Paired fins of fish pectoral and dorsal. Organs of movement - fins. The circulatory system in fish

24.10.2019

Fish fins are paired and unpaired. The chest P (pinna pectoralis) and the abdominal V (pinna ventralis) belong to the paired ones; to unpaired - dorsal D (pinna dorsalis), anal A (pinna analis) and caudal C (pinna caudalis). The outer skeleton of the fins of bony fish consists of rays, which can be branchy and unbranched. The upper part of the branched rays is divided into separate rays and looks like a brush (branched). They are soft and located closer to the caudal end of the fin. Unbranched rays lie closer to the anterior margin of the fin and can be divided into two groups: segmented and non-segmented (spiny). Articular the rays are divided along the length into separate segments, they are soft and can bend. non-segmented- hard, with a sharp top, hard, can be smooth and serrated (Fig. 10).

Figure 10 - The rays of the fins:

1 - unbranched jointed; 2 - branched; 3 - prickly smooth; 4 - prickly serrated.

The number of branched and unbranched rays in the fins, especially in unpaired ones, is an important systematic feature. Rays are calculated, and their number is recorded. Non-segmented (prickly) are indicated by Roman numerals, branched - Arabic. Based on the calculation of the rays, a fin formula is compiled. So, pike perch has two dorsal fins. The first of them has 13-15 spiny rays (in different individuals), the second has 1-3 spines and 19-23 branched rays. The formula of the pikeperch dorsal fin is as follows: D XIII-XV, I-III 19-23. In the anal fin of pike perch, the number of spiny rays I-III, branched 11-14. The formula for the anal fin of pike perch looks like this: A II-III 11-14.

Paired fins. All real fish have these fins. Their absence, for example, in moray eels (Muraenidae) is a secondary phenomenon, the result of a late loss. Cyclostomes (Cyclostomata) do not have paired fins. This phenomenon is primary.

Pectoral fins located behind the gill slits of fish. In sharks and sturgeons, the pectoral fins are located in a horizontal plane and are inactive. In these fish, the convex surface of the back and the flattened ventral side of the body give them a resemblance to the profile of an airplane wing and create lift when moving. Such asymmetry of the body causes the appearance of a torque that tends to turn the fish's head down. Pectoral fins and rostrum of sharks and sturgeon fish functionally constitute single system: directed at a small (8-10 °) angle to the movement, they create an additional lifting force and neutralize the effect of the torque (Fig. 11). If a shark has its pectoral fins removed, it will lift its head up to keep its body in a horizontal position. In sturgeons, the removal of the pectoral fins is not compensated in any way due to the poor flexibility of the body in the vertical direction, which is hindered by bugs, therefore, when the pectoral fins are amputated, the fish sinks to the bottom and cannot rise. Since the pectoral fins and rostrum in sharks and sturgeons are functionally related, a strong development of the rostrum is usually accompanied by a decrease in the size of the pectoral fins and their removal from the anterior part of the body. This is clearly seen in the hammerhead shark (Sphyrna) and the saw shark (Pristiophorus), whose rostrum is strongly developed and the pectoral fins are small, while in the sea fox (Alopiias) and the blue shark (Prionace), the pectoral fins are well developed, and the rostrum is small.

Figure 11 - Scheme of vertical forces arising from the translational movement of a shark or sturgeon in the direction of the longitudinal axis of the body:

1 - center of gravity; 2 is the center of dynamic pressure; 3 is the force of the residual mass; V 0 - lifting force created by the hull; V R- lifting force created by the pectoral fins; V r is the lifting force created by the rostrum; Vv- lifting force created by the ventral fins; V With is the lift generated by the tail fin; Curved arrows show the effect of torque.

The pectoral fins of bony fish, in contrast to the fins of sharks and sturgeons, are located vertically and can row back and forth. The main function of the pectoral fins of bony fish is trolling propulsion, allowing precise maneuvering when searching for food. The pectoral fins, together with the ventral and caudal fins, allow the fish to maintain balance when immobile. The pectoral fins of stingrays, evenly fringing their body, act as the main movers when swimming.

The pectoral fins of fish are very diverse both in shape and size (Fig. 12). In flying fish, the length of the rays can be up to 81% of the body length, which allows

Figure 12 - Shapes of the pectoral fins of fish:

1 - flying fish; 2 - perch-creeper; 3 - keeled belly; 4 - bodywork; 5 - sea rooster; 6 - angler.

fish to float in the air. In freshwater fish, the keel-belly of the Characin family has enlarged pectoral fins that allow the fish to fly, reminiscent of the flight of birds. In gurnards (Trigla), the first three rays of the pectoral fins have turned into finger-like outgrowths, relying on which the fish can move along the bottom. In representatives of the order Angler-shaped (Lophiiformes), pectoral fins with fleshy bases are also adapted to moving along the ground and quickly digging into it. Movement on solid substrate with the help of pectoral fins made these fins very mobile. When moving on the ground, anglerfish can rely on both pectoral and ventral fins. In catfish of the genus Clarias and blennies of the genus Blennius, the pectoral fins serve as additional supports for serpentine body movements while moving along the bottom. The pectoral fins of jumping birds (Periophthalmidae) are arranged in a peculiar way. Their bases are equipped with special muscles that allow the fin to move forward and backward, and have a bend resembling an elbow joint; at an angle to the base is the fin itself. Inhabiting coastal shallows, jumpers with the help of pectoral fins are able not only to move on land, but also to climb up the stems of plants, using the caudal fin, with which they clasp the stem. With the help of pectoral fins, crawler fish (Anabas) also move on land. Pushing off with their tail and clinging to plant stems with their pectoral fins and gill cover spikes, these fish are able to travel from reservoir to reservoir, crawling hundreds of meters. In demersal fish such as rock perches (Serranidae), sticklebacks (Gasterosteidae), and wrasses (Labridae), pectoral fins are usually wide, rounded, and fan-shaped. When they work, undulation waves move vertically down, the fish appears to be suspended in the water column and can rise up like a helicopter. Fish of the order Pufferfish (Tetraodontiformes), sea needles (Syngnathidae) and skates (Hyppocampus), which have small gill slits (the gill cover is hidden under the skin), can make circular movements with their pectoral fins, creating an outflow of water from the gills. When the pectoral fins are amputated, these fish suffocate.

The pelvic fins perform mainly the function of balance and therefore, as a rule, are located near the center of gravity of the body of the fish. Their position changes with a change in the center of gravity (Fig. 13). In low-organized fish (herring-like, carp-like), the ventral fins are located on the belly behind the pectoral fins, occupying abdominal position. The center of gravity of these fish is located on the belly, which is associated with the non-compact position of the internal organs occupying a large cavity. In highly organized fish, the ventral fins are located in front of the body. This position of the pelvic fins is called thoracic and is characteristic mainly for most perch-like fish.

