What type of invertebrate animal is a starfish? What type of invertebrate animal is the starfish? Features of the structure of the digestive system
Starfish are animals with an unusual body shape, thanks to which they attracted the attention of people back in ancient times. Starfish belong to the phylum Echinodermata, in which they are classified as a separate class, numbering almost 1,600 species. The closest relatives of these invertebrates are brittle stars, or snaketails, which are very similar to them, and more distant relatives are sea cucumbers and sea urchins.
Elegant starfish (Fromia monilis).
The main distinguishing feature of starfish is, of course, their body shape. In general, the body of starfish can be divided into a central part - the disk, and lateral outgrowths, which are usually called rays or arms. These animals are characterized by radial symmetry, so their body is divided into symmetrical sectors, the number of which is usually five. However, among starfish there are organisms with a large number of axes of symmetry: in some species their number can reach 6-12 and even 45-50.
Nine-armed starfish (Solaster endeca).
Each sector, accordingly, includes part of the central disk and a hand. It would seem that such a similar structure should result in the monotony of these living organisms. But the body shape of starfish is very variable. Firstly, the relative length and thickness of the rays varies greatly: in some species they are elongated and thin, in others they have a triangular shape, sharply tapering towards the end, in others the rays are so short that they practically do not protrude beyond the edges of the central disk. The latter type of stars have a very high central disk, so they resemble pillows. Thus, in most species of sea stars, the length of the rays is 3-5 times greater than the diameter of the central disk, in the longest-armed ones it is 20-30 times, and in the cushion-shaped ones it tends to zero.
This colorful ottoman on the seabed is actually the New Guinea starfish (Culcita novaeguineae).
Secondly, starfish differ in surface texture and color. Here the variety simply defies description - smooth, spiky, prickly, rough, velvety, mosaic; monochrome and patterned, bright and faded. The color range of these animals includes almost all colors, but most often there are various shades of red, less often blue, brown, pink, purple, yellow, and black. Pale sea stars usually live in the depths, while shallow-water species are brightly colored.
This is the same New Guinea kulzita, but of a different color.
At first glance, starfish seem primitive, because they do not have any noticeable sensory organs, a brain, and poorly differentiated internal organs, but this simplicity is deceptive.
The Linkia starfish (Linckia laevigata) is bright blue in color and has sausage-like rays.
First of all, it should be noted that starfish have an internal skeleton. They do not have a backbone or individual bones, but have many calcareous plates connected to each other in an openwork system.
Openwork plexuses of skeletal elements on the surface of a starfish.
In a young starfish, the skeletal elements are hidden under the skin, but over time the skin over some calcareous spines wears off and they become visible from the outside. It is these spines that give starfish their spiny appearance.
The spines on the surface of the starfish are covered with skin, but some of them are already exposed and have a shiny surface.
In addition, on the upper side of the body in many species, calcareous plates may be visible, fused together or forming a network.
A bizarre pattern formed by the skin and skeletal elements of a starfish.
Finally, the third element that influences the appearance of a starfish is pedicellaria. Pedicellariae are modified needles that look like tiny tweezers. They play an important role in the life of a starfish; with their help, it cleans the upper side of its body from debris and sand. All skeletal elements are connected to each other by muscles, so after the death of a starfish, its skeleton crumbles into calcareous plates and not a trace remains of the animal.
The acanthaster starfish, or crown of thorns (Acanthaster ellisii) has spiny and poisonous spines.
The muscular system of starfish is relatively poorly developed. Each ray has a muscle cord that can bend the ray upward, and this, in fact, limits the muscle movements of the stars. But mobility is not limited at all. Starfish can crawl, dig, bend, and swim, but they do not do this with the help of muscles.
Scalloped sea stars (Patiria pectinifera) climb on the seaweed.
These animals have a special body system - ambulacral. Essentially, this system consists of channels and cavities connected together and filled with liquid. The starfish can pump this fluid from one part of the system to another, causing its body parts to flex and move. The central part of this system is the ambulacral legs - tiny blind outgrowths of the ambulacral canals on the underside of the starfish. Each leg moves independently of the others, but their actions are always coordinated. With the help of these microscopic elements, the starfish is able to perform miracles. For example, it is able to climb a vertical surface, can stick to the glass of an aquarium for a long time, can rear up, swelling up like an angry cat, or maybe, grabbing hold of two rays, push the valves of a mollusk shell apart. And all this is done by an animal practically devoid of a brain and eyes!
