Mushrooms are predatory. What mushrooms are called carnivorous? Mushrooms predators examples of names Hunt mushrooms

To the question: What kind of predatory mushrooms are there, how do they hunt and how do people use them? given by the author Loka Beloved the best answer is - mushrooms that catch and kill microscopic animals using special trapping devices. This is a specialized ecological group of fungi, distinguished in modern mycology by the way fungi feed - the food is microscopic animals captured by fungi. They may be classified as saprotrophic fungi that feed on dead organic matter, since in the absence of prey they feed like saprotrophs.
Predatory mushrooms are distributed throughout to the globe, are widespread in all climatic zones. Predatory fungi include imperfect fungi of the genera Arthrobotrys, Dactylaria, Monacroporium, Tridentaria, Trypospormna.
Trapper apparatus of a predatory mushroom:

Predatory mushrooms, like ordinary mushrooms, form mycelium, consisting of thin mushroom threads. However, these fungi have special adaptations for capturing small animals. For example, oyster mushrooms secrete substances that paralyze nematodes. The fungal hyphae then entwine the worms and penetrate them. Such prey is used by predatory fungi as a source of nitrogen.
In other types of fungi, a special sticky substance is secreted on the surface of the hyphae, to which protozoa, insects and other small animals stick.
Hyphae of some species predatory mushrooms form a network consisting of loops that compress the nematodes caught in them (arthrobotrys lush).
Hunting: (observation through a microscope)
Here, wriggling, a nematode crawls in search of food. She scurries here and there with her sharp end. But the nematode got entangled with its long body in a system of some rings reminiscent of network cells. She tries to free herself, but it's too late. The cells that make up the trapping rings, firstly, are covered with a thick sticky mass on the inner diameter side, and secondly, as soon as the victim gets into the ring, its cells instantly swell and, like a vice, compress the body of the nematode. You can even see how the nematode, fixed in this way, moves helplessly with its free ends for some time, its movements gradually slow down and finally it completely calms down. Meanwhile, the predator fungus has already managed to dissolve the nematode’s shell with its enzymes, pass its sprout inside its body, which gradually turns into a well-developed mycelium, completely filling the internal cavity of the nematode. In this peculiar battle, the following options are sometimes revealed: a powerful, strong nematode, caught in the web of such a spider mushroom, easily breaks the web and tries to leave dangerous place. But the victim is still doomed: it only takes a small piece of hyphae to stick to the nematode’s body, so that it will then germinate, penetrate inside and devour it.
A nematode caught in the loops of Arthrobotrys lush:

Predatory fungi are of interest to humans in connection with the fight against nematodes, which are pathogenic for plants, animals and humans.
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Answer from 2 answers[guru]

Hello! Here is a selection of topics with answers to your question: What kind of predatory mushrooms are there, how do they hunt and how do people use them?

Answer from Tanya Trofimova[newbie]
What?!

Answer from Yovetlana Petrova[newbie]
I agree with Svetlana Zabelevskaya

Answer from Polina Mushakova[newbie]
I don’t understand, how do people use predatory mushrooms?

