A man talks to trees. A man who knows what the trees are talking about. How to get rid of negative energy and diseases

Have you ever thought that trees can communicate with each other? If you are a dreamy person or have a good imagination, then for sure - yes. But still, for the majority, such thoughts are the ravings of a madman.

But not for the German forester Peter Wohlleben, who is sure that trees really talk to each other.

Beech trees are hooligans, and willows are loners, says forester and now also writer Peter Wohlleben, he is sure that each tree has its own character, and trees communicate with each other through a huge underground “forest network.”

It turns out that trees have friends, they feel loneliness, scream in pain and communicate underground through the “forest network”. Some act as parents or good neighbors. Others have a bad character and their crowns do not just cast a shadow - they brutal killers for rival species. Young trees, like people, take risks and test their strength, and then learn lessons, for example, by losing leaves.

The book, called The Hidden Life of Trees, is not an obvious bestseller, but it has every chance of success around the world, because the forester's statements have so much of their own magical appeal! A walk in the park feels completely different when you imagine a network of roots crackling like a lively chat room under your feet. We don't know half of what happens underground and under the crust. Peter says: "We've looked at nature for the last 100 years as something we take for granted."

There are moments in the book that go to the core. For example, when the author describes the torture of trees. How do trees with broken branches, with roots cut down or eaten by rodents feel... Of course, Peter writes primarily as a conservationist, but he also refers to the work of the University of British Columbia and the Max Planck Society, which partially confirms his hypothesis. Although the forester admits that much is still unknown: “It is very difficult to know how trees communicate when they are happy,” he says.

In fact, the idea that trees somehow communicate with each other did not appear suddenly. For the past ten years, Peter has been observing the powerful, yet brutal survival system of the ancient beech forest on his territory in the Eifel Mountains in Western Germany. “What surprised me most was how social trees can be. One day I came across an old stump and saw that it was still alive, although it was 400 or 500 years old, without a single green leaf. Each Living being needs nutrition. And the only explanation for how this stump was still alive was that its nutrition was maintained by neighboring trees through the roots with a sugar solution. As a forester, I knew that trees are competitors who fight with each other for light, space, water. But here I saw exactly the opposite situation. Trees have a very vested interest in keeping every member of their community alive.”

The key, according to the forester, is the so-called “forest networks,” through which trees communicate their distress in electrical signals through the roots (“like our nervous system”) to their loved ones when they are in trouble. Likewise, they feed the affected trees, raise some seedlings ("pet children"), and restrict other trees to keep the entire community strong.

“With the help of the forest network, trees know who their friends are, who their families are, where their children are. They can also easily recognize their enemies among the trees. There are a few stumps in these old beech woods that are alive and there are some that are rotten that obviously had nothing to do with the roots of neighborhood support,” says Peter.

In his book, he writes about the so-called forest etiquette - trees don’t like neighbors who break the rules and take resources! When trees break the rules, you end up in a "drunken forest", while the "reliable members of the forest community" always look mature, with a straight trunk and an orderly arrangement of branches

The forester believes that every tree has its own character. “We are used to thinking that plants are robotic and follow a genetic code. But plants and trees always have a choice of what to do and what to become.” For example, Peter is sure that even among the trees there are “good guys and bad guys.”

So, what kind of trees are they: good, bad, or maybe sad? Peter says beeches and oaks form forests that are thousands of years old because they act like families. Trees are tribal ("They're genetically as far apart as you and gold fish") but are ruthlessly protective of their species: "Beech trees, for example, persecute other species, such as oak, until they become weak."

But willows are solitary. “The seeds are scattered far from other trees, for many kilometers. Trees grow quickly, but do not live very long,” continues the forester. Poplars are also not social. Birch destroys other trees, so you can see that it has more space. This may not sound very good, but I think that the birch has no other choice, because this is its life, its genetic code" Urban trees are like street children - isolated and struggling without strong roots.

Peter is 52 years old and his book became a bestseller in Germany last year, with ratings higher than those of the memoirs of the Pope and former German Chancellor Helmut Schmidt. His simple style of communicating with the reader turned into a real hit on television chat rooms. However, the forester and newly minted writer does not want to be seen as the voice of the trees: “I don’t hug trees and I don’t talk to them.”