Translucent ambulacral legs are visible on the underside of the beam.
To be fair, it is worth noting that starfish do have some sense organs. These are the eyes located at the ends of each ray. The eyes are very primitive and only distinguish between light and darkness; starfish cannot see objects. Starfish are capable of detecting chemicals (analogous to smell), but they sense them differently. Some species are very sensitive and can crawl to the bait for several days in a row by smell, others can crawl past the victim a couple of centimeters and not smell it. Sea stars have a very developed sense of touch; they try to get rid of the sand that covers them from above, and also always try to feel their way with the help of small tentacles at the end of each ray. The sense of touch tells the starfish whether it has encountered a victim or a predator. The starfish's brain is replaced by a group of loosely interconnected cells. It is surprising that despite such a primitive structure of the nervous system, starfish can develop elementary conditioned reflexes. For example, individuals who were often caught in nets began to get out of them faster than those who were caught for the first time.
At the end of the ray of the asterodiscus starfish (Asterodiscus truncatus) a formed eye is visible. The beam itself is covered with relief limestone plates.
Another strong, literally and figuratively, system of starfish is the digestive system. The mouth of these animals is located in the center of the disc on the underside of the body, and the tiny anus is located on the back. By the way, starfish rarely use it (in some species it even becomes overgrown), preferring to remove undigested food residues through the mouth. The stomach of these invertebrates has outgrowths extending into rays; reserves of nutrients are deposited in them in case of famine. And starfish regularly starve because they stop feeding during reproduction. The stomach in many species can turn outward through the mouth opening, and it stretches like rubber, taking any shape. Thanks to its expandable stomach, the starfish can digest prey that is larger than itself. There is a known case when the starfish Luidia swallowed such a large sea urchin that it died, unable to spit out its remains.
A tiny anal opening is visible in the middle of the central disc of Phromia monilis.
Other body systems are poorly developed in starfish. They breathe through special skin outgrowths on the upper side of the body, washed by sea currents. They do not have gills or lungs, so starfish are sensitive to lack of oxygen. They also cannot tolerate desalination of water, so they are found only in seas and oceans. The sizes of these animals range from 1-1.5 cm for the miniature spherical star Podosferaster to 80-90 cm for the sea star Freyella.
The name of this starfish speaks for itself - fromia elegans.
Starfish have a global distribution. They are found everywhere in all seas and oceans from the tropics to the poles. Of course, species diversity is higher in warm waters than in cold waters. Most species prefer to live in shallow waters, some even end up on the shore during low tides. But among these animals there are also deep-sea species, including those that live at depths of over 9 km!
Starfish in shallow water.
Starfish spend most of their time crawling along the bottom. They do this very slowly, the usual speed of a medium-sized individual is 10 cm per minute, but a starfish can “hurry up” at a speed of 25-30 cm per minute. If necessary, these animals climb onto stones, corals, and algae. If a starfish falls on its back, it immediately turns over with its ventral side down. To do this, the animal bends two rays so that the ambulacral legs on the lower side touch the ground, and then the starfish turns its body and takes its usual position. Some species are even capable of swimming awkwardly over short distances. Starfish can be called sedentary animals; their tagging has shown that they do not move more than 500 m from the place of initial catch.
The coriaster starfish (Coriaster granulatus) looks like a bun.
Despite their outward primitiveness and apparent helplessness, starfish are formidable predators. They are quite voracious and never refuse prey, with the exception of the period of gestation. Only deep-sea species feed on silt, from which they extract food particles; kulcite sea stars, which prefer to eat fouling on corals, can also be called conditionally “non-predatory”. All other species actively hunt other animals.
It is not a romantic relationship that connected this couple: the sea star Solaster dawsoni eats the spiny hippasteria spinosa.
Most starfish are picky; they eat everything they can hold with their hands and whatever their “rubber” stomach can reach, not disdaining carrion. Some species can only feed on a certain type of food: sponges, corals, gastropods.