The pelvic fins can be located in front of the pectorals - on the throat. This arrangement is called jugular, and it is typical for large-headed fish with a compact arrangement of internal organs. The jugular position of the pelvic fins is characteristic of all fish of the cod-like order, as well as large-headed fish of the perch-like order: stargazers (Uranoscopidae), nototheniids (Nototheniidae), dogfish (Blenniidae), and others. Pelvic fins are absent in fish with an eel-like and ribbon-like body shape. In erroneous (Ophidioidei) fish, which have a ribbon-like eel-shaped body, the ventral fins are located on the chin and perform the function of tactile organs.

Figure 13 - The position of the pelvic fins:

1 - abdominal; 2 - thoracic; 3 - jugular.

The pelvic fins may change. With the help of them, some fish attach themselves to the ground (Fig. 14), forming either a suction funnel (gobies) or a suction disk (pinagora, slug). The pelvic fins of the sticklebacks, modified into spines, have a protective function, while in triggerfishes, the pelvic fins look like a prickly spike and, together with the spiny ray of the dorsal fin, are an organ of protection. In males cartilaginous fish the last rays of the ventral fins are transformed into pterygopodia - copulatory organs. In sharks and sturgeons, the ventral fins, like the pectoral ones, perform the function of bearing planes, but their role is less than that of the pectoral ones, since they serve to increase the lifting force.

Figure 14 - Modification of the ventral fins:

1 - suction funnel in gobies; 2 - the suction disk of a slug.

Pisces use many different ways to communicate. Of course, not so much as people or other higher vertebrates. To communicate some information to surrounding fish or other animals, fish can use chemical, electrolocation, sound and, as it turned out, visual methods, that is, they use “sign language” to communicate. And although anglers, unlike aquarists, divers or spearfishers, are less likely to be able to look live fish in the eye, some basic fish language can be learned.

Familiarization
The visible signals that fish can give to surrounding fish or other animals can be divided into several main groups. The first group is spawning postures or even gestures and facial expressions. After all, the movements of the fins can be called gestures, ajar and even twisted mouths - facial expressions.

The second group of visual signals demonstrates aggression, attack, and they indicate that this individual has entered the "warpath". There is also a large group of defensive gestures. This is not open aggression, but such gestures clearly show that we are peaceful fish, but "our armored train is on a siding." Fish show these gestures more often than others.

The same group of gestures applies to the protection of the territory, and to the protection of one's found (caught) food object, and to the protection of cubs.

Another important visual stimulus is the coloration of the fish. In a sufficient number of fish species, under stress, during spawning, during an aggressive attack or defense of their "good", a color change occurs that signals something out of the ordinary. Something similar happens to a person when, from anger, shame or tension, he blushes and gives himself away.

Unfortunately, while the sign language of fish has not been fully studied and by no means for all species, nevertheless, knowledge of the general principles of sign communication of fish will help to understand fish. By the way, scientists suggest that fish of each species have a personal sign language, which is very well understood by closely related species and much worse by species far removed in their position in the taxonomy.

Gestures of aggression and defense
In fish of different species, these gestures can, of course, vary, but they have much in common and are understandable to other fish. The Greatest Animal Behavior Researcher, Laureate Nobel Prize Konrad Lorenz said: "Aggression is one of the most important factors in maintaining the community structure of most animal groups."

Lorentz pointed out that the existence of groups with close individual ties between individuals is possible only in animals with a sufficiently developed ability for directed aggression, in which the association of two or more individuals contributes to better survival.

In fish, the key aggressive gesture can be considered as follows: one of the fish turns to the other and begins to open its mouth wide (this is how dogs, wolves and other land animals snarl). This gesture can be deciphered as a gesture of a frontal threat (attack).

So if a shark is snarling at you, leave the hell out of it. While the mouth is still open, this is some kind of beginning of a threat, territorial defense or any defensive gesture.

Important key moment not only this aggressive gesture, but also other gestures of the same group: a fish with an open mouth seems larger, and therefore more terrible and impressive. At the same time, her attack looks more convincing and effective.

By the way, breeding the pectoral fins to the sides, protruding gill covers, inflating the body with various tetraodon also leads to a general increase in the volume of the body of a frightening fish.

Some poses of aggression and active defense are used by male fish to conquer females before spawning. We are not talking about the direct use of gestures at this moment, but the female sees what a big and serious suitor is in front of her.

For fish, these “exaggeration” postures are very important. After all, they grow all their lives, and for them size plays a paramount role. Adult individuals, already showing aggressive behavior with might and main, are often large in size.

And the one who is bigger is stronger, and older, and more experienced, and more important. That is, he has the right to food, territory, and the best female. Therefore, fish often try to visually exaggerate their size.

An exaggeration of size that frightens the enemy is also achieved by occupying a higher point in space. Enough to force the opponent to look up, and he will feel inferior to you. Demonstration of the sides of the body and fluttering of the caudal fin and the whole body is more often a manifestation of spawning behavior, that is, spawning gestures, or releasers.

However, in some fish (for example, ruffs and other perches), such a demonstration of the sides and trembling of the tail is a typical aggressive gesture. A similar gesture of some fish is called "lateral threat". Unlike the "frontal threat", it does not look so intimidating.

The spreading of the fins, often accompanied by trembling (or fluttering, or even shaking of the body), can be interpreted, depending on the situation, both as aggression, and as active defense, and as gestures of spawning behavior.

And in many territorial fish, such lateral displays, which are accompanied by vibrations of the body and spreading of the fins, have a dual function. For fish of its own species, but of the opposite sex, this is an attractive maneuver, showing what a beautiful, big and wonderful partner swims at your side.

And for relatives of the same sex, these gestures mean one thing: this is my female and my place, and you can leave! If one male (or female) spreads his fins, and his opponent, on the contrary, folded them, this means the complete surrender of the latter.

When the enemy, in response, inflates his fins and vibrates his body, this means that he accepts the fight and now there will be a performance. A very important evolutionary point is the demonstration of aggression instead of a direct attack. Indeed, in its original form, aggression involves an attack on an object, inflicting physical damage to it, or even murder.

In the process of animal evolution, an aggressive attack was replaced by a demonstration of the threat of the possibility of an attack, especially during skirmishes between individuals of the same species. Demonstration, causing fear in the enemy, allows you to win a skirmish without resorting to a fight that is very dangerous for both sides.