Answer from Egor Kuzmitsky[newbie]
Predatory mushrooms (predatory mushrooms) are mushrooms that catch and kill microscopic animals using special trapping devices. This is a specialized ecological group of fungi, distinguished in modern mycology by the way fungi feed - the food is microscopic animals captured by fungi. They may be classified as saprotrophic fungi that feed on dead organic matter, since in the absence of prey they feed like saprotrophs. Predatory fungi are distributed throughout the globe and are widespread in all climatic zones. Predatory fungi include imperfect fungi of the genera Arthrobotrys, Dactylaria, Monacroporium, Tridentaria, Trypospormna. Predatory mushrooms, like ordinary mushrooms, form mycelium, consisting of thin mushroom threads. However, these fungi have special adaptations for capturing small animals. For example, oyster mushrooms secrete substances that paralyze nematodes. The fungal hyphae then entwine the worms and penetrate them. Such prey is used by predatory fungi as a source of nitrogen. In other types of fungi, a special sticky substance is secreted on the surface of the hyphae, to which protozoa, insects and other small animals stick. The hyphae of some types of predatory fungi form a network consisting of loops that compress the nematodes caught in them (Arthrobotrys lush). Hunting: (observation through a microscope) Here, wriggling, a nematode crawls in search of food. She scurries here and there with her sharp end. But the nematode got entangled with its long body in a system of some rings reminiscent of network cells. She tries to free herself, but it's too late. The cells that make up the trapping rings, firstly, are covered with a thick sticky mass on the inner diameter side, and secondly, as soon as the victim gets into the ring, its cells instantly swell and, like a vice, compress the body of the nematode. You can even see how the nematode, fixed in this way, moves helplessly with its free ends for some time, its movements gradually slow down and finally it completely calms down. Meanwhile, the predator fungus has already managed to dissolve the nematode’s shell with its enzymes, pass its sprout inside its body, which gradually turns into a well-developed mycelium, completely filling the internal cavity of the nematode. In this peculiar battle, sometimes the following options are revealed: a powerful, strong nematode, caught in the web of such a spider mushroom, easily breaks the web and tries to leave the dangerous place. But the victim is still doomed: it only takes a small piece of hyphae to stick to the nematode’s body, so that it will then germinate, penetrate inside and devour it. A nematode caught in the loops of Arthrobotrys lush: Predatory fungi are of interest to humans in connection with the fight against nematodes, which are pathogenic for plants, animals and humans. Predatory mushrooms and plants Victims of predatory mushrooms

Answer from Lera Beautiful[newbie]
Predatory mushrooms (predatory mushrooms) are mushrooms that catch and kill microscopic animals using special trapping devices. This is a specialized ecological group of fungi, distinguished in modern mycology by the way fungi feed - the food is microscopic animals captured by fungi. They may belong to saprotrophic fungi that feed on dead organic matter, since in the absence of prey they feed as saprotrophs. Predatory fungi are of interest to humans in connection with the fight against nematodes, which are pathogenic for plants, animals and humans.

Answer from Galina Gabdrakhmanova[newbie]
Why are you copying the correct answer and answering, it’s not fair at all compared to Svetlana, she thought, but you plagiarized and it’s so bad

Answer from Fd7ywer fsdtyrrwy[newbie]
The world of predators is so diverse that sometimes you can meet another “devourer” where you don’t expect it at all. For example, in the kingdom of mushrooms. Not everyone knows which mushrooms are called predatory, how they hunt, and why they are useful or dangerous for humans. When it comes to mushrooms, it is quite difficult for us to imagine that some of them are even very carnivorous. How can this be? After all, they “sit” in place and don’t even have a mouth? What's even more interesting is that people have learned to use killer mushrooms for their own benefit. How a person uses predatory mushrooms and what they are like is the topic of this article. - Read more on FB.ru:

Answer from Kirill shkurin[newbie]
Predatory mushrooms (predatory mushrooms) are mushrooms that catch and kill microscopic animals using special trapping devices. This is a specialized ecological group of fungi, distinguished in modern mycology by the way fungi feed - the food is microscopic animals captured by fungi. They may be classified as saprotrophic fungi that feed on dead organic matter, since in the absence of prey they feed like saprotrophs. Predatory fungi are distributed throughout the globe and are widespread in all climatic zones. Predatory fungi include imperfect fungi of the genera Arthrobotrys, Dactylaria, Monacroporium, Tridentaria, Trypospormna. The trapping apparatus of a predatory mushroom: Predatory mushrooms, like ordinary mushrooms, form mycelium, consisting of thin mushroom threads. However, these fungi have special adaptations for capturing small animals. For example, oyster mushrooms secrete substances that paralyze nematodes. The fungal hyphae then entwine the worms and penetrate them. Such prey is used by predatory fungi as a source of nitrogen. In other types of fungi, a special sticky substance is secreted on the surface of the hyphae, to which protozoa, insects and other small animals stick. The hyphae of some types of predatory fungi form a network consisting of loops that compress the nematodes caught in them (Arthrobotrys lush). Hunting: (observation through a microscope) Here, wriggling, a nematode crawls in search of food. She scurries here and there with her sharp end. But the nematode got entangled with its long body in a system of some rings reminiscent of network cells. She tries to free herself, but it's too late. The cells that make up the trapping rings, firstly, are covered with a thick sticky mass on the inner diameter side, and secondly, as soon as the victim gets into the ring, its cells instantly swell and, like a vice, compress the body of the nematode. You can even see how the nematode, fixed in this way, moves helplessly with its free ends for some time, its movements gradually slow down and finally it completely calms down. Meanwhile, the predator fungus has already managed to dissolve the nematode’s shell with its enzymes, pass its sprout inside its body, which gradually turns into a well-developed mycelium, completely filling the internal cavity of the nematode. In this peculiar battle, sometimes the following options are revealed: a powerful, strong nematode, caught in the web of such a spider mushroom, easily breaks the web and tries to leave the dangerous place. But the victim is still doomed: it only takes a small piece of hyphae to stick to the nematode’s body, so that it will then germinate, penetrate inside and devour it. A nematode caught in the loops of Arthrobotrys lush: Predatory fungi are of interest to humans in connection with the fight against nematodes, which are pathogenic for plants, animals and humans.