The pretty starfish (Pentagonaster pulchellus), also called the biscuit starfish for its biscuit-like body shape.
The favorite prey of sea stars are sedentary animals like themselves - sea urchins and bivalves. The star catches the sea urchin by crawling and eats it with its mouth. Bivalves have shells whose valves close tightly in case of danger, so starfish treat them differently. First, the starfish sticks with two rays to the shell flaps, and then begins to move them apart. It must be said that the ambulacral legs are firmly glued to the substrate thanks to an adhesive lubricant, and one single ambulacral leg can develop a force of up to 30 g! And on each ray of the starfish there are hundreds of them, so she, like a real strongman, pushes the shells apart with an effort of several kilograms. However, the starfish does not need to spread the shell flaps to their full width; for a hearty lunch, a gap of 0.1 mm is enough for it! The starfish turns its stomach into this truly microscopic gap (it can stretch up to 10 cm) and digests the mollusk in its own home.
Asteria starfish (Asterias rubens) reaches out to a clam.
Most starfish are dioecious; very few species have both male and female gonads. The gonads are located in pairs at the base of each ray. In the asterine starfish, the young are first male and then change to female. A special exception is the ophidiaster starfish, which has no males at all! Females of this species lay eggs without fertilization, a process called parthenogenesis. During mating, males and females connect their rays and release sperm and eggs into the water. The number of eggs depends on the type of development of the larvae and ranges from 200 in those species that bear offspring, and up to 200 million in species with free-swimming larvae.
Mating starfish.
Starfish larvae come in three types. In some species, the eggs hatch into a free-swimming larva, which feeds on microscopic algae, and then attaches to the bottom and gradually turns into a small star. In others, the free-swimming larva has large reserves of yolk, so it does not feed and immediately turns into an adult form. In starfish that live in cold waters, the larvae do not separate from the mother’s body at all, but accumulate near her mouth or even in special stomach pockets. During this period, a caring female rests only on the tips of the rays, and arches her body into a dome, under which the offspring are located. Since the larvae are located near the mouth opening, the female does not feed during this period. The larval form is the most mobile in the life cycle of sea stars; it is during this period that the young can be carried by currents over very long distances.
The starfish larva has bilateral symmetry.
In addition to sexual reproduction, starfish can also reproduce asexually. Most often this occurs in multi-rayed species; the animal’s body is divided into two halves, each of which builds up the missing rays. In other species, asexual reproduction may be the result of regeneration following traumatic damage to the body. If a starfish is artificially divided into several parts, then a new organism will be formed from each. Even one beam is enough for restoration, but a piece of the central disk is required. Starfish grow slowly, so they look lopsided for many months.
A new individual is formed from the cut off ray of a starfish. This shape is often called a comet.
In their natural environment, sea stars have very few enemies, since the sharp spines, which can be poisonous, scare away large predators. In addition, these invertebrates, on occasion, try to bury themselves in the sand so as not to attract attention. Most often, sea stars fall into the teeth of sea otters and seagulls.
A seagull caught a starfish.
But the starfish Astropectens is friends with polychaete worms. One individual can have up to five cohabitants, who prefer to stay on the underside of the body close to the star’s mouth. The worms pick up the remains of her prey and even stick their heads into her stomach! The echinaster sea star is inhabited by a special type of ctenophore, which cleans the surface of the star from fouling.
These bright spots on the Luzon starfish (Echinaster luzonicus) are ctenophores (Coeloplana astericola).
Since ancient times, people have paid attention to the colorful animals of shallow waters, but starfish were of no economic interest to them. Only in China are they sometimes eaten, while attempts to feed starfish to domestic animals can lead to the death of the latter. This is likely due to toxins that some species accumulate by eating coral and poisonous shellfish. But with the development of the maritime economy, people began to classify these animals as their enemies. It turned out that starfish often eat bait in bottom crab traps, and also raid plantations for breeding oysters and scallops. In a few years (that’s how long it takes to grow oysters), starfish can destroy an entire oyster bank. At one time they tried to destroy the predators by cutting them into pieces, but this only increased their numbers, because from each stump a new starfish grew. Then they learned to extract starfish with special trawls and kill them with boiling water.
A very impressive mosaic starfish (Iconaster longimanus).
