. Therefore, this environment is comfortable for them. The only exception is a small group of lungfish. They have both gills and lungs. The latter allow them to survive unfavorable periods of drying up of water bodies and lack of oxygen.

Fish live in fresh and salt water. It depends on their type. So, gobies feel great even with an increase in salt concentration of 60%, while carp dies.

Fish are adapted to different temperatures. This indicator is also individual. The Californian Lukania prefers to live in water with a temperature of + 50. And the dahlia, which lives in shallow streams in Chukotka, freezes and thaws along with the water.

Features of the external structure of fish

Cartilaginous fish lack gill covers and a swim bladder. The respiratory organs open to the outside with independent openings. The skeleton of cartilaginous fish does not ossify. The ducts of the reproductive, digestive and excretory systems open into one opening - the cloaca.

sharks

At the mere mention of these fish, it becomes scary. Indeed, most sharks lead a predatory lifestyle. Although the whale and giant sharks, which are the largest representatives of the class, are quite harmless. The basis of their diet is planktonic organisms.

The body of sharks has a streamlined shape. The caudal fin is of particular importance for locomotion. In most species, it is multi-lobed. It is also called heterocercal. In this case, the upper blade is much larger than the lower one.

On the elongated head in the form of a crescent is a mouth. It is surrounded by a large number of teeth arranged in several rows. As some of them are erased, others grow from the inside.

Is it true that sharks are fish without scales? It's not like that at all. Although at first glance her skin seems completely naked. Shark scales are called placoid. It is the most ancient in origin. In composition, shape and chemical structure, placoid scales resemble teeth. This is a plate with a protruding spike. Shark scales have a wide base and a flattened shape. The plates are so close to each other that the skin seems bare. In fact, it protects the body of sharks like iron chain mail.

The placoid scale also performs additional functions. It significantly reduces water resistance, which allows sharks to reach speeds of up to 80 km / h. It also allows for virtually silent movement. This is very important during hunting and attack.

stingrays

These fish have both a tail and scales. But their appearance is very unusual. Their body is flattened in the dorsal-abdominal direction. The pectoral fins of the fish are fused with the head, resembling wings. It's about slopes.

Most of them live in the seas, but the inhabitants of fresh water are also known. Depending on the habitat, the color of the rays varies from yellowish to black. The eyes are located on the upper side of the body. There are sprinklers here as well. They represent the first pair of gill slits that open the arches of the respiratory organs.

The characteristic shape of the body is interconnected with their benthic lifestyle. Stingrays swim due to the wave-like movements of the wide pectoral fins. But most of the time they spend at the bottom. Here they burrow into the sand or wait for prey. The diet of these fish consists of small invertebrates, fish or plankton.

bony fish

This class is much more numerous. Its representatives are more than 20 thousand species. They live in all types of water bodies: from small rivers to ocean expanses.

These fish have more progressive structural features. These include the presence of a fully ossified skeleton and a swim bladder that holds the body in the water column. The respiratory organs of bony fish are protected by gill covers. The latter not only protect them, but also take part in the implementation of respiratory movements.

Fish without scales: is it possible

Numerous glands are located in the skin of fish. They perform a protective function. The substances released by them prevent the penetration of pathogens, reduce the friction of water during swimming. In some species, the mucus contains toxic substances.

The body of bony fish is also covered with scales, which are derivatives of the skin. It looks like translucent flat plates. Separate scales are superimposed on each other like tiles. With its front edge, each plate goes deep into the skin, and the back one covers the scale of the next row. The growth of these structures is similar to the formation of growth rings in trees. The growth of the plates occurs in the spring, and stops in the winter.

Do all fish have scales? Absolutely. But in some it completely covers the body, while in others it is located on the body in separate rows. The latter traditionally include cartilaginous fish and some bone fish. For example, in beluga, sterlet, sturgeon and stellate sturgeon, sharp scales are located along the body in several strands.

Cover features

All the features of the external structure of the fish allow them to better adapt to life in the aquatic environment. Not only the speed of movement, but also the color of the covers allows them to hide from predators. In many fish it is protective. For example, the dorsal side of a perch is darker than the ventral side. This makes the fish less visible against the bottom. The belly of the perch is silvery. This makes it invisible against the background of the surface of the water for prey, which is located below. The transverse stripes provide the perch with excellent camouflage among the thickets of algae.

In other species, the color is variegated and bright. It is called warning because its owners are almost always poisonous. Flounder has the ability to change its color depending on environmental conditions.

What is the lateral line in fish

A thin strip is clearly visible to the naked eye on both sides of the body. It extends from the gill slits to the base of the tail. This structure is called the lateral line. It consists of receptors called neuromasts. The latter are formed by a group of hair cells.

The lateral line in fish is an organ of perception of vibrations and movements in the environment. With its help, fish determine the direction and speed of the current. A similar structure was found in all larvae and some adult species of amphibians, cephalopods, and crustaceans. Fish use it as a guide in space, which is especially important when hunting.

unusual views

Despite the large number of common structural features, there are a number of aquatic inhabitants that are in no way similar to representatives of this class. One of them is the drop fish. For most of her life, she has a normal appearance: a tail, scales, fins... However, when she rises to the surface of the water, her body begins to swell and turn into a gelatinous creature, similar to a monster with a huge nose.

Body fish can be found in coral ocean reefs. It has the shape of a cube. To this unusual image, you can add a bright yellow color with black dots. So far, scientists cannot explain why, in the process of evolutionary changes, the classical flat shape of the body changed to a cubic one.

A flat head with a vermiform appendix, on which blue eyes are located, a huge mouth, bright stripes on the skin ... Such an organism really exists. It's called the frogfish. It was discovered in Indonesian waters not so long ago - in 2009.

And how not to say about the astrologer fish! You definitely won't confuse her with anyone. The stargazer is recognizable by its two bulging eyes and a wide mouth that sits on top of its head. It burrows into the sand, stalking its prey. At first glance, this is an absolutely harmless fish. In fact, its spikes, located above the dorsal fins, contain poisonous substances and are capable of generating a small amount of electric current.

So, the features of the external structure of fish that help them adapt to life in the water include:

• Streamlined body shape. It consists of a head, body and tail. In demersal species that lead a sedentary lifestyle, the body is flattened in the dorsal-abdominal direction.
• A large number of glands that secrete mucus.
• Scales that completely cover the body of fish or form longitudinal stripes.
• In cartilaginous fish, the respiratory organs open outwards through gill slits. In bone, they are closed with lids that protect the respiratory organs and are involved in the implementation of respiratory movements.
• The presence of several types of fins: paired and unpaired. The first group includes abdominal and thoracic. Dorsal, caudal and anal are unpaired. They provide all kinds of movements, maneuverability and a stable position in the water column.