Few people know that carnivorous plants exist, and perhaps very few have heard of carnivorous mushrooms.

These mushrooms are not quite ordinary: they live in the soil and are called soil fungi. They feed on organic substances formed during the decomposition of plants and animals. But among soil fungi there are species whose food is nematodes. Mushroom predators have their own tricks for catching delicious worms.

First of all, the filamentous mycelium spreads in such a way that rings form in the soil. A real fishing net is created from such rings. Nematodes will not slip through it, especially since the inside of the rings is very sticky. The nematode will try to escape in vain: the victim of the predatory fungus is doomed.

Among the mushrooms there are also “arcanists”. They form special catching loops at the ends of the hyphae. As soon as the nematode gets into it, the loop swells and contracts, squeezing the victim in an insidious embrace.

Predatory fungi even received the special name helminthophages - worm eaters. Could these predators be used to control nematodes?

At one of the coal mines in Kyrgyzstan, a disease caused by nematodes, hookworm, was widespread among miners. Professor F. Soprunov and his colleagues decided to use predatory mushrooms to combat them. In a mine where there were especially many nematodes, powder with fungal spores was sown. The conditions for mushrooms were excellent: there was moisture and warmth. The spores sprouted, and predators began to destroy the harmful worms. The disease was defeated.

Nematodes attack potatoes, sugar beets, and cereals. They do not disdain onions and garlic. It is difficult to name cultivated plants that would not be attacked by nematodes. That's why scientists are developing various ways to combat them, one of them is the use of mushrooms. And although there are still many unresolved questions facing scientists, this method is still promising.

Everyone knows citric acid, which is also used in household, and in Food Industry. Where do they get it from? From lemons, of course. But, firstly, lemons do not contain much acid (up to 9 percent), and secondly, lemons themselves are a valuable product. And now another source and method of obtaining citric acid was found. The mold fungus Aspergillus niger (black mold) copes with this task perfectly.

Russian scientists were the first to develop methods for the technical use of mushrooms to produce citric acid. Here's how it happens. First, a film of black mold is grown in a 20 percent sugar solution with the addition of mineral salts. This usually takes two days. Then the nutrient solution is drained, the lower part of the mushroom is washed with boiled water and a clean, sterilized twenty percent sugar solution is poured in. The mushroom quickly gets to work. Four days, and all the sugar has been converted into citric acid. Now it’s up to the person to isolate the acid and use it for its intended purpose.

This method is quite profitable. Judge for yourself: from lemons collected from one hectare, you can get about 400 kilograms of citric acid, and from sugar produced from sugar beets from the same area, mushrooms produce more than one and a half tons. Four times more!

... It was manufactured in 1943. The war was raging. And people had to wage another war... against mushrooms. Yes Yes. Against the most common mold fungi.

Unable to use the sun's energy to generate nutrients Just like green plants do, molds use organic matter, either living organisms or materials from organic matter. So the mushrooms attacked the leather cases of binoculars, cameras and other devices. What about the cases! Their secretions (various organic acids) corroded the glass, and it became cloudy. Hundreds of lenses and prisms failed.