The worst pest was the acanthaster starfish, or crown of thorns. This very large echinoderm feeds exclusively on corals; after itself, the crown of thorns leaves only a white lifeless path on the coral reef. At one time, these stars multiplied so much that they literally ate a huge section of the Great Barrier Reef off the coast of Australia. The unique geological formation was under threat of destruction. The fight against the crown of thorns was complicated by the fact that its thorns are poisonous to humans; the prick of the crown of thorns causes burning pain, although it is not fatal. Specially trained divers collected the acanthasters into bags with sharp spikes or injected a lethal dose of formaldehyde into the body of the starfish. Only in this way was it possible to pacify the invasion of voracious predators and save the reef. Nowadays, all species of starfish are in a safe condition and do not need protection.
The crown of thorns eats the coral.
Sea stars- These are very unusual animals that live in the seas and oceans. They are invertebrates, belong to the phylum echinoderms and are very similar to stars, as they have rays diverging in different directions. Most often, the sea star has five rays, but there are species with three, four and six rays. The color of the body is often very bright and varied; on the surface there are special hard plates with needles or spines. The sizes of stars vary greatly and can range from 2 cm to 100 cm, but most stars have a diameter of about 20 cm.
Spreading
Starfish are widely distributed around the globe. They can be found in all oceans and seas and in all climatic zones, but there are more starfish in warm waters than in cold ones, and they are not found at all in fresh waters.
These animals prefer a bottom lifestyle, often live in shallow water, but can also live at depth, but not deeper than 8.5 km.
Now on earth there are 1.6 thousand species of starfish.
Nutrition
Almost all starfish are predators. They mainly feed on marine invertebrates - worms, mollusks, sponges, barnacles, corals and others. Some deep-sea starfish feed on the mud they find on the bottom.
The digestive system of starfish is quite unique. Their mouth opening is located on the ventral side, and two stomachs extend from it. One stomach has the ability to turn outward and envelop the victim, and the second stomach has ten processes that are located inside the rays of the starfish. This unusual digestive system allows the star to eat prey that is larger than itself.
Lifestyle
Starfish are slow, sedentary animals. They usually crawl lazily along the bottom, lie still, or may climb rocks and corals in search of prey. Their movement speed is very low - 10-30 cm per minute. Stars are considered sedentary animals. As a rule, they move no further than 0.5 km from their usual place of residence.
In their development, stars go through several stages of development. From the eggs that adults throw into the water, larvae are first formed and then they gradually turn into an adult starfish. Some species of starfish carry larvae in special brood pouches on their bodies.
Starfish can live 20 years or more.
- Starfish don't have a brain.
- Instead of eyes, starfish have light-sensitive cells located at the tips of their rays.
- Starfish are capable of regeneration - from a detached ray, a new star can develop.
Brief information about starfish.
Traditionally, on Saturdays, we publish for you the answers to the quiz in the “Question - Answer” format. We have a variety of questions, both simple and quite complex. The quiz is very interesting and quite popular, we are simply helping you test your knowledge and make sure that you have chosen the correct answer out of the four proposed. And we have another question in the quiz - What type of invertebrate animal is the starfish?
- arthropods
- sponges
- brachiopods
- echinoderms
The correct answer is D. Echinoderms
Starfish (Asteroidea)- inhabitants of the deep sea, class of invertebrates such as echinoderms. The starfish, despite its inactivity and the absence of a head as such, has a well-developed nervous and digestive system. And why, in fact, “echinoderms”. It's all about the hard skin of the starfish - on the outside it is covered with short needles or spines. Conventionally, these bizarre creatures can be divided into three groups: ordinary starfish; feather stars, named for their writhing rays (up to 50!), and “fragile” stars that cast off their rays in case of danger.
They raise many questions, among which the following are of particular interest: “What does a starfish eat?”, “For whom does it pose a mortal threat?”
Stars on the seabed
These extraordinary decorations of the seabed have existed on the planet for quite a long time. They appeared about 450 million years ago. There are up to 1600 types of stars. These animals inhabit almost all seas and oceans of the earth, the water of which is quite salty. Stars do not tolerate desalinated water; they cannot be found in the Azov and Caspian Seas.