Physical confrontation is replaced by psychological confrontation. Therefore, developed aggressive behavior, including many threats and frightening actions, is useful for the species, and for well-armed species it is simply saving.

This is why Lorentz argued that well-designed aggressive behavior is one of the remarkable achievements of natural selection and is essentially humane.

In fish, one of the main instruments of demonstration (instead of attack) is spikes in the fins, prickly gill covers or plaques on the body. That is, it is easiest to scare the enemy by showing him the means of defense and attack that this type of animal has.

Therefore, fish, threatening, spread their fins and raise their spikes; many stand vertically in the water, exposing them to meet the enemy.

The fight process in fish consists of five or six successive phases:

warning with the adoption of an appropriate posture;
excitation of opponents, usually accompanied by a change in color;
approaching fish and demonstrating a threat pose;
mutual blows with the tail and mouth;
retreat and defeat of one of the opponents.

There are also phases of breaks to relieve tension and to rest during the fight or demonstration of strength.

Body coloration and pattern as spawning releasers
There are a lot of such visual and identification signals. During spawning, when the fish has a special hormonal background, in many species the color and pattern change - this is a signal that it is ready for reproduction.

For reliability, chemical and other signals are also actively working, so that the fish is not mistaken and the species continues to exist. In addition to spawning, color and pattern help fish during schooling: often the stripes on the body serve as a visual stimulus, helping thousands of fish to stay close and correctly positioned relative to each other.

Coloring makes it possible to recognize your relative or, conversely, an enemy and dangerous individual. Many fish, especially those in which visual signals play an important role (pike, perch, zander and others), remember well external features"own" and "foreign" fish. Often two or three “lessons” are enough for the fish to remember the color and pattern of the hostile fish well.

Sometimes not only the color of the whole body, but also the color of individual fins (for example, ventral or pectoral), or individual brightly colored areas on the body (abdomen, back, head) signal to potential partners that “it is ready for spawning!”.

A spot on the abdomen of many females indicates that there are a lot of eggs in the abdomen, it is enlarged and bright. However, in most cases, bright coloration is destructive outside of spawning: it unmasks peaceful fish in front of predators, and, on the contrary, reveals a predator ahead of time.

So most of the fish in our reservoirs in the usual non-spawning period have a gray, inconspicuous appearance, and the more important for them is developed gesticulation.
In addition to spawning behavior or identification, “own” or “alien” coloration can work as a factor determining status.

The brighter the color and the clearer the pattern, the higher the social status of this individual. This is not always the case, but often. Fish can use their coloration to show threat (strong, intense coloration) or submissiveness (less bright or dull coloration), usually supported by appropriate, information-enhancing gestures. Bright coloring is actively used by fish that protect their offspring, grow juveniles and drive away other fish that are dangerous for young animals. She also helps the juveniles to identify their parents, to notice them among other fish.

In parental behavior, fish have a highly developed not only body color language, but also sign language. The juvenile quickly remembers that the flapping of the ventral fins and the pressed pectoral fins mean the call to "swim to the mother"; the bend of the body and the parted mouth - "swim after me"; splayed fins are a command to hide for cover.

For normal relationships between parents and juveniles, it is necessary to suppress some reactions. Very interesting examples of this have been observed in fish. Some chromis (family Cichlids) carry fry in their mouths; at this time, adult fish do not feed at all.

A funny case is described with a male of one species of chromis, whose representatives every evening carry juveniles to the "bedroom" - a hole dug in the sand. This “father” collected fry in his mouth, grabbing one at a time that had strayed to the side, and suddenly saw a worm: after a little hesitation, he finally spat out the fry, grabbed and swallowed the worm, and then began to collect the “cubs” again to transfer them to the hole .

A straightened standing dorsal fin indicates both the beginning of aggressive behavior (for example, when protecting one's territory) and an invitation to spawn.

Rituals and demonstrations
To understand the sign language of fish, you need to know their rituals and the meaning of various postures and gestures, which say a lot about fish intentions. Rituals and demonstrative acts of behavior shown by animals in conflict situations can be divided into two groups: rituals of threat and rituals of appeasement, inhibiting aggression from stronger relatives. Lorentz identified several main features of such rituals.

Demonstrative substitution of the most vulnerable part of the body. Interestingly, this behavior is often shown by dominant animals. So, when two wolves or dogs meet, the stronger animal turns its head away and exposes its rival to the area of the carotid artery, curved towards the bite.

The meaning of such a demonstration is that the dominant signals in this way: "I'm not afraid of you!". This is more likely to apply to more highly developed animals, but some fish also show similar behavior. For example, cichlids display folded fins and a caudal stalk to a strong opponent.

Fish have organs that can be called organs of ritual behavior. These are fins and gill covers. Ritual are modified fins, which in the process of evolution turn into spikes or spines, or, conversely, into veil formations. All these "decorations" are clearly displayed in front of other individuals of their species, in front of a female or rival. There is also ritual coloring.

For example, tropical fish have a false "eye" - a bright spot in the upper corner of the dorsal fin, imitating the eye of a fish. The fish exposes this corner of the fin to the enemy, the enemy clings to it, thinking that it is an eye and it will now kill the victim.

And he just rips out a few rays of the dorsal fin with this bright spot, and the victim safely swims away almost whole and unharmed. Obviously, in the course of evolution, both the decorations themselves and the ways of displaying them developed in parallel.

The demonstration of signaling structures carries vital information that indicates to other individuals the sex of the demonstrating animal, its age, strength, ownership of a given piece of terrain, etc.

Ritual demonstrations in territorial behavior are very important and interesting in fish. By themselves, the forms of aggressive territorial behavior are far from being exhausted by direct attacks, fights, chases, and so on. It can even be said that such "hard" forms of aggression, associated with inflicting wounds and other damage on the enemy, are not a very frequent occurrence in the general system of individualization of a territory.

Direct aggression is almost always accompanied by special "ritual" forms of behavior, and sometimes the protection of the site is completely limited to them. And the clashes themselves on territorial grounds are relatively rarely accompanied by serious damage to the enemy. Thus, frequent fights of goby fish at the boundaries of plots are usually very short-lived and end with the flight of the "intruder", after which the "owner" begins to swim vigorously in the conquered area.

Fish actively mark their territory. Each species does this in its own way, depending on which sensory systems prevail in that species. So, species that live in small well-visible areas visually mark the territory. For example, the same coral fish. A clear, bright, unusual and distinct body pattern (and color) from other fish - all this in itself indicates that the mistress of the population of this species is located in this area.