But even this was not enough for the mushrooms. They began to settle down motor fuel, brake fluids. When fuel containers are filled with kerosene, moisture always condenses on their cold inner walls. And even if it is not enough, it may be enough for mushrooms to begin to take root at the border of water and kerosene. The mold fungus, which extracts carbon from kerosene, is especially good here.

But brake fluid containing glycerin or ethylene glycol turned out to be even more suitable for mold fungi. A film of mold also forms on the surface of such liquids. During operation of the mechanisms, its fragments are carried along with the fuel and cause clogging of the pipes and valves of the machine.

Many people know the house mushroom - a merciless destroyer of wood. When plastics were created, everyone breathed a sigh of relief: finally there was a material that was not afraid of mushrooms. But the joy was premature: mushrooms have also adapted to plastics.

Take, for example, polyvinyl chloride plastic used for insulation. Then the fungi attacked her, and very cleverly, with the help of tiny mites (up to 0.5 millimeters) that feed on mold fungi. In search of food, ticks crawl everywhere, including into electrical appliances. After they die, the fungal spores inside them germinate and begin to destroy the plastic. If this is insulation, then there may be a current leakage, causing a short circuit. Fungi and other plastics are affected.

True, now special additives are introduced into liquid or plastic that prevent the development of fungi. But for how long? After all, mushrooms are inventive organisms; they can adapt to this.

“...The patients were tormented by severe, unbearable pain, so that they complained loudly, gnashed their teeth and screamed... An invisible fire hidden under the skin separated the meat from the bones and devoured it,” - this is how the ancient chronicler described the still unknown disease, later called “evil writhing.” , "Anton's fire".

It was a serious illness. In France alone in 1129, more than 14 thousand people died from it. Other countries also suffered from it. The cause of the illness was unknown. It was believed that heavenly punishment falls on people for their sins. And no one could have thought that the cause of the terrible disease was bread, or rather, those black horns that were on the ears of grain. But here’s what’s strange: the monks ate this bread, but they didn’t get sick.

More than one century passed before the secret of black horns, ergot, was revealed.

But summer is coming to an end. The threads of the mycelium that come out intertwine, turn red, then become purple, even black purple, become denser and form a characteristic horn. All the troubles come from him. But only at the end of the 19th century it was discovered that horns contain toxic substances - alkaloids.

Why didn’t the monks get sick? The secret is simple. It turns out that the toxic properties of alkaloids gradually decrease over time and completely disappear after two or three years. In monasteries, as a rule, there were huge reserves of bread. They lay there for years, and during this time the ergot lost its toxicity.

Now ergot has been eliminated from the fields. However, it is now specially grown. For what? They began to prepare medicines from ergot. They cause vasoconstriction.

Sometimes in the summer in the meadows there are grasses (fescue, hedgehog), which have many rusty-brown tubercles on their leaves and stems. These are sick plants. The disease is called rust. It is caused by special rust fungi. The most common mushroom is Puccinia graminis - stem rust of cereals, which belongs to the higher fungi, although appearance it is unlike the honey mushrooms, boletuses and other similar mushrooms that we are familiar with.

Rust fungi are very small and have a rather complex development. At the end of June - beginning of July, the tubercles burst and spores fly out of them. This is a summer debate. They are yellowish in color, oblong or oval, and covered with many spines. The wind picks them up and carries them to new plants. They penetrate through the stomata into the leaf tissue, grow and form a fibniz. The mushroom grows quickly and can produce several generations in one summer. This is why the disease spreads quickly. The trouble is that rust affects not only wild cereals, but also cultivated ones (rye, wheat, oats, barley). Scientists began to study the development of puncture, but in the spring its trace was lost, and in the summer it reappeared on cereals. What's the matter? Where did the mushroom go? And how did it appear again on cereals?

Research continued. It turned out that when autumn comes and the grains ripen, puccinia begins to prepare for winter. Instead of rusty yellow tubercles, black ones appear, which contain special spores - winter ones. Each such spore consists of two cells with a rather thick shell, which protects the spores from unfavorable winter conditions. In winter they are at rest.

How did the fungus end up on cereals again? The way is this: after “sitting out” on the barberry leaves, the spores germinate, forming swellings on the underside of the leaf, filled with new “fresh” spores. And when they got on the grains, they caused rust on them. Needless to say, the device is quite ingenious, with the ability to confuse traces.