Animals can have rays from 4 to 50, sizes vary from a few centimeters to a meter. The lifespan is about 20 years.
The sea inhabitants do not have a brain, but on every ray there is an eye. The organs of vision resemble insects or crustaceans and distinguish between light and shadow well. Many eyes help animals hunt successfully.
Stars breathe almost through their skin, so it is very important for them to have a sufficient amount of oxygen in the water. Although some species can live at decent depths of the ocean.
Structural features
It is interesting how starfish reproduce and feed. Biology classifies them as invertebrate echinoderms. The starfish does not have blood as such. Instead, the star's heart pumps sea water enriched with some trace elements through its vessels. Pumping water not only saturates the animal's cells, but also by forcing fluid into one place or another helps the star move.
Starfish have a ray structure of the skeleton - rays extend from the central part. The skeleton of sea beauties is unusual. It consists of calcite and develops inside a small star from almost a few calcareous cells. What and how starfish feed largely depends on the characteristics of their structure.
These echinoderms have special pedicellaria on their tentacles in the form of tweezers at each tip of the outgrowth. With their help, the stars hunt and clean their skins from debris clogged between the needles.
Cunning hunters
Many people are interested in how starfish eat. A brief description of the structure of their digestive system can be found below. These amazing beauties create the impression of complete security. In fact, they are sea predators, voracious and insatiable. Their only drawback is their low speed. Therefore, they prefer a stationary delicacy - mollusk shells. The starfish eats scallops with pleasure, and is not averse to eating sea urchins, sea cucumbers, and even fish that carelessly swim too close.
The fact is that the starfish has practically two stomachs, one of which can turn outward. An unwary prey, captured by the pedicellariae, is transferred to the mouth opening in the center of the rays, then the stomach is thrown over it like a net. After this, the hunter can release the prey and slowly digest it. For some time, the fish even drags its executioner along with it, but the victim can no longer escape. Everything that a starfish eats is easily digested in its stomach.
She acts somewhat differently with shells: she slowly approaches the dish she likes, entwines the shell with her rays, places her mouth opening opposite the slit of the shell and begins to move the shells apart.
As soon as even a small gap appears, the external stomach is immediately pushed into it. Now the sea gourmet calmly digests the owner of the shell, turning the mollusk into a jelly-like substance. This fate awaits any eaten victim, no matter whether the starfish feeds on a scallop or a small fish.
Features of the structure of the digestive system
The predator does not have any devices for capturing prey. The mouth, surrounded by a ring lip, connects to the stomach. This organ occupies the entire interior of the disc and is highly flexible. A gap of 0.1 mm is enough to penetrate the shell doors. In the center of the aboral side, a narrow, short intestine opens, extending from the stomach. What a starfish eats largely depends on the unusual structure of its digestive system.
Love of the stars at the bottom of the ocean
Most starfish are heterosexual. During love games, individuals are so busy with each other that they stop hunting and are forced to fast. But this is not fatal, because in one of the stomachs these cunning creatures tend to deposit nutrients in advance for the entire duration of mating.
The gonads are located in the stars near the base of the rays. When mating, the female and male individuals connect the rays, as if merging in a tender embrace. Most often, eggs and male reproductive cells end up in sea water, where fertilization occurs.
If there is a shortage of certain individuals, stars can change sex to maintain the population in a certain area.
These eggs are most often left to their own devices until the larvae hatch. But some stars turn out to be caring parents: they carry eggs and then larvae on their backs. For this purpose, in certain species of starfish, during mating, special sacs for eggs appear on their backs, which are well washed with water. There she can remain with the parent until the larvae appear.
Reproduction by division
A completely extraordinary ability of starfish is reproduction by fission. The ability to grow a new ray arm exists in almost all animals of this species. A star grabbed by a beam by a predator can throw it away like a lizard's tail. And after a while, grow a new one.
Moreover, if a small particle of the central part remains on the beam, after a certain time a full-fledged starfish will grow from it. Therefore, it is impossible to destroy these predators by cutting them into pieces.
Who are starfish afraid of?
Representatives of this class have few enemies. Nobody wants to mess with the poisonous needles of sea celestials. Animals are also able to secrete odorous substances to scare away particularly voracious predators. In case of danger, the star can bury itself in silt or sand, becoming almost invisible.