Hierarchy and poses of fish with gestures
The first meeting of animals rarely goes without some tension, without a mutual manifestation of aggressiveness. There is a fight, or individuals demonstrate their hostility with decisive gestures, threatening sounds. However, after the relationship is clarified, fights rarely occur. Meeting again, the animals unquestioningly give way, food or other object of competition to a stronger rival.

The order of subordination of animals in a group is called a hierarchy. Such an orderliness of relationships leads to a decrease in energy and mental costs arising from constant competition and showdown. Animals that are on the lower levels of the hierarchy, subjected to aggression from other members of the group, feel oppressed, which also causes important physiological changes in their body, in particular, the occurrence of an increased stress response. It is these individuals who most often become victims. natural selection.

Each individual is either superior in strength to the partner, or inferior to him. Such a hierarchical system is formed when fish clash in the struggle for a place in a reservoir, for food and for a female.

The fish only opened its mouth and raised its fin, while its size visually increased by almost 25%. This is one of the most accessible and common ways to raise your authority in the animal kingdom.

In the early stages of the establishment of a hierarchy between fish (for which hierarchy is inherent in principle), there is a lot of fights. After the final establishment of the hierarchy, aggressive collisions between fish individuals practically cease, and the order of subordination of individuals is maintained in the population.

Usually, when a high-ranking fish approaches, subordinate individuals yield to it without resistance. In fish, most often it is size that acts as the main criterion for dominance in the hierarchical ladder.
The number of collisions in a group of animals increases sharply when there is a lack of food, space, or other conditions of existence. The lack of food, causing more frequent collisions of fish in a flock, makes them somewhat spread out to the sides and develop additional feeding area.

Fatal outcomes of fights of very aggressive species of fish in fish farms and aquariums are observed much more often than in natural conditions. This is easily explained by both stress and the inability to disperse rivals. A kind of eternal ring. Therefore, aquarists know how important it is to make plenty of hiding places in the pond if the fish are territorial. It's even safer to keep them separate.

The lowest links in the fish in the hierarchical ladder should demonstrate postures of submission, humility and appeasement. What does the losing fish do? First of all, she raises the “white flag”, that is, she folds her fins, removes spikes, spines and teeth (sharks). These attributes of aggressiveness are removed until better times, that is, before meeting with an even weaker opponent.

The sizes of individuals decrease before our eyes. As far as possible, of course. That is, the losing fish-outsider demonstrates to the enemy: “I am small and unarmed, I am not afraid of you!”. And a strong victorious opponent also understands that he no longer needs to demonstrate his strength, and closes his mouth, assumes a horizontal position, folds his fins, removes thorns and spines (if they are, of course).

Sometimes a defeated fish turns belly up and this also demonstrates its defenselessness. I deliberately do not provide data on specific species here, since there are very few of them, and many have not yet been statistically confirmed.

I hope that interesting information will help anglers to better understand the fish, once again not to frighten and harm both a particular fish and a flock or population as a whole.

Source: Ekaterina Nikolaeva, Fish with us 3/2013 159

Guster

Gustera fish. Gustera differs from the above-described species of bream solely in the number and arrangement of pharyngeal teeth, which are located on each side not five, but seven, and, moreover, in two rows. In body shape, it is very similar to a young bream, or rather, a scavenger, but it has a smaller number of rays in the dorsal (3 simple and 8 branched) and anal (3 simple and 20-24 branched) fins; in addition, her scales are noticeably larger, and the paired fins are reddish in color.

The body of the bream is strongly flattened, and its height is at least a third of its entire length; her nose is blunt, her eyes are large, silvery; the back is bluish-gray, the sides of the body are bluish-silver; unpaired fins are gray, and paired fins are red or reddish at the base, dark gray towards the top. However, this fish, depending on age, season and local conditions, represents significant modifications.

Guster never reaches a significant size. For the most part it is no more than one pound and less than a foot in length; one and a half and two pounds are less common, and only in a few places, for example, in the Gulf of Finland. Lake Ladoga, it weighs up to three pounds. This fish has a much wider distribution than raw, blue and glacier.

Gustera is found in almost all European countries: France, England, Sweden, Norway, throughout Germany, Switzerland, and it seems to be absent only in Southern Europe. In all the above-mentioned localities, it belongs to very common fish. In Russia, the bream is found in all rivers, sometimes even rivers, also in lakes, especially in the northwestern provinces, and flowing ponds; in Finland it reaches 62°N. sh.; it is also found in the northern parts of Lake Onega, and in northern Russia it goes even further - to Arkhangelsk.

It seems to be no longer in Pechora, and in Siberia it was found only recently (Varpakhovsky) in the river. Iset, a tributary of the Tobol. There is no silver bream in the Turkestan region, but in Transcaucasia it has been found to this day in the mouths of the Kura and in the lake. Paleostome, off the coast of the Black Sea. Gustera is a sluggish, lazy fish and, like a bream, loves quiet, deep, rather warm water, with a silty or clay bottom, which is why it is very common with this latter.

She lives in one place for a long time and most willingly stays near the very shores (hence her French name - la Bordeliere and Russian shore), especially in the wind, since the shafts, washing away the shores, and in shallow places the very bottom, find various worms and larvae. In small numbers, it apparently lives in the mouths of rivers and on the seashore itself, as, for example, in the mouths of the Volga and in the Gulf of Finland between St. Petersburg and Kronstadt.

In spring and autumn, the silver bream is found in extremely dense flocks, from which, of course, its common name came from. However, she rarely travels very far and almost never reaches, for example, the middle reaches of the Volga, where she already lives her own, local, bream. In general, the main mass of these fish accumulates in the lower reaches of the rivers, in the sea, and, like very many others, it makes regular periodic movements: in the spring they go up for spawning, in the fall for wintering.

Entering the autumn for wintering, they lay down on the pits under the rifts in such large masses that in the lower reaches of the Volga it happens to pull out up to 30 thousand pieces in one ton. The food of the silver bream is almost the same as other types of bream: it feeds exclusively on mud and small mollusks, crustaceans and worms contained in it, most often bloodworms, but also destroys the eggs of other fish, especially (according to Bloch's observations) rudd caviar.

The spawning of the silver bream starts very late, b. h. at the end of bream spawning - at the end of May or at the beginning of June, in the south a little earlier. At this time, her scales change in color, and paired fins get a brighter red color; in males, in addition, small grain-like tubercles develop on the gill covers and along the edges of the scales, which then disappear again. Usually small bream spawns earlier, large later.

In the Gulf of Finland, other fishermen distinguish two breeds of bream: one breed, according to them, is smaller, lighter, spawns earlier and is called Trinity (by spawning time), and the other breed is much larger (up to 3 pounds), darker in color, spawns later and is called Ivanovo. According to Bloch's observations, in Germany, the largest bream thrashes first, after a week or nine days - a small one.