But not only puncture has intermediate host. This is typical for many other rust fungi. Thus, in oat rust, the intermediate plant is buckthorn. It was noticed: if there are no intermediate plants near the crops, rust does not develop on the main plants.

What prudence, ingenuity and perseverance these mushrooms demonstrate, winning their place in this world!

Catching net of a fungus of the genus , with which he catches nematodes. Name

Predatory mushrooms

Title status

indefined

Parent taxon

Application

To combat nematodes when growing vegetables and champignons, methods have been developed for the use of biological products (preliminarily called “nematophagocide”), which are a mass of mycelium and spores combined with nutrient substrates: corn chaff, straw-manure composts and granules, a mixture of peat and straw, sunflower husk, etc. The biological product is obtained in two stages. First, a mother culture is grown in flasks on grain or a nutrient medium with the addition of agar-agar. Then it is used to sow the substrate in 2-3 liter glass jars.

For example, when growing cucumbers, dried straw-manure compost biological product is applied twice at 300 g/m2 (at low humidity, for example, 58–60%, the dose is tripled). Before sowing the seeds, the biological product is evenly distributed over the surface, which is then dug up to a depth of 15–20 cm. When applied again (after 15–35 days), the biological product is embedded in the soil to a depth of 10–15 cm. In the same dose, a mixture of compost and fungus can be used for hilling , i.e. falling asleep at the bottom of the stem. This technique stimulates the formation of adventitious roots and extends the life of the plant.

If the drug is prepared on sunflower husks, the technology for applying it to the soil is different: the first time is applied two weeks before planting the seedlings at a dose of 100–150 g/m2, the second time is 5–10 g in the hole during planting. You can also apply the biological product to developing plants. In this case, it is embedded in the furrows at the rate of 100–150 g/m2.

According to the All-Union Institute of Helminthology named after. K.I. Scriabin, the safety of the cucumber harvest using this biomethod can reach 100%. With a one-time application of a biological product on sunflower husks two weeks before planting, the incidence of root-knot nematodes, according to the All-Russia Research Institute biological methods plant protection, decreased by 30–35%, with prolonged application to seedlings - up to 30%. Accordingly, the intensity of damage to the root system decreased.

In the case of champignons, a biological product grown on straw-manure compost and having a moisture content of 58–60% is used at a dose of 300 g/m2. First, a biological product is introduced into the hole, and the seed mycelium of champignons in the same dose is added on top. The use of predatory mushrooms when growing champignons increased the yield of fruiting bodies by an average of 33%.

This biological product was tested by the All-Russian Research Institute of Nature Conservation and Reserve Affairs together with the All-Russian Scientific Research Institute molecular biology and the All-Russian Research Institute of Biological Methods of Plant Protection in the Belaya Dacha greenhouse complex and the subsidiary farm of the Levkovo boarding house.

Literature

1000 wonders of nature. - Reader's Digest, 2007. - P. 261. - ISBN 5-89355-027-7
Catching loops, rings and adhesive droplets // Science and life. - 1990. - No. 6. - P. 123-125. - ISSN 0028-1263.

Who are they and where do they grow?

Already from the name itself it becomes clear which mushrooms are called predatory. Of course, those that catch and kill their victims are microscopic living organisms.

Such fungi prefer to settle among the roots of plants or in mosses, but are quite often found in bodies of water, especially stagnant ones. Some of them live on the bodies of insects and eat them from the inside. Such hunting mushrooms can shoot spores at a distance of up to 1 meter. Once on the victim's body, they grow inside and gradually eat it.

Surprisingly, mushrooms are practically the only living organisms on earth that instantly adapt to any climate change. We can safely say that these microscopic predators spread their nets right under human feet. And these networks never remain empty.

History of appearance

Mushrooms (carnivorous and not) are such ancient creatures that it’s hard to imagine. It is quite problematic to determine exactly when they appeared on Earth, because scientists practically never come across fossil remains. Most often they can be found only in small pieces of amber. This is how an ancient fossil mushroom was discovered in France, feeding on worms up to 5 mm long.