Among those who feed on starfish in nature, large seabirds predominate. On the shores of warm seas they become prey for seagulls. In the Pacific Ocean, cheerful sea otters are not averse to feasting on the star.
Predators harm underwater plantations of oysters and scallops - what the starfish eats. Attempts to kill animals by cutting them into pieces led to an increase in the population. Then they began to fight them, bringing the stars ashore and boiling them in boiling water. But there was nowhere to use these remains. There have been attempts to make fertilizer from animals that also repels pests. But this method was not widely used.
One of the beautiful animals that cannot be found on land is starfish. Divers diving in warm seas often manage to admire these unusual and interesting creatures.
Echinodermata (Echinodermata), which includes starfish, are an independent and very unique type of animal life. In terms of the structure of their body, they are completely different from other animals and, thanks to the peculiarities of their organization and the original shape of their body, they have long attracted attention.
Echinoderms appeared on Earth a very long time ago, more than 500 million years ago. The presence of a calcareous skeleton contributed to the good preservation of the fossil remains of the ancestors of these creatures.
In the glorious and numerous community of echinoderms, the class of starfish (Asteroidea) is represented by a huge variety of species, differing from each other in size, body shape and some differences in organization.
And at the end of the post you can watch a video that I think is interesting how stars hang out and eat.
They have been known in fossil form since the Lower Paleozoic - from the Ordovician period, i.e. about 400 million years ago. Currently, more than 1,500 modern species of starfish are known, which are systematized into approximately 300 genera and 30 families. Scientists often disagree about the number of orders of starfish. Previously, they were combined into three orders: clearly lamellar, acicular and pedicellariform stars. Currently, they are already divided into 5-9 different groups in various sources. I think that for you and me this is not very important.
Starfish are exclusively marine animals and are not found in fresh water bodies. They also do not live in highly desalinated seas, for example in the Azov or Caspian seas, although sometimes they can be represented by isolated oppressed species. For example, individuals of A. rubens stars are sometimes found in the western part of the Baltic Sea (near the island of Rügen), but here they do not reproduce, and the population of these starfish is supported by larvae carried by currents. And the only starfish that penetrated from the Mediterranean Sea to the Black Sea - Marthasterias glacialis - lives only in its most saline part - in the area of the Bosphorus Strait.
In seas and oceans with normal water salinity, starfish are found everywhere - from the Arctic to the Antarctic and are especially numerous in the warm waters of the seas. The deep habitat range of sea stars is also wide - from the surface layers of the sea to kilometer depths, although, of course, at greater depths the species diversity and number of sea stars is more scarce.
The Russian seas are home to about 150 species of starfish, which live, with very rare exceptions, in the northern and Far Eastern seas.
All sea stars as adults lead a bottom-dwelling lifestyle, crawling along the surface of the bottom or burrowing into the ground. Many of the sea stars, especially those living in shallow coastal waters, are active predators, eating various small bottom organisms - mollusks, crustaceans, other invertebrates, including echinoderms, and even fish. They do not disdain carrion.
Among deep-sea starfish, mud-eaters predominate - they use sea soil for food, extracting organic matter from it. Some starfish can eat plankton.
Typically, starfish are not very picky eaters and will eat whatever they can. The diet of, for example, the Chilean sea star Meyenaster includes up to 40 species of echinoderms and mollusks.
Most starfish detect prey and determine its location thanks to substances that the prey releases into the water. Some soft-bottom sea stars, including species of the genera Luidia and Astropecten, are able to find burrowing prey and then dig through the substrate to reach the prey. Stylasterias forreri and Astrometis sertulifera from the west coast of the United States, and Leptasterias tenera from the east coast, seize small fish, amphipods and crabs with pedicellariae when the prey stops over or near a starfish.
An interesting way is how sea stars consume many species of bivalve mollusks as food. The star crawls onto the body of such prey and attaches itself to it with its legs on the rays, adding some force towards opening the valves of the mollusk shell. Gradually, the muscles of the mollusk that hold the shell valves closed get tired and open the shell slightly. The starfish turns its stomach inside out and squeezes it into the gap between the valves, starting a meal right inside the shell of the mollusk. Food is digested in this way within a few hours.