The silver bream chooses grassy and shallow bays as a spawning place and spawns extremely noisily, like a bream, but incomparably quieter than it: at this time it sometimes even happens to catch it with your hands; in the muzzle, wings and nonsense then catch her by the pound. She usually spawns from sunset to ten o'clock in the morning, and each age ends the game at 3-4 in the morning, but if it interferes cold weather, then in one day.

In a medium-sized female, Bloch counted over 100,000 eggs. According to Sieboldt, the silver bream becomes fertile very early, before it reaches 5 inches in length, so it must be assumed that it spawns in the second year. The main fishing for silver bream is done in the spring - with nets, but in the lower reaches of the rivers, especially on the Volga, even more fishing for this fish occurs in the fall. The most complete information about crucian fish is here.

Gustera generally belongs to low-value fish and is rarely prepared for the future, except when caught in very large numbers. Salted and dried bream on the lower Volga goes on sale under the name ram; in the rest of the Volga region it b. h. is sold fresh and has only local sales. However, it is very suitable for fish soup and in rather greater honor in the Volga provinces, where a saying has developed about it: "Large bream is tastier than small bream."

Where there are a lot of silver bream, there she is very good at bait, especially after spawning. In some places they usually fish for a worm, from the bottom, like a bream, and its biting is similar to the biting of the latter; even more often than a bream, the white bream drags the float to the side without immersing it, and often cuts itself. This is perhaps the most daring and annoying fish, which is a pure punishment for anglers fishing with bait.

It is noticed that she takes it best at night. According to Pospelov, the bream on the river. Teze (in Vladimir province) is allegedly caught on pieces of salted herring. In Germany, in autumn, it also goes well for bread with honey, and on the Volga it is very often caught in winter from ice holes (for worms). The winter biting of the white bream has the usual character - it first pulls, then slightly drowns. For catching catfish, pikes and large perches, the silver bream is one of the best baits, as it is much more tenacious than other types of bream.

In many areas of Russia, for example. in the Dnieper, Dniester, on the middle and lower Volga, occasionally - usually alone and in schools of other fish, b. h. silver bream and roach (vobla) - one fish comes across, occupying, as it were, the middle between bream, silver bream and roach (Abramidopsis), on the river. Mologa, this fish is called ryapusa, in Nizhny Novgorod, Kazan and on the Dnieper - all fish, all fish, on the grounds that it resembles various carp fish: blue bream, bream, roach, rudd.

According to fishermen, as well as some scientists, this is a bastard from bream and roach or silver bream and roach. In Kazan, one fisherman even claimed prof. Kessler that all fish hatch from roach eggs fertilized by male bream. In terms of body shape and pharyngeal teeth, this hybrid is still closer to the genus Abramis.

The height of her body is about 2/7 of the entire length, the mouth occupies the top of the snout and the lower jaw is somewhat twisted upwards; the scales are larger than those of other breams, and there are only 15-18 unbranched rays in the anal fin; the lower lobe of the caudal fin is only slightly longer than the upper lobe than Abramidopsis is already approaching the roach. It is more correct to assume that this is mostly a mixture of bream and roach.

A similar mixture is Bliccopsis abramo-rutilus Holandre, which is probably descended from silver bream and roach, and has occasionally been found here and there alone, both in central Europe and in Russia. According to Kessler, Bliccopsis is also found in Lake. Paleostomy (at the mouth of the Rion in the Caucasus). The body of the bream is high, strongly compressed from the sides, covered with thick, tightly fitting scales. Her head is relatively small. The mouth is small, oblique, semi-inferior, retractable.

The eyes are big. The dorsal fin is high, the anal fin is long. The back is bluish-gray, the sides and belly are silvery. The dorsal, caudal and anal fins are gray, the pectoral and ventral fins are yellowish, sometimes reddish, which is how it differs externally from the bream. In addition, the silver bream, unlike the bream, has larger scales, especially at the dorsal fin, as well as on the back; behind the back of the head it has a groove not covered with scales.

Gustera lives in rivers, lakes and ponds. In rivers, it adheres to places with a slow current and considerable depth, as well as in bays, backwaters, oxbow lakes, where there is a sandy-clay bottom with a small admixture of silt. It is most numerous in lakes and in flat areas of rivers. Large individuals stay in the bottom layers of water, deep creeks, pits and in open areas of lakes and reservoirs.

Smaller bream prefers to stay in coastal areas among sparse thickets. At the same time, small individuals usually keep in large flocks. Gustera is characterized by a sedentary lifestyle. In summer, her flocks are small. With the onset of autumn cold weather, they increase and move to the pits. With the onset of spring floods, her flocks go to feeding places.

As the spawning time approaches, after the water warms up, the flocks of white bream increase and move to spawning grounds. At the same time, the lake spawning bream in large numbers goes to the shores, and the river bream, leaving the channel, enters shallow bays and backwaters. Silver bream spawns from the end of April - in May at a water temperature of 12-20 °. With prolonged cold snaps, spawning can be delayed until June.

The spawning of the silver bream is portioned, however, there are females with a one-time spawning. Its spawning occurs amicably, mainly in the evening and in the morning with a short night break. Before spawning, they become bright silver, pectoral and ventral fins acquire an orange tint. Tubercles of a pearl rash appear on the head and upper part of the body of spawning males. Soon after spawning, all mating changes disappear.

In the Dnieper, on the site of the current Kyiv reservoir, three-year-old females of the silver bream had an average of 9.5 thousand eggs, six-year-olds had 22 thousand eggs, and three years after the formation of the reservoir, more than 16 thousand eggs were found in three-year-old females, in six-year-olds - more than 80 thousand pieces, i.e., in the conditions of the reservoir, its fertility increased by 2-3 times.

The bream becomes sexually mature at two or three years of age, and in the spawning herd, males mature mainly earlier than females. In senior age groups The spawning herd of males is much smaller than that of females. The bream grows slowly. For example, in the lower reaches of the Southern Bug, yearlings had an average body length of 3.3 cm, three-year-olds - 10.2 cm, and six-year-olds - 16.9 cm.

Until puberty, both sexes grow in the same way, but after puberty, the growth of males slows down somewhat. The juveniles of the silver bream in the reservoirs of the Dnieper feed on crustaceans and chironomid larvae. To a lesser extent, it consumes algae, caddisflies, spiders and water bugs. Adult fish feed on higher aquatic plants, worms, mollusks, crustaceans, larvae and pupae of mosquitoes and other insects.