Scientists believe that even this prehistoric mushroom is still not the progenitor of modern ones. In the process of evolution, their “killer” functions were reborn so many times that it is impossible to count. Therefore, modern mushroom hunters are no longer related

by type of trap

Since some mushrooms are predatory creations of nature, they, accordingly, have some kind of trapping apparatus.

More precisely, there are several types of them:

sticky heads, spherical in shape, located on the mycelium (typical of Monacrosporium ellipsosporum, A. entomophaga);
sticky branches of hyphae: Arthrobotrys perpasta, Monacrosporium cionopagum have such trapping apparatuses;
sticky trap nets consisting of large number rings that are obtained by branching hyphae: such an adaptation for hunting, for example, has Arthrobotrys oligospores;
mechanical hunting devices - the prey is squeezed by them and dies: in this way the snow-white Dactylaria hunts its victims.

Of course this one is pretty brief information about which mushrooms are predatory and how they hunt. In fact, there are many more varieties of these microscopic hunters.

How do killer mushrooms hunt?

So, predatory mushrooms: how do they hunt and who do they eat? Fungi place their sticky trap rings in the soil and wait for small worms - nematodes. A large number of Entire networks of such rings are created around the mycelium. As soon as the worm touches the edge, it immediately sticks. The ring begins to shrink around the body of its victim, making it almost impossible to escape. Everything happens very quickly, in fractions of seconds.

Hyphae penetrate the body of the caught worm and begin to grow. Even if by some miracle the nematode manages to escape, this will not save it. The hyphae in its body grow so quickly that within a day only a shell will remain of the worm. Together with the dying worm, the mycelium will “move” to a new place and again spread its networks.

If a killer mushroom lives in water, then its food becomes rotifers, amoebas, cyclops crustaceans and other inhabitants of the reservoir. Their hunting principle is the same - the hyphae falls on its prey, penetrates inside and begins to grow in its body.

Unknown oyster mushrooms

Few people know, but the popular oyster mushrooms are also predatory mushrooms. They do not miss the opportunity to feast on a gaping worm. Like other hunters, their mycelium dissolves its adventitious hyphae, which produce a rather poisonous toxin.

This poison paralyzes the victim and the hyphae instantly digs into it. After this, the oyster mushroom calmly digests its prey. Oyster mushroom toxins affect more than just nematodes. In the same way, they even eat enchytraeids - rather large relatives. The toxin ostearin, produced by fungi, contributes to this. It will also be bad for those who happen to be nearby.

It turns out that these mushrooms are dangerous to eat? No. Scientists claim that there is no toxic toxin in the fruiting body of the mushroom. The mechanism programmed by nature is needed by oyster mushrooms only to protect them from pests - tardigrades, ticks and springtails.

Killer mushrooms are friends forever, but not always

Now let's talk about how humans use carnivorous mushrooms. Can they be beneficial in economic activity or pose a danger?

But predatory mushrooms are not always human friends. Since the 10th-12th centuries, humanity has known a disease called Western Europe"Saint Anthony's Fire" In Russia, this disease was called “evil cramps,” which fully conveys the patient’s condition. Symptoms of this disease are vomiting, loss of appetite, terrible pain in the intestines and stomach, and weakness. In the most severe cases, bending and necrosis of the limbs was observed, and the meat was separated from the bones.

For a long time, no one knew what caused such misfortune. Only after a long time was it established that the disease was caused by ergot, a predatory fungus that lives in ears of rye and forms black horns there. They contain a toxic substance - ergotine. Therefore, today the disease is called ergotism. Bread made from such flour cannot be consumed, since the poison retains its properties even at high temperatures.

Conclusion

Now you know a little more. In particular, about what mushrooms are called predatory, how they hunt and how they can be useful or dangerous for humans. In addition to the fact that it is simply very interesting, it is quite possible that such knowledge will be useful to you in the future.

Kira Stoletova

In nature, there are predatory mushrooms that feed on small living organisms. There are about 200 species of currently existing representatives of the Mushroom kingdom. They are able to attack, eat and even digest soil nematodes. For this purpose, they use special devices in their structure, which differ in a number of features from other mycelial hyphae. They adapt well to environmental conditions.