Peter talks about the forest world in admiration, wonder and a little strange, but the message of his words suddenly becomes very clear. “I'm not suggesting that we start talking to trees or turning them into some otherworldly creatures, but I do want us to protect them.” The forester wants us to reduce our wood consumption and enjoy trees more as they are in nature - Peter describes them as "plant elephants". Have we lost touch with natural world? "No, I do not think so. Perhaps we have a little distance because scientists have taught us over the last 200 years that nature works without a soul.”

“What Plants Think About” by neuroscientist Stefano Mancuso. He concluded that plants are capable of counting, making choices, and remembering. The Village publishes an excerpt about how trees communicate with each other.

Intelligent plants

We begin this section by stating an obvious fact: plants do not have brains. We have repeated this many times before, but we repeat it here again for greater clarity: plants do not have an organ that resembles the brain in the form we are familiar with.

In humans, it is the brain that is the seat of the mind, and it is not for nothing that we use the terms “brainy” or “brainless” to describe people with or without intellectual abilities. Like most animals, for which we recognize the right to mental abilities, we possess this amazing organ, the structure and functioning of which we are still continuing to study and without which we cannot imagine thinking (at least among representatives of the animal kingdom). Now let's ask ourselves the first question: is the brain really the same thing? unique place, where is intelligence “produced”? Is the brain intelligent without a body, or, on the contrary, is it just a group of cells without any specific characteristics? Can any traces of intelligence be found in it? Obviously, the answer to these questions is negative. The brains of the greatest geniuses of mankind are no more intelligent than their stomachs. It's not some magical organ, and it certainly can't create anything on its own. Any reasonable answer requires information coming from the rest of the body.

So, in plants, consciousness and functioning are not separated, but are present in every cell: this is a real, living example of what experts in the field of artificial intelligence call a “materialized agent,” that is, an intelligent agent interacting with the world through its own physical body .

As a result of evolution, plants have acquired a modular structure, in which functions are not concentrated in specialized organs, but are distributed throughout the body. This critical strategic choice, as we have seen, allows plants to lose even significant portions of their body without risking life. Therefore, plants do not have lungs, liver, stomach, pancreas or kidneys. But they can perform all the functions that these organs perform in animals. So why should not having a brain prevent them from being intelligent?

What do roots do?

Let's talk about roots - the plant growth with which Darwin associated the ability of plants to make decisions and carry out movements. extreme point, the root tip, is responsible for the plant's movements underground and for testing the soil for water, oxygen and nutrients. Of course, one can assume that root growth is automatic and is directed by such simple instructions, like “find water” or “grow down.” In this case, the function of the roots is simple: find water and develop in that direction or grow downward under the influence of gravity. But in reality, the function of roots is much more complex. They have many tasks and many needs; As the root tips move through the soil, a complex “terrain analysis” is carried out.

The size of this part of the root varies different types- from a few tenths of a millimeter (for example, in Arabidopsis thaliana) to several millimeters (for example, in corn). This vital part of the root usually has White color and has the highest sensitivity. It is also an area of ​​intense electrical activity based on an action potential, an electrical signal reminiscent of the neurons in the animal brain. Every plant has millions of root tips: the root system of even a very small plant can have over 15 million!

The apex of each root constantly registers many parameters, such as gravity, temperature, humidity, electric field strength, light, pressure, chemical gradients, the presence of toxic substances (poisons, heavy metals), sound waves, the presence or absence of oxygen and carbon dioxide. This long list is far from complete: scientists are constantly adding more and more new parameters to it. The root apex continuously records these parameters and directs the movement of the root in accordance with calculations that take into account the local and general needs of the plant. No automatic response can satisfy such requests. In fact, the top of each root is a true “data center” and does not act alone, but in close connection with millions of other roots that form root system each plant.

Every plant is a living internet

So far we have discussed the functioning of each root tip individually, but even a small plant such as rye or oats can have tens of millions of tips, while a tree can have several hundred million (though no one has specifically counted them). How do all these roots work together? The root tips of one plant should be considered not as isolated functional centers, but as jointly acting components of a single network.