The main feeding grounds for small bream (10-15 cm long) are located mainly in the coastal zone. Large fish feeding mainly on mollusks feed in places more remote from the coast. Fish with a length of 25-32 cm, with significant fatty deposits on the intestines, eat less. With an increase in the size of the body of the silver bream, the number of crustaceans and insect larvae in the composition of its feed decreases, and the number of mollusks increases.

She switches to feeding on mollusks with a body length of 13-15 cm or more. Depending on the composition and development of the food base, the ratio of food organisms in the food composition of fish of the same size is not the same. For example, fish 10-12 cm long in the coastal zone feed mainly on insect larvae, and in deeper places - crustaceans, which corresponds to the distribution of these organisms in reservoirs.

Gustera is widespread in Europe. It is absent in the rivers of the Arctic Ocean and in Central Asia. In the CIS, it lives in the basins of the Baltic, Black, Azov and Caspian Seas. In Ukraine, it lives in the basins of all rivers, excluding the Crimean rivers and mountainous sections of other rivers.

List of fish: whitefish species, muksun, omul and vendace

There are many salmon fish, one of the families is whitefish, a numerous, poorly studied and changeable fish genus. Representatives of this family have a laterally compressed body and a small mouth for their size, which causes a lot of inconvenience to fans of fishing with a bait. The lip of a whitefish often does not withstand the load when it is pulled out of the water, and, breaking off the lip, the fish leaves.

Due to the similarity of the silhouette of the head of a whitefish with the head of a herring, whitefish are also called herring, and only the adipose fin clearly indicates their salmon affiliation. The extremely high degree of variability of traits still does not allow establishing the exact number of their species: in each lake it is possible to establish its own special species, for example, 43 forms were identified only on the lakes of the Kola Peninsula. Currently, work is underway to combine similar forms into one species, which should lead to a systematization of the species of whitefish family.

General description of the family

On the territory of Russia, there are over a hundred varieties of fish of this family, which have excellent taste and other useful properties. Its habitat is almost all water bodies from the Kola Peninsula in the west to the Kamchatka and Chukotka Peninsulas in the east. Although this fish belongs to salmon, its meat is white, sometimes pinkish in color. Often, even experienced anglers do not even suspect that the Baikal omul is the same whitefish. Here is a small enumeration of the names of fish of the whitefish family:

vendace largemouth and European (ripus), whitefish Atlantic and Baltic;
Volkhov, Baunt and Siberian whitefish (pyzhyan), Baikal omul;
muksun, tugun, valamka and chir (shokur).

This diverse fish does not have a single appearance, but all members of the family have uniform silvery scales and darkened fins. The adipose fin, the hallmark of all salmon fish, is also common feature fish of the genus whitefish. A distinctive feature of females is the scales, unlike the scales of males, it is larger and has a yellowish tint.

Like salmon, whitefish can be found in both fresh and salt water. Depending on this, two groups of sigs are distinguished:

freshwater - lake and river;
migratory or marine whitefish.

Gallery: whitefish species (25 photos)

habits and preferences

A common quality for the whole family is life in a pack, which are formed according to the age of the individuals. Whitefish preferences are unadulterated cold water, enriched with oxygen, which usually happens on the rapids of rivers and in the depths of lakes. At the same time, a flock of whitefish can drive representatives of other fish species from the pit. Usually than bigger fish the farther it moves from the coast.

The ability to spawn in fish of the family appears at the age of about three years, and in some breeds - a year or two later. Spawning of sea and freshwater whitefish takes place under the same conditions - all of them, including lake ones, rise to the upper reaches of rivers and their tributaries. Spawns whitefish in autumn, when the water gets colder to below five degrees. Places of spawning are deep pits and still waters of rivers, stretches. Here, caviar is aged until spring, when fry appear from caviar with warming water.

The diet of the whitefish family, like all predators, is of animal origin: vertebrate and invertebrate insects (worms, larvae and caterpillars, caddisflies and bark beetles), small crustaceans and mollusks, caviar. Depending on the age and, accordingly, the size of the predator itself, it also attacks fish that are smaller than it. But there are among the whitefish and lovers of vegetarian food collected from the bottom, as well as omnivores - semi-predators.

Their life expectancy is about two decades, but more often half-aged fish are caught. The largest whitefish is usually a little more than half a meter long, and small adult breeds are from one to one and a half decimeters.

As a rule, whitefish are distinguished into separate groups according to the position of the mouth. The mouth can be directed upward - the upper mouth, forward - the terminal, and downward - the lower mouth.

Upper mouth - small fish that feed on what they find near the surface of the water. These are insects and invertebrates - worms and caterpillars. Fish with an upper mouth are represented mainly by the European vendace (ripus) and the larger Siberian vendace. The latter is up to half a meter in length, lives in places where rivers flow into the salty waters of the sea, and almost never occurs in lakes. Ripus is half the size, it is an inhabitant of the lakes. Both types of vendace are commercial.

Whitefish with a mouth in front (final) are also commercial. Omul is a large, over half a meter long fish that lives, like vendace, in the bays of the seas and the mouths of the rivers flowing into the sea, where it rises to spawn. The diet of omul includes crustaceans and small fish. Baikal omul is a lake species of whitefish. Another lake-river variety is peled fish (cheese), in sea water it does not enter, but is as large as vendace and omul, its length is about half a meter. It was also brought to the reservoirs of the Southern Urals, here its dimensions are not so impressive. There is also a small relative of whitefish with a terminal mouth - tugun, which lives in the rivers of Siberia. Its length does not exceed twenty centimeters.

Whitefish with a lower mouth position also live in Russian water bodies, there are seven species of them. But at present, work is underway to separate them, and it makes no sense to provide any information on them.

Freshwater whitefish

Breed river whitefish - by name, an inhabitant of the rivers, where it gets from the sea or a large lake when moving to spawn. Its usual weight is about a kilogram, rarely exceeds two kilograms. In the lakes, the river whitefish only hibernates, in all other seasons it leads a river life. In fact, this is a marine or migratory whitefish acclimatized to river life. The caviar of this type of whitefish is multiple - up to 50 thousand eggs and slightly lighter than trout caviar.

Pechora whitefish, the most famous omul, it has already been mentioned above, peled, whitefish. Peled reaches a length of more than half a meter and weighs about three kilograms. Chir is much larger, it can weigh up to ten kg, lives in the lakes of the Pechora River basin and its channels.

The Baikal omul reaches a weight of up to seven kilograms, its food is small epishura crustaceans, with an insufficient amount of which it switches to eating small fish. Starting from September, the omul rises into the rivers, preparing for spawning. According to the locations of spawning grounds, subspecies of the Baikal omul are distinguished:

Angarsk - early maturing, maturity at five years, but with slow growth;
selenginsky - maturity at seven years old, growing rapidly;
chivirkuy - also grows rapidly, spawning in October.