Characteristic

It all started with the fact that in the 19th century, Russian scientists M. S. Voronin and N. V. Sorokin, conducting research virtually in parallel, noticed rings on the mycelium of some types of mushrooms - but for what reason remained unknown until 1888. This year German scientist F.W. Zopf, after conducting a series of studies, found that these strange formations serve to catch microscopically small soil nematode worms. The remains of representatives of the species were discovered in amber.

Nowadays predatory mushrooms are separated into a separate environmental group. Previously, they belonged to saprotrophs. This fact is explained by the fact that if there was no opportunity to profit from living organisms, they can also feed on dead organic matter.

They are distributed all over the world. They grow on old stumps, mosses, rhizosphere and plant roots. They also love stagnant bodies of water. They are found on soils, in manure and organic residues. Release toxins.

Irina Selyutina (Biologist):
The vegetative mycelium of predatory fungi usually consists of branching septate hyphae no more than 5-8 microns thick. Chlamydospores often form in old hyphae. Traps of various structures develop on the mycelium. Often, predatory mushrooms capture animals in their traps that are much larger than the hunter. The size of the nematodes that these fungi are capable of catching is 0.1-1 mm, and the thickness of the fungal hyphae is no more than 8 microns (1 micron = 10 -6 m). Catching such large production It became possible for various trapping devices to arise in the process of evolution.

Varieties

Mushrooms are divided into groups, depending on their devices for catching small animals:

branching hyphae with a sticky substance - protrusions are formed in species growing in water bodies;
sticky round heads on mycelium;
the adhesive mesh, which appears as a result of the branching of hyphae in the form of rings, dissolves the cuticle of nematodes and penetrates their flesh;
mechanical trap - mycelial cells increase, the lumen of the ring closes, the victim is compressed, which leads to its death.

Fungi often form a trap when a prey is nearby. They are formed at the moment when the body of the fungus needs food or water. Sometimes nematodes can escape from a trap, but after such contact they will no longer live. Within a day, only a shell will remain of the animal.

Some predators infect the prey with spores, shooting them 1 m away. Once in the body, they begin to grow and feed at its expense.

Examples

Predatory mushrooms in most cases are mostly representatives imperfect species, which are combined into a group called Hyphomycetes, as well as Zygomycetes and some Chytridiomycetes, representatives of other taxonomic groups. These include:

Dactylaria;
Monacroporium;
Tridentaria;
Tryposporin.

Examples of predators:

Orbilia: it grows in rotting wood. Reminds me of red buttons. Its hyphae burrow into the soil to hunt. Some champignons also have this ability.

Oyster mushroom: grows on wood that cannot provide it with the required amount of nitrogen. The species is edible. Its mycelia form hyphae that secrete the toxin ostearin. It has a paralytic effect on nematodes (round soil worms), relatives of earthworms - enchytraeids, and oribatid mites. A mushroom that has caught its prey releases enzymes. The digestion process begins. Toxins are not present in fruiting bodies, so they are suitable for human consumption.

Arthrobotrys insectivorous: lives on the surface of the land, has adapted to catching representatives of springtails, or springtails, using a trap capable of capturing an insect.

Practical use

Predatory fungi are used to control nematode pests.

When growing vegetables and champignons, biological products obtained from mycelium and fungal spores are used. They are combined with the following substrates:

corn chaff;
composts containing straw and manure;
mixtures of peat and straw, etc.

The biological product in dry form has proven itself excellent in caring for cucumbers. It is used before sowing and 2-4 weeks after it, embedded in the soil. Dosage – 300 g/m². It is effective to use the mixture when hilling bushes. The same amount of the product is used for champignons. It is introduced into the hole, sowing the mycelium on top.

Predatory mushrooms in the composition of the biological product have a positive effect on the safety of the crop. A one-time use of the product reduces the number of nematodes by 30-35%. When growing seedlings, periodic use can kill up to 30%.

Conclusion

Mushrooms are called carnivorous because of their ability to feed on insects, worms and other small representatives of the animal kingdom. In nature there are much more of them than plants that feed on living organisms. Their main food is soil nematodes. In the soil there are up to 20 million of these pests/m².

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