The stomach, which turns inside out, is a unique feeding organ for many sea stars. The starfish Patiria miniata from the west coast of America, for example, spreads its stomach along the bottom, digesting organic matter that it encounters.
Starfish usually have a more or less flattened body with a central disk that gradually turns into rays radiating from it. The mouth opening is located on the underside (oral) side of the starfish's disk. Most stars have an anus on the upper part of their body; in some species it is absent altogether. In the middle of the lower side of each ray there is a groove in which there are many soft and movable outgrowths - ambulacral legs, with the help of which the starfish moves along the bottom. A five-rayed structure is typical for sea stars, but there are stars with 6 or more rays. For example, the Heliaster solar starfish has 50 rays.
Sometimes the number of rays varies even among individuals of the same species. Thus, in the sea star Crossaster papposus, which is common in our northern and Far Eastern seas, the number of rays ranges from 8 to 16.
The ratio of the length of the rays and the diameter of the disk also varies. In some deep-sea starfish, the length of the rays is 20-30 times greater than the diameter of the disk, while at the same time, in the common Patiria pectinifera star in the Sea of Japan, the rays only protrude slightly beyond the disk, which is why the star has the shape of a regular pentagon . These stars are also called biscuit stars for their resemblance to flat cookies.
There are even starfish whose appearance is so changed that it is difficult to recognize them as a star. The common inhabitant of coral reefs, New Guinea culcita (Culcita novaeguineae), has a highly swollen body, resembling the shape of a heavily swollen pillow or bun. However, this body shape is only found in adult stars—young culcites have the shape of regular pentagons.
Typically, sea stars that live at shallow depths have a very varied coloration of the upper body. A variety of colors and shades of the spectrum can be present here. Sometimes the colors are spotted and form a bizarre pattern. The ventral side of the body of starfish has a more modest coloration, usually pale yellow.
The color of stars that live at great depths is also paler - usually dirty gray or with shades of gray. Some (eg Brisinga) have the ability to glow.
The variety of colors of starfish depends on the pigment inclusions located in the cells of the skin epithelium.
The sizes of different types of starfish can vary from a few centimeters to 1 meter. Most often divers encounter starfish measuring 10-15 cm.
The lifespan of some starfish species can be more than 30 years.
The sea star's sensory organs are poorly developed and are represented by red eye spots located at the tips of the rays and tactile receptors located on the skin.
When you first look at a starfish, you first notice the numerous elements of the calcareous skeleton located on the surface of the body - plates, needles, spines, tubercles, etc. But in fact, the skeleton of starfish is not external, like that of mollusks or arthropods, but is located under the skin epithelium, sometimes very thin. The calcareous plates of sea stars do not form a single solid skeleton, but are attached to each other using connective tissue and muscles. Sea stars have a main skeleton, called the supporting skeleton, and various appendages to it - spines, tubercles and outgrowths that have a protective function. Sometimes such spines and bristles form a continuous cover on the upper side of the body of sea stars.
Reproduction of sea stars can take place according to several scenarios. If a ray with part of the disk is torn off from a starfish, then two individuals will be formed from the resulting pieces of the star. The time for such regeneration can be up to 1 year. Some starfish reproduce in a similar regenerative way. In their body, the connective tissue softens and they break up into several parts, usually two. Soon independent starfish will grow from these parts. Species of the genus Linckia sea stars, common in the Pacific Ocean and other areas of the world's oceans, are unique in their ability to cast entire rays. From each such ray, if it is not eaten by a predator, a new starfish can be regenerated. This type of reproduction is called asexual.
Starfish also reproduce sexually. Most star species are dioecious, i.e. represented by males and females. Reproduction is carried out by fertilization of the female's eggs with the reproductive products of the males, which are hatched directly into sea water. A female starfish can lay several million eggs at a time.
Among the stars there are also unisexual (hermaphroid) species. Such species include, for example, the common European starfish Asterina gibbosa, which is a hermaphrodite. Such stars produce both female and male reproductive products in their bodies. They usually carry their young in a special brood pouch or cavities on their back.