To understand what we're talking about, imagine the Internet - the most extensive and powerful communication network ever created by man. In recent decades, mainly two approaches (which are directly related to the topic of our story) have been used to perform complex calculations. On the one hand, more and more powerful supercomputers are being created, capable of performing incredible amounts of calculations in very short periods of time (IBM's Sequoia computer, released in 2012, can perform as many calculations in an hour as 6.7 billion people working on simple calculators 24 hours a day, would be completed in 320 years).

On the other hand, the gigantic computing potential of an entire network of computers, such as the Internet, is used for the same purpose. These two opposing strategies are reminiscent of two strategies chosen by evolution to improve the decision-making efficiency of living organisms. On the one hand, an increasingly large and efficiently working individual brain (in this case, an analogue of a supercomputer - a person), on the other hand, a distributed mind, such as we see in insect communities or in plants.

The speed of calculations carried out by a supercomputer per unit of time exceeds and will always exceed the speed of calculations of a computer network, but this cannot be ignored or underestimated. important factor, like the reliability that a computer network provides. The first version of the Internet (Arpanet) was developed by DARPA (Defense Advanced Research Projects Agency) under the US Department of Defense in order to counter large-scale nuclear strikes. Even if most of the computers that made up the network were destroyed (this was the goal), the modular structure of the network ensured its functioning and continued data transfer.

Does this remind you of anything? Plants have chosen the same strategy: millions of root tips work in a single network, so that damage or removal of even a significant part of the plant does not disrupt the functioning of the network as a whole. By itself, one root tip cannot compute efficiently, but all root tips together are capable of amazing feats - like an ant that alone cannot develop any strategy, but together with other ants creates one of the most complex and structured communities in nature.

How do roots communicate and cooperate with each other? We don’t know for sure yet, but recent research allows us to formulate several interesting hypotheses. The root system is primarily a physical structure within which the roots are connected to each other in an anatomical manner. However, this connection is apparently not the main one. In fact, the signals that connect plant roots with each other most likely do not pass inside the plant. How is this possible?

Let's return to the ant analogy and try to imagine the tops of the roots as a colony of insects: ants are not physically connected to each other at all, but they act in concert, communicating through chemical signals. Maybe the roots act in the same way? Plants are certainly masters of the art of synthesizing chemical molecules of all kinds and for all purposes. So, it is quite possible that their underground parts, like their above-ground parts, use chemical signals to communicate.

However, this is still only a hypothesis, and therefore other possibilities should be considered. For example, root tips can be extremely sensitive to changes in electromagnetic fields, including those produced by neighboring tips, and can act in accordance with the signals they receive. In addition, they are able to perceive sound waves emitted by other roots as they grow. Recent research has shown that growing roots produce sounds (“clicks”) that are heard by neighboring roots. And this can be a very useful communication system: as we have seen, plants seem to make these sounds unintentionally, but through the process of breaking down their cell walls as they grow. In this case, this sound is a manifestation of the so-called principle of parsimony - this signal achieves the goal, but does not cost the plant additional effort or energy costs.

Cover: Bombora Publishing House

Trees appeared on Earth before humans, but they are not usually perceived as living beings. In his book " Secret life trees: the amazing science of what trees feel and how they interact" German forester Peter Wohlleben tells how he noticed that trees communicate with each other, transmitting information using smell, taste and electrical impulses, and how he himself learned to recognize their silent language .

When Wohlleben first started working with forests in the Eifel mountains in Germany, he had very different ideas about trees. He was involved in preparing forests for lumber production and “knew as much about the hidden life of trees as a butcher knows about the emotional life of animals.” He saw what happens when something living, be it a creature or a work of art, is turned into a commodity - the "commercial focus" of the work distorted his view of trees.

But about 20 years ago everything changed. Wohlleben then began organizing special forest survival tours, during which tourists lived in log huts. They showed sincere admiration for the “magic” of trees. This sparked his own curiosity and his love for nature, dating back to his childhood, sparked with new strength. Around the same time, scientists began conducting research in his forest. Stopping looking at trees as currency, he saw them as priceless living creatures.