The omul finishes spawning when sludge already appears on the river and floats back to Lake Baikal for wintering. At one time, the fish was intensively caught by commercial fishermen, and its number has significantly decreased, but now measures are being taken for the artificial reproduction of omul.

Read: Variety of fish: shape, size, color

Fish fins: shape, structure.

Read more: Fish buoyancy; Swimming fish; flying fish

In different fish, the size, shape, number, position and function of the fins are different. But their original and main role is that the fins allow you to maintain the balance of the body in the water, participate in maneuvering movement.

All fins in fish are divided into paired, which correspond to the limbs of higher vertebrates, as well as unpaired. Paired fins include pectoral (P - pinna pectoralis) and ventral (V - pinna ventralis). To unpaired fins include dorsal (D - p. dorsalis); anal (A - p. analis) and tail (C - p. caudalis).

A number of fish groups, in particular salmonids, characins, killer whales, and others, have a so-called adipose fin behind the dorsal fin, which is devoid of fin rays (p.adiposa).

Pectoral fins are common in bony fish, while moray eels and some others lack them. Lampreys and hagfish are completely devoid of both pectoral and ventral fins. In stingrays, on the contrary, the pectoral fins are greatly enlarged and play the main role as organs of their movement. But the pectoral fins have developed especially strongly in flying fish, which allows them to jump out of the water at high speed, literally soar in the air, while flying long distances above the water. The three rays of the pectoral fin of the gurnard are completely isolated and act as legs when crawling on the ground.

The pelvic fins in different fish can occupy a different position, which is associated with a shift in the center of gravity caused by contraction of the abdominal cavity and the concentration of the viscera in the anterior part of the body. Abdominal position - when the pelvic fins are located approximately in the middle of the abdomen, which we observe in sharks, herrings, cyprinids. In the thoracic position, the ventral fins are shifted to the front of the body, as in perciformes. And finally, the jugular position, in which the ventral fins are located in front of the pectoral and on the throat, like in codfish.

In some species of fish, the ventral fins are turned into spines - like a stickleback, or into a sucker, like a lumpfish. In male sharks and rays, the posterior rays of the ventral fins have evolved into copulatory organs and are called pterygopodia. The pelvic fins are completely absent in eels, catfish, etc.

At different groups fish can have a different number of dorsal fins. So, in herring-like and cyprinids, it is one, mullet-like and perch-like have two dorsal fins, and in cod-like ones there are three. In this case, the location of the dorsal fins can be different. In pike, the dorsal fin is shifted far back, in herring-like, cyprinids it is located in the middle of the body, and in fish such as perch and cod, which have a massive front part of the body, one of them is located closer to the head. The longest and highest dorsal fin of a sailboat fish, reaching really large sizes. In flounder, it has the form of a long ribbon running along the entire back and, simultaneously with almost the same anal, is their main organ of movement. And such mackerels as mackerel, tuna and saury acquired in the process of evolution small additional fins located behind the dorsal and anal fins.

Separate rays of the dorsal fin sometimes extend into long filaments, and in monkfish the first ray of the dorsal fin is shifted to the muzzle and transformed into a kind of fishing rod. It is he who acts as a bait, like a deep-sea anglerfish. The latter has a special bait on this rod, which is their luminous organ. The first dorsal fin of the sticky fish also shifted to the head and turned into a real sucker. The dorsal fin in sedentary demersal fish species is poorly developed, such as in catfish, or may be completely absent, as in stingrays. The famous electric eel also lacks a dorsal fin....

The external structure of fish

Fish and fish-like have a body divided into three sections: head, body and tail.

Head ends in bony fish (A) at the level of the posterior edge of the gill cover, in cyclostomes (B) - at the level of the first gill opening. torso(usually called the body) in all fish ends at the level of the anus. Tail consists of a caudal peduncle and a caudal fin.

Fish have paired and unpaired fins. To paired fins include pectoral and pelvic fins unpaired- caudal, dorsal (one-three), one or two anal fins and an adipose fin located behind the dorsal (salmon, whitefish). In gobies (B), the ventral fins have changed into a kind of suckers.

body shape in fish is associated with habitat conditions. Fish living in the water column (salmon) are usually torpedo-shaped or arrow-shaped. Bottom fish (flounder) most often have a flattened or even completely flat body shape. Species living among aquatic plants, stones and snags have a body strongly compressed from the sides (bream) or serpentine (eel), which provides them with better maneuverability.

Body fish can be naked, covered with mucus, scales or shell (needle-fish).

Scales freshwater fish of Central Russia can have 2 types: cycloid(with a smooth trailing edge) and ctenoid(with spines along the posterior margin). There are various modifications of scales and protective bone formations on the body of fish, in particular, sturgeon bugs.

The scales on the body of fish can be located in different ways (solid cover or areas, like a mirror carp), and also be different in shape and size.

Mouth position- an important feature for identifying fish. Fish are divided into species with lower, upper and final positions of the mouth; there are intermediate options.

For fish of near-surface waters, the upper position of the mouth (sabrefish, top) is characteristic, which allows them to pick up prey that has fallen on the surface of the water.
Predatory species and other inhabitants of the water column are characterized by the final position of the mouth (salmon, perch),
and for the inhabitants of the near-bottom zone and the bottom of the reservoir - the lower one (sturgeon, bream).
In cyclostomes, the function of the mouth is performed by an oral funnel armed with horny teeth.

The mouth and oral cavity of predatory fish are equipped with teeth (see below). Peaceful benthic fish have no teeth on their jaws, but they have pharyngeal teeth for crushing food.

Fins- formations consisting of hard and soft rays, connected by a membrane or free. The fins of fish consist of spiny (hard) and branched (soft) rays. Prickly rays can take the form of powerful spikes (catfish) or a serrated saw (carp).

According to the presence and nature of the rays in the fins of most bony fish, it is compiled fin formula, which is widely used in their description and definition. In this formula, the abbreviated designation of the fin is given in Latin letters: A - anal fin (from the Latin pinna analis), P - pectoral fin (pinna pectoralis), V - ventral fin (pinna ventralis) and D1, D2 - dorsal fins (pinna dorsalis). Roman numerals give the numbers of prickly, and Arabic - soft rays.

Gills absorb oxygen from the water and release carbon dioxide, ammonia, urea and other waste products into the water. Teleost fish have four gill arches on each side.