The larvae that hatch from the eggs usually feed on plankton and, growing up, sink to the bottom, switching to the usual lifestyle for sea stars
Starfish have no natural enemies. These animals contain toxic substances in their bodies - asteriosaponins, so predators do not deign to pay attention to them. In addition, the body of a starfish is low in nutrients and does not constitute a high-calorie food.
crown of thorns
On the coral reefs of the Pacific and Indian Oceans, a large crown of thorns starfish (Acanthaster plansi), reaching a diameter of 50 cm and belonging to the genus Acanthasteridae, is often found.
It is generally accepted that starfish are completely harmless to humans, but careless handling of the crown of thorns can lead to serious trouble. The crown of thorns starfish is notorious among the inhabitants of many tropical islands. It is impossible to pick it up without receiving a burning pain from the numerous needles that cover the body of the starfish.
The crown of thorns causes a lot of trouble for pearl divers - if a swimmer accidentally steps on the body of an acanthaster, its needles pierce the foot and break off in the human body, infecting the blood with poisonous secretions
Local residents believe that the victim should immediately turn the crown of thorns upside down with a stick and place his foot on its mouth. It is believed that the star sucks out fragments of its needles from the human body, after which the wounds quickly heal.
The crown of thorns, or acanthaster, is known for another unpleasant property. He is extremely fond of eating coral polyps, thereby destroying the reef itself and leaving its inhabitants without food and shelter. Over the years, there have been outbreaks of significant increases in the number of these starfish in some regions. Then the very existence of the reefs and their inhabitants was threatened.
Significant human resources were devoted to the fight against crowns of thorns. The stars were collected in baskets and destroyed, but this did not have a noticeable effect. Fortunately, the outbreaks of crown-of-thorns soon stopped and the coral reefs were not completely destroyed.
Some starfish cause damage by destroying fishing grounds and oyster and mussel plantations. Such pests are collected with special gear from fishing areas and destroyed.
It should also be noted the useful role played by starfish in the ecology of the World Ocean, and the planet as a whole. These creatures intensively absorb and utilize carbon dioxide, which is becoming more and more in the Earth’s atmosphere every year. Every year, starfish utilize up to 2% of atmospheric carbon dioxide. This is a very large number.
In addition, starfish are seabed orderlies, eating carrion and the remains of dead marine organisms, as well as weaker and sicker individuals of marine animals.
Interesting Facts:
The largest of the 1,600 species of starfish based on the total span of tentacles is considered very fragile Midgardia xandaros. In the summer of 1968, a representative of this species was captured in the southern Gulf of Mexico by the University of Texas research vessel Adaminos. Its length together with tentacles was 1380 mm, but the diameter of its body without tentacles reached only 26 mm. When dried, it weighed 70 g.
It is believed that the five-pointed one has the maximum weight of all starfish. Thromidia catalai, living in the western Pacific Ocean. A representative of this species, caught on September 14, 1969 in the Ilot Amedi area in New Caledonia and later exhibited in the Noumea Aquarium, weighed 6 kg, and the span of its tentacles reached 630 mm
The smallest known was the Asterenid starfish ( Patmella parvivipara), discovered by Wolf Seidler on the west coast of the Eyre Peninsula, South Australia, in 1975. It had a maximum radius of 4.7 mm and a diameter of less than 9 mm.
The most predatory starfish in the world is considered to be the “Crown of Thorns” ( Acanthaster planci), living in the basins of the Pacific and Indian Oceans, as well as in the Red Sea. It has the ability to destroy up to 300-400 square centimeters of coral per day.
The maximum depth at which a marine aveada can be found is considered to be 7584 m. At this depth, a specimen was discovered by the Soviet research vessel Vityaz around 1962 in the Mariana Trench (western Pacific Ocean). Porcellanaster Ivanovi.
The sea star has small areas at the tip of each star ray that act as light sensors and contain a red pigment that changes color. It is assumed that these areas (flies) influence the movement of the starfish.
The starfish can feed without swallowing food. For example, when encountering a bivalve mollusk, she grabs it and turns its lower stomach inside out. It penetrates the shell, envelops the soft parts of the mollusk and digests it, and then the starfish simply draws in the liquefied solution. Spiders also act in a similar way - however, they do not know how to turn their stomachs, but simply inject digestive juice into the victim.
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