Book by Peter Wohlleben "The Hidden Life of Trees"

He tells:

“The life of a forester has become exciting again. Every day in the forest was a day of discovery. This led me to unusual methods of forest management. When you know that trees experience pain and have memories, and they have parents living with their children, you can no longer just cut them down, end their lives with your car.”

The revelation came to him in flashes, especially during regular walks through that part of the forest where the old beech grew. One day, walking past a pile of moss-covered stones that he had seen many times before, Wohlleben suddenly realized how unique they were. Leaning down, he made a stunning discovery:

"The stones were unusual shape, as if bent around something. I carefully lifted the moss on one stone and discovered the bark of a tree. That is, these were not stones at all - it was an old tree. I was surprised how hard the “stone” was - beech wood usually decomposes in a few years in damp soil. But what shocked me most was that I couldn't lift it. It felt like it was attached to the ground. I took out my pocket knife and began to carefully cut away the bark until I got to the greenish layer. Green? This color is found only in chlorophyll, which is what causes leaves to grow green; reserves of chlorophyll are also contained in the trunks of living trees. This could only mean one thing: this piece of wood was still alive! Suddenly I noticed that the remaining “stones” lay in a certain way: they formed a circle with a diameter of 5 feet. That is, I came across the twisted remains of a huge ancient stump. Interior has long since completely rotted away - a clear indication that the tree must have collapsed at least 400 or 500 years ago."

How could a tree that was cut down centuries ago still live? Without leaves, a tree cannot carry out photosynthesis, that is, it cannot transform sunlight V nutrients. This ancient tree received them in some other way - and for hundreds of years!

Scientists have revealed the secret. They found that neighboring trees help others through the root system, either directly, by intertwining the roots, or indirectly - they create a kind of mycelium around the roots, which serves as a kind of extended nervous system, connecting far standing trees. In addition, trees exhibit the ability to distinguish between the roots of trees of other species.

Wohlleben compared this smart system to what happens in human society:

“Why are trees such social creatures? Why do they share food with members of their own species, and sometimes even go further to feed rivals? The reason is the same as in human community: Being together is an advantage. A tree is not a forest. A tree cannot set its own local climate - it is at the disposal of wind and weather. But together, trees form an ecosystem that regulates heat and cold, stores a large supply of water and generates humidity. In such conditions, trees can live for a very long time. If every tree cared only about itself, some of them would never live to see old age. Then, during a storm, it would be easier for the wind to get inside the forest and damage many trees. The sun's rays would reach the earth's surface and dry it out. As a result, every tree would suffer.

Thus, every tree is important to the community, and it is better for everyone to prolong life as much as possible. Therefore, even the sick, until they recover, are supported and fed by others. Another time, perhaps, everything will change, and the tree that is now supporting others will need help. […]

A tree can only be as strong as the forest around it.”

Some might ask whether trees are better equipped to help each other than we are, because our lives are measured on different time scales. Can our inability to see the full picture of mutual support in human communities be explained by biological myopia? Maybe organisms whose lives are measured on other scales are better suited to exist in this grandiose universe, where everything is deeply interconnected?

Without a doubt, even trees support each other to varying degrees. Wohlleben explains:

Documentary film "Secrets of the Forest":

When entering the forest, did you feel as if someone was watching you? Especially when you haven't been there for a long time. These are the trees looking after you, whispering among themselves. They are the same living beings as you and me, only they live in another dimension. They do not want anything bad for us, this is the prerogative of man, they only want to help us.

Currently, almost all countries are beginning to realize and approach creatively the use of the living energy of tree trunks, their powerful aura, which is constantly replenished.

Trees, like all living things, are endowed with a soul and have an inexhaustible supply of vital energy, from which healing power emanates. We live with you and do not notice this miracle; for us they are only part of the landscape. Trees are the largest and most spiritual plants on earth. They are in continuous meditation and subtle energy is their natural language.

Trees are excellent at conducting unhealthy energy accumulated in our organs into the ground. They strengthen the shaky nervous system, improve mood, rejuvenate, promote longevity. However, in order to borrow energy from our healer friends, we need to know how to do it

FIND YOUR TREE

People and trees have always been connected by ties of family and friendship. The wounded, weakened warrior, in order to regain strength, walked to the oak tree. Woman to be happy in the family and give birth healthy child, walked to the linden tree. The girl, so that her life would be successful, went to the birch tree.