Gill rakers the most thin, long and numerous in fish feeding on plankton. In predators, gill rakers are rare and sharp. The number of stamens is counted on the first arch, located immediately under the gill cover.

Pharyngeal teeth located on the pharyngeal bones, behind the fourth branchial arch.

Habitat and external structure of fish

The habitat of fish is various water bodies of our planet: oceans, seas, rivers, lakes, ponds. It is very vast: the area occupied by the oceans exceeds 70% of the Earth's surface, and most deep depressions go deep into the oceans at 11 thousand meters.

The variety of living conditions in the water influenced the appearance of fish and contributed to a wide variety of body shapes: the emergence of many adaptations to living conditions, both in structure and in biological features.

Overall plan external structure fish

On the head of the fish are eyes, nostrils, mouth with lips, gill covers. The head smoothly merges into the body. The trunk continues from the gill covers to the anal fin. The body of the fish ends with a tail.

Outside, the body is covered with skin. Protects the skin of most slimy fish scales .

The locomotion organs of fish are fins . The fins are outgrowths of the skin that rest on the bones. fin rays . The tail fin is the most important. From the bottom on the sides of the body are paired fins: pectoral and ventral. They correspond to the fore and hind limbs of terrestrial vertebrates. The position of the paired fins varies from fish to fish. The dorsal fin is located on top of the body of the fish, and the anal fin is located below, closer to the tail. The number of dorsal and anal fins may vary.

On the sides of the body of most fish is a kind of organ that perceives the flow of water. it lateral line . Thanks to the lateral line, even a blinded fish does not run into obstacles and is able to catch moving prey. The visible part of the lateral line is formed by scales with holes. Through them, water penetrates into a channel stretching along the body, to which the endings of nerve cells fit. The lateral line may be intermittent, continuous or completely absent.

Fin functions

Thanks to the fins, the fish is able to move and maintain balance in the aquatic environment. Deprived of fins, it turns over with its belly up, since the center of gravity is placed in the dorsal part.

unpaired fins (dorsal and anal) provide body stability. The caudal fin in the vast majority of fish performs the function of a mover.

Paired fins (thoracic and abdominal) serve as stabilizers, i.e. provide an equilibrium position of the body when it is immobile. With their help, the fish maintains the body in the desired position. When moving, they serve as bearing planes, a steering wheel. The pectoral fins move the fish's body when swimming slowly. The pelvic fins perform mainly the function of balance.

Fish have a streamlined body shape. It reflects the characteristics of the environment and lifestyle. In fish adapted to fast long swimming in the water column ( tuna(2), mackerel, herring, cod, salmon ), "torpedo-shaped" body shape. In predators practicing fast throws at a short distance ( pike, taimen, barracuda, garfish (1) , saury), it is "arrow-shaped". Some fish adapted to long stay at the bottom ( slope (6) , flounder (3) ) have a flat body. In some species, the body has a bizarre shape. For example, sea Horse resembles the corresponding chess piece: its head is at right angles to the axis of the body.

Sea Horses inhabit different oceans of the globe. These fish surprise anyone who observes them: the body, like an insect, is enclosed in a shell, the prehensile tail of a monkey, the rotating eyes of a chameleon and, finally, a bag, like a kangaroo.

Although this pretty fish can swim upright with the help of the oscillating motion of its dorsal fin, it is a poor swimmer and spends most of its time hanging, clinging to seaweed with its tail and looking out for small prey. The tubular snout of the skate acts like a pipette - when the cheeks swell sharply, the prey is quickly drawn into the mouth from a distance of up to 4 cm.

Considered the smallest fish Filipino goby Pandaku . Its length is about 7 mm. At one time, fashionistas wore these fish in ... ears. In crystal earrings-aquariums!

Considered the largest fish whale shark which reaches a length of 15 m.

Additional fish organs

Some species of fish (for example, carp or catfish) have antennae around the mouth. These are additional organs of touch and determination of the taste of food. Many marine deep-sea fish (for example, deep-sea anglerfish, hatchet fish, anchovy, photoblepharon ) developed luminous organs.

Protective spikes are found on the scales of fish. They can be located in different parts of the body. For example, thorns cover the body hedgehog fish .

Some fish, for example scorpionfish, sea dragon, wart have organs of defense and attack - poisonous glands located at the base of the spikes and fin rays.

body integuments

Outside, the skin of fish is covered with scales - thin translucent plates. Scales with their ends overlap each other, arranged in a tile-like manner. This provides

strong protection of the body and at the same time does not create obstacles to movement. Scales are formed by special skin cells. The size of the scales is different: from microscopic to acne up to several centimeters Indian barbel . There is a wide variety of scales: in shape, strength, composition, quantity and some other characteristics.

Lie in the skin pigment cells - chromatophores : when they expand, the pigment grains spread over a larger area and the color of the body becomes bright. If the chromatophores contract, pigment grains accumulate in the center, leaving most of the cell uncolored, and the color of the body turns pale. If the pigment grains of all colors are evenly distributed inside the chromatophores, the fish has a bright color; if the pigment grains are collected in the centers of the cells, the fish becomes almost colorless, transparent; if only yellow pigment grains are distributed over their chromatophores, the fish changes color to light yellow.

Chromatophores determine the diversity of fish coloration, especially bright in the tropics. Thus, the skin of fish performs the function of external protection. It protects the body from mechanical damage, facilitates sliding, determines the color of the fish, and communicates with the external environment. The skin contains organs that sense temperature and chemical composition water.

Coloring value

Pelagic fish often have a dark "back" and a light "belly", like this fish. abadejo cod family.

Indian glass catfish can serve as a guide to the study of anatomy.

Many fish that live in the upper and middle layers of the water have a darker color in the upper part of the body and a light color in the lower. The silvery belly of the fish, when viewed from below, will not stand out against the light background of the sky. Similarly, a dark back, when viewed from above, will blend into the dark background of the bottom.

By studying the coloration of fish, you can see how it is used to mask and imitate other types of organisms, to observe a demonstration of danger and inedibility, as well as the presentation of other signals by fish.

In certain periods of life, many fish acquire a bright breeding color. Often the color and shape of the fish complement each other.

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The hydrosphere is characterized by an extraordinary variety of conditions. These are fresh, running and stagnant waters, as well as salty seas and oceans inhabited by organisms on different depths. To exist in such diverse conditions, fish have developed both general structural principles that meet the requirements of the environment (a smooth, elongated body without protrusions, covered with mucus and scales; a pointed head with pressed gill covers; a system of fins; a lateral line), as well as adaptations characteristic of individual groups (flattened body, light organs, etc.). Each species of fish has numerous and varied adaptations corresponding to a certain way of life.