Today, biophysicists have confirmed: an oak tree is more willing to empathize with a man, a linden tree with a woman, and a birch tree with a girl. And spruce is considered a sacred tree. The ancient Germans not only strictly protected the sacred fir trees, they propitiated them in every possible way. sacred tree they decorated it, laid fires around it, prepared delicacies, and conjured good spirits by dancing and singing. Then the tree was burned. The ash from it was also considered sacred; it was stored until spring and scattered in the fields, knowing that it could protect household supplies from rodents.

According to the customs of many peoples, on the birthday of a child, a tree was planted, and it became, as it were, the second “I” of a person, his patron, it transferred part of its power to him. If a person was sick, his illness was transmitted to the tree, it withered and withered.

Each Siberian and Altai sorcerer found his own “witch’s” tree in the taiga. From then on, the life of the sorcerer was tightly connected with this tree: if the tree died, the sorcerer also died.

I think today everyone already knows that every tree, every plant has its own bioenergy, its own psychological code. The human body may or may not respond to the energy of certain types of trees: a person becomes friendly with one tree in the blink of an eye, another leaves him indifferent, next to a third he experiences causeless anxiety, irritability, or fatigue, apathy, loss of strength.
The fact is that each of us has our own tree, which is closest to us in its bioenergetic characteristics. Such a tree will help in case of illness, help cope with a lack of energy, support and nourish in difficult moments of life, and will not allow you to lose heart. But to do this you need to know your tree.

Why do we get sick and tired? In particular, because the balance of energy in our body is disturbed. We feel bad from a lack of energy, but an excess of it does not bring us health, well-being, or mood. This means we need to restore balance. To do this, it is enough to approach a tree, which will make up for our lack of energy or, on the contrary, take away its excess.

How to find out if a tree is right for you this moment or not? It’s very simple: choose the tree that you like the most, go up to it and hug it. If at the same time you do not feel any negative emotions, and feel the warmth emanating from the tree and its disposition towards you - this is your tree. Otherwise, it’s better not to communicate with this tree.

Trees react to people individually; they themselves feel and know what you need. If you decide, for example, to recharge yourself with energy from a tree at a time when you already have it in abundance, the tree will push you away, trying not to cause harm: you will feel heartbeat, tinnitus, and other signs of illness... This is how trees warn us: don't do this, stop!..

Having determined which tree suits you, go up to it, press your cheek to its trunk and try to sincerely love it, feel sympathy and tenderness for it. Let go of all thoughts. Try to feel for a moment that you are not a person, but a tree... Feel the vibrations of natural juices rising up the trunk, feel how the energy descends from the air down the leaves, along the trunk - to the roots... In this way, neuroses are perfectly cured, everything is activated cleansing processes in the body.

But if contact with a tree causes unpleasant, painful sensations, it is better for you to simply not communicate with each other. Do not build summerhouses near such a tree, do not hang hammocks, and generally try to stay away from it.
Does this mean that such a tree is bad? Of course not! It's just not yours. But it is someone else’s, it can help someone else, while it can harm you if handled carelessly.

ENERGY OF TREES

In spring, the biofields of trees are especially strong. All trees are divided into two large groups: giving bioenergy and sucking it out.
Those that give energy are oak, birch, pine, apple tree, cedar.

Those that take away and suck out energy are alder, aspen, poplar, bird cherry, and all climbing plants. They can also take away harmful energy if you are sick.
The energy of trees also has its own characteristics: in oak it is more rigid than in birch and pine; maple invigorates; willow, on the contrary, calms; aspen relieves pain; poplar relieves irritability.

Using dowsing methods, it has been established that birch and oak provide energy for approximately 80-90% of the population. Middle zone Russia. Next in this row is pine.

Birch relieves fatigue, increases vascular tone, and neutralizes the effects of stress.
Cedar belongs to the life-givers and perfectly helps all cleansing processes in the body. Cedar and other resins have strengthening, healing and cleansing properties. Refined resin or oil coniferous trees It is good to take 10-15 drops orally, this contributes to the process of cleansing the cardiovascular system and increasing its tone.

If your the cardiovascular system already weakened and suffering from various diseases, aspen, poplar and bird cherry will worsen your condition. But birch, oak, linden can heal you.

Trees heal us not only by redistributing energy, but also by their smells. Smells of oak and birch reduce arterial pressure, and communication with these trees is very beneficial for patients with hypertension. In the coniferous forest, it is better for hypertensive patients to stay in the winter; in the summer, headaches, on the contrary, may intensify, and there is a risk of cardiac dysfunction.

Choose your tree. Stand at a distance of 1.5 m from him, extend your vertically turned palm towards him, and slowly approach. Already at a distance of 1 m you will feel warmth and tingling in your palm. This means that contact has taken place.

HOW TO CONTACT A TREE SO THAT IT WILL HELP YOU

There is another method. Walk calmly to your tree, face east and lean against it. Put right hand on the solar plexus, and the left, back side, from behind on the kidneys, lean against the tree trunk with it. Try to immerse yourself in a state of contemplation and not think about anything for a while. Then mentally turn to the tree with a request to cleanse you (if the purpose of the contact is only cleansing) or heal you (if you are already sick). Wait a few more minutes and calmly move on.

Before leaving, do not forget to thank the tree for the help it provided to you - after all, you are friends with it.

Susan Simard's 30-year study has proven that trees talk, even at great distances.

“The forest is much more than what we see,” says the researcher.

In her lecture, she suggests learning more about the harmony of communication between trees in order to look at the world from a different perspective.

“The fact is that there is another world underground - endless biological pathways that connect trees and allow them to communicate and behave as if the forest is a single organism,” says Susan.

The researcher grew up near forests. She loved to come there, lie down on the ground and look up at the crowns of the giant trees.

Her grandfather was also a giant. He cut cedars from tropical forests and talked about underground paths - roots, thanks to which trees are able to communicate with each other.

The dog jig slipped and fell into the hole. Susan's grandfather ran to get a shovel to save the poor dog.

The pit was full of manure and the dog suffered while swimming in it. While her grandfather tried to dig out the victim, Susan looked at the huge tree roots.

“In the end, my grandfather and I saved the dog, but it was at that moment that I realized that the roots are truly the foundation of the forest. Then I wanted to know more. I went to study forestry.”

25 years ago, scientists just discovered in the laboratory that one pine tree through its root can transfer carbon to the root of another.

“But this was in the laboratory, and I asked myself, could this happen in real forests? I thought so. And I was not mistaken. Trees in forests can also exchange information underground.

A 30-year study by ecologist Susan Simard has proven that trees talk, even at great distances.

It was controversial back then and some people thought I was crazy. I had a very hard time getting funding scientific research" says Susan.

In the end, she was able to conduct several experiments. She studied how birch, spruce and cedar interact, anticipating that it was the latter that would not participate in the exchange.

On the first day in the forest, Susan was joined by a formidable bear. “This is the other side of research in Canada,” jokes Susan.

The researcher was not mistaken - the trees absorbed carbon dioxide through photosynthesis, converted it into nutrients and sent it down to the roots, passing it on to their neighbors.

Thanks to a Geiger counter, she discovered that trees emitted gas with a hissing sound.

“It was the sound that made the birch talk to the spruce,” Susan enthuses.

“Hey, can I help you with something,” asked the birch tree. The spruce answered: “Yes, could you give me some of your carbon?” And only the silent cedar remained on the sidelines.”

It turned out that in the summer the birch sent out more carbon than the spruce returned.

In subsequent experiments, the opposite happened - the spruce sent out more carbon than the birch returned. This happened because in winter time the birch had no leaves.

The researcher also proved that when older trees are damaged or die, they donate food until the next generation.

“We tracked the movement of carbon from the mother tree down the trunk to neighboring younger ones. These compounds increased the resistance of trees that had just sprouted to future stress. So that’s what the trees say,” notes Susan.

“And if you remember about the dog, he showed me a different world, I hope that I also changed your view of the forests.”